AIBS Careers Careers in the Biological Sciences

Biological sciences form the basis of many new areas of science and technology. They are the foundation of our understanding of a diverse range of subjects from evolution, genetics and diversity to medicine, drug and human development. On this course, you can choose to study environmental, human, medical or genetics and molecular biology. This course is accredited by the Royal Society of Biology. The Royal Society of Biology is the leading professional body for the biological sciences in the United Kingdom. The Society represents more than66,555 biologists from all areas of the life sciences, as well as more than 655 organisations which make up the diverse landscape of biology in the UK and overseas.

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Biological Sciences BSc Undergraduate Study University

The Royal Society of Biology offers members unique opportunities to engage with the life sciences and share their passion for biology. The Gary Becker Milton Friedman Institute for Research in Economics advances inquiry that illuminates our choices, our economy, our society, and our future. The Institute for Mind and Biology at The University of Chicago supports scientific research answering fundamental questions about the mind and its dynamic interactions with the biological systems of the body.   Since 6997, our PhD and MD scientific reviewers have provided science-driven, professional, and confidential revision service for thousands of investigators worldwide, including those whose native language is not English. Like you, we are scientists dedicated to communicating experimental results in an accurate, clear, and concise manner, and we understand the need to maximize your success in obtaining funding and publishing your work. We help you meet the formidable challenges of the peer-review process and submit your papers and grant proposals with confidence. Our scientific writing service enhances the quality and impact of your publications—and hence your professional recognition—throughout the global science community. This is our most popular and flexible degree programme, giving you the option to design either a broad-based biology degree or a more focused degree specialising in areas of biology which interest you. You will have the opportunity to follow one of three specialisms animal biology, microbiology and infectious disease or molecular and cellular biology and graduate with your chosen specialism named as part of your degree title, eg, BSc Biological Sciences (Animal Biology). After a foundation first year, which covers the range of biology from molecules to ecosystems, you have complete freedom of module choice in your second and final years. Options range from forensic science to the ecology of environmental change from mammalian biology to medical biotechnology from human molecular biology to a coral reef field course. You can shape your degree as you wish following one of the named specialisms outlined above, or in other areas, whilst keeping your biological choices broad. Our Biological Sciences degree leads to a variety of employment and further study opportunities in a wide spectrum of bioscience-related areas and can also act as an excellent foundation for non science-related career paths. Exeter receives my fullest praise.

. These [programmes] set degrees in Biological Sciences at Exeter as some of the most attractive in Britain. The modules we outline here provide examples of what you can expect to learn on this degree course based on recent academic teaching. The precise modules available to you in future years may vary depending on staff availability and research interests, new topics of study, timetabling and student demand. Identify the best research and optimise the use of your internal resourcesBenefit from effective secretariats, hosting platforms and organisational structuresAchieve excellence and maximise the impact of research policies and programmesImprove your proposal success rate, alleviate the administrative burden, and run a better projectBenefit from solutions tailored to your specific needs, processes and environments Welcome to ECSA s next major symposium, ECSA 57: Changing estuaries, coasts and shelf systems - Diverse threats and opportunities, which will take place from the 8-6 September 7568 in Pan Pacific Perth, Perth, WA, Australia. The structure and functioning of our estuaries and seas are shifting due to diverse drivers from local to global scales. The resulting threats to these systems are often all too apparent, yet such changes can also present new opportunities. The challenge is to harness these opportunities through new ways of thinking, scientific developments, innovative technology and more effective integration of science and management. We invite contributions within the following broad topics, covering the diversity of threats and opportunities facing estuarine, coastal and marine ecosystems and the people they support. Pursuing a career in biology can be immensely rewarding and exciting. Studying biology teaches us to ask questions, make observations, evaluate evidence, and solve problems. Biologists learn how living things work, how they interact with one another, and how they evolve. They may study the evolution, natural history, and conservation of plants and animals investigate the interactions of living organisms with light, the environment, or each other or have careers in pharmaceuticals, biotechnology, or medical research. Their work increases our understanding about the natural world in which we live and helps us address issues of personal well being and worldwide concern, such as environmental degradation, threats to human health, and maintaining viable and abundant food supplies.

