Lead Principal Investigator: Gobler, Christopher
Partner Institution: Stony Brook University
Federal Agency: National Park Service
Project Discipline: Natural Resources
Start Year: 2014
End Year: 2017
Products Associated with this Project:
- Wallace, R., C. Gobler. Coastal ocean acidification: Contrasting diurnal, seasonal, and spatial patterns among temperate coastal habitats. 2015 Coastal Estuarine Research Federation. Portland, OR. November 8-12, 2015. (Presentation(s))
- Young, C., C. Gobler. Ocean acidification accelerates the growth of estuarine macroalgae. 2015 Coastal Estuarine Research Federation. Portland, OR. November 8-12, 2015. (Presentation(s))
- Clark, H., C. Gobler. 2016. Diurnal fluctuations in CO2 and dissolved oxygen concentrations do not provide a refuge from hypoxia and acidification for early-life-stage bivalves. Marine Ecology Progress Series 558: 1-14. https://www.somas.stonybrook.edu/?s=clark (Publication)
- Gobler C., J. Thickman. 2016. Response of indicator bacteria in Great South Bay, Long Island to the breach at Old Inlet: An analysis of coliform bacteria post Hurricane Sandy. Natural Resource Report. NPS/NER/NRR-2016/1261. National Park Service. Fort Collins, CO. https://irma.nps.gov/DataStore/Reference/Profile/2230810 (Publication)
- Gobler, C. Acidification, hypoxia, and algal blooms: Barriers to current and future ecosystem restoration and climate change resilience in Jamaica Bay. Symposium on Ecosystem Resilience Research in Jamaica Bay. City University of New York Graduate Center, New York, NY. November 15, 2015. (Presentation(s))
- Gobler, C., E. Depasquale, H. Clark, H. Baumann, A. Griffith. Vulnerability and resistance among early life stage finfish and bivalves to concurrent ocean acidification and hypoxia. 2015 Aquatic Sciences Meeting, Association for the Sciences of Limnology and Oceanography. Granada, Spain. February 22-27, 2015. (Presentation(s))
- Gobler, C., H. Clark, A. Griffith, M. Lusty. 2016. Diurnal fluctuations in acidification and hypoxia reduce the growth and survival of larval and juvenile bay scallops (Argopecten irradians) and hard clams (Mercenaria mercenaria). Frontiers in Marine Science 3: 282. https://www.somas.stonybrook.edu/?s=clark (Publication)
- Gobler, C., H. Clark, A. Griffith. Vulnerability and resistance of early life stage bivalves to concurrent ocean acidification and hypoxia. 2015 Coastal Estuarine Research Federation (CERF). Portland, OR. November 8-12, 2015. (Presentation(s))
- Griffith, A., C. Gobler. The effects of climate change on the growth and toxicity of the dinoflagellate, Cochlodinium polykrikoides. 2015 Coastal Estuarine Research Federation, Portland, OR. November 8-12, 2015. (Presentation(s))
- Hattenrath-Lehmann, T., C. Gobler. 2017. Identification of unique microbiomes associated with harmful algal blooms caused by Alexandrium fundyense and Dinophysis acuminata. Harmful Algae 68: 17-30. https://www.somas.stonybrook.edu/?s=Gobler (Publication)
- Lauto, R., T. Hattenrath-Lehmann, C. Gobler, R. Fulweiler. The impact of harmful algal bloom and organic matter on sediment denitrification. 2015 Coastal Estuarine Research Federation. Portland, OR. November 8-12, 2015. (Presentation(s))
- O’Leary, C., J. Nye, C. Gobler, J. Grear. Population Level Effects of Ocean Acidification on North Atlantic Bivalve Species Using Inverse Demographic Methods. Coastal Estuarine Research Federation. Portland, OR. November 8-12, 2015. (Presentation(s))