<![CDATA[Newsroom University of Manchester]]> /about/news/ en Sun, 22 Dec 2024 16:16:58 +0100 Wed, 18 Jan 2023 12:13:54 +0100 <![CDATA[Newsroom University of Manchester]]> https://content.presspage.com/clients/150_1369.jpg /about/news/ 144 Rob Ford appointed as Senior Fellow by UK in a Changing Europe /about/news/rob-ford-appointed-as-senior-fellow-by-uk-in-a-changing-europe/ /about/news/rob-ford-appointed-as-senior-fellow-by-uk-in-a-changing-europe/555343Professor Rob Ford from The University of Manchester has been appointed as a Senior Fellow by Brexit research network UK in a Changing Europe.

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Professor Rob Ford from The University of Manchester has been appointed as a Senior Fellow by Brexit research network UK in a Changing Europe.

UK in a Changing Europe (UKICE) is an independent research organisation which was launched in 2015 to promote rigorous, high-quality and independent research into the complex and ever-changing relationship between the UK and the European Union.

The initiative is funded by the Economic and Social Science Research Council - part of UK Research and Innovation – and has released a wide variety of high-quality and independent social science research on the broad theme of Brexit and its consequences since the 2016 referendum.

UKICE is now moving into a with renewed funding and an expanded team and agenda, and will focus on three broad themes - UK-EU relations, the UK after Brexit and the UK’s place in the world. 

To reflect this wider focus, they have appointed ten new Senior Fellows who hold considerable expertise across these themes. The new fellows will contribute to UKICE’s programme of work by producing high-quality original research, and communicating it to policymakers, politicians, the media, and beyond. 

New appointee Rob Ford is a Professor of Political Science at The University of Manchester, and is a leading expert on public opinion, electoral choice, immigration politics and the radical right. His work includes the award-winning books Brexitland, The British General Election of 2019 and Revolt on the Right, and he has been a consultant psephologist on the BBC’s election programmes since 2005 as well as writing for The Guardian and other media outlets.

His UKICE fellowship research programme Brexit Aftershocks will analyse the impact of demographic change and identity divides on political outcomes, in particular looking at public attitudes to immigration. 

It will involve three interlinked projects - an analysis of the divide between ‘identity conservative’ white school leavers and ‘identity liberal’ graduates and ethnic minorities, an examination of the causes and consequences of the ‘liberal turn’ in public attitudes to immigration, and an analysis of the role of demographic change in the next general election.

“I am delighted to have Rob - one of the country’s leading political scientists - on the team for what promises to be an exciting new phase in the life of UK in a Changing Europe,” said Anand Menon, Director of UKICE and Professor of European Politics and Foreign Affairs at King's College London.

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Tue, 17 Jan 2023 14:39:18 +0000 https://content.presspage.com/uploads/1369/500_robford1.jpg?10000 https://content.presspage.com/uploads/1369/robford1.jpg?10000
Blood cancer’s Achilles’ heel opens door for new treatments /about/news/blood-cancers-achilles-heel-opens-door-for-new-treatments/ /about/news/blood-cancers-achilles-heel-opens-door-for-new-treatments/332977New findings about a fatal form of blood cancer could aid the development of new drugs with significantly less harmful side effects than existing chemotherapy.

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New findings about a fatal form of blood cancer could aid the development of new drugs with significantly less harmful side effects than existing chemotherapy.

The discovery could lead to novel treatments that efficiently eliminate blood cancer cells in acute myeloid leukaemia (AML), without harming healthy blood cells.

Researchers have discovered how a protein in the body plays a key role in AML – an aggressive cancer of white blood cells with very poor survival rates.

The study showed that the protein, known as YTHDF2, is needed to trigger and sustain the disease, but is not needed for healthy cells to function. This identifies YTHDF2 as a promising drug target for leukaemia.

A team of researchers led by the University of Edinburgh and Queen Mary University of London carried out a series of experiments to understand the role of YTHDF2 in blood cancer.

The study, carried out in collaboration with The University of Manchester, Harvard Medical School and the Université de Tours, was published in Cell Stem Cell. It was supported by Cancer Research UK and Wellcome.

Tests in blood samples donated by leukaemia patients showed that the protein is abundant in cancer cells, while experiments in mice found that the protein is required to initiate and maintain the disease.

Further tests enabled scientists to determine the biological pathway by which interfering with the function of YTHDF2 selectively kills blood cancer cells.

Importantly, they also showed that the protein is not needed to support the function of healthy blood stem cells, which are responsible for the production of all normal blood cells. In fact, blood stem cells were even more active in the absence of YTHDF2.

Professor Dónal O’Carroll, of the University of Edinburgh’s School of Biological Sciences, who co-led the research, said: “The study shows the promise of a novel class of drugs as the basis for cancer and regenerative medicine treatments.”

Professor Kamil Kranc, of Barts Cancer Institute, Queen Mary University of London, who jointly led the study, said: “Our work sets the stage for therapeutic targeting of cancer stem cells in leukaemia while enhancing the regenerative capacity of normal blood stem cells. We hope this will establish a new paradigm in cancer treatment”.

 is one of The University of Manchester’s - examples of pioneering discoveries, interdisciplinary collaboration and cross-sector partnerships that are tackling some of the biggest questions facing the planet. #ResearchBeacons

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Thu, 25 Apr 2019 16:00:00 +0100 https://content.presspage.com/uploads/1369/500_leukaemiacells.jpg?10000 https://content.presspage.com/uploads/1369/leukaemiacells.jpg?10000
Greater 91ֱ's Mayor marks end of major youth research project /about/news/major-youth-research-project/ /about/news/major-youth-research-project/332501Andy Burnham, Mayor of Greater 91ֱ, has attended an event to mark the end of a major project which has researched the experiences of marginalised young people in ten countries across the EU.

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Andy Burnham, Mayor of Greater 91ֱ, has attended an event to mark the end of a major project which has researched the experiences of marginalised young people in ten countries across the EU.

Young people are often at the forefront of social, cultural and political change, driven by their energy and creativity, but also by their frustration at the challenges and barriers they face. The PROMISE project, led by Dr Jo Deakin of The University of Manchester, investigated young people’s responses to these challenges, focusing particularly on those who encounter conflicts with authority.

These young people are seen to be problematic to engage with, often triggering negative responses from authority, which marginalises them even more. The negative effect of this reduces opportunities for young people, and much of their creativity, innovation and energy is directed away from positive social change.

The researchers believe that youth ‘in conflict’ present significant opportunities for change - and should therefore be a main focus for policy makers and practitioners.

This project explored differences in youth attitudes and behaviour across Europe, as well as looking closely at youth engagement and innovation – it found that no two countries were the same, but that there were similarities in young people’s experiences.

The researchers found that young people in Spain responded to the 2008 financial crash – and resulting property market collapse – by doing maintenance work instead of paying rent, living communally, and even building their own homes. Meanwhile, LGBT youth in Russia facing state-led discrimination were motivated to develop activists’ associations and youth-led social initiatives, and in Italy, disadvantaged young street artists worked towards transforming their marginalisation into something positive.

“Greater 91ֱ is a city-region based on an energy of collectivism. We are in a place that has proven it is possible to make change when people group together to fight for it. Greater 91ֱ’s history links it to what the Horizon 2020 PROMISE project has been researching, and what you are talking about today at this great university. This project is so important, and I wanted to be here to give my support.”

Dr Deakin and her team now intend to develop guides for teachers and youth workers, as well as feed into government policy in each partner country. “My message to policymakers is that they should focus on four key issues: recognising the diverse life paths of young people, enhancing the recognition and support of youth-led initiatives, promoting effective support structures for young people and creating safe spaces for young people in towns and cities,” she added.

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Wed, 17 Apr 2019 09:43:56 +0100 https://content.presspage.com/uploads/1369/500_burnhamh2020-150871.jpg?10000 https://content.presspage.com/uploads/1369/burnhamh2020-150871.jpg?10000
Scientists chart history of Greenland Ice Sheet for first time /about/news/scientists-chart-history-of-greenland-ice-sheet-for-first-time/ /about/news/scientists-chart-history-of-greenland-ice-sheet-for-first-time/331873New research charts the history of the  and its impact on global sea levels throughout history to present day.

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New research charts the history of the  and its impact on global sea levels throughout history to present day.

Scientists from The University of Manchester, , and the  have used extensive reflection seismic surveys to image the structure of the Earth beneath the seafloor off the coast of northwest Greenland.

Writing in the journal  the study provides the first insight into millions of years of geological history of the northwestern Greenland Ice Sheet. This is the first study of its kind and provides an unprecedented insight into the dynamics of the Greenland Ice Sheet over the last 2.7 million years. By understanding the structure beneath the seafloor scientists are able to reconstruct what the Greenland Ice Sheet was doing and how it impacted the ocean environments around it.

This work shows that on at least 11 occasions during this time the Greenland Ice Sheet became so large that it extended over 120 km beyond its present-day margin during peak glaciation. During intervening warmer periods the ice sheet melted back to near the present-day coastline, resulting in significant global and regional sea-level rise. These findings are important to help how the Ice Sheet might evolve in the future in response to ongoing and future climate warming.

Dr Andrew Newton, jointly affiliated with both The University of Manchester and Queen’s University Belfast said: “This is an important result because it shows that over the last 2.7 million years the Greenland and Antarctic ice sheets has been highly dynamic, even when temperatures outside the ice ages were not as warm as today. This means that we can expect the ice sheet to directly respond to rising temperatures across the Arctic, which it is already doing.”

Professor Mads Huuse, The University of Manchester said: “By understanding how it changed in the past we may be able to get a better idea of how the Greenland and Antarctic ice sheets might change in the future. The information generated from this work can also be used to test the accuracy of numerical models that are used to project how climate might evolve in the future as it warms.

“The better these models are at recreating our observations of the past, the more confidence we can have in what they project for the future. Better climate models are essential for future planning and mitigation of the consequences of climate change, in particular the contribution to sea level rise of melting ice sheets.”

The Greenland Ice Sheet was also a topic in the recent David Attenborough-narrated docu-series Our Planet, by Netflix. The team captured jaw dropping footage, showing the scale and impact of millions of tonnes of ice collapsing into the sea.

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Mon, 15 Apr 2019 16:00:00 +0100 https://content.presspage.com/uploads/1369/500_stock-photo-iceberg-aerial-photo-giant-icebergs-in-disko-bay-on-greenland-floating-in-ilulissat-icefjord-from-1289165434.jpg?10000 https://content.presspage.com/uploads/1369/stock-photo-iceberg-aerial-photo-giant-icebergs-in-disko-bay-on-greenland-floating-in-ilulissat-icefjord-from-1289165434.jpg?10000
Experts find the origins of Europe’s climate hidden in shrimp shells /about/news/climate-hidden-in-shrimp-shells/ /about/news/climate-hidden-in-shrimp-shells/331987An international team of geographers has found indications that the climate we have in Europe today began 5000 years ago, hidden in the shells of mussel shrimps.

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An international team of geographers has found indications that the climate we have in Europe today began 5000 years ago, hidden in the shells of mussel shrimps.

Although the earth has been in a warm period – known as the Holocene – for almost 12000 years, the beginning of the current climate conditions in Europe seems to have come much later than that.

The experts, including Dr William Fletcher from The University of Manchester, identified a striking change in hydroclimatic conditions about five millennia ago, which corresponds with the establishment of climate mechanisms comparable to today’s North Atlantic Oscillation.

The North Atlantic Oscillation is the name given to the differences in atmospheric pressure between the Icelandic Low to the north and the Azores High to the south. These are accompanied by changes in rainfall, especially in the western Mediterranean and northern Europe.

Dr Fletcher and other geographers and geoscientists from the Universities of Leipzig, Marrakesh and Iceland examined the shells of tiny freshwater crustaceans called mussel shrimps from Lake Sidi Ali in Morocco. Based on oxygen isotope levels measured in the shells, the team were able to reconstruct Holocene rain anomalies for the western Mediterranean. They established a link between these anomalies and ancient weather change events in the North Atlantic.

“These phases are similar to current activity observed today in the North Atlantic Oscillation, which has a major influence on weather and climate events throughout Europe. The striking change 5000 years ago can thus be seen as the birth of our current climate in Europe,” adds Professor Christoph Zielhofer of the University of Leipzig, who directed the project.

“We assume that the abrupt shift in hydroclimate 5000 years before present was a threshold mechanism response of the European climate to a gradual change in long-term insolation,” remarks Steffen Mischke of the University of Iceland in Reykjavik, who was also involved in the research.

The results of this research have been published in the journal Climate of the Past.

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Fri, 12 Apr 2019 09:10:06 +0100 https://content.presspage.com/uploads/1369/500_climatestory-256565.jpg?10000 https://content.presspage.com/uploads/1369/climatestory-256565.jpg?10000
91ֱ academic wins Guardian award for migration project /about/news/guardian-award-migration-project/ /about/news/guardian-award-migration-project/331862An academic from The University of Manchester has won a 2019 Guardian University Award - which recognise the inspiring and groundbreaking projects that UK universities have worked on in the past year - for her website exploring the untold stories of the migrants who have shaped Britain.

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An academic from The University of Manchester has won a 2019 Guardian University Award - which recognise the inspiring and groundbreaking projects that UK universities have worked on in the past year - for her website exploring the untold stories of the migrants who have shaped Britain.

Launched in 2016 and funded by the Arts and Humanities Research Council, the Our Migration Story website is the culmination of over a decade of partnership between Claire Alexander, Professor of Sociology at The University of Manchester, in partnership with Professor Joya Chatterji from The University of Cambridge and race equality thinktank the Runnymede Trust.

They have worked with schools, teachers and young people to explore ways of creating a diverse history curriculum to inspire a new generation of young historians from all ethnic backgrounds, and to support teachers in delivering this work in the classroom.

The site was set up to meet demand from pupils for more diverse histories, and to support new GCSEs on migration to Britain developed by the OCR and AQA exam boards. Teachers and organisations including Teach First and the Institute of Education have helped to refine the site and raise its profile, responding to demands from young people seeking to ‘decolonise’ the curriculum.

Drawing on work from more than 80 academics, museums and archives, the website is divided into four time periods, from AD43 and the Roman invasion of Britain, to Polish migration after 2004. In each section, images, quotations, videos, reports, poems and extracts from novels and newspapers, as well as academic commentary, tell the stories of individuals and groups who have come to Britain as migrants and explain their influence on the country.

Most case studies include questions and classroom activities for teachers to use, as well as booklists and links to other websites and organisations. A separate part of the site is dedicated to teaching resources, with advice on how to teach migration, suggested lesson plans and further links.

Since its launch in September 2016, it has had more than 112,000 users from across the world, including the United States, India, Australia, Canada, Germany, France, Italy and the Philippines. In January 2018 it was awarded the Royal Historical Society’s online resources public history prize.

The site builds on The University of Manchester’s strong commitment to social responsibility, and in particular their Research Beacon goal of addressing global inequalities. The School of Social Science, which has supported this work, is home to the leading research centre on racial and ethnic inequality, the , where Claire is co-director.

“We hope this award will encourage schools, teachers and young people to build this into their curriculum, as well as changing the public understanding of British identity as inseparable from two thousand years of migration and settlement," Claire added.

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Thu, 11 Apr 2019 12:14:03 +0100 https://content.presspage.com/uploads/1369/500_6720-798676.jpg?10000 https://content.presspage.com/uploads/1369/6720-798676.jpg?10000
91ֱ’s societal impact is best in Europe according to new ranking /about/news/manchesters-social-impact-is-best-in-europe-according-to-new-ranking/ /about/news/manchesters-social-impact-is-best-in-europe-according-to-new-ranking/330446The University of Manchester ranks as the best higher education institution (HEI) in Europe – and in the top three globally – for its social and environmental impact across its full range of functions.

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The University of Manchester ranks as the best higher education institution (HEI) in Europe – and in the top three globally – for its social and environmental impact across its full range of functions.

The prestigious new ranking comes in the inaugural Times Higher Education (THE) . 91ֱ was competing against more than 500 universities from around the world.

The ranking is based on the “societal impact” of the University’s research using the as a framework.

The seventeen SDGs came into effect in 2016 and have the support of 193 Member States of the United Nations. They are a universal call to action to end poverty, protect the planet and ensure that all people enjoy peace and prosperity. They include challenges such as; climate change, economic inequality, innovation, sustainable consumption, peace and justice, among other priorities.

Dr Julian Skyrme, Director of Social Responsibility at The University of Manchester, said: “The SDGs are our world’s call to action on the most important challenges facing our people and planet. Being recognised as Europe’s highest ranking University in this new index – and third in the world overall – is a brilliant reflection of the work of our researchers, teachers, students, professional services and cultural institution staff, enhancing our global reputation as a leader on social responsibility and impact.”

Social responsibility is one of the University’s three core strategic goals and solving Global Inequalities is one of the University’s priority Research Beacons.

Dr Skyrme added: “Staff, students, alumni and external partners should take enormous pride in this success since it covers a wide variety of our societal and environmental impacts – our research impact, cultural institutions, civic and global outreach, professional services policies and processes, inclusion programmes, and contributions to economic wellbeing.”

