Warmer climate may impact reliability of solar farms: modeling

Managing weather-induced power fluctuations will be a growing challenge for variable renewables in the future.
Photo Credit: Quang Nguyen Vinh

New research suggests Australia will need to adjust to climate-driven shifts in solar power production.

Australia’s renewable energy transition is well underway, but an impending shift in the reliability of solar due to climate change could impact generation capacity and the management of the electricity grid. 

Modeling conducted by researchers from UNSW Sydney predicts changes in the availability of solar across different regions of Australia under a warmer climate. The findings, published in the journal Solar Energy, have implications for future solar power infrastructure development in Australia, including the world’s largest solar infrastructure energy network.

Australia is a prominent solar hotspot, with several notable large-scale grid-connected solar power systems – or solar photovoltaics (PV) plants – in operation or development. However, the sensitivity of solar power generation to weather-induced variability can limit its ability to deliver a consistent and dependable energy supply.

Managing grid stability due to inherent variability in solar energy generation due to factors like cloud cover, seasonal cycles, and location – all of which will be impacted by future warming – is possible with proper forecasting, power storage and load controls. But, if left unmanaged, it can lead to power deficits that can result in outages or even complete grid failures.

Orchid without bumblebee on island finds wasp, loses self

The relationship between orchids and their pollinators is often highly exclusive because their physical features closely match each other. On mainland Japan, only a specific bumblebee can pollinate Goodyera henryi’s long flower tube with its long mouthparts (top right). Its close relative Goodyera similis has a short flower tube and is pollinated by a wasp with shorter mouthparts (middle right). On a remote island, where only wasps but no bumblebees exist (map, highlighted in red), both flowers are pollinated by the wasp (bottom right). However, for Goodyera henryi this came at the cost of hybridization with Goodyera similis and thus it lost some of its species identity.
Illustration Credit: © ANSAI Shun
(CC BY 4.0 DEED)

Because the bumblebee that an orchid relies on for pollination does not exist on a remote island, the plant gets pollinated by an island wasp. Kobe University researchers found that this came at the cost of being hybridized with another orchid species adapted to being pollinated by the wasp. The finding showcases how plants in ecological relationships adapt to changing circumstances.

Remote islands have been exciting study grounds for biologists since at least the days of Darwin. When studying ecological relationships between different species, the differences between mainland and island can hint at how such relationships evolve and what this means for the participating species. This is what piqued plant scientists’ curiosity when they discovered Goodyera henryi, an orchid which on mainland Japan is pollinated exclusively by a very specific bumblebee, on remote Japanese Kozu Island where the bumblebee doesn’t exist.

For Kobe University Professor SUETSUGU Kenji this fit perfectly into his long-term effort to understand the dynamics of island biology and evolutionary processes. The orchid specialist says: “The combination of our expertise, access to the location, and our interdisciplinary methodology puts us in a special position to study the impact of bumblebee absence on orchid evolution in this context.” With his team he studied the pollination of the orchids both on mainland Japan and on Kozu Island, and also employed genetic analysis to learn about the relationship patterns between the different populations of the plants.

Marine mammals in zoos and aquariums now live 2-3 times longer than in the wild

Photo Credit: Los Muertos Crew

A new study provides compelling evidence that animal care and management practices at zoos and aquariums have significantly improved over time. The study, led by Species360 and University of Southern Denmark Research Scientist Dr. Morgane Tidière in collaboration with 41 co-authors from academic, governmental, and zoological institutions around the world, is the first to examine life expectancy and lifespan equality together as a proxy of population welfare in marine mammal species.

The study also found that marine mammal species live longer in zoological institutions than in the wild as a result of advances in animal care practices centered on animal welfare. The results have been published in Proceedings of the Royal Society B: Biological Sciences.

From SDU the following researchers contributed: Fernando Colchero, Johanna Staerk, Ditte H. Andersen, Kirstin Anderson Hansen and Dalia A. Conde.

The animals in the study
The four species in this study (harbor seal, sea lion, polar bear and bottlenose dolphin) were selected because they represent 63,4% of all marine mammals, registered in the global Species360 Zoological Information Management System (ZIMS).