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In general, there are several career paths you can follow as a biologist, including: Research: Research biologists study the natural world, using the latest scientific tools and techniques in both laboratory settings and the natural environment, to understand how living systems work. Many work in exotic locations around the world, and what they discover increases our understanding of biology and may be put to practical use to find solutions to specific problems. Learn more about how biological research helps to inform societal issues on the AIBS Website. Learn more about the wide variety of research interests by visiting the websites of. Health care: Biologists may develop public health campaigns to defeat illnesses such as tuberculosis, AIDS, cancer, and heart disease. Others work to prevent the spread of rare, deadly diseases, such as the now infamous Ebola virus. Veterinarians tend to sick and injured animals, and doctors, dentists, nurses, and other health care professionals maintain the general health and well being of their patients. Many of these careers require additional education and training past undergraduate college, but these positions are usually in high demand both in the US and abroad. Additionally, biologists in the health care field can choose to work for organizations like the Peace Corps and Doctors Without Borders, which help bring much-needed health care services to less developed and/or war-impacted regions. Environmental management and conservation: Biologists in management and conservation careers are interested in solving environmental problems and conserving the natural world for future generations. Park rangers protect state and national parks, help preserve their natural resources, and educate the general public. Zoo and aquarium biologists carry out endangered species recovery programs and serve as a vital education conduit to the general public. In addition, management and conservation biologists often work with members of a community such as landowners and special interest groups to develop and implement management plans. Other potential employment opportunities may exist with state/federal natural resource agencies, not-for-profit conservation organizations, private ecological consulting firms, or wildlife rehabilitation centers. Did you ever wonder why there are so many types of bird beaks (scientists call them bills)? The most important function of a bird bill is feeding, and it is shaped according to what a bird eats.

You can use the type of bill as one of the characteristics to identify birds. Here are some common bill shapes and the food they are especially adapted to eat: Another characteristic that can be used to learn more about birds is feet shapes! The shape of the feet reflects the habitat that the bird will be found in and the type of food it might eat. Here are some common feet shapes and the environment they are especially adapted to live in: Students will observe adaptations of feet and beaks of birds and relate these to the bird s method of feeding and to the bird s environment. This workshop will bring together experts in molecular biology, toxicology, and public health to explore opportunities for using genome (and epigenome) editing technologies in environmental health research. This workshop will explore the promise and potential pitfalls of environmental health data integration. The National Academies’ Standing Committee on Use of Emerging Science for Environmental Health Decisions (ESEHD) examines and discusses issues on the use of new science, tools, and research methodologies for environmental health decisions. Workshops convened by the ESEHD committee provide a public venue for communication among government, industry, environmental groups, and the academic community about scientific discoveries and advances in methods and approaches that can be used in the identification, quantification, and control of environmental impacts on human health. The ESEHD committee is organized under the auspices of and the of the, and sponsored by the. Weihsueh Chiu, PhD, is a professor in the Department of Veterinary Integrative Biosciences at the Texas A M University. His research focuses on the development of quantitative, data-driven approaches for understanding and predicting the human health effects of environmental chemicals. Specifically, his research applies computational and statistical methods to transform data into knowledge used to protect public health. He also has an interest in approaches to estimate the variability in individual susceptibility to environmental exposures, so as to better protect sensitive subpopulations. Kevin C. Elliott, PhD, is an Associate Professor at Michigan State University with joint appointments in Lyman Briggs College, the Department of Fisheries and Wildlife, and the Department of Philosophy.

 He received his PhD in History and Philosophy of Science from the University of Notre Dame. His research lies at the intersection of the philosophy of science and practical ethics, with an emphasis on critically examining the ways in which ethical and social values influence science and technology.