Here is a batch of fresh news and announcements from the entire Imperial.
Here’s some quick news from the entire university, from collaborations to protect and restore British seagrass habitat to insights into how insects attach to the surface.
Restoration of underwater meadows
Imperial College London becomes a key academic partner of the Blue Meadows Project, an ambitious program aimed at protecting and restoring seagrass habitats in the United Kingdom, benefiting biodiversity and supporting carbon storage. became.
Marine Conservation Trust (OCT) recently launched BlueMeadows to protect 700 hectares of British seagrass, or 10%, and create a blueprint for restoration. Roger Maslin, CEO of OCT, said the project is “an important step forward for our environmental activities.”
Imperial and OCT are working together to improve the process of large-scale seagrass recovery and quantify the variability of carbon stored in British seagrass pastures.
Recently returned from a field expedition with OCT, Imperial Reed Dr. Emma Lansamfrom Department of Life Sciences, Says: “Currently, there are many uncertainties about the carbon benefits of British seagrass meadows and how to efficiently restore pastures on a large scale. We can help fill this knowledge gap. I am aiming to do it. “
For more information on the Blue Meadows project OCT website..
Cost of cardiovascular disease
A slowdown in improving cardiovascular disease (CVD), such as heart disease and stroke, could cost £ 54 billion in health and social care by 2030.
Prior to 2010, CVD rates in England and Wales improved each year, but progress has stagnated since then. In collaboration with partners in the UK, Finland and Poland, researchers at Imperial’s School of Public Health have modeled the impact of this slowdown on aspects of health and social care.
By 2030, they will pay £ 13 billion for NHS health care, £ 1.5 billion for social health care, £ 8 billion for informal health care, and the burden of illness (people living in the poor). We have discovered that it can lead to £ 32 billion. Health for a longer time).
According to the team, there is an urgent need to increase focus on preventative aspects such as reducing poverty, improving diet, managing tobacco, and increasing exercise that may help reduce the incidence of cardiovascular disease. It has been.
read PLOS ONE full paper..
Blockchain for the carbon market
Carbon markets, such as those that trade or offset emissions, can help drive climate change efforts by driving investment towards efficient decarbonization activities. But they face issues with trust, transparency, and uptake.
One possible solution is to use blockchain technology (the first digital “ledger” used for cryptocurrencies such as Bitcoin). It records transaction information in a way that is nearly impossible to modify, hack, or cheat. The blockchain itself is often wrapped in hype, so it can be difficult to assess its usefulness in new sectors.
Imperial and Shell researchers conducted the first evaluation of blockchain for the carbon market. They discovered that 39 organizations were developing such blockchain solutions and assigned scores on the Technology Readiness Scale. They found that most were in the proof-of-concept stage, but one had reached maturity.
By addressing developer barriers, the team states that many of these solutions can mature and bring a new level of trust and transparency to the global carbon market.
Read the full treatise One earth:’Blockchain solutions for the carbon market are nearing maturity‘
New EMBO member
The European Molecular Biology Organization (EMBO) welcomes Professor Molly Stevens Thanks to its members for her outstanding achievements in life sciences. Professor Stevens, Materials departmentIs a leader in the field of biomedical materials that solves key problems in regenerative medicine and biosensing using an innovative bioengineering approach.
Through their involvement, EMBO members help shape the direction of life sciences, foster the careers of young researchers, and strengthen the research community in Europe and beyond.
Fiona Watt, director of EMBO, said: “The new EMBO and Associate members are excellent scientists with cutting-edge research in a variety of fields. The organization is very strong.”
Adhesive stick insect
Insects of all sizes can stubbornly climb upside down surfaces, but how do they cling to them as they grow in size? Centuries-old hypotheses point to the liquid secreted by their footpads as a potential source of their strong attachment.
First author Dr. Domna-Maria Kaimaki And her team at Imperial Department of Biological Engineering We investigated the physical properties of Indian stick insect footprints across body sizes, from newly hatched adults to fully grown adults. They found that the physical properties of the secreted liquid did not change significantly with the size of the insect. They say this resumes discussions about its features. This is an important question if you want to create an artificial glue that mimics an insect’s paw.
read more Journal of the Royal Society Interface..
Want to keep your Imperial news up to date? Sign up for the free Quick Lead Daily Electronic Newsletter, Imperial Today..
Underwater Pastures and Sticky Bandage Recovery: University News | Imperial News
Source link Underwater Pastures and Sticky Bandage Recovery: University News | Imperial News