Critical step made for managing brushtail possums

Researchers say mapping the genetic code of the brushtail possum will benefit those working to both conserve and control the animal.

In a five-year long study, just published in Nature Communications, an international group of researchers led by the University of Otago, has assembled the entire genetic code of the marsupial mammal.

The work also uncovered where and when their genes are expressed, and revealed surprising details about their population diversity, reproduction, and origins.

Study lead Associate Professor Tim Hore, of Otago’s Department of Anatomy, describes possums as “a fascinating animal that is loved in one country and a cause of concern in another”.

“They are hunted in Aotearoa New Zealand for their fur, and controlled for conservation, but treasured and protected in Australia. Having their full genetic code is important for both countries as efforts to manage their respective populations are being held back by the lack of this knowledge,” he says.

UCLA-led team finds a stem-cell derived mechanism that could lead to regenerative therapies for heart damage

Image by rawpixel

A UCLA-led team has identified an essential internal control mechanism that can promote the maturation of human stem cell-derived heart muscle cells, offering a deeper understanding of how heart muscle cells develop from their immature fetal stage to their mature adult form.

The findings, published in the peer-reviewed journal Circulation, could lead to new therapies for heart disease and cardiac damage.

The collaborative effort with Duke-NUS Medical School in Singapore and other institutions identified an RNA splicing regulator named RBFox1, which was considerably more prevalent in adult heart cells than in newborns, based on a preclinical model. The sharp rise in RBFox1 during the maturation of heart cells was also confirmed through analyses of existing single-cell data.

“This is the first piece of evidence suggesting that RNA splicing control plays a vital role in postnatal heart cell maturation,” said study lead Jijun Huang, who conducted this research during his postdoctoral training in anesthesiology at UCLA. “While RBFox1 alone may not be sufficient to push mature fetal heart muscle cells all the way to fully matured adult cells, our findings uncover a new RNA-based internal network that can substantially drive this maturation process beyond other available approaches.”

New patterns in Sun’s layers could help scientists solve solar mystery

In this image, the fine-structure of the quiet Sun is observed at its surface or photosphere.
Image Credit: NSF/AURA/NSO

Astronomers are one step closer to understanding one of the most enduring solar mysteries, having captured unprecedented data from the Sun’s magnetic field.

New research from an international team may explain one of the biggest conundrums in astrophysics – why the outermost layer of the Sun’s atmosphere is hotter than the surface

Groundbreaking data collected from the world's most powerful solar telescopes shows a snake-like pattern in the Sun’s magnetic fields that could contribute to the heating of the Sun’s outermost atmosphere

The project, which includes scientists across a wide range of institutions on both sides of the Atlantic Ocean, has opened new avenues in solar physics

Astronomers are one step closer to understanding one of the most enduring solar mysteries, having captured unprecedented data from the Sun’s magnetic field.

New Research Suggests Why Males and Females Respond Differently to Social Stress

Emily Wright, researcher, in a UC Davis lab.
Photo Credit: Jerry Tsai

Women are nearly twice as likely as men to be diagnosed with an anxiety disorder, but among boys and girls the likelihood is the same. New University of California, Davis, research has identified changes in the brain during puberty that may account for differences in how women and men respond to stress.

A team of psychologists has found that testosterone is the key hormone that drives gender-based differences in responses to social stress. The study encompassed six separate experiments with mice to isolate what changes in the brain drive these differences between males and females. The study was published in the Proceedings of the National Academy of Sciences, or PNAS, today.

“This research shows how the body’s hormones shape the complex interplay between the brain’s circuitry and behavioral responses to stress,” said Brian Trainor, a professor of psychology in the College of Letters and Science at UC Davis and the study’s corresponding author.

Germicidal UV lights could be producing indoor air pollutants

Image Credit: José-Luis Olivares, MIT; iStock
(CC BY-NC-ND 3.0 DEED)

Many efforts to reduce transmission of diseases like Covid-19 and the flu have focused on measures such as masking and isolation, but another useful approach is reducing the load of airborne pathogens through filtration or germicidal ultraviolet light. Conventional UV sources can be harmful to eyes and skin, but newer sources that emit at a different wavelength, 222 nanometers, are considered safe.

