International Journal of Environmental Research is a multidisciplinary journal concerned with all aspects of environment. In pursuit of these, environmentalist disciplines are invited to contribute their knowledge and experience.
Plant, Agriculture and Environment Biotechnology Agricultural biotechnology , also known as agritech, is an area of agricultural science involving the use of scientific tools and techniques, including genetic engineering, molecular markers, molecular diagnostics, vaccines, and tissue culture, to modify living organisms: If one adopts the usual approach of surrounding the object by known control points, then the limited space with an acceptable accuracy potential for the L - terms would not be large enough to enclose an adult human body surrounded by suitably positioned control points. Studying sea plants and animals is a challenge that is becoming easier due to advanced technologies such as deep-sea submersibles, sonar, lasers, videos, and satellites. The experiments carried out with two reference frames showed that point positions could be established with RMS values in the mm range in the middle axis of the X-ray patient platform.
Environmental biotechnology has been shown to play a significant role in agroecology in the form of zero waste agriculture and most significantly through the operation of over 15 million biogas digesters worldwide.International Journal of Urban and Regional Research, Volume 40, Issue 4 [Matthew Gandy, Maria Kaika, Ananya Roy, Fulong Wu] on calltally.info *FREE* shipping on qualifying offers. Since its foundation in IJURR has been at the cutting-edge of critical urban scholarship. IJURR is taking forward its commitment to interdisciplinary and international urban research.
Marine, Aquatic and Ocean Biotechnology The ocean has the oldest, most diverse, most numerous and least studied organisms on earth. It covers almost three fourths of our planet and has the potential to feed the world and supply cures for many diseases.
Studying sea plants and animals is a challenge that is becoming easier due to advanced technologies such as deep-sea submersibles, sonar, lasers, videos, and satellites.
Marine Biotechnology is a relatively new field of study, having emerged in the past few years. Marine Biotechnology is the study of how the various organisms and actions of the ocean can be used to provide services and products to us. Marine Biotechnology is the use of living marine resources at eco system, concept, organism or molecular level to provide beneficial solutions for the society.
Scientists in this field of Marine Biotechnology are studying the various enzymes and proteins of marine life in hopes of solving many problems that plague the area of Agriculture and Industry today. These problems include trying to find anti-corrosive coatings and "self-cleaning" surfaces for industrial use.
Food biotechnology employs the tools of modern genetics to enhance beneficial traits of plants, animals, and microorganisms for food production. It involves adding or extracting select genes to achieve desired traits.
Purchase fruits and vegetables with increased antioxidant content that may reduce risk for cancer. Plant-made pharmaceuticals are the latest evolution within the realm of biotechnology. As the name suggests, this process uses genetics to enable plants to produce protein-based medicines to treat diseases and save lives.
Edible vaccines are among the most innovative approaches for administering new vaccines. For example, researchers have investigated putting a vaccine into bananas that would protect against food borne pathogens. Animal biotechnology has been used to produce genetically modified animals that synthesize therapeutic proteins, have improved growth rates or are resistant to disease.
Animal health and efficiency in generating animal based products with a target to increase quantity as well as quality of such products is the ultimate motive behind scientific research. Animal biotechnology is the use of science and engineering to modify living organisms.
The goal is to make products, to improve animals and to develop microorganisms for specific agricultural uses.Lived Experience of Gentrification-Inclusive Cities 2016
Animal biotechnology in use today is based on the science of genetic engineering. Under the umbrella of genetic engineering exist other technologies, such as transgenics and cloning, that also are used in animal biotechnology.
The potential benefits of animal biotechnology are numerous and include enhanced nutritional content of food for human consumption; a more abundant, cheaper and varied food supply; agricultural land-use savings; a decrease in the number of animals needed for the food supply; improved health of animals and humans; development of new, low-cost disease treatments for humans; and increased understanding of human disease.
As an interdisciplinary field of science, bioinformatics combines computer science, statistics, mathematics, and engineering to analyze and interpret biological data. Industrial biotechnology can be used to: It is often referred to as the third wave in biotechnology.
It offers businesses a way to reduce costs and create new markets while protecting the environment. During Apollo missions in 's the module surface becomes charred up to some extent, hence decreasing the strength and scope of further reusability of the module. A new design has been proposed and simulation results have revealed the possibility to reuse the module again for another mission.
The new design has incorporated an in-built mechanism that will extend some part of the module surface outwards near to the periphery of the base of the module.
The design, mechanism, material and other details are discussed in succeeding sections. New ablative material has been introduced for more getting more promising results.
Design patterns have been the target of a great deal of research in the last few years. A design pattern is a general solution to a commonly occurring problem. They are composed of three parts: This paper concentrates on developing a catalog for design patterns for safety-critical real-time systems and allows flexibility to choose, search a design pattern and add more design patterns.
This tool will be able to help generate the code for the suitable design pattern.
Edition published in Safety assessment of design patterns for safety-critical embedded systems. Sarma, Sahith Rampelli, Dr. High-resolution signal parameter estimation is a significant problem in many signal processing applications.
Such applications include direction of arrival DOA estimation for narrow band signals and wideband signal emitted by multiple sources and received by sensor arrays.Elijah Anderson - Code of the Street
Strong consistency of the modified method is established. However, an important disadvantage of the ULA geometry in DOA estimation is that it can only estimate the azimuth angle. To estimate the elevation angle, Uniform circular arrays UCA geometries and planner array are employed in many applications.
Schmidt, "Multiple emitter location and signal parameter estimation". Antennas and Propagation, vol. A Face recognition scheme using hybrid approach is proposed in this paper.
An alternative to this observation design would be simultaneous imaging from two X-ray sources, one with 00 orientations and the other with an orientation between and Siregar The aim of the research was to acquire resistance callus of Tamarillo Solanum betaceum Cav.
The study was designed by Factorial randomized design, consisting of two factors: UV-B light power; 10, 20 and 30 watts, and exposure time 30, 60 and 90 seconds.It combines the Principles and problem solving skills of engineering with medical and biological sciences to improve healthcare diagnosis and treatment. SF6 is generally found to be very sensitive to field perturbations such as those caused by conductor surface imperfections and by conducting particle contaminants. It presents new class of multifunctional systems and devices for biological analysis with better sensitivity and much specificity.
The Colletorichum filtrate added into medium ppm as resistant selection. Callus gained by selection were analyzed by peroxidase and polyphenoloxidase activity changing.
Analysis of both enzymes activity showed decreased of protein levels at all samples. But after selection of Colletorichum filtrate, both enzymes showed increasing of theirs protein levels. The samples after selection showed more tolerant against filtrate compared to control, the highest value obtained in the treatment of UV-B radiation of 20 watts and exposure time of 30 seconds for peroxidase and 20 watt and 60 seconds for polyphenoloxidase.
The lowest protein content for both enzyme found on control treatments.