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.
Multidisciplinary research team develops tool for the assessment of the pandemic risk of avian influenza viruses
Lack of appropriate drugs and vaccines during the influenza A virus (IAV) pandemic in 2009, the recent Ebola (EBOV) epidemic in West Africa, as well as the...22.06.2015 | Read more
An interdisciplinary study exposes how structural flaws dictate failure strength and deformation in nanosized alloys with super-resilient properties.
A study from A*STAR reveals that designers of metallic-glass-based nanodevices must account for tiny flaws in alloy frameworks to avoid unpredictable...15.06.2015 | Read more
Human teeth have to serve for a lifetime, despite being subjected to huge forces. But the high failure resistance of dentin in teeth is not fully understood.
An interdisciplinary team led by scientists of Charite Universitaetsmedizin Berlin has now analyzed the complex structure of dentin. At the synchrotron sources...11.06.2015 | Read more
Remove the “door handle” and stop the HIV virus that causes AIDS from entering the cell. Researchers at the University Medical Center Hamburg-Eppendorf (UKE) have developed molecular scissors that can be targeted to dissect the gene of a receptor needed by HIV to infect human immune cells.
The gene scissors, part of a “second generation of designer nuclease,” dissect more effectively than enzymes previously used in research. “During testing the...18.05.2015 | Read more
Kick-off of the Spin Phenomena Interdisciplinary Center (SPICE) at Johannes Gutenberg University Mainz
Johannes Gutenberg University Mainz (JGU) today officially opened its new Spin Phenomena Interdisciplinary Center (SPICE), which will facilitate interactions...22.04.2015 | Read more
An interdisciplinary team of researchers under the direction of the University of Bonn Hospital have discovered a gene which is associated with a rare congenital anomaly of the urinary tract called classic bladder exstrophy. It increases the likelihood that the urinary tract will not form properly during embryonic development. The finding is an important step for understanding the development of urinary tract malformations in general and for developing prophylactic measures. The results are published in the current online edition of the journal "PloS Genetics".
The kidneys and urinary tract are the sites affected most frequently by congenital malformations. Approximately 1 out of every 200 children suffers from such a...13.03.2015 | Read more
Early results highlight value of interdisciplinary collaboration
What happens when a chemical engineer and a physicist walk into a bar? They forge a collaboration that could change biological imaging.16.02.2015 | Read more
Beeping tag gathers data to help make dams more fish-friendly
Fish no longer need to go under the knife to help researchers understand exactly how they swim through hydroelectric dams, thanks to a new injectable tracking...30.01.2015 | Read more
When plants come under attack internal alarm bells ring and their defence mechanisms swing into action - and it happens in the space of just a few minutes. Now, for the first time, plant scientists - including experts from The University of Nottingham - have imaged, in real time, what happens when plants beat off the bugs and respond to disease and damage.
The research, "A fluorescent hormone biosensor reveals the dynamics of jasmonate signalling in plants", was carried out by an interdisciplinary team from the...19.01.2015 | Read more
Understanding recovery process could have implications for many different injuries of the central nervous system
An interdisciplinary team of neuroscientists and neurosurgeons from the University of Rochester has used a new imaging technique to show how the human brain...11.12.2014 | Read more
What enables electrons to be transferred swiftly, for example during photosynthesis? An interdisciplinary team of researchers has worked out the details of how...
For the first time, scientists have precisely measured the effective electrical charge of a single molecule in solution. This fundamental insight of an SNSF Professor could also pave the way for future medical diagnostics.
Electrical charge is one of the key properties that allows molecules to interact. Life itself depends on this phenomenon: many biological processes involve...
At the JEC World Composite Show in Paris in March 2018, the Fraunhofer Institute for Laser Technology ILT will be focusing on the latest trends and innovations in laser machining of composites. Among other things, researchers at the booth shared with the Aachen Center for Integrative Lightweight Production (AZL) will demonstrate how lasers can be used for joining, structuring, cutting and drilling composite materials.
No other industry has attracted as much public attention to composite materials as the automotive industry, which along with the aerospace industry is a driver...
Scientists at Tokyo Institute of Technology (Tokyo Tech) and Tohoku University have developed high-quality GFO epitaxial films and systematically investigated their ferroelectric and ferromagnetic properties. They also demonstrated the room-temperature magnetocapacitance effects of these GFO thin films.
Multiferroic materials show magnetically driven ferroelectricity. They are attracting increasing attention because of their fascinating properties such as...
The oceans are the largest global heat reservoir. As a result of man-made global warming, the temperature in the global climate system increases; around 90% of...
08.01.2018 | Event News
11.12.2017 | Event News
08.12.2017 | Event News
18.01.2018 | Life Sciences
18.01.2018 | Life Sciences
18.01.2018 | Earth Sciences