However, new research from MIT shows that these UV lights can produce potentially harmful compounds in indoor spaces. While the researchers emphasize that this doesn’t mean the new UV lights should be avoided entirely, they do say the research suggests it is important that the lights have the right strength for a given indoor situation, and that they are used along with appropriate ventilation.

The findings are reported in the journal Environmental Science and Technology, in a paper by recent MIT postdoc Victoria Barber, doctoral student Matthew Goss, Professor Jesse Kroll, and six others at MIT, Aerodyne Research, and Harvard University.

While Kroll and his team usually work on issues of outdoor air pollution, during the pandemic they became increasingly interested in indoor air quality. Usually, little photochemical reactivity happens indoors, unlike outdoors, where the air is constantly exposed to sunlight. But with the use of devices to clean indoor air using chemical methods or UV light, “all of a sudden some of this oxidation is brought indoors,” triggering a potential cascade of reactions, Kroll says.

Large swings in past ocean oxygen revealed

GEOTRACES researchers prepare to sample cobalt and more.
Photo Credit: Bill Schmoker, PolarTREC

As the climate warms, there is major concern that Earth’s oceans will lose oxygen. A study published by oceanographers at the University of Hawaiʻi at Mānoa revealed that locked in ancient deep-sea sediments is evidence for oxygen loss in the world’s ocean during past glacial periods.

Scientists first measured oxygen in the oceans in the 1960s. Since then, they have observed decreasing levels in the mid-depths of the ocean—a phenomenon that can be explained in part by the fact that warmer waters hold less oxygen. Less oxygen in the water can lead to habitat loss for fish and other marine species that need oxygen to breathe. If the naturally-occurring low-oxygen regions in the Eastern Pacific expand in a warmer climate, Pacific Island fisheries could be significantly impacted.

The study also indicates that widespread oxygen loss with current climate change may not be permanent, if Pacific Ocean currents rearrange in the future.

AI Models Identify Biodiversity in Tropical Rainforests

The Banded Ground Cocoo (Neomorphus radiolosus, left) and the Purple Chested Hummingbird (Polyerata rosenbergi) are among the birds recorded in tropical reforestation plots in Ecuador.
Photo Credits: John Rogers / Martin Schaefer)

Animal sounds are a very good indicator of biodiversity in tropical reforestation areas. Researchers led by Würzburg Professor Jörg Müller demonstrate this by using sound recordings and AI models.

Tropical forests are among the most important habitats on our planet. They are characterized by extremely high species diversity and play an eminent role in the global carbon cycle and the world climate. However, many tropical forest areas have been deforested and overexploitation continues day by day.

Reforested areas in the tropics are therefore becoming increasingly important for the climate and biodiversity. How well biodiversity develops on such areas can be monitored very well with an automated analysis of animal sounds. This was reported by researchers in the journal Nature Communications.

The world may have crossed solar power ‘tipping point’

Photo Credit: American Public Power Association

The world may have crossed a “tipping point” that will inevitably make solar power our main source of energy, new research suggests.

The study, based on a data-driven model of technology and economics, finds that solar PV (photovoltaics) is likely to become the dominant power source before 2050 – even without support from more ambitious climate policies.

However, it warns four “barriers” could hamper this: creation of stable power grids, financing solar in developing economies, capacity of supply chains, and political resistance from regions that lose jobs.

The researchers say policies resolving these barriers may be more effective than price instruments such as carbon taxes in accelerating the clean energy transition.

The study, led by the University of Exeter and University College London, is part of the Economics of Energy Innovation and System Transition (EEIST) project, funded by the UK Government’s Department for Energy Security and Net Zero and the Children’s Investment Fund Foundation (CIFF).

“The recent progress of renewables means that fossil fuel-dominated projections are no longer realistic,” Dr Femke Nijsse, from Exeter’s Global Systems Institute.

Unlocking the secrets of cell behavior on soft substrates: A paradigm shift in mechanobiology

Figure showing cancer cells (Osteosarcoma cells) on a printed protein spot. Scale bar: 50 μm.
Photo Credit: Turku Bioscience Centre / James Conway and Hellyeh Hamid

A research group from the University of Turku and Turku Bioscience Centre together with Misvik Biology Ltd in Finland have develop a new method for studying how cancer cells function in softer and stiffer tissue environments. This insight challenges the existing paradigm, opening up new possibilities for research in cancer biology and tissue engineering.