 

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Wed, 03 Apr 2019 15:00:00 +0100 https://content.presspage.com/uploads/1369/500_universityimpactrankingstop10-729524.jpg?10000 https://content.presspage.com/uploads/1369/universityimpactrankingstop10-729524.jpg?10000
Project aims to ensure that digital platforms like Uber treat workers fairly /about/news/uber-treat-workers-fairly/ /about/news/uber-treat-workers-fairly/329816A team including researchers from The University of Manchester has created the world’s first ever rating system for working conditions in the digital economy.

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A team including researchers from The University of Manchester has created the world’s first ever rating system for working conditions in the digital economy.

There are now more than sixty million platform workers around the world, doing work that is controlled via apps. Lacking the ability to collectively bargain, these workers have little ability to negotiate wages and working conditions with their employers.

The Fairwork Foundation project - a partnership between the Universities of Manchester, Oxford, Cape Town and the Western Cape - looks at how platforms like Uber and Taxify perform against five standards - fair pay, fair conditions, fair contracts, fair management, and fair representation. These include whether a company pays the minimum wage and ensures the health and safety of its workers.It collaborates with workers, trade unions, platforms and policy makers to develop core principles of fair work, and then undertakes research to evaluate whether platforms meet those standards.

The project seeks to work closely with platforms that have an interest in certification - and through dialogue and shared expertise, it aims to significantly contribute to the welfare and job quality of platform workers and bring a fairer world of platform work into being.

“Digital platforms offer new employment opportunities for workers in developing countries, but those opportunities too often fall short of decent work standards,” said Professor Richard Heeks, Professor of Development Informatics at The University of Manchester. “The Fairwork rating system highlights those shortfalls, as well as good practices.”

The project has already led to positive impacts in South Africa, where the rating system has been piloted. After collaborating with Fairwork, the South African platform Bottles committed to support the emergence of fair worker representation on its platform, free from company interference.

In discussion with Fairwork, the NoSweat platform has introduced significant changes in all five areas of fairness. It now has a formal policy to pay over the South African minimum wage after workers’ costs are taken into account, it has a clear process to ensure clients on the platform agree to protect workers’ health and safety and for workers to lodge grievances about conditions.

Fairwork’s research is funded by the UK Economic and Social Research Council’s Global Challenges Research Fund as part of its New Models of Sustainable Development programme, with additional support from the Federal Ministry for Economic Cooperation and Development (BMZ), commissioned by the Deutsche Gesellschaft fuer Internationale Zusammenarbeit (GIZ).

For more information, visit .

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Thu, 28 Mar 2019 10:20:11 +0000 https://content.presspage.com/uploads/1369/500_34719224782-a637a2f755-b-479270.jpg?10000 https://content.presspage.com/uploads/1369/34719224782-a637a2f755-b-479270.jpg?10000
Brexit Q+A: what are indicative votes and how do they work? /about/news/what-are-indicative-votes-and-how-do-they-work/ /about/news/what-are-indicative-votes-and-how-do-they-work/328332The House of Commons has voted to hold a series of indicative votes on Brexit. But what does that mean and will it solve the problem?

What are indicative votes?

Indicative votes are votes in which MPs are able to give their opinion on an issue by testing a number of different options or alternatives. In the context of the continued problem of Brexit, it means a process by which MPs can vote on multiple Brexit options rather than just on the prime minister’s deal, as a way of resolving the current impasse.

This has been referred to as parliament “taking control” of Brexit. The hope is that MPs will be able to reach a consensus and a majority in favour of something, rather simply against the prime minister’s deal.

They’ve been suggested before on issues where there is intra-party division and no clear majority voice, in 2003. Here, options were put before MPs on a yes/no basis and, when every single option was defeated, the whole reform process stalled.

Why do we need indicative votes?

Backbench MPs from all parties have been calling for the Commons to set aside some time specifically to consider indicative votes for many weeks now. But time in the House of Commons is in the gift of the government, so it relied either on the government conceding some time for MPs to have votes and putting the various options down on the order paper, or for MPs voting to set aside an afternoon to try to make it happen. They’ve tried and failed to do this on previous occasions but have now succeeded in passing an amendment led by the Conservative Party’s Oliver Letwin and Labour’s Hilary Benn asking for time to be set aside on Wednesday March 27 for MPs to propose and vote on a series of motions setting out alternative Brexit options. The Speaker will have a big role to play in deciding what goes before the House.

What will the voting process look like?

There has already been much discussion about what the process should actually be for these indicative votes and whether voting in the usual way would solve anything. Usually MPs vote yes or no – walking through the aye or the no lobbies on either side of the chamber.

On indicative votes this would bring the potential for a clear majority in favour of one Brexit option, but it could also continue to show a divided chamber, with no clear majority in favour of anything.

Another option mooted by MPs is a form of preferential voting, whereby they would rank the options in order according to their own personal preferences. This happens already when MPs vote for select committee chairs – and would bring a much greater possibility of a majority verdict. Hilary Benn that MPs would be presented with a list of options on a ballot paper on the Wednesday and would be asked to vote for all those they supported. They would then discuss the most popular options further the following Monday. This may include some form of preferential voting, but we still need to wait for the final details to be ironed out between MPs and the Speaker.

What are the Brexit options on the table?

If we look at what’s happened so far during debates on the prime minister’s deal, we could expect the options to include leaving the EU with a “softer” Brexit (a “Norway plus” arrangement, Canada style trade deal or customs union), a second referendum or perhaps revoking Article 50, particularly given the on this issue which has attracted more than five million signatures. We will have to wait, though, to see what options have been put forward by MPs and which of these have been selected by the Speaker.

What kind of support is there for the various potential options?

The way in which parliament has debated Brexit so far makes it difficult to judge precisely how much support there is for the different options. From the votes that have been held so far, all we know is that MPs definitely do not want the prime minister’s current deal, and that they do not want to leave with “No Deal” either. But what we do know is that all of the possible options have at least some level of cross party support.

What will the government do with the result of the votes?

The decision to move to indicative votes will be interpreted by some as a sign of parliament taking control of Brexit. The success, or not, of the indicative votes process, though, will depend firstly on whether it produces an overall majority in favour of something. Defeat for all options would leave us back where we started, while a majority for more than one outcome could confuse things even further. There is no precedent for what might happen if two options gained a majority because that has never happened before.

But it will also depend on how the government treats the results of the votes. As “indicative” votes only, the result is not binding on the government and so, while it would certainly add political pressure, the government could still ignore it. The prime minister herself has said that she will not give a to the Commons on this.

Even if the government were to accept the result, it could still mean that further negotiations with the EU were needed. A softer Brexit, for instance, would require EU leaders to agree to the terms and their support is by no means guaranteed. So it’s a sign that parliament is trying to be in the driving seat, but it’s still not a guarantee of anything.The Conversation

, Senior Lecturer in Politics,

This article is republished from under a Creative Commons license. Read the .

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Tue, 26 Mar 2019 15:47:28 +0000 https://content.presspage.com/uploads/1369/500_file-20190326-36279-ck93vh-832483.jpg?10000 https://content.presspage.com/uploads/1369/file-20190326-36279-ck93vh-832483.jpg?10000
Unearthing the secrets of the American ‘Jurassic Mile’ /about/news/unearthing-the-secrets-of-the-american-jurassic-mile/ /about/news/unearthing-the-secrets-of-the-american-jurassic-mile/328120Scientists at The University of Manchester have joined forces with a major US Museum and European partners to explore an extraordinary Jurassic dinosaur site in the badlands of Wyoming, USA.

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Scientists at The University of Manchester have joined forces with a major US Museum and European partners to explore an extraordinary Jurassic dinosaur site in the badlands of Wyoming, USA.

Scientists from The University of Manchester will be the academic leaders on the newly announced $27.5 million (£20m) project to explore, research and eventually exhibit fossils from a recently discovered palaeontological site known as the ‘Jurassic Mile’.

will serve as the Mission Jurassic leader, with The University of Manchester’s Prof. Phil Manning and Dr. Victoria Egerton as the lead scientists in the project. The team are partnering with in London and the in Leiden, Netherlands. As a result, more than 100 scientists from three countries will join forces to work in the Morrison Formation of Wyoming to reveal new secrets from this enigmatic period of time.

Prof Manning, Dr. Egerton and the team are calling the fossil-rich, mile-square plot of land, “The Jurassic Mile.” There are four main quarries within the multi-level, 640-acre site that offer a diverse assemblage of Morrison Formation articulated and semi-articulated dinosaurs that has also yielded associated animals, fossil plants in addition to rarely associated dinosaur trackways of the Late Jurassic Period 150 million years ago.

“It is splendid that such an important site has been discovered at just the right time, as the science of paleontology is adapting existing and new imaging techniques to unpick the fossil remains of extinct life.” said Prof Manning, “The imaging work that we undertake at 91ֱ is already world-leading and this is a great opportunity to develop this research with other world-class institutions.”

Nearly 600 specimens, weighing more than six tons, have already been collected from this site over the past two years despite the fact that only a fraction of the site has been explored. Included in that are the bones of an 80-foot-long Brachiosaur and 90-foot-long , which have been discovered at the Jurassic Mile. A 6’6” sauropod (Brachiosaur) scapula (shoulder bone) and several jackets containing articulated bones are among the material collected during the 2018 field season. A 5’1” (1.5 metre) femur was revealed at the announcement in Indianapolis on March 25, 2019.

Dr. Jeffrey H. Patchen, President and CEO of The Children’s Museum of Indianapolis stated, “We are bringing together an extraordinary international team for the first time that will critically analyze portions of the Morrison Formation in new ways.” Patchen went on to say, “This project reflects a natural synergy between three world-renowned museums, their research scientists and highly-respected research universities, each providing unique elements to complete one of the most interesting chapters in the evolution of Earth.”

Dr. Egerton from the Department of Earth and Environmental Science explained that, “The preservation quality and sheer amount of plants at the Jurassic Mile is extraordinary. During this period, there were no flowering plants and this site provides significant insight to what these giant animals ate and how they may have grown to be so large.”

’ is the world’s largest children’s museum. Its current exhibit has captivated more than 15 million visitors since it opened in 2004 and inspired new generations of explorers and scientists. There, visitors are introduced to some of the finest examples of past life including a rare mummified dinosaur named Leonardo. The first T. rex ever discovered with a wish bone (furcula) and a with a brain tumor (currently being studied by Prof. Manning and Dr. Egerton) are among other amazing fossils found there. A working Paleo Prep Lab at the museum allows visitors to touch real fossils while paleontologists work on real bones and learn the stories behind them.

 palaeontologist Sir Richard Owen first coined the term ‘dinosaur’ meaning ‘terrible lizard. The Natural History Museum Acting Director of Science Richard Herrington says: “The reports from the first excavations reveal it is an exceptional area for further scientific exploration - from the fossils already exposed, the quality of the discoveries so far and the existence of rarely-associated dinosaur trackways.”

Prof. Anne Schulp from The Naturalis Biodiversity Center stated, "Typical dinosaurs of the Jurassic include well known creatures such as Brachiosaurus and Diplodocus. It would be marvelous if we could bring one of those impressive beasts to Naturalis,”

The Jurassic Mile project is already utilising cutting-edge science from the international team. The University of Manchester scientist will use the Stanford Synchrotron particle accelerator along with some of the most powerful computers on the planet, to help resurrect the Jurassic and unearth the lost world and forgotten lives of the Jurassic.

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Mon, 25 Mar 2019 14:29:32 +0000 https://content.presspage.com/uploads/1369/500_drvictoriaegerton-jurassicmile-655833.png?10000 https://content.presspage.com/uploads/1369/drvictoriaegerton-jurassicmile-655833.png?10000
Brexit: what happens next? /about/news/brexit-what-happens-next/ /about/news/brexit-what-happens-next/327128It’s been a in the Palace of Westminster and while Britons may all be bored silly by the sight of MPs arguing about what they think the people actually want, the drama shows no sign of stopping.

What’s happened so far

Since MPs first rejected the prime minister’s negotiated Brexit deal back in January in a , we’ve seen MPs desperately try to take control of the parliamentary timetable. They have amended various business motions to try to carve out some parliamentary time (the government normally controls the agenda) to change the process by which parliament was considering Brexit. They wanted a series of different Brexit options (soft Brexit, hard Brexit etc.) to be put before MPs in what’s known as “indicative votes”. This would give them an opportunity to indicate which options they support in the hope of identifying a way out of the impasse.

Back in January they were successful only in forcing the prime minister to come back to the House with a Brexit update sooner than planned. When the final deal was put before MPs for a second time on March 14, MPs once again rejected it, albeit by a smaller margin of around 150 votes. The government then let MPs vote on whether or not they wanted to leave the EU without a deal (they didn’t), followed by a further vote asking them if they wanted to extend Article 50, which facilitates the departure process, until the summer (. This still needs to be agreed with the EU though.

We also saw MPs rule out having a second referendum, though this was largely because the campaign actually asked MPs not to agree to one right now, thinking that it may be better to do so later on.

It’s all a bit confusing, made worse by the fact that divisions on Brexit fall both between and within the main political parties. We know that a majority of MPs don’t want the current Brexit deal negotiated by the prime minister, but that they also don’t want to leave without a deal. So there is a majority in the House who are willing to consider a further negotiated deal. The argument now is really about what that new deal would look like, and with the extension of Article 50, they have a little more breathing space to process it.

What comes next?

Opposition and backbench MPs are still on the backfoot in this process and need the government to decide on the forthcoming parliamentary business, or next steps.

It looks like MPs will be asked to vote on the prime minister’s deal for the third time before March 20. EU leaders will be meeting in Brussels on March 21, which would be the moment to ask for an extension.

There is some controversy about the third “meaningful vote”, given that, ordinarily, parliament would not be able to vote on the same thing more than once. But these are no ordinary times and it will be up to the speaker of the house to decide whether or not to allow such a vote to go ahead. As we’ve seen several times already, he doesn’t shy away from taking controversial decisions on Brexit.

The government is hoping that more MPs will come on board to support the deal in a third vote. If they did, the prime minister would go to the EU to request a short “technical” extension of the Brexit deadline. MPs have already agreed to that to enable all the necessary legislation to be passed. A Withdrawal Agreement and Implementation Bill would then need to pass through the Commons before the extended summer deadline.

If the third vote is lost things become more complicated. It may be that the government will allow MPs to have a further debate on the sort of Brexit they’d like to see, or that MPs will continue to amend a government motion to propose alternative Brexit options. But we won’t really know for sure until we get a formal statement from the government about forthcoming business. One other thing that will almost certainly happen is that the UK will have to take part in the forthcoming European Parliament elections which are due to be held in May – not something which any political party has really planned on happening.The Conversation

, Senior Lecturer in Politics,
This article is republished from under a Creative Commons license. Read the .

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Fri, 15 Mar 2019 15:27:30 +0000 https://content.presspage.com/uploads/1369/500_brexit1-127580.jpg?10000 https://content.presspage.com/uploads/1369/brexit1-127580.jpg?10000
ID 91ֱ sets out bold ambition to be the innovation capital of Europe /about/news/id-manchester-sets-out-bold-ambition-to-be-the-innovation-capital-of-europe/ /about/news/id-manchester-sets-out-bold-ambition-to-be-the-innovation-capital-of-europe/326965The University has presented its plans for a new, world-class innovation district in the heart of Manchester at MIPIM.

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The University of Manchester has presented a unique opportunity to become its partner in delivering a new, world-class innovation district in the heart of Manchester, the £1.5 billion ID 91ֱ.

The presentation, which took place at the 91ֱ Pavilion at , was attended by over 150 property professionals from all over the world, revealed The University of Manchester expects its joint partner to match its bold ambition to create a new neighbourhood which will nurture the next generation of game-changing businesses and bring huge economic benefits to 91ֱ.

Professor Dame Nancy Rothwell President and Vice-Chancellor of The University of Manchester, said: “I have seen how transformative other innovation districts in cities across the globe can be. I truly believe we can make ID 91ֱ the innovation capital of Europe, providing the perfect conditions for organisations of all sizes and from different sectors, to share knowledge and work together turning incredible ideas into reality.”

The University has strong track record in developing long-lasting, commercial relationships with leading global organisations such as Rolls Royce, the BBC, Siemens UK, Colgate Palmolive, Unilever and GlaxoSmithKline (GSK).

Since 2004 the University has contributed £746million to the economy through nurturing and developing businesses spinning-out of its research and development facilities, and it is on these foundations it seeks to build ID 91ֱ.

Diana Hampson, Director of Estates, The University of Manchester said: “The ID 91ֱ partnership has the makings of a formidable team. We will be looking for a world leading partner who has the experience and track-record to help us deliver this outstanding development.

Also speaking at the presentation this morning, Colin Thomasson Executive Director, CBRE, the property advisor to The University of Manchester said: “To create a successful innovation district you need a highly connected dynamic urban location. The city of Manchester has all the attributes required with its strong knowledge based economy, a young talented workforce and world leading university.”

