OC44B:
Multiple Stressors and Multiple Disciplines: Understanding the Consequences of Global Ocean Change for Marine Species I Posters
OC44B:
Multiple Stressors and Multiple Disciplines: Understanding the Consequences of Global Ocean Change for Marine Species I Posters
Multiple Stressors and Multiple Disciplines: Understanding the Consequences of Global Ocean Change for Marine Species I Posters
Session ID#: 29732
Session Description:
As anthropogenic forcing of marine systems continues to accelerate, biological responses will change the structure and function of marine ecosystems. While the concurrent nature of many of these stressors has been robustly documented, research on the combined effects of multiple stressors on important life history traits and population resiliency is still in its infancy. In addition, recent advances in biogeochemical tools (e.g., stable isotopes and trace elements) offer novel, interdisciplinary insights into global change biology. We invite contributions that report on experimental, field, and modeling studies exploring the broad spectrum of potential responses to single and multiple stressors (e.g. warming, acidification, deoxygenation, eutrophication, nanoparticles) impacting the ecology, physiology, and adaptive capacity of marine organisms. We particularly welcome contributions that make connections across levels of organization (molecular to global-level processes) spatial scales, (nm-km) and temporal scales (past, present, future).
Primary Chair: Hannes Baumann, University of Connecticut, Marine Sciences, Groton, CT, United States
Co-chairs: Emily Bethana Rivest, Virginia Institute of Marine Science, Biological Sciences, Gloucester Point, VA, United States, Amy E. Maas, Bermuda Institute of Ocean Sciences, St. George's, Bermuda and Catherine V Davis, University of South Carolina Columbia, School of the Earth, Ocean and Environment, Columbia, SC, United States
Moderators: Emily Bethana Rivest, Virginia Institute of Marine Science, Biological Sciences, Gloucester Point, VA, United States, Amy E. Maas, Bermuda Institute of Ocean Sciences, St. George's, Bermuda and Catherine V Davis, UC Davis, Petaluma, CA, United States
Student Paper Review Liaison: Amy E. Maas, Bermuda Institute of Ocean Sciences, St. George's, Bermuda
Index Terms:
1630 Impacts of global change [GLOBAL CHANGE]
1635 Oceans [GLOBAL CHANGE]
4830 Higher trophic levels [OCEANOGRAPHY: BIOLOGICAL AND CHEMICAL]
4890 Zooplankton [OCEANOGRAPHY: BIOLOGICAL AND CHEMICAL]
Cross-Topics:
- BN - Biogeochemistry and Nutrients
- ES - Ecology and Social Interactions
Abstracts Submitted to this Session:
Quantifying Effects of Parentage on Young Atlantic Silverside (Menidia menidia) in High CO2 Habitats (312202)
See more of: Ocean Change: Acidification and Hypoxia