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Categories: Chemistry: Thermodynamics, Ecology: Trees

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Ecology: Endangered Species Ecology: Extinction Ecology: Trees Environmental: Ecosystems
Published

Collision risk and habitat loss: Wind turbines in forests impair threatened bat species      (via sciencedaily.com) 

In order to meet climate protection goals, renewable energies are booming -- often wind power. More than 30,000 turbines have already been installed on the German mainland so far, and the industry is currently scrambling to locate increasingly rare suitable sites. Thus, forests are coming into focus as potential sites. A scientific team has now demonstrated that wind turbines in forests impair endangered bat species: Common noctules (Nyctalus noctula), a species with a high risk of colliding with rotor blades, are attracted to forest wind turbines if these are located near their roosts. Far from roosts, common noctules avoid the turbines, essentially resulting in a loss of foraging space and thus habitat for this species.

Chemistry: Thermodynamics Energy: Technology
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Polysulfates could find wide use in high-performance electronics components      (via sciencedaily.com) 

Flexible compounds made with Nobel-winning click chemistry can be used in energy-storing capacitors at high temperatures and electric fields.

Ecology: Trees Environmental: Ecosystems
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Special drone collects environmental DNA from trees      (via sciencedaily.com)     Original source 

Researchers have developed a flying device that can land on tree branches to take samples. This opens up a new dimension for scientists previously reserved for for biodiversity researchers.

Ecology: Trees Environmental: Ecosystems
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Our future climate depends partly on soil microbes -- but how are they affected by climate change?      (via sciencedaily.com)     Original source 

The largest terrestrial carbon sink on Earth is the planet's soil. One of the big fears is that a warming planet will liberate significant portions of the soil's carbon, turning it into carbon dioxide (CO2) gas, and so further accelerate the pace of planetary warming. A key player in this story is the microbe, the predominant form of life on Earth, and which can either turn organic carbon -- the fallen leaves, rotting tree stumps, dead roots and other organic matter -- into soil, or release it into the atmosphere as CO2. Now, an international team of researchers has helped to untangle one of the knottiest questions involving soil microbes and climate change: what effect does a warming planet have on the microbes' carbon cycling?

Ecology: Invasive Species Ecology: Trees
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Climate change presents a mismatch for songbirds' breeding season      (via sciencedaily.com)     Original source 

Climate change presents a mismatch for some breeding songbirds, finds a new study using a decade of nestbox data.

Chemistry: Thermodynamics Energy: Alternative Fuels
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Improving perovskite solar cell resistance to degradation      (via sciencedaily.com) 

Despite their huge potential, the way perovskite solar cells respond to external stimuli -- such as heat or moisture -- has a considerable impact on their stability. Researchers have identified the cause of degradation and developed a technique to improve stability, bringing us closer to widespread adoption of these cost-effective and efficient solar cells.

Chemistry: Thermodynamics
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A big step toward 'green' ammonia and a 'greener' fertilizer      (via sciencedaily.com) 

Synthesizing ammonia, the key ingredient in fertilizer, is energy intensive and a significant contributor to greenhouse gas warming of the planet. Chemists designed and synthesized porous materials -- metal-organic frameworks, or MOFs -- that bind and release ammonia at more moderate pressures and temperatures than the standard Haber-Bosch process for making ammonia. The MOF doesn't bind to any of the reactants, making capture and release of ammonia less energy intensive and greener.

Chemistry: Thermodynamics Geoscience: Environmental Issues
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Converting temperature fluctuations into clean energy with novel nanoparticles and heating strategy      (via sciencedaily.com) 

Pyroelectric catalysis (pyro-catalysis) can convert environmental temperature fluctuations into clean chemical energy, like hydrogen. However, compared with the more common catalysis strategy, such as photocatalysis, pyro-catalysis is inefficient due to slow temperature changes in the ambient environment. Recently, a team has triggered a significantly faster and more efficient pyro-catalytic reaction using localized plasmonic heat sources to rapidly and efficiently heat up the pyro-catalytic material and allow it to cool down. The findings open up new avenues for efficient catalysis for biological applications, pollutant treatment and clean energy production.

Ecology: Invasive Species Ecology: Trees Environmental: Ecosystems Geoscience: Environmental Issues Geoscience: Severe Weather
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Landscaping for drought: We're doing it wrong      (via sciencedaily.com)     Original source 

Despite recent, torrential rains, most of Southern California remains in a drought. Accordingly, many residents plant trees prized for drought tolerance, but a new study shows that these trees lose this tolerance once they're watered.

Ecology: Trees Environmental: Ecosystems
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Forests recovering from logging act as a source of carbon      (via sciencedaily.com)     Original source 

Tropical forests recovering from logging are sources of carbon for years afterwards, contrary to previous assumptions, finds a new study.