“ID 91ֱ is the last major development opportunity in a city centre which is seeing exceptional growth, and perfectly positioned to reap the benefit from the city’s next wave of economic growth.

Joanne Roney, Chief Executive, 91ֱ City Council said: “The University and the city have long been closely aligned. We have grown up together and share a spirit of innovation, revolution and entrepreneurship. ID 91ֱ will build upon this proud shared history.”

It is expected an OJEU notice will be released in summer to signal the start of the competitive process to identify a partner, with a view to having an appointment made by mid-2020.

More about ID 91ֱ

The University of Manchester’s vision is that the 26 acre (10.5 hectare) ID 91ֱ will be a dynamic, world-class community with innovation, collaboration and enterprise at its heart, with the potential to create over 6000 new jobs.

ID 91ֱ benefits from an adopted Strategic Regeneration Framework (SRF). Current development parameters, which align with the University’s current vision, could comprise a circa 3.5 million sq ft of mixed use space including three acres of high quality public realm.

Any revision to the existing SRF should be brought forward in close collaboration with 91ֱ City Council.

The site benefits from existing green space and the unique feature of the 650,000 sq ft Grade II Listed Sackville Street Building, which offers a fantastic opportunity for re-purposing.

The University occupies the recently opened £60 million Masdar Building, home to the Graphene Engineering Innovation Centre, and the 91ֱ Institute of Biotechnology at the south end of the site and is looking for a partner to develop the remaining c.16.4 acres (6.64 hectares) of the site.

ID 91ֱ is adjacent to 91ֱ’s main public transport hub Piccadilly Railway Station and future HS2 station, and is a 20 minute train journey to the international airport.

ID 91ֱ is another piece in the jigsaw of the major regeneration taking place in that area of the city including Mayfield, London Road Fire Station, Kampus, Circle Square and the £1 billion investment already being made into its main Oxford Road campus by The University of Manchester.

ID 91ֱ is set in a truly international city region that has a GVA of £60 billion with up to 40% lower operational costs than London.

Today 91ֱ is the UK’s fastest growing city and is seeing major growth in demand for workspace, residential and hotels. 91ֱ City Council’s State of the City Report shows that over 527,000 people call the city centre their home and it is on target to hit over 600,000 residents within the next decade.

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Fri, 15 Mar 2019 08:30:00 +0000 https://content.presspage.com/uploads/1369/500_id-mcr-finalhires-242065.jpg?10000 https://content.presspage.com/uploads/1369/id-mcr-finalhires-242065.jpg?10000
University highlighted in European innovation report /about/news/university-highlighted-european-innovation-report/ /about/news/university-highlighted-european-innovation-report/326006The University of Manchester has featured extensively in a new report which looks at some of the innovative ways universities in Europe are working closely with companies, governmental agencies and other public organisations.

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The University of Manchester has featured extensively in a new report which looks at some of the innovative ways universities in Europe are working closely with companies, governmental agencies and other public organisations.

Produced by the European University Association, The Role of Universities in Regional Innovation Ecosystems, examines nine regions in Europe, including 91ֱ. The report aims to find out how universities work with partners in their regions to address social, environmental, and economic challenges.

The University and the city of Manchester feature throughout the report, in particular in sections relating to research, social responsibility and skills:

  • “Representatives of large global companies (in Barcelona, Braga, Eindhoven, Espoo/Helsinki, 91ֱ, and Munich) interviewed for the study pointed to the need for excellence in research quality as a key condition for their companies’ strategic investment in a location.”
  • “In the health sector, The University of Manchester has driven the formation of a major strategic cluster initiative, namely . It brings together the health and data science research strengths of the University with the opportunities of the devolved health and social care budget, offering new research opportunities and mobilising major external funding. The cluster also hosts , as the commercialisation end of the health science sector.”
  • “A beacon of the University, advanced materials, is also positioned by the University as a research hub with a strong business innovation role. Institutional and academic leadership made use of the outstanding global visibility of materials research, particularly graphene by developing successful bids for major investments into research and innovation programmes and infrastructures.”
  • “The promotion of leadership skills and social responsibility among its students was an important institutional concern at the Universities of Manchester, Warsaw and Sorbonne. The most systematic realisation of this concern could be found at The University of Manchester.” The report particularly highlights 91ֱ’s emphasis on social responsibility and the programme.

The full report can be downloaded from .

To find out more about innovation at The University of Manchester, visit our Business Engagement website.

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Mon, 11 Mar 2019 10:56:55 +0000 https://content.presspage.com/uploads/1369/500_iron_bird_13.jpg?10000 https://content.presspage.com/uploads/1369/iron_bird_13.jpg?10000
Rapid global expansion of spider species could threaten native wildlife, warn scientists /about/news/rapid-global-expansion-of-spider-species-could-threaten-native-wildlife-warn-scientists/ /about/news/rapid-global-expansion-of-spider-species-could-threaten-native-wildlife-warn-scientists/323896A large spider which resembles a black widow is spreading rapidly across the world – including the UK – threatening native wildlife species, warn German and British scientists.

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A large spider which resembles a black widow is spreading rapidly across the world – including the UK – threatening native wildlife species, warn German and British scientists.

The Noble False Widow, Steatoda nobilis, native to Madeira and the Canary Islands, has been present in the South of England for more than a hundred years.

But after a long period of stasis, it has recently started to appear in the North of England, as well as in new locations in countries around the globe.

The spread to Britain and Ireland has caused panic when false widows have been found in large numbers in schools and other public spaces.

“Although its bite can be very painful, comparable to a severe bee or wasp sting, there are no confirmed cases of serious medical consequences from a Noble False Widow bite,” said biologist Professor Rainer Breitling from The University of Manchester.

“However, the intense public interest created by sometimes rather exaggerated press coverage is now helping our research.

“Members of the public have been contributing their observations to a large dataset of False Widow records for the British Arachnological Society’s Spider Recording Scheme.”

Researchers from The University of Manchester, German State Museum of Natural History Karlsruhe and Trier University scientists published their findings in in the journal NeoBiota.

In the paper, they describe how they used use computer modelling to predict favourable habitats for future false widow invasions, based on present occurrence patterns.

The model successfully predicted that the species would be found in Normandy, France, which was confirmed after a field trip to the area.

Mediterranean islands, southern Australia, large parts of New Zealand and South Africa also seem to be likely targets for future expansion.

“These are areas that are home to a wide range of vulnerable native species, so the potential introduction of Steatoda nobilis, which can overcome prey much larger than its own size, is quite worrying”, explained Professor Breitling.

Professor Breitling added: “We think that it’s likely that these animals get about by hitching a lift on of ornamental plant trade or tourism, rather than banana imports as has been previously thought.

“So more careful monitoring of plant imports could be useful to control the spread of this species and other invasive spiders.

“The University of Manchester has long been a hotspot of spider research in the UK; it houses one of the most diverse spider collections at the 91ֱ Museum.

“Our researchers at the university are working on topics ranging from fossil spiders in amber to the mating dances of jumping spiders to the use of bacteria-produced spider silk for biotechnology.”

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Mon, 25 Feb 2019 15:00:00 +0000 https://content.presspage.com/uploads/1369/500_29548063118-23caeca369-o-439712.jpg?10000 https://content.presspage.com/uploads/1369/29548063118-23caeca369-o-439712.jpg?10000
University of Manchester-led report highlights post-Brexit challenges in UN /about/news/university-of-manchester-led-report-highlights-post-brexit-challenges-in-un/ /about/news/university-of-manchester-led-report-highlights-post-brexit-challenges-in-un/323224A project co-led by the University of Manchester’s Dr Jess Gifkins, Lecturer in International Relations, has found that once the UK exits the European Union, it must work to ensure the United Nations’ confidence in the country’s influence and values are restored.

Dr Gifkins, along with colleagues from the University of Leeds and Southampton University presented their findings at the Houses of Parliament on 19th February 2019.

The report on the findings published by the United Nations Association – UK (UNA-UK), which was funded by the British Academy, found the UK is facing ‘challenges in maintaining its current level of influence once it has exited the EU’.

Researchers interviewed 29 diplomats, UK officials and individuals representing NGOs and concluded that to mitigate some of the uncertainty post-Brexit, the UK must invest in multilateralism and provide values-driven leadership. There are concerns that after the UK and EU divorce, Britain will be less able to line up its campaigns in the Security Council and General Assembly without the influence of its colleagues in Brussels.

Interviewees suggested that a decline in influence at the UN in New York was ‘palpable’, and this was partly to do with Brexit.

“Our project shows that the impacts of Brexit go beyond the UK and the EU to the UN where the UK’s reputation is tarnished and its capacity for influence is weakened,” said Dr Gifkins.

“While the UK’s permanent seat in the United Nations Security Council is not under threat, more questions are being asked about the legitimacy of this seat.”

This was the first time the UNA-UK had collaborated with the University of Manchester, and the organisation hopes there will be further collaborations in future.

Lord Hannay, who chaired the launch. Described the report as “really excellent” and said the recommendations made regarding the UK’s relationship with the UN were vital, with or without Brexit.

To read the full report, .

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Thu, 21 Feb 2019 09:36:08 +0000 https://content.presspage.com/uploads/1369/500_arthur-lewis-and-hbs-774x300-280869.jpg?10000 https://content.presspage.com/uploads/1369/arthur-lewis-and-hbs-774x300-280869.jpg?10000
UK may struggle to maintain influence at the UN after Brexit, study finds /about/news/un-after-brexit/ /about/news/un-after-brexit/323064The UK needs to demonstrate its added value to the United Nations and adopt a principled and values-driven foreign policy if it is to maintain its current influence after it leaves the EU, according to a report released by the United Nations Association.

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The UK needs to demonstrate its added value to the United Nations and adopt a principled and values-driven foreign policy if it is to maintain its current influence after it leaves the EU, according to a report released by the United Nations Association.

The report is the outcome of a research project by academics from the Universities of Manchester, Leeds and Southampton on behalf of the United Nations Association, funded by the British Academy.

The researchers interviewed 29 participants, including UN diplomats, UK officials and individuals from non-governmental organisations. They found that the UK faces considerable challenges in maintaining its current level of influence once it has exited the EU.

The UK’s current record in the UN is mixed - it takes a strong role in drafting resolutions and agenda-setting and is generally seen as a skilled negotiator in the UN Security Council, but we have very little influence on the General Assembly.

Crucially, the report found that Brexit will cause British diplomats to lose political capital, because they are less able to align their campaigns in the Security Council and the General Assembly with the influence of their colleagues in Brussels.

Interviewees said that if it were not for the UK’s continued commitment to spending 0.7% of its Gross National Income on Official Development Assistance, its reputation would be ‘free fall territory’. Nevertheless, they said that the decline in UK influence is palpable.

The report suggests that the impact of Brexit can be offset and the UK’s influence maintained if the UK invests in multilateralism and provides clear principled, values-driven leadership. Its recommendations include:

- Specific policy ideas and resources from London, demonstrating the value of the UK in international forums
- Addressing gaps in diplomatic capacity at the General Assembly, which will develop as the UK is no longer able to rely on EU for burden sharing and support
- Maintaining resolutely the UK’s 0.7% commitment to foreign aid – a major source of soft power and influence

“Our project shows that the impacts of Brexit go beyond the UK and the EU to the UN, where the UK’s reputation is tarnished and its capacity for influence is weakened,” said lead author Dr Jess Gifkins from The University of Manchester.

“This report provides an evidence base for what we have long argued,” said Angie Pankhania, Deputy Director of United Nations Association UK. “It is absolutely possible for the UK to be an influential player in international forums such as the United Nations, but it requires a principled and consistent approach. The UK cannot cherry-pick its favourite bits of multilateralism - it must invest in the health of the system as a whole.”

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Wed, 20 Feb 2019 10:32:49 +0000 https://content.presspage.com/uploads/1369/500_150511917025-20170912-271870.jpg?10000 https://content.presspage.com/uploads/1369/150511917025-20170912-271870.jpg?10000
Scientists research impact of oil rig spills on fish /about/news/scientists-research-impact-of-oil-rig-spills-on-fish/ /about/news/scientists-research-impact-of-oil-rig-spills-on-fish/320864A University of Manchester scientists are at the forefront of the fight to protect cold water fish from the effects of crude oil spills from offshore oil rigs.

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University of Manchester scientists are at the forefront of the fight to protect cold water fish from the effects of crude oil spills from offshore oil rigs.

Dr Holly Shiels and PhD student Martins Ainerua are working off the coast of Norway with Dr Elin Sørhus of the Norwegian Institute of Marine Research to understand how the oil impacts on hearts of cod and halibut.

As the heart is the first organ to develop in fish larvae its good heath is crucial for survival of the animals into adulthood, say the team.

Two projects – known as ‘Eggtox’ - and ‘PW(produced water)exposed’, could provide vital information for oil companies who want to construct rigs in parts of the North Sea which are known to be key spawning grounds for these important fisheries.

The team also hope to understand the mechanisms of crude oil toxicity on the electrical and contractile properties of the fish heart.

They have been working in the electrophysiology lab at Austevoll station on the South West coast of Norway, investigating how various oil components affect the electrical activity of the juvenile cod and halibut hearts.

Dr Shiels said: “We know from disastrous crude oil spills like DeepWater Horizon, that components of oil negatively affects hearts of larval and juvenile fish.

"But it is possible the Produced Water used in oil drilling – which is released even in the absence of a spill - may impact fish stocks.

“And this is especially a worry in areas where drilling occurs in spawning grounds as the eggs and tiny larvae are unprotected.

“That is why are studying the impact of a single component of crude oil on the heart, and two of its metabolic derivatives.

“This is important work. A thorough understanding of cardiotoxicity will improve ecological risk assessments and environmental health monitoring.”

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Tue, 12 Feb 2019 12:38:00 +0000 https://content.presspage.com/uploads/1369/500_hollyshielsandelinsorhus-600229.jpg?10000 https://content.presspage.com/uploads/1369/hollyshielsandelinsorhus-600229.jpg?10000
Scientists find an unexpected link between air pollutants from plants and manmade emissions /about/news/scientists-find-an-unexpected-link-between-air-pollutants-from-plants-and-manmade-emissions/ /about/news/scientists-find-an-unexpected-link-between-air-pollutants-from-plants-and-manmade-emissions/316974Scientists are a step closer to understanding what controls fine particulate matter in the Earth’s atmosphere after identifying new linkages between natural contaminants and with manmade pollutants.

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Scientists are a step closer to understanding what controls fine particulate matter in the Earth’s atmosphere after identifying new linkages between natural contaminants and with manmade pollutants.

Fine particulate matter is an air pollutant that can negatively impact human health when levels in air are too high and can also influence climate.

The breakthrough could lead to stronger, more accurate climate-related legislation and cleaner air say the researchers. The international team, led by and Forschungszentrum Jülichhung in Germany, were investigating the impact of Secondary Organic Aerosol (SOA) in our air.

SOA comprise of extremely small particles and are made in the atmosphere from natural and man-made emissions. They are produced through complex interactions between sunlight and volatile organic compounds from trees, plants, cars or industrial emissions.

These tiny particles seriously affect people’s physical and mental health and are the major contributing factor to the premature deaths of an estimated 5.5 million people around the world, every year. The influence of these particles on climate is also responsible for the largest contributory uncertainty to manmade effects on the radiation balance affecting climate change.

The international team studied the formation of fine SOA particles from different vapours emitted from natural plants and from mixtures of manmade and natural vapours reacting in the lab. In all cases, they found that a lower mass of particles was made when the same amount of vapour was reacted in a mixture than when it was reacted on its own.

Lead author, Professor Gordon McFiggans, from 91ֱ’s , explains: “It has long been recognised that we need to consider the full mixture of vapours when predicting the amount of secondary pollutants such as ozone.

“Our findings now show that we also need to know what manmade and natural trace compounds are present in the real atmosphere in order to quantify particulate pollution.”

The study is the first study of its kind to look at the influence of these complex mixtures of vapours on the atmospheric particle mass concentration.

Professor Thomas Mentel, co-author from FZJ, added: “By carefully designing the experiment, we managed to understand two different ways that the amount of particles formed are reduced in mixtures. We have found that the trace compounds not only compete for the reactant, but also the products of these reactions can themselves react to prevent efficient particle formation.

“By including this experimentally observed effect in a global air quality model, we have shown that the fine particle mass can be substantially affected under real atmospheric conditions, not just those in the lab.”

This observational quantification of the interaction between vapours that can form particles provides the first glimpse of how pollutants will interact in the complex mixtures found in the real atmosphere.

Professor McFiggans concluded: “Our work provides a roadmap towards understanding the future contribution of particulate matter to air quality and climate. By including these results and those from further experiments into numerical models, we will be able to provide the right advice to policymakers.”

