Insects have evolved diverse types of camouflage that have played an important role in their evolutionary success. Debris-carrying, a behavior of actively harvesting and carrying exogenous materials, is among the most fascinating and complex behaviors because it requires not only an ability to recognize, collect, and carry materials, but also evolutionary adaptations in related morphological characteristics.
Earth
Until now, the singing behaviour of songbirds had been mainly associated with competitive behaviour and the search for a partner. Moreover, males had long been considered to be the more active singer. Females were compared to the behaviour of the males and were seen as relatively "lazy" with regard to singing.
These assumptions had also been applied to one of the most prominent local songbirds, namely, the blue tit. But female blue tits, like males, also display a variety of vocal patterns. This suggests that vocalization is not limited exclusively to courtship or competition.
The key to effectively measuring damagingly high levels of nutrients in freshwater streams lies in the microscopic organisms living in them, according to a group of Drexel University scientists.
A team largely made up of researchers from the Academy of Natural Sciences of Drexel University analyzed data from 1,400 freshwater Mid-Atlantic streams to see whether a group of tiny algae, called diatoms, might be efficient indicators of overly high nutrient levels -- termed eutrophication.
A team of researchers at Scripps Institution of Oceanography at the University of California San Diego compared sand levels on several San Diego beaches during the last seven winters. The El Niños of winter 2009-10 and 2015-16 were the two most erosive. Three San Diego County beaches that received imported sand in 2012 were about 10 meters (33 feet) wider, and one to two meters (three to six feet) higher in 2015-16 than in 2009-10, with the coarseness of the sand apparently aiding the effectiveness of the effort.
By the 2080s, as many as 3,331 people could die every year from exposure to heat during the summer months in New York City. The high estimate by Columbia University scientists is based on a new model--the first to account for variability in future population size, greenhouse gas trajectories, and the extent to which residents adapt to heat through interventions like air conditioning and public cooling centers. Results appear online in the journal Environmental Health Perspectives.
In this Policy Forum, Phillip Sharp, Tyler Jacks and Susan Hockfield discuss the need for better integration of engineering, physical, computational, and mathematical sciences with biomedical science, as they publish a report this week outlining key recommendations in this space. Convergence of physics and engineering in the 20th century led to a wealth of advancements - radios, telephones, cars, planes, computers, the internet - and, if the correct investments and commitments are in place, the biomedical field is poised for similar advancements, these authors say.
By now we are used to the idea of seasonal weather forecasts - whether to expect an El Niño ski season, or an unusually warm summer. These same types of climate models are now being adapted to make seasonal forecasts for the region's coastal waters.
All life on the planet relies, in one way or another, on a process called carbon fixation: the ability of plants, algae and certain bacteria to "pump" carbon dioxide (CO2) from the environment, add solar or other energy and turn it into the sugars that are the required starting point needed for life processes. At the top of the food chain are different organisms (some of which think, mistakenly, that they are "more advanced") that use the opposite means of survival: they eat sugars (made by photosynthetic plants and microorganisms) and then release carbon dioxide into the atmosphere.
Scientists need more credible and relevant information to help communities become more resilient to extreme weather events such as floods, a University of Exeter expert has said.
Researchers need improved techniques to be able to understand why the climate is changing, and the part humans play in this process, according to Professor Peter Stott, who also leads the Climate Monitoring and Attribution team at the Met Office.
Physicists from the Russian Quantum Center (RQC), MIPT, the Lebedev Physical Institute, and L'Institut d'Optique (Palaiseau, France) have devised a method for creating a special quantum entangled state. This state enables producing a high-precision ruler capable of measuring large distances to an accuracy of billionths of a metre. The results of the study have been published in Nature Communications.
A team of researchers at Princeton University, the Massachusetts Institute of Technology and Merck & Co. has developed a cost-effective and complementary approach to a fundamental chemical reaction known as a C-N bond coupling, which is a staple of modern drug development.
Published today in the journal Science, the reaction provides a direct route to compounds called anilines, an extremely common structure in medicinal and industrially relevant agents, without the expense of ligands on transition metal catalysts required by traditional methods.
Many things in the natural world are geometrically chiral, meaning they cannot be superimposed onto their mirror image. Think hands -- right and left hands are mirror images but if you transplanted a right hand onto a left, you'd be in trouble. Certain molecules are chiral, including DNA and amino acids.
Washington, D.C.-- When dormant volcanoes are about to erupt, they show some predictive characteristics--seismic activity beneath the volcano starts to increase, gas escapes through the vent, or the surrounding ground starts to deform. However, until now, there has not been a way to forecast eruptions of more restless volcanoes because of the constant seismic activity and gas and steam emissions.
TALLAHASSEE, Fla. -- A major climate event millions of years ago that caused substantial change to the ocean's ecological systems may hold clues as to how the Earth will respond to future climate change, a Florida State University researcher said.
By the 2080s, as many as 3,331 people could die every year from exposure to heat during the summer months in New York City. The high estimate by Columbia University scientists is based on a new model--the first to account for variability in future population size, greenhouse gas trajectories, and the extent to which residents adapt to heat through interventions like air conditioning and public cooling centers. Results appear online in the journal Environmental Health Perspectives.