A longstanding belief has been that cells outside the body prefer to spread and grow on stiffer surfaces. This is similar to when we walk on a concrete sidewalk (very stiff) and find it preferable to walking in mud (very soft). For this reason, cells, including stem cells, are continuously cultured on very stiff plastic or glass for research purposes. This idea also resonates with cancer cells thriving within a hard lump they form in tissues. Usually, the stiffer the tumor, the poorer the patients’ prognosis. However, the stiffness of the tissues in our body (e.g., bone versus brain) is not the same. In fact, some cells like neurons and fat cells grow and function effectively in very soft surroundings.

The research group from the University of Turku and Turku Bioscience Centre collaborated with Misvik Biology Ltd, a biotechnology company based in Turku, Finland, to understand how cells function in softer environments and how these could be better modelled outside the human body. They used computational modelling and a large array of growth conditions to meticulously compare cell behavior on soft and stiff surfaces at an unprecedented resolution.

New Cancer Therapy Target Stops Tumor Cells From Sharing Resources

When missing a critical signaling enzyme, liver cells (blue) use vesicles (green) to communicate and share resources in order to multiply. Cancer cells may use the same process to resist therapy.
Image Credit: Courtesy of University of California San Diego

The body has many molecular processes in place to help control cell proliferation, turning it on and off as necessary in different circumstances and in different organs. This is well-exemplified by the liver, which has a high capacity for regeneration to support its important detoxification and metabolic functions.

“Cells in the liver multiply more quickly and effectively than any other cells in the body, which makes the liver the ideal place to study the biological processes that control cell division,” said Feng. “These are the same processes that go awry in cancer, and so one promising approach to treating cancer is targeting cell proliferation.”

In previous research, Feng and his team observed that a minority of liver cells in mice could still proliferate even when the cells were genetically engineered to lack a critical signaling enzyme required for cell proliferation. This enzyme, called Shp2, helps liver cells know when it’s time to divide during liver regeneration. Shp2 is also a known target for treating various cancers, and Shp2 inhibitors are involved in several ongoing clinical trials.

Decontamination method zaps pollutants from soil

Yi Cheng (from left), James Tour and Bing Deng
Photo Credit: Gustavo Raskosky/Rice University

Filtration systems are designed to capture multiple harmful substances from water or air simultaneously, but pollutants in soil can only be tackled individually or a few at a time ⎯ at least for now.

A method developed by Rice University scientists and collaborators at the United States Army Engineer Research and Development Center (ERDC) could help turn soil remediation processes from piecemeal to wholesale.

A team of Rice scientists led by chemist James Tour and researchers from the geotechnical structures and environmental engineering branches of the ERDC showed that mixing polluted soil with nontoxic, carbon-rich compounds that propel electrical current, such as biochar, then zapping the mix with short bursts of electricity flushes out both organic pollutants and heavy metals without using water or generating waste.

Amitriptyline helps relieve IBS symptoms

Generic image of amitriptyline tablets

A cheap and widely available prescription drug can improve symptoms of irritable bowel syndrome in patients seen in GP surgeries, new research presented at UEG Week 2023 has found.

Amitriptyline, which is commonly used at low doses for a range of health concerns, has been found to improve irritable bowel syndrome (IBS) symptoms too, according to the results of the ATLANTIS trial.

Led by researchers at the Universities of Leeds, Bristol and Southampton, and funded by the National Institute for Health and Care Research (NIHR), the study was conducted in primary care. GPs prescribed the drug and patients managed their own dose based on the severity of their symptoms, using an adjustment document designed for the trial. Most people with IBS are seen and managed in primary care by their GP, which means that the results of this trial are likely to be applicable to many people with the condition.

The results showed that patients taking amitriptyline were almost twice as likely to report an overall improvement in symptoms as those taking a placebo.

Now the trial team is recommending that GPs support their patients with IBS to use amitriptyline to manage their symptoms – and has made the dose adjustment document available for clinicians and patients.