 

 is one of The University of Manchester’s - examples of pioneering discoveries, interdisciplinary collaboration and cross-sector partnerships that are tackling some of the biggest questions facing the planet. #ResearchBeacons

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Thu, 31 Jan 2019 18:01:00 +0000 https://content.presspage.com/uploads/1369/500_industry-611670-960-720-514470.jpg?10000 https://content.presspage.com/uploads/1369/industry-611670-960-720-514470.jpg?10000
Newborn babies have inbuilt ability to pick out words, finds study /about/news/newborn-babies-have-inbuilt-ability-to-pick-out-words-finds-study/ /about/news/newborn-babies-have-inbuilt-ability-to-pick-out-words-finds-study/316725A research study of newborn babies has revealed that humans are born with the innate skills needed to pick out words from language.

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A research study of newborn babies has revealed that humans are born with the innate skills needed to pick out words from language.

The international team of researchers discovered two mechanisms in 3-day-old infants, which give them the skills to pick out words in a stream of sounds.

The discovery provides a key insight into a first step to learning language.

The study, published in , is a collaboration between scientists at SISSA in Italy, the Neurospin Centre in France, the University of Liverpool and The University of Manchester. It was funded by the European Research Council.

One of the mechanisms discovered by the team is known as prosody- the melody of language, which allow us to recognise when a word starts and stops.

And another they call the statistics of language, which describes how we compute the frequency of when sounds in a word come together.

from The University of Manchester said: “We think this study highlights how sentient newborn babies really are and how much information they are absorbing.

”That’s quite important for new parents and gives them some insight into how their baby is listening to them.”

Dr Ana Flò of Neurospin said: “Language in incredibly complicated and this study is about understanding how infants try to make sense of it when they first hear it.

“We often think of language as being made up of words, but words often blur together when we talk. So one of the first steps to learn language is to pick out the words.

“Our study shows that at just 3 days old, without understanding what it means, they are able pick out individual words from speech.

“And we have identified two important tools that we are almost certainly born with, that gives them the ability to do this.”

The researchers played the infants a 3 and a half minute audio clip in which four meaningless words, were buried in a stream of syllables.

Using a painless technique called Near-Infrared Spectroscopy, which shines light into the brain, they were able to measure how much was absorbed, telling them which parts of the brain were active.

Dr Perrine Brusini of the University of Liverpool noted: “We then had the infants listen to individual words and found that their brains responded differently to the words that they heard than to slightly different words.

“This showed that even from birth infants can pick out individual words from language.

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Mon, 28 Jan 2019 16:51:00 +0000 https://content.presspage.com/uploads/1369/500_newborn.jpg?10000 https://content.presspage.com/uploads/1369/newborn.jpg?10000
Scientists bring new insight into how animals see /about/news/scientists-bring-new-insight-into--how-animals-see/ /about/news/scientists-bring-new-insight-into--how-animals-see/316577Scientists from The University of Manchester have found a way to trick the eye into thinking the world is brighter than it actually is.

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Scientists from The University of Manchester have found a way to trick the eye into thinking the world is brighter than it actually is.

Using a chemical compound, the team activated a small group of retinal neurons in dim light, which unexpectedly made almost the whole retina more active.

Though more research is needed, the study provides new insight into how the retina communicates with the brain when animals respond to different situations.

The retina is a thin layer of tissue that lines the back of the eye which receives light focused by the lens, and convert it into neural signals which are sent to the brain.

The manipulation, carried out in mice, effectively increased the “bandwidth” of communication from the retina to the brain.

The research was funded by Medical Research Council, European Research Council and the National Centre for Replacement, Refinement and Reduction of Animal Research (NC3Rs). It is published in published in PNAS.

The discovery led by Professor Rob Lucas from The University of Manchester, uncovers an important principle underlying the way in which different areas of the nervous system communicate with each other.

 

Retinal neurons convey visual information to the brain a sequence of electrical pulses

Using the analogy of a digital communication channel, neural communication uses up a lot of energy so its bandwidth must be optimised according to changes in demand.

Since the 1990s, scientists have shown that on average brain activity is limited to between 1 to 5 electrical pulses per second per neuron.

However at any given time, some parts of the brain may demand many more pulses to perform optimally.

Dr Riccardo Storchi, who was on the team said: “This discovery provides some important insight into a simple mechanism by which flexible allocation of energy resources is regulated by the retina.

“This effect is mediated by specialist neurons known as ‘intrinsically photosensitive retinal ganglion cells’ (ipRGCs) which act like a light-meter, regulating communication between retina and the brain.

“We have known for a while that neuron pulses are energetically expensive, but until now we didn’t understand what regulates their frequency. This is a first step which we hope will tackle this important question.”

The paper Photoreceptive retinal ganglion cells control the information rate of the optic nerve is available 

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Fri, 25 Jan 2019 15:04:28 +0000 https://content.presspage.com/uploads/1369/500_eyeshot.jpg?10000 https://content.presspage.com/uploads/1369/eyeshot.jpg?10000
91ֱ astrophysicist to help ‘unlock mysteries’ of rare cosmic rays /about/news/manchester-astrophysicist-to-help-unlock-mysteries-of-rare-cosmic-rays/ /about/news/manchester-astrophysicist-to-help-unlock-mysteries-of-rare-cosmic-rays/315261Scientists have designed and built a prototype that aims to unlock some of the mysteries surrounding rare cosmic rays that enter Earth’s atmosphere from deep space.

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Scientists have designed and built a prototype that aims to unlock some of the mysteries surrounding rare cosmic rays that enter Earth’s atmosphere from deep space.

Cosmic rays are made up of highly energetic atomic nuclei and other particles, travelling through space at almost the speed of light. The most powerful of these rays contain approximately ten million times more energy than the particles being accelerated in the Large Hadron Collider at CERN in Switzerland.

But whilst physicists and astronomers have known about the existence of cosmic rays for over a hundred years, very little is known about where they come from or about the particles they’re made of. The challenge for astronomers trying to detect and analyse these rays is that they're very rare, with an observatory seeing only one or two of the more energetic ones per hour.

The Jodrell Bank Observatory itself was originally founded to help astronomers study cosmic rays with radio antennas. Now, as part of an international team of collaborators, Dr Justin Bray and Prof. Em. Ralph Spencer, who are based at , have designed and built a new particle detector that will work with the next generation of radio telescopes, such as the . The prototype is first being deployed and tested at the telescope in Western Australia, which will also be the site of the low frequency antennas of the SKA.

Dr Bray's team is the SKA High Energy Cosmic Particles group headed by himself and Dr Clancy James from 2016. This group includes international researchers from Curtin University and CSIRO Astronomy & Space Science, both in Australia, Karlsruhe Institute of Technology in Germany, and ASTRON, the Netherlands Institute for Radio Astronomy.

The combination of the new particle detector and the dense configuration of radio antennas at the SKA telescope mean scientists will be able to take extensive measurements of the radio emissions from interacting cosmic rays. This in turn will make it easier to understand the properties of the cosmic rays themselves.

Dr Bray says: “The key attribute of cosmic rays that we'd like to measure is what types of particles they are. We know that they're atomic nuclei, stripped of all their electrons, with a mixture of elements ranging from hydrogen up to iron.

“But the exact mix of what they’re made of is difficult to discern. If we can find that out it will provide key information about how they're produced and how they get to us.”

How they get to Earth and how far they travel is something that has baffled scientists since cosmic rays were discovered in 1912. It is generally thought that the most energetic ones come from outside the galaxy and less energetic ones from inside the galaxy, possibly from supernova remnants, but this is yet to be confirmed.

Dr Bray added: “How far they've come to get to Earth is one of the big unanswered scientific questions. If we could help answer that it would be amazing.”

The detector works by analysing the particles that reach ground level after a cosmic ray smashes into our atmosphere, generating “exotic particles” you wouldn’t usually find on Earth.

Dr Bray explains: “When a cosmic ray hits Earth’s upper atmosphere, it smashes into a nitrogen or oxygen nucleus, generating a cascade of exotic particles including pions and tau leptons. By the time they reach ground level, the surviving particles are mostly muons, electrons, positrons, gamma rays and neutrinos.

“The particle detector we're building will detect the muons, electrons and positrons in the cascade that reach ground level. So, when it goes off, it tells us that there was a cosmic ray interacting in the upper atmosphere, above the detector, a few microseconds ago.”

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Tue, 15 Jan 2019 01:00:00 +0000 https://content.presspage.com/uploads/1369/500_mwjan14jod-0017.jpg?10000 https://content.presspage.com/uploads/1369/mwjan14jod-0017.jpg?10000
Brexit: what do the latest developments in parliament mean for Theresa May? /about/news/brexit-theresa-may/ /about/news/brexit-theresa-may/314874A cross-parliamentary group of MPs has struck again, landing another major blow against the government ahead of the vote on Theresa May’s Brexit deal on January 15. The manoeuvre changes the parliamentary timetable to give the prime minister just three days to come up with a new plan if she loses the vote. This was highly controversial in constitutional terms and the debate was extremely heated. Here’s what it means for the next stage of Brexit.

What does the amendment passed by parliament say?

Since the meaningful vote on the final Brexit deal was delayed in December, MPs have been pulling out all the stops to find creative ways of forcing the government’s hand. The amendments made to the were an example of this.

Now, MPs have voted through a business motion that drastically shortens the Brexit time line should May lose the vote on her final Brexit deal on January 15. According to the amendment, she must return to the House of Commons within three days for a vote on the further options. This is instead of the plan currently in place, which would have given her 21 days to present a new plan.

Who is behind the amendment?

This is a cross party amendment. A quick glance at the list of signatories shows some very familiar faces. Conservative backbencher Dominic Grieve has been a continual thorn in May’s side as she tries to pass Brexit legislation. Back in September 2017 he was writing about the need to challenge the government on its withdrawal legislation, which he felt was . His crusade to strengthen parliament’s voice on the issue has continued ever since. Now you can expect to see a attached to almost any piece of Brexit-related legislation in parliament.

Also on the list is Chris Leslie, the Labour backbencher who has been similarly passionate about holding the government to account, tabling hundreds of amendments to May’s Brexit bills. Both are on the Politico’s list of Brexit troublemakers, where Leslie is described as an .

The SNP, Lib Dems, Plaid and the Greens have also signed up to the amendment. The smaller parties would typically always work together, but opposition to the prime minister’s Brexit timetable is now coming from MPs of all parties, including a significant number of her own.

Why was the selection of the amendment so controversial?

MPs spent the morning of January 9 in a heated debate about whether or not the amendment was constitutional – did it fall within the boundaries of parliamentary procedure? Many directed significant ire at Speaker John Bercow for selecting it for consideration, implying that he may be straying from the impartiality which the occupant of the chair should stand by. For some it was a case of the speaker rewriting or reinterpreting parliamentary rules, something that parliamentary correspondent Mark D'Arcy described as a “” that could alter the course of Brexit should the prime minister lose the vote on the final deal.

This was because the amendment was tabled to a business motion. This is different to tabling amendments to a piece of legislation like the EU Withdrawal Bill. Typically, only the government can amend the business or timetable of the House and as such, amendments would normally only come from government. There was some speculation that the amendment was , putting the speaker in an awkward position as he had to decide what to do with it. It later became apparent that the amendment had been selected (perhaps to placate MPs and allow the matter to be on the record). In the speaker’s words, it came down to a distinction between a motion and an amendment, with this being one of the latter, as well as a discussion about the meaning of the word “forthwith” and whether this meant that a motion was unamendable or not.

It was clearly a difficult decision for Bercow, who repeatedly said he had to think carefully and make a judgement. But with reports that the House of Commons clerks had advised against the move, it seemed that the speaker really was taking a decision alone. It means that although parliament was not able to debate the amendment, Grieve was able to officially move it, and as a result, the House of Commons could vote on it. It was passed by 308 votes to 297.

Is this amendment enough to stop a no-deal Brexit?

On its own the amendment is not going to stop a no-deal Brexit. But it does speed up the timetable by which the government would need to come back to the House of Commons with a new plan of action should the vote on the deal be lost. As such, it is part of parliament’s wider attempt to rewrite the Brexit story. It is clear evidence of opposition to a no-deal Brexit and a growing consensus around the need for a clear decision to be expressed by parliament on a suitable alternative to the deal currently on the table.

Does it currently look like May will lose the Brexit deal vote?

The prime minister’s assurances over Christmas about the Northern Ireland border may have quelled the opposition from a handful of MPs, but it still looks likely that she will lose the vote on the final deal. It was reported that she planned to until it passed. Grieve’s amendment aimed to prevent this. But it’s not really clear if the prime minister has a Plan B.

What is Labour planning on doing if she loses the vote?

At the moment we are expecting Labour to in the government if the prime minister loses the vote on January 15. But the Grieve amendment may complicate things a little bit. Should party leader Jeremy Corbyn hang tight and see what comes back in the three-day window, or table it right away? His chances of winning would depend on the timing and on whether or not a plan B does emerge from the government benches.The Conversation

, Senior Lecturer in Politics,
This article is republished from under a Creative Commons license. Read the .

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Thu, 10 Jan 2019 09:38:22 +0000 https://content.presspage.com/uploads/1369/500_commons-241451.jpg?10000 https://content.presspage.com/uploads/1369/commons-241451.jpg?10000
Takeaway containers – the environmental cost of packing our favourite fast-foods /about/news/takeaway-containers--the-environmental-cost-of-packing-our-favourite-fast-foods/ /about/news/takeaway-containers--the-environmental-cost-of-packing-our-favourite-fast-foods/313085Scientists say more should be done to tackle the growing environmental impact of takeaway food containers. A new study estimates there are 2025 million takeaway containers per year being used in the European Union (EU) alone. 

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Scientists say more should be done to tackle the growing environmental impact of takeaway food containers.

A new study estimates there are 2025 million takeaway containers per year being used in the European Union (EU) alone. It also says finding a way to recycle disposable takeaway containers could help reduce equivalent greenhouse gas emissions generated annually by 55,000 cars.

The researchers, from the University's , have carried out the first ever comprehensive study of the environmental impacts of disposable takeaway-food containers. They looked at aluminium, polystyrene (styrofoam) and polypropylene (clear plastic) containers. These were compared to reusable plastic containers, such as “Tupperware”.

For example, the study found that whilst Styrofoam containers have the lowest carbon footprint – 50% lower than aluminium containers and three times lower than their plastic counterparts – they cannot be considered a sustainable packaging as they are not recycled at a mass level and often end up in landfill.

The global takeaway food market is growing fast, with a projected value of over £80 billion in 2020. The sector uses a vast amount of disposable takeaway containers, estimated in this study at 2025 million units per year in the European Union (EU) alone.

Despite this, the scale of the impacts on the environment of takeaway-food containers used in this growing sector was not measured until now.

The study used life cycle assessment (LCA) to estimate the impacts of containers, taking into account their manufacture, use and end-of-life waste management. Altogether, the research team investigated 12 different environmental impacts, including climate change, depletion of natural resources and marine ecotoxicity.

The study found that the styrofoam container was the best option among the disposable containers across all the impacts considered, including the carbon footprint. For example, the styrofoam container had 50% lower carbon footprint than aluminium and three times lower than the plastic. This is because of the lower amount of materials and energy used in the production of styrofoam compared to the other two types of container.

However, styrofoam containers are currently not recycled and cannot be considered a sustainable packaging option. The study estimates that recycling half of the containers currently in use, as envisaged by the EU recycling policy for the year 2025, would reduce their carbon footprint by a third. This would save 61,700 t CO2 eq. per year at the EU level, equivalent to the greenhouse gas emissions generated annually by 55,000 cars. Most other impacts would be reduced by more than 20%.

Dr Alejandro Gallego-Schmid, the lead author, explains: ‘Achieving this level of recycling of styrofoam containers is going to be challenging. Although technically possible and practiced at small scale in some countries, the main difficulties are related to collecting the used containers and the associated costs.’

Dr Joan Fernandez Mendoza, one of the study authors, added: ‘Because they are so light, the styrofoam containers can easily be blown away, contributing to urban and marine litter. So, despite their lower life cycle environmental impacts relative to the other containers, styrofoam containers cannot be considered a sustainable packaging option unless they can be recycled at a large scale.’

The study also found that reusable Tupperware containers had a lower carbon footprint than disposable styrofoam when they were reused more than 18 times. This is despite the energy and water used for their cleaning. Disposable clear-plastic containers needed to be reused even fewer times – only five – to become better for the carbon footprint than the styrofoam.

, the project leader, commented: ‘As consumers, we can play a significant role in reducing the environmental impacts of food packaging by reusing food containers as long as possible. Our study shows clearly that the longer we reuse them, the lower their impacts become over their extended lifetimes.’

 

The research is published in Journal of Cleaner Production and is available at: https://www.sciencedirect.com/science/article/pii/S0959652618336230#appsec1

Energy is one of The University of Manchester’s research beacons - examples of pioneering discoveries, interdisciplinary collaboration and cross-sector partnerships that are tackling some of the biggest questions facing the planet. #ResearchBeacons

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Tue, 18 Dec 2018 10:29:00 +0000 https://content.presspage.com/uploads/1369/500_onepixel-960052-575611.jpg?10000 https://content.presspage.com/uploads/1369/onepixel-960052-575611.jpg?10000
IVF linked to lower birth weight and child growth /about/news/ivf-linked-to-lower-birth-weight-and-child-growth/ /about/news/ivf-linked-to-lower-birth-weight-and-child-growth/310301A study has linked babies conceived through a type of IVF to lower birth weight followed by increased growth after birth.

