Like most of the developed world, European citizens are suffering from 'green fatigue' - claims that it is too late to do anything about climate change alternating with demands that more action is needed right now. Solar power has been an expensive endeavor and hasn't led to private sector uptake as promised. Even Chinese solar panel companies that relied on Western subsidies are collapsing.

In reality, no one is sure what works and what doesn't but the heads of the EU member states are meeting in Brussels to discuss the adoption of a 40 percent greenhouse gas reduction target for 2030. Advocates claim such front runner action could reduce future global warming by more than 1 degree - if their bold leadership induced others to join by 2030.

Football fascinates millions of fans, almost all of them unaware that the game is subject to the laws of physics. Despite their seemingly arbitrary decisions, players obey certain rules, as they constantly adjust their positions in relation to their teammates, opponents, the ball and the goal. A team of Japanese scientists has now analysed the time-dependent fluctuation of both the ball and all players' positions throughout an entire match. They discovered that a simple rule governs the complex dynamics of the ball and the team's front-line. These findings, published in EPJ B, could have implications for other ball games, providing a new perspective on sports science.

University of Adelaide mathematicians have devised a method for identifying how cell clusters have formed by analysing an image of the cluster.

Published in the Journal of Theoretical Biology, their mathematical modelling tool will be useful in helping biologists and tissue engineers to move towards growing human tissue such as liver in the laboratory.

"When any tissue or organ develops, the cells have to organise themselves into the correct structure," says Dr Edward Green, researcher in the University's School of Mathematical Sciences. "This self-organisation process is important in regenerative medicine where scientists are trying to grow tissues in the laboratory. Getting the right structure is key to ensuring the tissue is viable and functional.

Fortunately, more and more people survive critical illnesses and accidents. A new Danish-American survey shows, however, that hospitalisation where the patient has received mechanical ventilation can have serious consequences:

- Of course, the good news is that more and more patients survive critical illness and treatment using ventilators. But at the same time, the bad news is that we have now documented that the ventilator patients have a considerable risk of developing psychological problems.

The first few months after discharge are really critical, says professor of clinical epidemiology Henrik Toft Sørensen, Aarhus University and Aarhus University Hospital.

Researchers of Ludwig-Maximilians-Universitaet (LMU) in Munich have discovered a novel feedback mechanism that provides a mechanistic link between chronic inflammation and carcinogenesis.

Researchers have shown that they can detect tiny, misfolded protein fragments in cerebrospinal fluid taken from patients. Such fragments have been suggested to be the main culprit in Alzheimer's disease. The findings reported in the Cell Press journal Cell Reports lend hope that doctors might soon have a way to diagnose the disease while treatments might have a better chance of working—that is, before extensive brain damage and dementia set in.

Scientists used to think amyloid plaques were the problem in Alzheimer's disease.

Researchers from The University of Manchester have discovered a new mechanism that governs how body clocks react to changes in the environment.

And the discovery, which is being published in Current Biology, could provide a solution for alleviating the detrimental effects of chronic shift work and jet-lag.

The team's findings reveal that the enzyme casein kinase 1epsilon (CK1epsilon) controls how easily the body's clockwork can be adjusted or reset by environmental cues such as light and temperature.

The top predators of the Southern Ocean, far-ranging seabirds, are tied both to the health of the ocean ecosystem and to global climate regulation through a mutual relationship with phytoplankton, according to newly published work from the University of California, Davis.

When phytoplankton are eaten by grazing crustaceans called krill, they release a chemical signal that calls in krill-eating birds. At the same time, this chemical signal — dimethyl sulfide, or DMS — forms sulfur compounds in the atmosphere that promote cloud formation and help cool the planet. Seabirds consume the grazers, and fertilize the phytoplankton with iron, which is scarce in the vast Southern Ocean. The work was published March 3 in the journal Proceedings of the National Academy of Sciences.

Physicists are one step closer to developing the world's first room-temperature superconductor thanks to a new theory from the University of Waterloo, Harvard and Perimeter Institute.

The theory explains the transition phase to superconductivity, or "pseudogap" phase, which is one of the last obstacles to developing the next generation of superconductors and one of the major unsolved problems of theoretical condensed matter physics.

Their work was published in this week's issue of the prestigious journal Science.

Superconductivity is the phenomenon where electricity flows with no resistance and no energy loss. Most materials need to be cooled to ultra-low temperatures with liquid helium in order to achieve a superconductive state.

A three-year study of ancient clam gardens in the Pacific Northwest has led researchers, including three from Simon Fraser University, to make a discovery that could benefit coastal communities' food production. PLOS ONE, a peer-reviewed science journal, has just published their study.

Amy Groesbeck, an SFU alumna, SFU professors Anne Salomon, an ecologist, and Dana Lepofsky, an archaeologist, and Kirsten Rowell, a University of Washington biologist are the authors.

The researchers discovered that ancient clam gardens made by Aboriginal people produced quadruple the number of butter clams and twice the number of littleneck clams as unmodified clam beaches. This is the first study to provide empirical evidence of ancient clam gardens' superior productivity.