One of today's most pressing research challenges, which has huge significance for future generations, is the impact of the human overcivilization of the atmosphere and stratosphere. The survival of the blue planet will depend on how research deals with this conflict.
Solar radiation and vapor content in the atmosphere and stratosphere determine the climate and the weather. The natural greenhouse effect created by carbon dioxide is a long-term cyclic process that has had a regulative function with respect to the geological development of the earth. Thegreenhouse gases in the atmosphere and stratosphere , which have drastically increased over the last 100 years, is a homemade problem. Research on the atmosphere and stratosphere leads scientists to believe this development will result in a dramatic climate change by accelerating the on-going process. Damage to the earth's ozone layer in the stratosphere further aggravates the situation according to researchers. The atmosphere and stratosphere are taking the brunt of the effects of human overcivilization. Researchers sum it up by suggesting that in turn, mankind is paying the price for what is does to the atmosphere and stratosphere.
The atmosphere, a gaseous shell that envelops the earth's surface, consists of several layers. The atmosphere equates to a gas mixture made chiefly of oxygen and nitrogen and is normally referred to as air. Argon, neon, helium, krypton and xenon are present in small quantities, in addition to trace gases and aerosols in in varying quantities. When the earth was created around 4.56 billion years ago, oxygen played no role in the atmosphere and stratosphere. Over the course of the chemical evolution, it first made life on earth possible roughly 350 million years ago.
Hardly any other branch of scientific research has gained more momentum over the past decades than research into the causes of climate events in the atmosphere and stratosphere . Findings raise the hope that mankind will contemplate and rethink the issue and eventually develop effective instruments to combat the growing danger to the atmosphere and stratosphere. Parallel to global efforts, researchers are striving to reduce carbon dioxide emissions through targeted measures that can stem climate change, and this has a direct impact on discussions surrounding the atmosphere and stratosphere.
How will mankind deal with the technological innovations created through research , which would be experienced very differently on a regional basis? Are humans willing to protect the atmosphere and stratosphere by investing in future technologies that won't be effective until further generations? How much will humans be willing to accept when it comes to research into the atmosphere and stratosphere?
Against the backdrop of a world that is politically and economically linked, discussions regarding the atmosphere and stratosphere have a global dimension. The research issues related to changes in the atmosphere and stratosphere have long been more than just scientific. What would a society look like in which the atmosphere and stratosphere are progressing toward conditions that make life on earth unsustainable or at least where vital aspects of the environment are seriously impacted? How far is the human species willing to transform itself and how quickly can man and science develop measures to tackle changes to the atmosphere and stratosphere?
Research will be tasked with laying the foundation for humans with the will to change.
News and developments from the field of interdisciplinary research.
Among other topics, you can find stimulating reports and articles related to microsystems, emotions research, futures research and stratospheric research.
The decisions we make are influenced by other possibilities that we did not choose. At the same time, the options we missed out on determine our satisfaction with the outcomes of situations we were unable to control. Psychologists from the University of Basel conducted two experiments: first, they studied the decision-making behavior of students and, second, they measured brain activity and satisfaction when a set of possibilities is supplemented with another alternative. The Journal of Neuroscience has published the results.
Classical economic models state that when faced with a decision, we always choose the option that is of greatest benefit to us, regardless of the benefits of...30.01.2017 | Read more
A multidisciplinary team of researchers at KU Leuven (University of Leuven, Belgium) has developed a dental implant that gradually releases drugs from a built-in reservoir. This helps prevent and fight infections.
Our mouth contains many micro-organisms, including bacterial and fungal pathogens. On traditional dental implants, these pathogens can quickly form a so-called...18.01.2017 | Read more
Alain Bonneville, a geophysicist at Pacific Northwest National Laboratory, will present details on the muon detector and the comparative field tests at the American Geophysical Union Fall Meeting in San Francisco. His talk is Thursday, December 15, 2016 at 5:40 p.m. in Moscone South, Room 307.