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A study has linked babies conceived through a type of IVF to lower birth weight followed by increased growth after birth.

The University of Manchester led study of 5,200 IVF children found that singleton babies conceived from fresh embryo transfers - used in two thirds of all IVF - are associated with lower birth weights, head circumference and length, but then grow more quickly, catching up to naturally conceived children by school age.

The team are also monitoring birth weight in IVF babies over a 25-year period, and initial results show that weight seems to be increasing. It may be that recent improvements in IVF technology are responsible, though it’s too early to know for sure, say the team.

Babies conceived from frozen embryo transfers – used in about one third of IVF- have greater weight, head circumference and length at birth and show similar growth to naturally conceived children.

“Though the effects are small, they do justify considering using the safest form of IVF treatment where possible, and continuing to monitor the long-term health of these children,” said reproductive biologist Professor Daniel Brison who led the study.

“Overall IVF babies are just as likely to be born healthy as any other, and the lifestyle choices they make in later life will far outweigh any small effect of low birthweight and altered growth,” explained Professor Brison.

Using Scottish data, it is the first large-scale study of early growth in IVF children from birth to school age anywhere in the world, and only the second study of health in UK IVF children using the Human Fertilisation and Embryology Authority register of IVF treatments.

The European Union funded study, which involved researchers from the Universities of Manchester and Southampton, is published today in BMC Medicine.

Among the headline findings are:

  • The birthweight of babies born from fresh embryo transfer cycles is on average 93·7g less than naturally conceived babies.
  • Babies born from frozen embryo transfers are on average 57·5g heavier.
  • Fresh embryo babies grew faster from birth by on average 7·2g/week but remained lighter by 171g, at 6-8 weeks, than normally conceived babies and 133g smaller than frozen embryo transfer babies; who were similar to normally conceived babies.
  • By school entry (4-7 years), weight, length and BMI in boys and girls conceived by fresh and frozen embryo transfer were similar to those in naturally conceived children.

Professor Brison said: “We don’t yet know why fetal and child growth for children conceived through this form of fertility treatment is affected.

“Babies born from IVF appear largely healthy, though the oldest of them, Louise Brown, is still only 40 so we feel there is a duty to monitor this cohort of children for diseases which show up only in later life.

“The impact of fresh embryos transfer on birth weight is after all nearly as great as that of maternal smoking in pregnancy. One possible explanation, say the team, is that fetal growth is restricted with fresh embryo transfer because of impaired placental function associated with dysregulated maternal hormones. Freezing embryos, they argue, may also help to preserve them to establish pregnancy later on when the mother’s body has recovered from IVF.

“But IVF children need not be alarmed: the greatest risk from IVF is multiple pregnancy, and the IVF field and government regulator (HFEA) have worked together to improve this greatly over the last 5-10 years.”

“” is published in BMC Medicine.

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Wed, 28 Nov 2018 12:25:33 +0000 https://content.presspage.com/uploads/1369/500_newbornbaby.jpg?10000 https://content.presspage.com/uploads/1369/newbornbaby.jpg?10000
'Human brain' supercomputer with 1 million processors switched on for first time /about/news/human-brain-supercomputer-with-1million-processors-switched-on-for-first-time/ /about/news/human-brain-supercomputer-with-1million-processors-switched-on-for-first-time/307266The world’s largest neuromorphic supercomputer designed and built to work in the same way a human brain does has been fitted with its landmark one-millionth processor core and is being switched on for the first time.

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The world’s largest neuromorphic supercomputer designed and built to work in the same way a human brain does has been fitted with its landmark one-millionth processor core and is being switched on for the first time.

The newly formed million-processor-core ‘Spiking Neural Network Architecture’ or ‘’ machine is capable of completing more than 200 million million actions per second, with each of its chips having 100 million transistors.

To reach this point it has taken £15million in funding, 20 years in conception and over 10 years in construction, with the initial build starting way back in 2006. The project was initially funded by the and is now supported by the . It is being switched on for the first time on .

The SpiNNaker machine, which was designed and built in The University of Manchester’s , can model more biological neurons in real time than any other machine on the planet.

Biological neurons are basic brain cells present in the nervous system that communicate primarily by emitting ‘spikes’ of pure electro-chemical energy. Neuromorphic computing uses large scale computer systems containing electronic circuits to mimic these spikes in a machine.

SpiNNaker is unique because, unlike traditional computers, it doesn’t communicate by sending large amounts of information from point A to B via a standard network. Instead it mimics the massively parallel communication architecture of the brain, sending billions of small amounts of information simultaneously to thousands of different destinations.

, who conceived the initial idea for such a computer, said: “SpiNNaker completely re-thinks the way conventional computers work. We’ve essentially created a machine that works more like a brain than a traditional computer, which is extremely exciting.

“The ultimate objective for the project has always been a million cores in a single computer for real time brain modelling applications, and we have now achieved it, which is fantastic.”

The computer’s creators eventually aim to model up to a billion biological neurons in real time and are now a step closer. To give an idea of scale, a mouse brain consists of around 100 million neurons and the human brain is 1000 times bigger than that.

One billion neurons is 1% of the scale of the human brain, which consists of just under 100 billion brain cells, or neurons, which are all highly interconnected via approximately 1 quadrillion (that’s 1 with 15 zeros) synapses.

So, what is a million-core processor computer that mimics the way a brain works used for? One of its fundamental uses is to help neuroscientists better understand how our own brain works. It does this by running extremely large scale real-time simulations which simply aren’t possible on other machines.

For example, SpiNNaker has been used to simulate high-level real-time processing in a range of isolated brain networks. This includes an 80,000 neuron model of a segment of the cortex, the outer layer of the brain that receives and processes information from the senses.

It also has simulated a region of the brain called the Basal Ganglia - an area affected in Parkinson’s disease, meaning it has massive potential for neurological breakthroughs in science such as pharmaceutical testing.

The power of SpiNNaker has even recently been harnessed to control a robot, . This robot uses the SpiNNaker system to interpret real-time visual information and navigate towards certain objects while ignoring others.

Prof Furber added: “neuroscientists can now use SpiNNaker to help unlock some of the secrets of how the human brain works by running unprecedentedly large scale simulations. It also works as real-time neural simulator that allows roboticists to design large scale neural networks into mobile robots so they can walk, talk and move with flexibility and low power.” 

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Fri, 02 Nov 2018 02:00:00 +0000 https://content.presspage.com/uploads/1369/500_spinnaker.jpg?10000 https://content.presspage.com/uploads/1369/spinnaker.jpg?10000
Drugs’ side effects in lungs ‘more widespread than thought’ /about/news/drugs-side-effects-in-lungs-more-widespread-than-thought/ /about/news/drugs-side-effects-in-lungs-more-widespread-than-thought/306814A systematic review of research has revealed that the toxic effects on the lung of drugs commonly taken to treat a range of common conditions is much more widespread than thought.

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A systematic review of research has revealed that the toxic effects on the lung of drugs commonly taken to treat a range of common conditions is much more widespread than thought.

Though the 27 drugs treating a range of conditions including arthritis, cancer and the heart are successful for most patients, doctors, say the team, need to be more aware of the potential risks to their respiratory systems.

The research was carried out by academics at the Universities of Manchester, Leeds, and Sheffield as well as clinicians at NIHR 91ֱ Biomedical Research Centre, Royal United Hospitals Bath NHS Foundation Trust and Sheffield Teaching Hospitals NHS Foundation Trust and the European Organisation for Research and Treatment of Cancer (EORTC).

The study, which looked at 6,200 patients’ data from 156 papers is published in the Journal of Clinical Medicine.

The team are part of a €24 million project funded by the European Union and the European pharmaceutical industry’s Innovative Medicine Initiative which is developing imaging techniques for the management of drug-induced interstitial lung disease (DIILD). It is co-led by EORTC and Bioxydyn Ltd, a University of Manchester spin-out company.

Though DIILD can cause difficulty breathing, inflammation and fibrosis, the risk sometimes only becomes apparent after the drugs have been in use for some years.

Though the team say clinicians are hindered because most of the papers they reviewed were of low or very low quality. Between 4.1 and 12.4 cases of DIILD per million per year were reported worldwide accord to the review.

And the review also found that DIILD accounted for around 3–5% of all interstitial lung disease cases.

In some of the studies, mortality rates of over 50% were reported and overall, 25% of all the patients studied died as a result of respiratory symptoms.

Steroids were the most common drug used to treat DIILD, but no studies examined their effect on outcome.

 

John Waterton, a Professor of Translational Imaging from The University of Manchester, was on the research team. He said: “Though this area is not well researched, we can say that the side effects of drugs on the lung are much more widespread than previously thought.

“We do know it affects a considerable number of people, which is why we want to develop better imaging tests to pick up any lung problems before they become serious.

“It’s important to stress that patients can safely continue to take their medication - but it’s also important that doctors monitor and assess them closely for side effects in the lung.”

On the team is also Dr Nazia Chaudhuri honorary senior lecturer at The University of Manchester and a consultant physician at Wythenshawe Hospital, part of Manchester University NHS Foundation Trust, who has a specialist interest in interstitial lung disease.

She said: “ Doctors need to be aware and vigilant to the possible lung toxicities and harm that can be caused by some drugs. With newer drugs coming on the market this is an increasing yet under recognised problem and we need better ways of detecting these side effects before they cause harm.”

The paper ‘Drug-Induced Interstitial Lung Disease: A Systematic Review’ is published in the Journal of Clinical Medicine and is available .

The common drugs with DIILD liability in the review are: Bleomycin, Gemcitabine, Erlotinib, Gefitinib, Panitumumab, Cetuximab, Everolimus, Temsirolimus, Sirolimus, Ipilimumab, Nivolumab, Pembrolizumab, Atezolizumab, Avelumab, Durvalumab, Irinotecan, Pemetrexed, Methotrexate, Infliximab, Etanercept, Adalimumab, Golimumab, Leflunomide, Amiodarone, Nitrofurantoin, Distamycin and Carbamazepine.

 ‘This research was funded by Innovative Medicines Initiatives 2 Joint Undertaking under grant agreement No. 116106. This Joint Undertaking receives support from the European Union’s Horizon 2020 research and innovation programme and EFPIA.’

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Mon, 29 Oct 2018 15:00:00 +0000 https://content.presspage.com/uploads/1369/500_pillsweb.jpg?10000 https://content.presspage.com/uploads/1369/pillsweb.jpg?10000
First particle tracks seen in prototype for international neutrino experiment /about/news/first-particle-tracks-seen-in-prototype-for-international-neutrino-experiment/ /about/news/first-particle-tracks-seen-in-prototype-for-international-neutrino-experiment/301384The largest liquid-argon neutrino detector in the world has recorded its first particle tracks, signaling the start of a new chapter in the story of the international Deep Underground Neutrino Experiment (DUNE).

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The largest liquid-argon neutrino detector in the world has recorded its first particle tracks, signalling the start of a new chapter in the story of the international Deep Underground Neutrino Experiment (DUNE).

DUNE’s scientific mission is dedicated to unlocking the mysteries of neutrinos, the most abundant (and most mysterious) matter particles in the universe. Neutrinos are all around us, but we know very little about them. Scientists on the DUNE collaboration think that neutrinos may help answer one of the most pressing questions in physics: why we live in a universe dominated by matter. In other words, why we are here at all. 

The University is playing a leading role in a £65million flagship global science project. Professor Stefan Soldner-Rembold,  in at  and DUNE co-spokesperson, said: “Seeing the first particle tracks is a major success for the entire DUNE collaboration. It is the largest collaboration of scientists working on neutrino research in the world, with the intention of creating a cutting-edge experiment that could change the way we see the universe.”

The enormous ProtoDUNE detector – the size of a three-story house and the shape of a gigantic cube – was built at CERN, the European Laboratory for Particle Physics, as the first of two prototypes for what will be a much, much larger detector for the DUNE project, hosted by the U.S. Department of Energy’s Fermi National Accelerator Laboratory in the United States. When the first DUNE detector modules record data in 2026, they will each be 20 times larger than these prototypes.

It is the first time CERN is investing in infrastructure and detector development for a particle physics project in the United States. The first ProtoDUNE detector took two years to build and eight weeks to fill with 800 tons of liquid argon, which needs to be kept at temperatures below -184 degrees Celsius (-300 degrees Fahrenheit).

The detector records traces of particles in that argon, from both cosmic rays and a beam created at CERN’s accelerator complex. Now that the first tracks have been seen, scientists will operate the detector over the next several months to test the technology in depth.

“Only two years ago we completed the new building at CERN to house two large-scale prototype detectors that form the building blocks for DUNE,” said Marzio Nessi, head of the Neutrino Platform at CERN. “Now we have the first detector taking beautiful data, and the second detector, which uses a different approach to liquid-argon technology, will be online in a few months.”

The technology of the first ProtoDUNE detector will be the same to be used for the first of the DUNE detector modules in the United States, which will be built a mile underground at the Sanford Underground Research Facility in South Dakota. More than 1,000 scientists and engineers from 32 countries spanning five continents – Africa, Asia, Europe, North America and South America – are working on the development, design and construction of the DUNE detectors.

When neutrinos enter the detectors and smash into the argon nuclei, they produce charged particles. Those particles leave ionization traces in the liquid, which can be seen by sophisticated tracking systems able to create three-dimensional pictures of otherwise invisible subatomic processes. 

DUNE will not only study neutrinos, but their antimatter counterparts as well. Scientists will look for differences in behavior between neutrinos and antineutrinos, which could give us clues as to why the visible universe is dominated by matter. DUNE will also watch for neutrinos produced when a star explodes, which could reveal the formation of neutron stars and black holes, and will investigate whether protons live forever or eventually decay. Observing proton decay would bring us closer to fulfilling Einstein’s dream of a grand unified theory.

“DUNE is the future of neutrino research,” said Fermilab Director Nigel Lockyer. “Fermilab is excited to host an international experiment with such vast potential for new discoveries, and to continue our long partnership with CERN, both on the DUNE project and on the Large Hadron Collider.”

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Tue, 18 Sep 2018 14:00:00 +0100 https://content.presspage.com/uploads/1369/500_oct082017-0-61-crop.jpg?10000 https://content.presspage.com/uploads/1369/oct082017-0-61-crop.jpg?10000
Universities join forces with £6m cybersecurity scheme for 91ֱ's SMEs /about/news/universities-join-forces-with-6m-cyber-security-scheme/ /about/news/universities-join-forces-with-6m-cyber-security-scheme/299530The University of Manchester will be part of a new £6 million cybersecurity hub in collaboration with 91ֱ Metropolitan University (MMU), Lancaster University and the University of Salford

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The University of Manchester will be part of a new £6 million cybersecurity scheme launching today (Monday 3 September)

The initiative, which will be known as the GM Cyber Foundry, is in collaboration with 91ֱ Metropolitan University (MMU), Lancaster University and the University of Salford. The scheme will protect Greater 91ֱ’s small and medium-sized companies against malicious computer attacks.

Cyberattacks pose a £860m risk to the region’s businesses each year according to estimates by the Lloyds City Risk Register. To combat these threats some of the region’s leading universities are combining expertise and research in cybersecurity to create new products and services for SMEs.

The Foundry will match the research strengths of each university to the business needs of the local community; projects therefore can be developed in a targeted and streamlined way through business development intervention. It will also enable cybersecurity research capability, which is in great demand in the region, to be managed efficiently.

, Academic Coordinator for Cyber Security in at The University of Manchester says: “We'll jointly run targeted business engagement sessions, to supply specialised cybersecurity support and guidance, and also identify projects that can harness research and innovation expertise from the four partner universities. The goal is to see the development novel cybersecurity products and services.”

91ֱ’s vibrant digital and creative sector generates more than £3bn in economic output each year the city is growing as a centre for digital excellence, as seen with the opening of a Government Communications Agency site (GCHQ) in the city next year.

Mayor of Greater 91ֱ, Andy Burnham, says: “Through the work of the Cyber Foundry, our world-leading universities are giving start-ups and SMEs the freedom they need to create and innovate, but within digital environments that are safe and secure from cyber criminals.

“With over £25m being invested in fibre broadband connectivity, a planned £5m Cyber Innovation Centre, and the new GCHQ site, Greater 91ֱ is both a major hub for digital development and research, and a trusted place to do business.

“Greater 91ֱ is a rapidly expanding software and technology hotbed, and we’re perfectly positioned to become one of the top-five digital city-regions in Europe.”

The GM Cyber Foundry has been approved by the Ministry of Housing, Communities and Local Government, which allocated £3m of European Regional Development Fund (ERDF) funding to the scheme.

added: “I'm thrilled to be working with SMEs again on pragmatic, applied cybersecurity research to make working in GMCA's business ecosystem that bit safer.

