Understanding nature and transferring its traits to technology is not only the objective of bionics, but also of marine biology and microbiology.
Bionics, marine biology or microbiology. Here you can find scientific reports and articles about achievements and developments in the fields of bionics, marine biology and microbiology. Technical research departments at many universities and institutes are examining and learning from nature and then collaborating with the fields of bionics, marine biology and microbiology. Although Arnold Gehlen once labeled humanity as a "flawed being" that had to create its own culture to survive nature's environment, we can be certain he had not yet considered the opportunities presented by bionics, marine biology and microbiology. Science is meanwhile using the traits of the flawed being to contemplate how to utilize bionics, marine biology and microbiology to copy animals, plants and the rest of the environment. Because nature features attributes such as the hardest and most durable materials and efficient energy production and conversion, it has become a treasure trove of knowledge for bionics, marine biology and microbiology. As a stand-alone branch of research, science can use bionics to demonstrate that nature is superior to humans in many aspects and that we still have a lot to learn from it, whether in macro or microbiology.
The "Bionic Six" comic and animated television series revolved around a family who collaborated with a researcher to utilize the attributes of nature to combat those intent on destroying it. The "Bionic Six" acquired their power and speed through bionics. They knew how to take advantage of the physical forces of nature and were already advancing into the fields of marine biology and microbiology research. Today, bionics is a well-respected field of research that has little to do with children's entertainment. Bionics occupies itself with nature's "inventions" and works closely with the fields of marine biology and microbiology to transfer their attributes to the human culture. Bionics has already proved its worth in the fields of materials research and nano technology. Bionics and microbiology have also made progress in areas such as energy production and storage.
Marine biology has enjoyed new impetus over the past several years. Although researchers have long been occupied with both fields, marine biology and microbiology were thrust into the public spotlight no later than with the publication of "The Swarm", a novel by German author Frank Schätzing. Over the last year, marine biology and microbiology reports revealed that although scientists have unearthed a wealth of new discoveries in marine biology and microbiology, there remain thousands of undiscovered animal species in both areas. Microbiology is actually a vital part of marine biology since the ocean depths contain not only large animals, but also organisms that cannot be seen with the naked eye. And this is where microbiology comes into play. Marine biology and microbiology are engaged in examining the effects of currents, depths and temperatures on the development and propagation of organisms and animals. For this reason, marine biology and microbiology researchers are working to discover new animal species and organisms, all the while further expanding the depths of geography and science. When marine biology and microbiology come together with bionics, this can result in unimagined discoveries and thus the development of new methods that humans can implement for their own benefit and for the protection of the environment. The latest achievements in the fields of bionics, marine biology and microbiology can be found in innovations-report.
Articles and reports from the Life Sciences area deal with applied and basic research into modern biology, chemistry and human medicine.
Valuable information can be found on a range of life sciences fields including bacteriology, biochemistry, bionics, bioinformatics, biophysics, biotechnology, genetics, geobotany, human biology, marine biology, microbiology, molecular biology, cellular biology, zoology, bioinorganic chemistry, microchemistry and environmental chemistry.
An international team of researchers at German Center for Neurodegenerative Diseases (DZNE) and Tokyo Institute of Technology (Tokyo Tech) have revealed in a collaborative study - published today in NEURON, that neurons in the eye change on the molecular level when they are exposed to prolonged light. The researchers could identify that a feedback signalling mechanism is responsible for these changes. The innate neuronal property might be utilized to protect neurons from degeneration or cell death in the future.
Changes in the functional connections between neurons – ‘synapses’ – contribute to our ability to adapt to environmental changes. However until now, little was...17.04.2015 | Read more
A little-known element called californium is making big waves in how scientists look at the periodic table.
According to new research by a Florida State University professor, californium is what’s known to be a transitional element, meaning it links one part of the...17.04.2015 | Read more
Field researchers capture first-ever image of Bouvier's red colobus monkey
Two primatologists working in the forests of the Republic of Congo have returned from the field with a noteworthy prize: the first-ever photograph of the...17.04.2015 | Read more
When a heart attack strikes, heart muscle cells die and scar tissue forms, paving the way for heart failure. Cardiovascular diseases are a major cause of death...17.04.2015 | Read more
Berkeley Lab researchers perform solar-powered green chemistry with captured CO2
A potentially game-changing breakthrough in artificial photosynthesis has been achieved with the development of a system that can capture carbon dioxide...17.04.2015 | Read more
Suggests link with diseases associated with zinc deficiency
Zinc deficiency - long associated with numerous diseases, e.g. autism, lung cancer, prostate cancer, and ovarian cancers - can lead to activation of the...17.04.2015 | Read more
Tuning the para position of benzene rings is significant for creating biologically active compounds and optoelectronic materials. Chemists at ITbM, Nagoya University have developed a novel iridium catalyst that enables highly para-selective borylation on benzene, leading to the rapid synthesis of drug derivatives for treating Parkinson’s disease.
Tuning the para position of benzene moieties is significant for creating biologically active compounds and optoelectronic materials. Yet, attaching a...16.04.2015 | Read more
Scientists at The University of Manchester have discovered a way to make trees grow bigger and faster, which could increase supplies of renewable resources and help trees cope with the effects of climate change.
In the study, published in Current Biology, the team successfully manipulated two genes in poplar trees in order to make them grow larger and more quickly than...16.04.2015 | Read more
National Institute of Standards and Technology (NIST) researchers at the Institute for Bioscience and Biotechnology Research (IBBR) have demonstrated the most precise method yet to measure the structural configuration of monoclonal antibodies (mAbs), an important factor in determining the safety and efficacy of these biomolecules as medicines.
Monoclonal antibodies are proteins manufactured in the laboratory that can target specific disease cells or antigens (proteins that trigger an immune reaction)...16.04.2015 | Read more
A genetic investigation of individuals in the Framingham Heart Study may prove useful to identify novel targets for the prevention or treatment of high blood pressure. The study, which takes a close look at networks of blood pressure-related genes, is published in the journal Molecular Systems Biology.
More than one billion people worldwide suffer from high blood pressure and this contributes significantly to deaths from cardiovascular disease. It is hoped...16.04.2015 | Read more
Astronomers from Chalmers University of Technology have used the giant telescope Alma to reveal an extremely powerful magnetic field very close to a supermassive black hole in a distant galaxy
Astronomers from Chalmers University of Technology have used the giant telescope Alma to reveal an extremely powerful magnetic field very close to a...
A team of physicists from MPQ, Caltech, and ICFO proposes the combination of nano-photonics with ultracold atoms for simulating quantum many-body systems and creating new states of matter.
Ultracold atoms in the so-called optical lattices, that are generated by crosswise superposition of laser beams, have been proven to be one of the most...
According to new research out of the Texas A&M Health Science Center College of Medicine, that is indeed the case. Chetan Jinadatha, M.D., M.P.H., assistant...
Researchers from ICFO, MIT and UC Riverside have been able to develop a graphene-based photodetector capable of converting absorbed light into an electrical voltage at ultrafast timescales
The efficient conversion of light into electricity plays a crucial role in many technologies, ranging from cameras to solar cells.
Electrical charges not only move through wires, they also travel along lengths of DNA, the molecule of life. The property is known as charge transport.
In a new study appearing in the journal Nature Chemistry, authors, Limin Xiang, Julio Palma, Christopher Bruot and others at Arizona State University's...
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