Borehole muon detector advances imaging and monitoring of CO2 storage sites19.12.2016 | Read more
New technology shapes sound waves for applications from speakers to ultrasound imaging
Research Triangle engineers have developed a simple, energy-efficient way to create three-dimensional acoustic holograms. The technique could revolutionize...17.10.2016 | Read more
Two sea bed loggings from the Alboran Sea have been analyzed at very high resolution and have allowed to reconstruct climate and oceanographic conditions as well as anthropogenic influence in the westernmost region of the Mediterranean Sea
A multidisciplinary research team in which the University of Granada (UGR) takes part has achieved a breakthrough on what we know about terrestrial and oceanic...11.10.2016 | Read more
New research, led by the University of Southampton, has demonstrated that a nanoscale device, called a memristor, could be used to power artificial systems that can mimic the human brain.
Artificial neural networks (ANNs) exhibit learning abilities and can perform tasks which are difficult for conventional computing systems, such as pattern...07.10.2016 | Read more
Scissor-like structured platform for vibration suppression.
The X-shaped bio-inspired structures are novel designs of passive vibration isolation systems. Using only linear spring and damping components, the X-shaped...29.09.2016 | Read more
New alternatives to 3D body scanning
Researchers from the Max Planck Institute for Intelligent Systems and the University of Texas at Dallas, revealed new crowdshaping technology at SIGGRAPH 2016...27.07.2016 | Read more
Michael A. Woodley of Menie, PhD, Scientist in Residence at the TU Chemnitz, finds for the first time a link between increasing brain size and long-term increase in intelligence quotient
The average mass of the human brain has increased in Germany and the UK during the last century. This has been accompanied by gains in IQ. International...16.02.2016 | Read more
An interdisciplinary research team at The Saban Research Institute of Children's Hospital Los Angeles has found that body mass index (BMI) is an inadequate method for estimating changes in body fat and obesity in children with leukemia. Investigators determined that the discrepancy between BMI and body composition was due to increases in body fat with simultaneous loss of lean muscle mass during treatment. The study will be published online first in the journal Leukemia & Lymphoma.
Acute lymphoblastic leukemia (ALL) is the most common cancer of childhood. In previous work done at CHLA, investigators reported that obese children diagnosed...29.01.2016 | Read more
Microelectronics as a key technology enables numerous innovations in the field of intelligent medical technology. The Fraunhofer Institute for Biomedical Engineering IBMT coordinates the BMBF cooperative project "I-call" realizing the first electronic system for ultrasound-based, safe and interference-resistant data transmission between implants in the human body.
When microelectronic systems are used for medical applications, they have to meet high requirements in terms of biocompatibility, reliability, energy...
Thomas Heine, Professor of Theoretical Chemistry at TU Dresden, together with his team, first predicted a topological 2D polymer in 2019. Only one year later, an international team led by Italian researchers was able to synthesize these materials and experimentally prove their topological properties. For the renowned journal Nature Materials, this was the occasion to invite Thomas Heine to a News and Views article, which was published this week. Under the title "Making 2D Topological Polymers a reality" Prof. Heine describes how his theory became a reality.
Ultrathin materials are extremely interesting as building blocks for next generation nano electronic devices, as it is much easier to make circuits and other...
Scientists took a leukocyte as the blueprint and developed a microrobot that has the size, shape and moving capabilities of a white blood cell. Simulating a blood vessel in a laboratory setting, they succeeded in magnetically navigating the ball-shaped microroller through this dynamic and dense environment. The drug-delivery vehicle withstood the simulated blood flow, pushing the developments in targeted drug delivery a step further: inside the body, there is no better access route to all tissues and organs than the circulatory system. A robot that could actually travel through this finely woven web would revolutionize the minimally-invasive treatment of illnesses.
A team of scientists from the Max Planck Institute for Intelligent Systems (MPI-IS) in Stuttgart invented a tiny microrobot that resembles a white blood cell...
By studying the chemical elements on Mars today -- including carbon and oxygen -- scientists can work backwards to piece together the history of a planet that once had the conditions necessary to support life.
Weaving this story, element by element, from roughly 140 million miles (225 million kilometers) away is a painstaking process. But scientists aren't the type...
Study co-led by Berkeley Lab reveals how wavelike plasmons could power up a new class of sensing and photochemical technologies at the nanoscale
Wavelike, collective oscillations of electrons known as "plasmons" are very important for determining the optical and electronic properties of metals.
19.05.2020 | Event News
07.04.2020 | Event News
06.04.2020 | Event News
25.05.2020 | Medical Engineering
25.05.2020 | Information Technology
25.05.2020 | Information Technology