“Direct innovation with them is the next logical step after my part in a Technology Strategy Board supported project that created the only information security benchmark designed with SMEs in mind.”

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Mon, 03 Sep 2018 16:00:00 +0100 https://content.presspage.com/uploads/1369/500_hacking-2903156-1920.jpg?10000 https://content.presspage.com/uploads/1369/hacking-2903156-1920.jpg?10000
Profound divisions in the UK revealed by Brexit study /about/news/profound-divisions-brexit/ /about/news/profound-divisions-brexit/255941A comprehensive report on Brexit and public opinion has revealed that the UK is a country deeply divided by class, place and age, and a values divide is emerging which could dramatically impact on politics in the years to come.

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A comprehensive report on Brexit and public opinion has revealed that the UK is a country deeply divided by class, place and age, and a values divide is emerging which could dramatically impact on politics in the years to come.

Nineteen months on from the EU referendum, University of Manchester Professors Rob Ford and Maria Sobolewska have co-authored the report by The UK in a Changing Europe, which underlines the divisions in UK society:

  • The emergence of a values divide around differing attitudes to diversity
  • Brexit has created new political identities: Leavers and Remainers view the world through prisms which shape their receptiveness to evidence based arguments
  • The generations are divided: 73% of 18-24 year olds voted Remain; 60% of over 65s voted Leave. This division has grown even more stark following the general election and is turning into a political cleavage
  • Brexit exposed the growing distinction between public attitudes in towns and cities, which relates to their contrasting economic trajectories: areas that experienced the most decline in recent decades voted Leave; whereas areas of relative growth were more likely to vote Remain
  • Divisions exist between the individual nations of the UK over fundamental constitutional questions
  • Divisions are also apparent between .

The report highlights a potentially emergent divide. Those who thought equal opportunities for ethnic minorities have gone too far voted heavily for Leave, and those who felt equal opportunities have not gone far enough were much more likely to have voted Remain.

The report warns that the robust link between views about ethnic equality and votes in the EU referendum could be a sign of an emergent values divide in the UK.

“There’s little evidence to support the prime minister’s statement that ‘the country has come together after Brexit’. Instead she is presiding over a divided and polarised nation," he continued.

The report is written by 27 academics, and is the most comprehensive and authoritative analysis of Brexit and public opinion to date. It analyses the referendum, last year’s general election, emerging Brexit identities and the public’s views of the Brexit negotiations.

The authors make several arguments as to why it is highly unlikely people will change their minds about the UK leaving the EU:

  1. people’s preferences about EU membership are tied up with values, which are entrenched and unlikely to shift
  2. ‘confirmation bias’ leads Remainers and Leavers to discount information that does not correspond with their values
  3. for many Leavers, the attraction of Brexit was about identity politics more than economic calculus

Most of the academics who contributed to the report are part of The UK in a Changing Europe, including John Curtice, Matthew Goodwin, Sara Hobolt, Rob Ford, Anand Menon and Maria Sobolewska.

To read the full report, .

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Thu, 01 Feb 2018 10:44:55 +0000 https://content.presspage.com/uploads/1369/500_brexit-debate.jpg?10000 https://content.presspage.com/uploads/1369/brexit-debate.jpg?10000
European tornadoes are real and their threat is underestimated /about/news/european-tornadoes-real-threat-underestimated/ /about/news/european-tornadoes-real-threat-underestimated/244782File 20170927 24162 1qnzhdk.jpg?ixlib=rb 1.1 A tornado in the town of Sonnac, France, in September, 2015. ,

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It is often assumed that do not occur in Europe and that they are a weather phenomena specific to the United States. But this is far from true. Not only do tornadoes strike in Europe – they do millions of pounds worth of damage, cause serious injuries and even lead to fatalities. Despite these facts they are still perceived as a curiosity and as a result their threat is underestimated.

Tornadoes have not always been overlooked in Europe and many natural philosophers and scientists have proposed theories about their formation and impact. Theories were proposed by Greek philosophers such as Aristotle in Meteorologica and Roman philosophers such as Seneca in Naturales Quaestiones. The systematic study of European tornadoes began in the 17th-century. Writing in 1694, the Italian astronomer and mathematician analysed a tornado that occurred in the Veneto region of Italy in July 1686.

In fact, before the end of the World War II, European scientists and meteorologists led the research into tornadoes while in the United States the word “tornado” was because the government was . But the situation changed in March 1948 when Air Force Captain Robert C. Miller and Major Ernest J. Fawbush and, as a result, the United States began to surpass Europe in the study of twisters.

After 1950, the interest of European researchers and meteorologists declined, despite the occurrence of high-impact tornadoes. For example, six tornadoes resulted in 232 injuries and 15 fatalities in France, Belgium, and the Netherlands. There has also been regular less intense tornadoes doing damage throughout Europe, such as the ones that in north-west London in 2006 and . Despite these incidents, there has still been a general lack of interest resulting in a lack of tornado databases which in turn lead to the .

Over the last two years, my colleagues and I have tried to change the general public opinion – and even the opinion of some researchers and meteorologists – concerning European tornadoes. The aim is to show that tornadoes do occur in Europe, although their reported frequencies and intensities are lower compared with the United States.

focused on developing a pan-European baseline climatology of tornadoes and waterspouts (a tornado over a body of water). We synthesised tornado and waterspout observations across Europe between 1800-2014 to understand the spatial and temporal distribution of these weather phenomena.

The synthesis was based on regional tornado sightings and articles published in peer-review journals for 30 European countries which contained 9,563 tornadoes and waterspout reports. These reports came mainly from western, southern and northern Europe, with just a few reports coming from Eastern Europe where databases were only developed after 1990.

Collaboration is key

We showed that tornadoes in Europe need to be . Between 1950 and 2015, European tornadoes resulted in 4,462 injuries, 316 fatalities and damages estimated at more than €1 billion. To increase awareness about tornadoes in Europe and to reduce their threat we believe that meteorological services across the continent, including researchers and the general public, need to collaborate more.

The threat can only be understood from a pan-European perspective. The tornado impact for individual countries will be perceived as low because European countries have relatively small areas and so the number of tornadoes will be low when compared with the impact in the US. A low impact will not justify the investment in the development of tornado databases and development of warning systems.

The contribution from the general public is essential. Unlike temperature records which are measured by thermometers, tornado records require the presence of an observer and the existence of a system for collecting the observations. Such systems to collect tornado reports have only been developed recently. Citizen science projects – such as the were the general public can submit tornado reports which are then verified by meteorologist and researchers – are the most efficient way to develop a pan-European tornado database.

The ConversationAfter being virtually ignored for more than 60 years, tornadoes in Europe are again a topic of research and discussion among academics and meteorologists. Despite the increased awareness of tornadoes, there is still more to learn about their spatial and temporal distribution and, maybe more important, about their impact.

, Research Associate School of Earth and Environmental Sciences,

This article was originally published on . Read the .

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Thu, 28 Sep 2017 15:00:00 +0100 https://content.presspage.com/uploads/1369/500_file-20170927-24212-272z3a.jpg?10000 https://content.presspage.com/uploads/1369/file-20170927-24212-272z3a.jpg?10000
European tornadoes are unrecognised threat say University experts /about/news/european-tornadoes-are-unrecognised-threat-say-university-experts/ /about/news/european-tornadoes-are-unrecognised-threat-say-university-experts/186620Tornadoes are an underestimated threat across Europe with the UK, Germany, and northern Italy at the greatest risk as tornado season fast approaches.

That’s according to new research by meteorologists at the University of Manchester’s Centre for Atmospheric Science in its School of Earth and Environmental Sciences and the European Severe Storms Laboratory in Germany.

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Tornadoes are an underestimated threat across Europe with the UK, Germany, and northern Italy at the greatest risk as tornado season fast approaches.

That’s according to new research by meteorologists at the University of Manchester’s Centre for Atmospheric Science in its School of Earth and Environmental Sciences and the European Severe Storms Laboratory in Germany.

Their research, which is being published in the journal , is the first ever threat calculation of tornadoes across the European continent.

The team analysed tornado reports from the European Severe Weather Database between 1950 and 2015, looking at the social and economic impact of tornadoes on the continent.

From the 66 years of meteorological, atmospheric and weather related data analysed they found that tornadoes in Europe have caused nearly one billion euros worth of damage, over 300 deaths, and over 4400 injuries.

Between 1950 and 2015, 5478 tornadoes were reported in 42 European countries. The tornado season for Europe is from May to August, with its peak in July.

Such is the scale of the problem, and with European tornado season just weeks away, the team says they want to raise awareness of the issue.

Dr Bogdan Antonescu, from Centre for Atmospheric Science, led the research. He said: “Currently the threat of tornadoes in Europe is not widely recognized. Few European meteorological services have developed and maintained tornado databases and even fewer have issued tornado warnings.

“Therefore, we are raising awareness of the threat of European tornadoes, which is perhaps unappreciated by the public, emergency responders, and governments across the continent.

“Despite what is often assumed by the general public and even by meteorologists and researchers, tornadoes do occur in Europe and they have caused thousands of injuries, hundreds of deaths and huge amounts of damage.”

 

Although the tornado threat seems to be less in Europe compared to the United States, the research says the true magnitude is unknown due to a huge lack of data collection. This is due to decades of neglect in monitoring tornadoes by official government and European agencies.

But this wasn’t always the case. There was a time when tornado research in Europe was more active than in the US. Before the Second World War, European scientists and meteorologists were actively researching tornadoes.

But the interest declined after 1950, with the majority of the efforts of collecting tornado reports occurring outside the national meteorological services. This lack of national databases has now resulted in an underestimation of the tornado threat to Europe. According to the team, it is a situation that persists today despite resurgence in European tornado research in recent years.

Professor David Schultz, Professor of Synoptic Meteorology from the University of Manchester, added: “The research summarizes all our current understanding of the tornado threat to Europe by showing the changes in tornado injuries and fatalities since the 1950s. It also, for the first time, estimates the damages associated with European tornadoes. No other study has systematically analysed the damages associated with tornadoes in Europe.”

The research also found that whilst UK, Germany, and northern Italy were at the highest risks of tornadoes, it is eastern and southern Europe where tornadoes have the highest societal impact. This means the number of injuries is twice as high and the number of fatalities three times higher in eastern and southern Europe than over western and northern Europe.

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Wed, 26 Apr 2017 09:26:28 +0100 https://content.presspage.com/uploads/1369/500_tornade-sonnac.jpg?10000 https://content.presspage.com/uploads/1369/tornade-sonnac.jpg?10000
Major European Commission grant to boost 91ֱ researchers’ quest for scanning techniques to improve arthritis and cancer drug safety /about/news/major-european-commission-grant-to-boost-manchester-researchers-quest-for-scanning-techniques-to-improve-arthritis-and-cancer-drug-safety/ /about/news/major-european-commission-grant-to-boost-manchester-researchers-quest-for-scanning-techniques-to-improve-arthritis-and-cancer-drug-safety/185475The University of Manchester is part of a new consortium which will develop new CT and MRI scan techniques and biomarkers to look at the accumulation of compounds in the body caused by drugs and the harm they may cause – potentially improving patients’ safety and the development of new treatments.

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The University of Manchester is part of a new consortium which will develop new CT and MRI scan techniques and biomarkers to look at the accumulation of compounds in the body caused by drugs and the harm they may cause – potentially improving patients’ safety and the development of new treatments.

The TRISTAN project, (Translational Imaging in Drug Safety Assessment) is a public-private partnership supported by involving organisations across Europe. The University of Manchester is a major part of this, receiving funding to develop scanning techniques for so-called imaging biomarkers for drug-induced liver and lung disease.

The researchers believe that by refining these techniques to adapt scans for specific compounds they can spot the early signs of disease, tailor individual treatments and identify problems with new drugs early in their development – potentially saving time and money.

One part of the package will be to develop a trial in rheumatology and patients who have drug induced lung toxicity. By scanning them, the researchers hope to refine techniques to spot this early on and identify which patients are most susceptible.

, a National Institute for Health Research Clinical Lecturer in Rheumatology, who is leading this part of the research in 91ֱ, said: "Some drugs can cause inflammation and damage in the lungs. We hope to develop scans that can identify early lung changes so that quick action can be taken to minimise harm to the patient. The scans may also help identify drugs which are at high risk of causing lung problems so they are not developed further.”

Another part of the project will investigate drug interactions and drug-induced liver disease. Specifically the researchers will look for the presence of imaging biomarker gadoxetate in liver cells. This will enable them to develop predictive models to help with the development of new drugs with less safety concerns.

, principal investigator and Reader in the School of Health Sciences/ Pharmacy, is leading this section of the project. She said: “Quite often drugs are far down the line of development before potential harmful side-effects are discovered. Use of imaging biomarkers and predictive models could help identify a drug that is not a good candidate much earlier, saving a lot of money and research time.”

Overall the five-year, European-wide project is budgeted at €24m. TRISTAN is led by Bayer and coordinated by the European Organisation for Research and Treatment of Cancer (EORTC). The University of Manchester will receive around £1.1m. Partners in this part of the work will be the University of Leeds, University of Sheffield/Sheffield Teaching Hospitals NHS Trust.

It will also involve The University of Manchester spin-out company Bioxydyn, a specialist provider of ground-breaking MRI applications and imaging services.

, a co-investigator and Director of (BRC) said: “Researchers across Greater 91ֱ are working towards a more personalised approach that matches individuals to the treatment most likely to work for them. This grant from the European Commission will complement the funding for our new BRC and support research into the use of advanced imaging biomarkers to better predict targeting of treatment and reduce the risk of side effects.”

Cancer

 is one of The University of Manchester’s - examples of pioneering discoveries, interdisciplinary collaboration and cross-sector partnerships that are tackling some of the biggest questions facing the planet. #ResearchBeacons

 

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Tue, 18 Apr 2017 11:27:25 +0100 https://content.presspage.com/uploads/1369/500__jil0599.jpg?10000 https://content.presspage.com/uploads/1369/_jil0599.jpg?10000
91ֱ wins award in European space innovation competition /about/news/european-space-innovation-competition/ /about/news/european-space-innovation-competition/153638Researchers from The University of Manchester have won a major award in Europe’s biggest space technology innovation competition. 

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Researchers from The University of Manchester have won a major award in Europe’s biggest space technology innovation competition. 

Dr Gail Millin-Chalabi, Dr Ioanna Tantanasi and Dr Stefania Amici from the University’s School of Environment, Education and Development (SEED) won the Copernicus Masters Sustainable Living Challenge in the The European Satellite Navigation Competition. Their invention, EnviroSAR, is a UK wildfire monitoring service which uses satellite Earth Observation data.

Fire and Rescue Services spend around £55 million every year fighting UK wildfires that damage unique habitats such as the UK’s moorlands and heathlands, and discolour drinking water supplies creating clean-up costs estimated at around £80 million nationally every 5 years for water companies alone.

The EnviroSAR service will help to understand patterns of UK wildfires, target land management, peat restoration, reseeding and reduce water discolouration and its associated costs.The monitoring and detection tool is based on a new analysis technique developed by the researchers to interpret Synthetic Aperture Radar and optical data, which will use the Copernicus Sentinel Earth Observation satellites to deliver ‘burnt-area’ imagery.

“We are extremely motivated and focused to grow EnviroSAR over the coming months, using the excellent platform that winning this challenge has provided.”

Other winning ideas from the UK included a low-cost early detection system for UAVs, a smartphone sleeve to enable access to the Galileo Public Regulatory Service (an encrypted navigation service for governmental authorised users), and a smart navigation device for cyclists.

"We rock at innovation here in the UK, and all of the winners demonstrate the fantastic potential for innovators to take advantage of the opportunities presented by satellite technology.” said Catherine Mealing-Jones, Director of Growth at the UK Space Agency."

“The competition itself helps to showcase and ultimately grow their ideas as businesses. The UK is proud to have such innovators and hope that they inspire others to realise what they stand to gain by having a go.”

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Thu, 27 Oct 2016 10:19:47 +0100 https://content.presspage.com/uploads/1369/500_envirosarteam.jpg?10000 https://content.presspage.com/uploads/1369/envirosarteam.jpg?10000
‘Human Brain Project’ receives €89 million from the European Commission /about/news/human-brain-project-receives-89-million-from-the-european-commission/ /about/news/human-brain-project-receives-89-million-from-the-european-commission/148469

A flagship project which launched a range of prototype computer platforms to support brain research - including one based at The University of Manchester - has just received an €89 million boost from the European Commission.

The ‘Human Brain Project’ is made up of six new informatics-based platforms across Europe which aim to accelerate scientific understanding of the human brain, make advances in defining and diagnosing brain disorders, and develop new brain-like technologies. The platforms are designed to help researchers advance faster and more efficiently by sharing data and results, and by exploiting advanced ICT capabilities. The platforms should enable closer collaboration between scientists to create more detailed models and simulations of the brain.

91ֱ’s contribution to the project is SpiNNaker (short for Spiking Neural Network Architecture), a computing platform made up of 500,000 microprocessors which emulates the way brain neurons fire signals in real time. SpiNNaker can be used to accurately model areas of the brain, and to test new hypotheses about how the brain might work. Because it runs at the same speed as the biological brain, it can be used to control robotic systems, providing ‘embodiment’ for the brain models. This biological approach to robot control is very different from the algorithmic systems more commonly used in robotics.

