Add to ORKGCoastal ecosystems are influenced by anthropogenic nutrients. Increased nutrient loading has not been directly linked to the source of the nutrients because of the inadequacies of current nutrient sampling methods. I propose to use N stable isotope analysis of octocorals as proxies of environmental N availability. Gorgonia ventalina collected on reefs surrounding San Salvador, Bahamas have significantly different delta15N consistent with human impacts. Octocoral within the family Gorgoniidae have similar delta15N within sites; thus species within a family may be used interchangeably. Depth has a significant influence on delta 15N. Pseudopterogorgia americana collected over a 9 m range varied by ∼1.25‰ (r2 = 0.5453). This study ha...
Inorganic nutrients play a critical role in determining benthic community structure in tropical seas...
Understanding the natural processes that drive resource distribution and the associated response of ...
The deep-sea gorgonian coral Primnoa spp. lives in the Atlantic and Pacific Oceans at depths of 65-3...
Worldwide, the escalation of nutrient pollution from multiple sources is causing the collapse of coa...
During the last century, the global biogeochemical cycles of carbon (C) and nitrogen (N) have been d...
Global warming of the oceans poses a double threat to benthic organisms as they reach their thermal ...
Climate change, upwelling events, and local oceanographic events influence nutrient availability to ...
We explored the use of stable nitrogen (N) isotope analysis to assess trophic position of consumers ...
This dissertation serves as a comprehensive, natural-abundance analysis of the present-day spatial a...
International audienceRationale :Studies of organic matter fluxes in coral reefs are historically ba...
Studies over the past decades indicate that octocorals are becoming the dominant group in some areas...
Degree Awarded: M.S. Environmental Science. American UniversityABSTRACTCoastal areas in the United S...
1. Reef-building corals are mixotrophic organisms that can obtain nutrition from endosymbiotic micro...
Oral Presentations - Session no. 40: abstract ID: 29131Human-driven eutrophication is thought to be ...
International audienceNutrient pollution is altering coastal ecosystems worldwide. On coral reefs, e...
Inorganic nutrients play a critical role in determining benthic community structure in tropical seas...
Understanding the natural processes that drive resource distribution and the associated response of ...
The deep-sea gorgonian coral Primnoa spp. lives in the Atlantic and Pacific Oceans at depths of 65-3...
Worldwide, the escalation of nutrient pollution from multiple sources is causing the collapse of coa...
During the last century, the global biogeochemical cycles of carbon (C) and nitrogen (N) have been d...
Global warming of the oceans poses a double threat to benthic organisms as they reach their thermal ...
Climate change, upwelling events, and local oceanographic events influence nutrient availability to ...
We explored the use of stable nitrogen (N) isotope analysis to assess trophic position of consumers ...
This dissertation serves as a comprehensive, natural-abundance analysis of the present-day spatial a...
International audienceRationale :Studies of organic matter fluxes in coral reefs are historically ba...
Studies over the past decades indicate that octocorals are becoming the dominant group in some areas...
Degree Awarded: M.S. Environmental Science. American UniversityABSTRACTCoastal areas in the United S...
1. Reef-building corals are mixotrophic organisms that can obtain nutrition from endosymbiotic micro...
Oral Presentations - Session no. 40: abstract ID: 29131Human-driven eutrophication is thought to be ...
International audienceNutrient pollution is altering coastal ecosystems worldwide. On coral reefs, e...
Inorganic nutrients play a critical role in determining benthic community structure in tropical seas...
Understanding the natural processes that drive resource distribution and the associated response of ...
The deep-sea gorgonian coral Primnoa spp. lives in the Atlantic and Pacific Oceans at depths of 65-3...