Biological Oceanography
Applicants are encouraged, but not required, to submit scores from the biology subject test of the GRE. Of the sixteen categories of research at Scripps , the BO group is most closely associated with the following integrated research themes:. Biological Oceanography BO Biological Oceanography is concerned with the interactions of populations of marine organisms with one another and with their physical and chemical environment. Primary and secondary productivity and nutrient regeneration Community ecology of benthic and pelagic organisms Food web structure and trophic ecology Population dynamics, habitat changes and disruptions Nonequilibrium ecosystems Microbial ecology and biogeochemical cycling Fishery biology and management Marine mammal ecology and communication Systematics and biogeography Population genetics and evolution Behavior as it affects distributions and food web interactions Climate change impacts including warming, ocean acidification and deoxygenation California current ecosystems, deep sea biology, kelp forest and coral reef ecology, and polar biology are among the realms addressed.
Requirements for Admission In addition to the general requirements for admission to the PhD program listed here , two years of chemistry, including general and organic chemistry, and a year of general biology are required. Program of Study PhD: Patricia Wheeler , now Emeritus Distinguished Professor of Oceanic and Atmospheric Sciences at Oregon State University, taught biological oceanography and phytoplankton physiology there for many years. Her research contributions address phytoplankton nutrient dynamics and include work on dissolved organic carbon and nitrogen.
Altogether a worthy addition to any marine departmental library. This book will make an excellent core text for any graduate level course in Biological Oceanography whether introductory or advanced I also think that every Biological Oceanographer should read it. It is an enlightening experience to view your field through the eyes of two colleagues who have been in this business for a long time. I also found reading this book a humbling experience.
Charlie Miller and Pat Wheeler demonstrate an amazing depth and diversity of understanding in almost every topic that is taken up.
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I hope by the time I get to where they are in their careers I have achieved this level of scholarship in Biological Oceanography. Current research focuses on a wide diversity of organisms, from bacteria to phytoplankton to marine invertebrates to fish. Opportunities exist to conduct research all over the world, from polar regions to tropical seas and from coastal to open ocean ecosystems. Research questions span topics as diverse as ocean acidification, carbon cycling, larval dispersal, organismal development, parasitology, marine toxicology, marine natural products, coral reef ecology, and fisheries management.
Biological oceanography - Wikipedia
On-campus research support includes a dive locker, sample collection staff, a fleet of research boats, flowing seawater tanks, an array of microscopes including scanning and transmission electron microscopy , and a fully-staffed analytical lab. Biological Oceanography and Marine Biology.
Biological Oceanography and Marine Biology Mark Brzezinski Ecology, Evolution and Marine Biology Phytoplankton ecology and physiology; phytoplankton cell cycles; elemental cycling in surface ocean. Biological Oceanography and Marine Biology Deron Burkepile Ecology, Evolution and Marine Biology My research has mostly focused on how trophic interactions and productivity shape community organization across a variety of different ecosystems including coral reefs, rivers, tall grass prairies, and African savannas.
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Biological Oceanography and Marine Biology Craig Carlson Ecology, Evolution and Marine Biology Marine microbial ecology, bacterioplankton, dissolved organic carbon, marine biogeochemistry. We are interested in the behavioral, physiological and biochemical processes that allow fish to thrive in their specific environmental conditions.
Biological Oceanography and Marine Biology
Our work examines how natural and anthropogenic environmental stressors influence performance traits and species distribution. Our research addresses both basic and applied questions and can help inform conservation policy and manage natural resources. Biological Oceanography and Marine Biology Kathleen Foltz Molecular, Cellular and Developmental Biology Biochemistry, cellular and molecular biology of fertilization; signal transduction during egg activation; evolution of gamete recognition molecules in free-spawning marine invertebrates.
Biological Oceanography and Marine Biology Sally MacIntyre Ecology, Evolution and Marine Biology Physical-biological coupling; physical limnology and oceanography; tropical, temperate and arctic lakes; flow in kelp forests and coral reefs Biological Oceanography and Marine Biology Douglas McCauley Ecology, Evolution and Marine Biology Understanding the ecology of communities and ecosystems in a rapidly changing world.
Biological Oceanography and Marine Biology John Melack Ecology, Evolution and Marine Biology Limnology of tropical, saline, and alpine lakes; phytoplankton and zooplankton ecology; biogeochemistry; wetland ecology; remote sensing. Biological Oceanography and Marine Biology Robert Miller Marine Science Institute I am interested in benthic subtidal ecology, particularly community ecology and the role of primary producers in marine ecosystems.
Off southern California, kelp forests are a spectacular example of marine ecosystems, rivaling coral reefs in beauty and biodiversity. With the Santa Barbara Coastal Long-Term Ecological Research program I study the dynamics of different groups of primary producers, including kelp, understory macroalgae, and phytoplankton, how these groups interact competitively, and their roles in coastal food webs.
We have shown that understory algae can be an important component of primary production in the kelp forest that increases substantially when kelp is removed by storms. I am currently working with Mark Page to determine the role of kelp detritus and phytoplankton as trophic resources for benthic suspension feeders using stable isotopes, polyunsaturated fatty acids as dietary markers, and other tools.
We are measuring impacts of nanomaterials as emerging contaminants to marine ecosystems, using phytoplankton and suspension feeders as model organisms.
Biological Oceanography and Marine Biology Holly Moeller Ecology, Evolution and Marine Biology The Moeller Lab uses a combination of mathematical, experimental, and observational approaches to study acquired metabolism. When organisms acquire metabolism i. Examples of acquired metabolism surround us: Even we humans, with our vast complement of gut microbiota, benefit by playing temporary host to other metabolisms.