Ecology: Trees Environmental: Ecosystems
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New York City's greenery absorbs a surprising amount of its carbon emissions      (via sciencedaily.com)     Original source 

A study of vegetation across New York City and some densely populated adjoining areas has found that on many summer days, photosynthesis by trees and grasses absorbs all the carbon emissions produced by cars, trucks and buses, and then some. The surprising result, based on new hyper-local vegetation maps, points to the underappreciated importance of urban greenery in the carbon cycle.

Chemistry: Thermodynamics
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Enabling nanoscale thermoelectrics with a novel organometallic molecular junction      (via sciencedaily.com) 

Multinuclear organometallic junctions might be the key to realizing high-performance thermoelectric devices at the nanoscale. The unique electronic structure of organometallic ruthenium alkynyl complexes allowed the researchers to achieve unprecedented heat-to-electricity conversion performance in molecular junctions, paving the way to molecular-scale temperature sensors and thermal energy harvesters.

Chemistry: Thermodynamics Energy: Alternative Fuels Energy: Fossil Fuels
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Cheap, sustainable hydrogen through solar power      (via sciencedaily.com) 

A new kind of solar panel has achieved 9% efficiency in converting water into hydrogen and oxygen--mimicking a crucial step in natural photosynthesis. Outdoors, it represents a major leap in the technology, nearly 10 times more efficient than solar water-splitting experiments of its kind.

Chemistry: Thermodynamics Geoscience: Environmental Issues
Published

Scientists develop a cool new method of refrigeration      (via sciencedaily.com) 

Researchers have developed a new kind of heating and cooling method that they have named the ionocaloric refrigeration cycle. They hope the technique will someday help phase out refrigerants that contribute to global warming and provide safe, efficient cooling and heating for homes.

Ecology: Trees Environmental: Ecosystems
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Rwandan tree carbon stock mapped from above      (via sciencedaily.com)     Original source 

Researchers have developed accurate nation-wide mapping of the carbon content of trees based on aerial images.

Ecology: Trees Environmental: Ecosystems
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UK woodlands could store almost twice as much carbon as previously estimated      (via sciencedaily.com)     Original source 

UK forests could store almost double the amount of carbon than previous calculations suggest, with consequences for our understanding of carbon stocks and humanity's response to climate change, according to a new study.

Ecology: Trees
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Orangutan communication sheds light on human speech origins      (via sciencedaily.com)     Original source 

Research finds orangutans communicate using a complex repertoire of consonant-like calls, more so than African apes. Previous research has only linked the evolution of human language with the voiced-vowel sounds produced by non-human primates, despite human language being composed of vowel and consonant sounds. Orangutans' tree-dwelling nature means they use their mouth, lips and jaw as a 'fifth hand', unlike ground-dwelling African apes. Their sophisticated use of their mouths, mean orangutans communicate using a rich variety of consonant sounds.

Ecology: Trees Offbeat: Earth and Climate
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Wood-eating clams use their feces to dominate their habitat      (via sciencedaily.com)     Original source 

Researchers didn't know what to make of sunken pieces of wood that were so thoroughly chewed-up by clams that the wood crumbled in their hands. It turns out, the super-chewer wood-eating clams had a secret weapon for forcing out other species. The clams, who have special adaptations that let them survive in dirty, low-oxygen water, built chimneys out of their own feces, making the wood a 'crappy' home for any animal except them.

Chemistry: Thermodynamics Engineering: Graphene
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A shield for 2D materials that adds vibrations to reduce vibration problems      (via sciencedaily.com) 

A new study demonstrates a new, counterintuitive way to protect atomically-thin electronics -- adding vibrations, to reduce vibrations. By squeezing a liquid-metal gallium droplet, graphene devices are painted with a protective coating of gallium-oxide that can cover millimeter-wide scales, making it potentially applicable for industrial large-scale fabrication. The new technique improves device performance as well as protecting 2D materials from thermal vibration in neighboring materials.

Chemistry: Thermodynamics Energy: Nuclear
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Mitigating corrosion by liquid tin could lead to better cooling in fusion reactors      (via sciencedaily.com) 

Researchers have clarified the chemical compatibility between high temperature liquid metal tin (Sn) and reduced activation ferritic martensitic, a candidate structural material for fusion reactors. This discovery has paved the way for the development of a liquid metal tin divertor, which is an advanced heat-removal component of fusion reactors. A device called a divertor is installed in the fusion reactors to maintain the purity of the plasma. For divertors, there has been demand for liquid metals that can withstand extremely large heat loads from high-temperature plasma.