S
Stacy Kim
Researcher at Moss Landing Marine Laboratories
Publications - 42
Citations - 1196
Stacy Kim is an academic researcher from Moss Landing Marine Laboratories. The author has contributed to research in topics: Benthic zone & Hydrothermal vent. The author has an hindex of 18, co-authored 40 publications receiving 1029 citations. Previous affiliations of Stacy Kim include California State University.
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Journal ArticleDOI
Benthic changes during 10 years of organic enrichment by McMurdo Station, Antarctica
TL;DR: Organic enrichment by McMurdo Station has had a greater impact on benthic community structure than at Australia's Casey Station.
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Variation in marine benthic community composition allows discrimination of multiple stressors
Hunter S. Lenihan,Hunter S. Lenihan,Charles H. Peterson,Stacy Kim,Kathleen E. Conlan,Russell Fairey,Christian McDonald,Jonathan H. Grabowski,John Oliver +8 more
TL;DR: A predictive model based on assessment of benthic community structure conducted at the taxonomic level of phyla that could be used to link cause and effect for multiple chemical stressors in marine ecosystems is presented.
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Broad-scale factors influencing the biodiversity of coastal benthic communities of the Ross Sea
Simon F. Thrush,Paul K. Dayton,Riccardo Cattaneo-Vietti,Mariachiara Chiantore,Vonda J. Cummings,Neil L. Andrew,Ian Hawes,Stacy Kim,Rikk G. Kvitek,Anne-Maree Schwarz +9 more
TL;DR: In this article, the relative importance of different environmental drivers in structuring benthic communities in McMurdo Sound has been investigated and a comparative synthesis of these coastal ecological studies enables us to generate hypotheses concerning the importance of various environmental drivers.
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Surprising episodic recruitment and growth of Antarctic sponges: Implications for ecological resilience
Paul K. Dayton,Shannon C. Jarrell,Stacy Kim,Simon F. Thrush,Kamille Hammerstrom,Marc Slattery,Edward Parnell +6 more
TL;DR: Observations over four decades are compiled and reveal extremely episodic sponge recruitment and growth and emphasize that long-term data collection is essential for meaningful forecasts about environmental change in the unique benthic ecosystems of the Antarctic shelf.
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Larval dispersal via entrainment into hydrothermal vent plumes
TL;DR: The authors used a standard buoyant plume model and observed larval abundances near hydrothermal vents at 9°50′N along the East Pacific Rise to estimate a mean vertical flux of approximately 100 vent larvae/h at a single black smoker.