The project aims to deliver a collaboratively-built first simulation of the human brain by 2023, which will not be a complete replication of every detail, but will provide a framework for integrating data and knowledge about the human brain from worldwide research and clinical studies.

The new funding was agreed following a successful review, in which the Human Brain Project was praised for making significant progress during its first phase (October 2013-March 2016).

Thomas Skordas, Acting Director of the European Commission Digital Excellence and Scientific Infrastructure Directorate, said: “The Human Brain Project is now ready and well-prepared to begin its next phase. We have established the right basis for the Project to make significant progress in the coming two years towards reaching its overall goals”.

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Mon, 12 Sep 2016 11:21:06 +0100 https://content.presspage.com/uploads/1369/500_img-2993.jpg?10000 https://content.presspage.com/uploads/1369/img-2993.jpg?10000
91ֱ is second in Western Europe as research quality grows /about/news/manchester-is-second-in-western-europe-as-research-quality-grows/ /about/news/manchester-is-second-in-western-europe-as-research-quality-grows/138016The University of Manchester has been ranked second in Western Europe and 18th in the world in a new table of research quality growth, produced by the publishers of one of the world’s most highly rated scientific journals.

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The University of Manchester has been ranked second in Western Europe and 18th in the world in a new table of research quality growth, produced by the publishers of one of the world’s most highly rated scientific journals.

supplement identifies the countries and institutions showing the most significant growth in high-quality research publications, using the Nature Index, which tracks the research of more than 8,000 global institutions.

91ֱ, despite having a high quality research base already, dramatically increased its score last year, propelling it to second in Western Europe, behind only Oxford. This also placed it 18th in the world - alongside eight other UK institutions.

The top 100 most improved institutions in the index between 2012 and 2015 are ranked by the increase in their contribution to 68 high-quality journals.

91ֱ has among current and former staff and students, including three currently working at the University. Discoveries such as – which earned its discoverers the Nobel Prize for Physics in 2010 complement including: cancer, industrial biotechnology, energy, global inequalities and advanced materials.

, Vice-President for Research and Innovation at The University of Manchester, said: “This news is testament to the talented staff and students who work on research at 91ֱ and are consistently successful in getting their results published in the world’s leading journals.

“The University strives to give these gifted researchers the best environment and opportunities to carry out their work and deliver results that have a significant impact on our understanding of the world around us.”

First launched in November 2014, the Nature Index database tracks the author affiliations of research articles published in a group of 68 high-quality natural science journals, which have been selected by independent panels of active scientists.

Responses from over 2,800 individuals to a large scale survey were used to validate the selections. Springer Nature estimates that these 68 journals account for nearly 30% of total citations to natural science journals.

David Swinbanks, Founder of the Nature Index, said: “With four years of data already behind it, the Nature Index is an increasingly powerful tool to assess research performance. By identifying these rising stars, we’re given an insight into which new emerging institutions are likely to play a role in addressing some of the globe’s most pressing challenges. Providing researchers and institutions with this data, through the index’s freely accessible website, is another example of how Nature Research is working to meet the scientific community’s needs.”

More information about the Nature Index is available at

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Thu, 28 Jul 2016 13:50:00 +0100 https://content.presspage.com/uploads/1369/500_universityofmanchester.jpg?10000 https://content.presspage.com/uploads/1369/universityofmanchester.jpg?10000
Tram passengers transported to another world for ESOF /about/news/tram-passengers-transported-to-another-world-for-esof/ /about/news/tram-passengers-transported-to-another-world-for-esof/137704Metrolink customers will be transported to another world on their journey during this week’s City of Science Festival (22-29 July), thanks to a collaboration with The University of Manchester’s School of Physics and Astronomy.

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Metrolink customers will be transported to another world on their journey during this week’s City of Science Festival (22-29 July), thanks to a collaboration with The University of Manchester’s School of Physics and Astronomy.

Customers travelling on specially branded ‘Astrotrams’ can take a tour of the universe and gaze up at the night sky and our expansive universe.

Astrotram ceilings will be filled with astronomy facts and interactive triggers and customers who download the free SciMan app can play augmented reality videos, bringing science to life.

Passengers on Metrolink stops will also be treated to intergalactic facts from Professor Brian Cox.

It’s all thanks to collaboration between Transport for Greater 91ֱ (TfGM), at The University of Manchester, the University of Salford, and the European City of Science programme.

On Wednesday 27 and Thursday 28 July, passengers on the two specially branded Astrotrams and at city centre tram stops will also be treated to live experiments by science buskers.

Join in the interactive fun by downloading the SciMan app, and by following on Twitter and using #ASTROTRAM.

Peter Cushing, Metrolink Director for Transport for Greater 91ֱ (TfGM), said: “We’re delighted to bring these Astrotrams on board the network to help bring science to life for our customers during the exciting City of Science Festival.

“With free WiFi onboard all trams, people can download the SciMan app for free and learn about science on their journey, while passengers on Metrolink stops will be treated to intergalactic facts from none other than Professor Brian Cox.

“Anyone can join in by following #ASTROTRAM on social media. I look forward to seeing people’s videos of science buskers on trams and at city centre stops.”

, Lecturer in astrophysics at the University of Manchester said: “91ֱ has a rich heritage of physics and astronomy discoveries ranging from Rutherford first splitting the atom, to Lovell pioneering radio astronomy at Jodrell Bank, to Geim and Novoselov isolating the properties of grapheme.

“We still continue this tradition of cutting-edge science and want to show 91ֱ that they are a part of it. There is nothing like a tram commute to daydream… about our Universe.”

Dr Annie Keane, Director of the European City of Science Programme said: “The partnership between the universities and Transport for Greater 91ֱ gives a unique addition to the Science in the City festival programme.

“We hope people taking a tram will be entertained and educated as they travel on a journey through the Milky Way, unlocking the secrets of the Universe on this very special app.”

The festival runs alongside the EuroScience Open Forum (ESOF), marking 91ֱ’s designation as European City of Science, and is designed to engage and inspire everyone, from the next generation of scientists to anyone of any age with an interest in the world we live in.

More news about ESOF can be found and by following #ESOF16

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Tue, 26 Jul 2016 11:04:15 +0100 https://content.presspage.com/uploads/1369/500_astrotram.jpg?10000 https://content.presspage.com/uploads/1369/astrotram.jpg?10000
Welcome to ESOF! /about/news/welcome-to-esof/ /about/news/welcome-to-esof/136186This is 91ֱ science and in our university, we do it differently

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  • This is 91ֱ science and in our university, we do it differently
  • The EuroScience Open Forum is here in 91ֱ and 4,500 people from all over the world are in the city this week for the latest in cutting-edge science that impacts almost every area of our daily lives.

    From the keynote speakers such as Professor Brian Cox and Professor Sir Andre Geim, to sessions on medicine, climate change and the business of science, The University of Manchester is heavily involved in all aspects of ESOF - showing how we do things differently here.

    And outside of the conference we’re running a huge number of events – to the public and getting out and about with a series of .

    The ESOF champion is the University’s President and Vice-Chancellor, Professor Dame Nancy Rothwell who says: “It’s my great pleasure to welcome delegates, including science enthusiasts of all kinds to ESOF 2016 for what I’m certain will be a week of inspiring, engaging and challenging events. As champion of the Forum and a scientist myself, it was my goal to create a programme that I would personally want to attend, and I believe we’ve achieved that.

    “With its theme of ‘science as revolution’ what better place to hold ESOF 2016 than 91ֱ – the birthplace of the world’s first industrial revolution.”

    You can get all the latest on ESOF at or take part by following on Twitter. The full programme is available on .

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    Sun, 24 Jul 2016 15:00:00 +0100 https://content.presspage.com/uploads/1369/500_m1629someesof5.jpg?10000 https://content.presspage.com/uploads/1369/m1629someesof5.jpg?10000
    David Willetts speaks at ESOF /about/news/david-willetts-speaks-at-esof/ /about/news/david-willetts-speaks-at-esof/136910

    Lord David Willetts, the Executive Director of the Resolution Foundation, and Former Minister for Universities and Science is deliver this year's Fred Jevon's Science Policy Lecture on Monday 25 July on how government supports science and technology, and how it can frame an effective industrial strategy. 

    The event is organised by The University of Manchester’s Centre for the History of Science, Technology and Medicine and 91ֱ Institute of Innovation Research, which collectively constitute one of the world’s major centres of expertise in the social, historical, economic and political analysis of science and technology.

    It will take place at 91ֱ Town Hall from 2:15pm to 3:30pm, and is part of ESOF - the Euroscience Open Forum - bringing together over 4,500 leading thinkers, innovators, policy makers, journalists and educators from more than 90 countries.

    The Fred Jevons Science Policy Lecture commemorates the founding professor of ‘Liberal Studies in Science’ at 91ֱ. 91ֱ has long been a major centre for social, economic and historical studies of science and technology, a history consolidated by the establishment of a Department of Liberal Studies in Science in the 1960s.

    Please note, it is not necessary to be registered for ESOF to attend the lecture. This is a free event but to attend, please register .

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    Fri, 22 Jul 2016 11:00:00 +0100 https://content.presspage.com/uploads/1369/500_david-willetts-to-use-609x336.jpg?10000 https://content.presspage.com/uploads/1369/david-willetts-to-use-609x336.jpg?10000
    Results of European health survey of pregnant women released /about/news/results-of-european-health-survey-of-pregnant-women-released/ /about/news/results-of-european-health-survey-of-pregnant-women-released/136245Almost 2,500 pregnant women and new mothers have participated in research on their diet and lifestyle behaviours

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    Almost 2,500 pregnant women and new mothers have participated in research on their diet and lifestyle behaviours

    The first results of '', an EU-funded pilot project involving The University of Manchester, to promote healthy diets and lifestyles to pregnant women and new mothers, show that nearly 40% of pregnant women are neglecting their greens - eating less than one portion of vegetables per day.

    This is only one result of a survey carried out among pregnant and breastfeeding women in six European cities: 91ֱ, United Kingdom; Murcia, Spain; Odense and Kolding, Denmark; Prague, Czech Republic; and Varna, Bulgaria. It gathered key insights that the cities will use to decide which activities are most needed to support the women in improving their lifestyles.

    Community involvement and the participation of pregnant and breastfeeding women in health-promoting activities on offer are key to the project's success.

    The project particularly wants to reach vulnerable women (with low education level, low income, very young mothers, or women with linguistic barriers). Each city made special efforts to reach this target group and to include their answers in the findings.

    Highlights from the survey of 2,500 women:

    One out of five pregnant women feel stressed during the pregnancy, but 95% have the help and support of their partners who are emotionally supportive and concerned about their health and that of the unborn child. However, only 50% of men take part in prenatal classes.

    Three out of four women are willing to do everything they can to safeguard their babies’ health – both during pregnancy and the breastfeeding period. They start eating and drinking more healthily, quit bad habits and 84% of pregnant women start taking vitamin supplements. 50% of women who smoke quit during their pregnancy, and 40% cut back on cigarettes (on average from 10 a day to 5 a day).

    Over 80% of pregnant women get into drinking water, having a glass more than three times a day. Many are even willing to have a glass in place of coffee, with 50% of women drinking a lot less or giving it up altogether.

    As far as diet and exercise goes, intentions are good - the majority of pregnant women intend to eat more vegetables and fruit, and keep up or increase regular physical activity.

    However, only about 60% of pregnant women eat at least one portion of vegetables a day. Fruit is more popular, with 3 out of 4 women eating at least one portion a day. While 50% of women confess to snacking more between meals, it is mainly on fruit.

    There is room for improvement when it comes to exercise, and most pregnant women end up lowering or stopping their normal exercise routines.

    Eighty-four percent intend to breastfeed their baby and the most common reasons to consider using formula is because women are not confident that breast milk will meet their babies’ needs or that they will have trouble breastfeeding.

    Keep up-to-date through the 'Together' website, and check out all the key findings of the zero-measurement .

    91ֱ at a glance…

    While pregnancy can be a stressful time, 89% of Manchester women say they are able to cope ‘very well’.

    A new baby is likely to inspire women in 91ֱ to bring healthier habits to the whole family. 70% believe that the whole family needs to maintain healthy diet and lifestyle habits in order to ensure the health of their babies.

    While eating enough vegetables is a problem for many women, it is less so in 91ֱ. 31% eat at least two portions per day.

    “These findings from across Europe support academic findings from the USA and UK that pregnancy is a time in which women are more motivated to make lifestyle changes and health professionals should see this as an ideal opportunity to make healthy changes for the whole family,” said Dr Debbie Smith, Clinical Health psychologist, The University of Manchester.

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    Fri, 15 Jul 2016 09:07:55 +0100 https://content.presspage.com/uploads/1369/500_shutterstock-410899978.jpg?10000 https://content.presspage.com/uploads/1369/shutterstock-410899978.jpg?10000
    Science and the City as University takes over 91ֱ for ESOF /about/news/science-and-the-city-as-university-takes-over-manchester-for-esof/ /about/news/science-and-the-city-as-university-takes-over-manchester-for-esof/135746Reanimating organs in a library, an inflatable museum and cancer as art – The University of Manchester is playing a major part in Science in the City this month, where thousands of people are expected to visit public spaces to take part in fun and cutting-edge science.

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    Reanimating organs in a library, an inflatable museum and cancer as art – The University of Manchester is playing a major part in Science in the City this month, where thousands of people are expected to visit public spaces to take part in fun and cutting-edge science.

    The full programme of more than 40 events accompanying conference can be found , but below are a few highlights from The University of Manchester’s involvement.

    And if you want to see where our cutting edge science takes place, don’t forget to check out our , happening at the same time.

    22-29 July

    Visit the Allotment of the Future to explore how we could make the most of our urban spaces to grow food in the future and what kind of menus we might be choosing from in years to come.

    Ever wondered what it might be like to have bugs for breakfast, algae for lunch, or grow crops from used coffee grounds? Find out how technology might change domestic growing and discover what’s so important about soil.

    23-29 July

    Sit down in conversation with an incredible array of talent from across the scientific, literary and arts communities in the Petri Parlour – the place where ideas grow. Click on the links below for more information and booking.

    23 July

    On 23rd July 2016, 12 female scientists will take to their soapboxes in Piccadilly Gardens, 91ֱ city centre to demonstrate and discuss their research. Come and be inspired by cool science from across the North West. There will be something for everyone; from clouds to cancer, protons to parasites, neuropsychology to nanoscience.  Think you won’t understand it? Think again. Come and find out how scientific research informs everyday life. Don’t miss it!

    23-29 July

    To celebrate 91ֱ’s year as European City of Science, we’re bringing Cancer Research UK’s research to life like never before. Designers from The University of Manchester and 91ֱ Metropolitan University have worked with researchers from and patient volunteers to create unique artworks that showcase our latest scientific advances and tell the personal journeys of people affected by cancer.

    25 July

    brand new Inflatable Museum will be popping up in 91ֱ Cathedral for a day of interactive, exploratory activities for under-5s and their families.

    25 July

    What is it like to give birth stateless and in transition and what is the impact on the women and children involved?

    One of the most pressing issues of our time is one of the questions driving B!RTH, a festival of work which will explore global health inequality through the lens of childbirth at the Royal Exchange Theatre. Join The University of Manchester’s Professor of Global Health and Humanitarian Affairs, Mukesh Kapila CBE, and award-winning Syrian playwright Liwaa Yazji with other panellists to explore the realities, the struggle and the hope of new life and what can be done to prevent a generation being forever lost.

    26 July

    In this celebration of Science and Poetry, we have paired together some of Manchester’s finest young poets with researchers from across the ESOF programme. Following the ESOF Science Meets Poetry daytime event, these poets will perform their collaborative pieces in the setting of . Biology battles balladry, physics pairs with pentameter, and chemistry confronts cadence in a celebration of the creative similarities between science and the performing arts.

    26 July

    Join us for an evening where women debate important questions, celebrate the careers of female scientists, innovators and educators, and inspire women to become leaders in their field. Featuring a series of informal social events, the evening will encourage new dialogue between women from across Greater 91ֱ as well as those visiting for the EuroScience Open Forum.

    Featuring: , astrophysicist, University of Manchester

    27 July

    Climate change is happening all around us, and this isn’t the time to ignore it, it’s the time to get really, really, creative. Join scientists and artists for an evening of creativity exploring a zero carbon future.

    29 July

    When a vital organ, such as the heart, lungs, or kidneys stops working, our lives are in great danger. But advances in medical science have made it possible for us to receive replacements, transplanted from deceased or living donors. At Reanimate, visitors can see a kidney working and a heart beating outside of the body, and explore the possibilities of organs returning to life.

    Drop in and learn more about reconditioning donor organs for transplantation from and his team from the 91ֱ Collaborative Centre for Inflammation Research at The University of Manchester.

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    Fri, 08 Jul 2016 14:14:03 +0100 https://content.presspage.com/uploads/1369/500_5f7v2553-sml.jpg?10000 https://content.presspage.com/uploads/1369/5f7v2553-sml.jpg?10000
    European cancer scientists converge on 91ֱ to share latest research /about/news/european-cancer-scientists-converge-on-manchester-to-share-latest-research/ /about/news/european-cancer-scientists-converge-on-manchester-to-share-latest-research/135438Cancer experts from around Europe will converge on 91ֱ this weekend (July 9-12) to share expertise with the city’s world-leading scientists at a special Congress.

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    Cancer experts from around Europe will converge on 91ֱ this weekend (July 9-12) to share expertise with the city’s world-leading scientists at a special Congress.

    Organisers say 91ֱ was chosen to host the European Association for Cancer Research because it is a global centre of excellence for cancer research.

    The Congress, which forms part of Manchester City of Science, will see experts share work spanning from basic research to precision medicine – where treatments can be tailored towards individual patients’ differing tumours.

    Scientists from Cancer Research UK 91ֱ Institute and The University of Manchester will be amongst those showcasing their work.

    President Professor Richard Marais, who is also Director of , based at The University of Manchester, said the Congress was an important event for the city.

    Professor Marais said: “91ֱ is a city of medical and healthcare pioneers and today provides an environment where innovation can grow and prosper.

    “It is a hub for top global pharmaceutical, medtech and biotech companies – there are 250 life sciences companies in the region, as well as four universities with a strong track record of working with industry.

    “This Congress features an exciting scientific programme, with world-class speakers covering all of the most innovative current research topics from basic research into the biology and understanding of cancer right through to precision medicine.

    “This is an emerging important concept in cancer research and treatment today and one of the key focuses of ,- a partnership between Cancer Research UK, The University of Manchester and The Christie NHS Foundation Trust.

    “Researchers here in 91ֱ and from all over Europe will be able to share their latest work and make new contacts and collaborations that will support important cancer research work in the future.”

    The Congress will open with a speech from Sir Harpal Kumar, Cancer Research UK’s chief executive who suggests the best way to predict the future is to invent it.

    91ֱ has been chosen as – testament to its important scientific heritage. The Congress will take place at 91ֱ Central on 9-12 July.

    is one of The University of Manchester’s research beacons - examples of pioneering discoveries, interdisciplinary collaboration and cross-sector partnerships that are tackling some of the biggest questions facing the planet.

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    Tue, 05 Jul 2016 15:18:55 +0100 https://content.presspage.com/uploads/1369/500_uom-research-011214-0445.jpg?10000 https://content.presspage.com/uploads/1369/uom-research-011214-0445.jpg?10000
    Not coming to ESOF? Get behind the scenes of science instead! /about/news/not-coming-to-esof-get-behind-the-scenes-of-science-instead/ /about/news/not-coming-to-esof-get-behind-the-scenes-of-science-instead/135321To coincide with the EuroScience Open Forum, held in 91ֱ this month, The University of Manchester is throwing open its doors to give people a rare opportunity to see behind the scenes in labs where the next big discoveries are being made by our researchers.

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    To coincide with the EuroScience Open Forum (), held in 91ֱ this month, The University of Manchester is throwing open its doors to give people a rare opportunity to see behind the scenes in labs where the next big discoveries are being made by our researchers.

    Over two days (26 and 27 July) visitors will be able to see behind the scenes of the National Graphene Institute where two of our Nobel Prize winners work on the latest uses of this wonder material, take part in experiments including whole body scanning and flying robots, and see the reptiles and amphibians held in the 91ֱ Museum’s vivarium up close.

    The OpenLabs programme includes more than 30 events accessible to a range of ages and levels of scientific knowledge and most are full of hands-on fun.

    Plan your visit at and keep up with all the action using as 91ֱ celebrates being this year’s European City of Science.

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    Thu, 30 Jun 2016 00:00:00 +0100 https://content.presspage.com/uploads/1369/500_high-voltage-research-centre-s.jpg?10000 https://content.presspage.com/uploads/1369/high-voltage-research-centre-s.jpg?10000
    The University of Manchester at ESOF: Wednesday 27 July /about/news/the-university-of-manchester-at-esof-wednesday-27-july/ /about/news/the-university-of-manchester-at-esof-wednesday-27-july/135408

    From flying cars to graphene and the environment and big data there’s plenty of University of Manchester knowledge for delegates to tap into at ESOF.

    You can see below for all of our events at the conference on Wednesday and don’t forget that outside of the event there’s also our huge for delegates and non-delegates alike to get involved in.

    • For more on The University of Manchester at ESOF, .
    • See the full ESOF programme .

    All week

    The event provides a great opportunity for early-stage career researchers to pose questions and share ideas on the direction of their research, careers and future paths and to have general science discussions – all in an informal atmosphere with a leading professor in their field of interest.

    Wednesday, 27 July

    8:30 - 9:45 am

    We will frame the climate change debate within its historical dimension, highlighting recurrences and elements of novelty from past to present.

    8:30 - 9:45 am

    By showcasing pan-European examples, we will take an up-close and personal look at the crossover between musical and citizen science experiments to explore how audience participation is shaping and impacting scientific research, musical expression, social connectivity and care.

    10:00 - 12:30 pm

    In this session international experts will describe how they see the state-of-the-art in building machines aimed at accelerating our understanding of brain function, and discuss with the audience prospects for future progress in this exciting scientific endeavour.

    11:25 - 12:40 pm

    The chances of climate impacts worsening as average global temperature rise exceeds 2°C – or even 4°C - by 2050, are increasing. In the face of the likelihood of high-end climate change, how can scientists and communicators of science be more than ‘narrators of doom’, instilling defeatism and negativity?

    11:25 - 12:40 pm

    Since its creation in 2007, the European Research Council (ERC) has spent more than €8 billion on 'frontier research', funding almost 5000 research projects across the EU and associated countries. How did the ERC come about? What are the premises of its success, and what are the lasting tensions with which it has to grapple? What is the outlook for this institution? And what has it really achieved?

    2:15 - 3:30 pm

    Following up his BBC 2 series on the history of China, Michael Wood will look at some of the current thinking about what historians have come to see as the Great Divergence, with special reference to the North-West and the city of Manchester itself, and to the role of science in the rise of the West - asking whether it is inevitable that the East will rise again to the position it held for much of pre-modern history.

    3:45 - 5:00 pm

    Big data is characterised by volume, velocity, variety and veracity. Data of this form arises at unprecedented rates, with increased recognition of its potential to dramatically change the environments we live in. Panel members are technical, academic and panellists from businesses and services, including health, smart, green, integrated transport and resource efficiency.

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    Wed, 29 Jun 2016 00:10:00 +0100 https://content.presspage.com/uploads/1369/500_06-32.jpg?10000 https://content.presspage.com/uploads/1369/06-32.jpg?10000
    The University of Manchester at ESOF: Tuesday 26 July /about/news/the-university-of-manchester-at-esof-tuesday-26-july/ /about/news/the-university-of-manchester-at-esof-tuesday-26-july/135407

    From flying cars to graphene and the environment and big data there’s plenty of University of Manchester knowledge for delegates to tap into at ESOF.

    You can see below for all of our events at the conference on Tuesday and don’t forget that outside of the event there’s also our huge for delegates and non-delegates alike to get involved in.

    • For more on The University of Manchester at ESOF, .
    • See the full ESOF programme .

    All week

    The event provides a great opportunity for early-stage career researchers to pose questions and share ideas on the direction of their research, careers and future paths and to have general science discussions – all in an informal atmosphere with a leading professor in their field of interest.

    Tuesday, 26 July

    8:30 - 9:45 am

    The emerging science of synthetic biology (SynBio) has the potential to transform the industrial landscape in sustainable manufacturing processes across industrial sectors, such as healthcare, sustainable energy, green chemistry, pharmaceuticals, novel materials and bioremediation, and to address major societal grand challenges. This panel debate will discuss these challenges in an open forum.

    10:00 - 11:15 am

    Soil is a vibrant but delicate habitat in its own right: a teaspoon of soil can contain more living organisms than there are people on the planet. It is critical to life, but we often take it for granted. We will discuss the challenges to be met and potential solutions and good practices in order to define and implement a strategic approach to soil management and soil biodiversity protection.

    11:25 - 12:40 pm

    True science is as creative as any art form, but what is creativity? Join us as John Lloyd, BAFTA award winning television producer and writer, quizzes Sir Andre Geim, Nobel laureate in physics, on where ideas come from, what drives him as a scientist and the secret to his success.

    12:50 - 2:05 pm

    We will explore the relationship between the healthcare industry, the research community and the public in the developing healthy and trustworthy models which may allow data to be used for individual and society level benefits.

    12:50 - 2:05 pm

    By exploring some of the most promising strategies that the European Union, Canada, Denmark and UK have adopted to promote interdisciplinary excellence and top-quality research, we will reflect upon past, present and future drivers of interdisciplinary research, and set the agenda for academic leadership in the future.

    3:45 - 6:15 pm

    Hear from graphene Nobel laureate Sir Kostya Novoselov, as he presents how 2D materials research could spark a revolution in real-world applications, and from Professor Frank Koppens, who discusses how the Graphene Flagship is ensuring that Europe can compete globally in making graphene products a reality.

    3:45 - 5:00 pm

    Nanomaterials and their use in regenerative medicine have the potential to improve diagnosis and treatment of debilitating diseases including Parkinson’s, cancer and diabetes. Does society want an advanced human, and if so, how far are we prepared to go?

    5:10 - 6:25 pm

    Across history, many animal species have contributed to human health and well-being. But how can we better understand these animals and what they do so that new technologies can be developed to support their work?

    5:10 - 6:25 pm

    Motivated by an on-going project within the European Parliament, we seek to demonstrate that the interaction between artists, scientists and citizens is essential to the development of functional societies, and brings added value to both arts and sciences.

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    Wed, 29 Jun 2016 00:05:00 +0100 https://content.presspage.com/uploads/1369/500_kostyafavgc_uom_graph_inst_jan13_q-097col.jpg?10000 https://content.presspage.com/uploads/1369/kostyafavgc_uom_graph_inst_jan13_q-097col.jpg?10000
    The University of Manchester at ESOF: Monday 25 July /about/news/the-university-of-manchester-at-esof-monday-25-july/ /about/news/the-university-of-manchester-at-esof-monday-25-july/135405

    From flying cars to graphene and the environment and big data there’s plenty of University of Manchester knowledge for delegates to tap into at ESOF.

    You can see below for all of our events at the conference on Monday and don’t forget that outside of the event there’s also our huge for delegates and non-delegates alike to get involved in.

    • For more on The University of Manchester at ESOF, .
    • See the full ESOF programme .

    All week

    The event provides a great opportunity for early-stage career researchers to pose questions and share ideas on the direction of their research, careers and future paths and to have general science discussions – all in an informal atmosphere with a leading professor in their field of interest.

    Monday, 25 July

    8:30 - 9:45 am

    We will demonstrate what 3D imaging can achieve today, with scales ranging from metres to the atomic, and time lapse imaging ranging from weeks to milliseconds. We will also provide a window on what might be achievable tomorrow.

    8:30 - 9:45 am

    The deluge of data brought by experiments, whether in physics, biology or astronomy is pushing us to think of innovative ways to transport, process, distribute and store information. So what direct benefits will big data bring to society?

    11:25 - 12:40 pm

    Brian Cox FRS is Professor of Particle Physics at the University of Manchester and The Royal Society Professor for Public Engagement in Science. He is active in the public and political promotion of science, and is known to the public for his documentary work on BBC television. In this session Professor Cox sits down with Matthew Cobb, Professor of Zoology at The University of Manchester to talk about Life, the Universe and Everything.

    12:50 - 2:05 pm

    We will showcase selected revolutionary technologies and assess policy scenarios by considering scientific advice regarding a technology’s risks and its legislative implications. The session also aims to integrate live social interaction with participants via Twitter.

    2:15 - 3:30 pm

    Interested in starting a company? Come try it on for size first at this workshop, run by experts in spin-out companies who have devised a game to illustrate the challenges you may face in starting your own company.

    2:15 - 3:30 pm

    Medical innovation offers the allure of improvements in individual well-being, the potential for greater health care choices and the appeal of highly lucrative business opportunities. How do we ensure this innovation is developed responsibly, with due consideration for legal and ethical aspects?

    2:15 - 3:30 pm

    Humour is an important part of the culture of science. Often portrayed as humourless individuals or as geeks, scientists enjoy stepping back and laughing at themselves and their colleagues. We will provide an opportunity for scientists, science journalists, and others who work in and around the scientific world to talk about humour in science. Can a piece of scientific research be both important and humorous?

    3:45 - 6:15 pm

    Synthetic biology has the potential both to transform the industrial landscape across all sectors - including healthcare, sustainable energy, green chemistry, pharmaceuticals, novel materials and bioremediation - and to address major societal challenges. Visionaries of synthetic biology, together with ethicists and social scientists from the SYNENERGENE project will anticipate future applications for synthetic biology and reflect on their ethical and societal implications.

    3:45 - 5:00 pm

    Science increasingly permeates our lives through new modes of education and social media channels, while the rise of citizen science has become a powerful tool for collaboration. We will explore society's growing expectations to be informed of research, in line with its values for transparency, and also increasingly to have a say through social media and its desire to engage with research through citizen science.

    3:45 - 5:00 pm

    We will showcase the first results from a major survey examining changes in innovation management and practice across a diverse range of industry sectors in 11 EU member states. The panel of senior industrial managers and policymakers will discuss the implications of these findings around the four propositions.

    5:10 - 6:25 pm

    Public involvement in scientific research cuts across all subject areas, disciplines and stages of science; it is relevant to scientific practice, policy and governance; it can foster alternative and innovative approaches. We will debate what needs to happen next to continue to enable public involvement as a force for positive change in science.

    5:10 - 6:25 pm

    Over the past two decades, the language of public policy has shifted from top-down assertions of scientific authority towards engagement, dialogue and co-production between formally trained scientists and other communities. We will explore the value of arts, humanities and social science research in developing this understanding, highlighting the roles of history, creative writing, drama and electronic media approaches to dialogue, and participatory and DIY modes of “doing science”.

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    Wed, 29 Jun 2016 00:00:00 +0100 https://content.presspage.com/uploads/1369/500_briancox2.jpg?10000 https://content.presspage.com/uploads/1369/briancox2.jpg?10000
    European research to tackle the triple challenge of dementia, hearing and vision impairment /about/news/european-research-to-tackle-the-triple-challenge-of-dementia-hearing-and-vision-impairment/ /about/news/european-research-to-tackle-the-triple-challenge-of-dementia-hearing-and-vision-impairment/117333The combined impact of dementia, age-related hearing and vision impairment is to be investigated by a new multi-million European research consortium led by The University of Manchester.

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  • Seven in ten Europeans over the age of 65 suffer from either sight or hearing problems
  • Over two thirds suffer from depression or dementia
  • The project aims to investigate this combined impact and develop new tools
  • The combined impact of dementia, age-related hearing and vision impairment is to be investigated by a new multi-million European research consortium led by The University of Manchester.

    Seven in ten Europeans over the age of 65 suffer from either sight or hearing problems and over two thirds suffer from depression or dementia. When combined together the cumulative impact of these dual or triple impairments is far greater than the individual conditions. The scale of combined sensory and cognitive problems is substantial but poorly understood.

    The five year project, led by The University of Manchester, has been funded with €6.5m from the European Commission’s research programme. The project aims to investigate this combined impact and develop new tools that could improve quality of life and optimise health and social care budgets across Europe.

    , an academic psychiatrist from The University of Manchester, who is the lead researcher on the project, said: “In combination these problems have a much greater effect than each one individually. Imagine if you have dementia which affects your memory or interferes with your recognition of familiar people. When you add visual impairment to that, you can understand why those affected may experience even greater cognitive difficulty or even experience altered behaviour such as agitation or hallucinations.

    “The burden on carers – often family members – is also increased as they are required to do much more on a daily basis and we see a greater number of these suffering from burn-out.”

    The project seeks to define the scale of the challenges so that authorities across the continent can allocate resources more optimally. At the same time, researchers will also develop online tests, guides and multi-lingual training manuals to help medical professionals diagnose and treat the combined problems more effectively.

    Minority groups are particularly disadvantaged with respect to diagnosis and treatment of mental and sensory problems, so researchers will be seeking out people from these groups to participate in the research.

    The programme will also trial an intervention of at-home support for people with dual- and triple-impairments. This will be supported by specialist sensory therapists based at and will focus around pragmatic solutions to support both the affected person and their carer.

    , a University of Manchester audiologist and co-lead of the SENSE-Cog project said: “Millions of people in the UK and wider EU are affected by this combination of problems and it’s only going to get more prevalent as the population ages. That’s why we have to understand the scale of the problem and then equip the public, carers and health care workers with the tools they need to deal with it. If we could reduce disability due to hearing and vision impairment, there is huge potential to improve mental well-being and even delay the deterioration of dementia.”

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