Metabolism of a nitrogen-enriched coastal marine lagoon during the summertime

Metabolism of a nitrogen-enriched coastal marine lagoon during the summertime

We measured metabolism rates in a shallow, nitrogen-enriched coastal marine ecosystem on Cape Cod (MA, USA) during seven summers using an open-water diel oxygen method. We compared two basins, one directly receiving most of the nitrogen (N) load (“Snug Harbor”) and another further removed from the N...

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Veröffentlicht in:Biogeochemistry 2014-04, Vol.118 (1-3), p.1-20
Hauptverfasser: Howarth, Robert W, Hayn, Melanie, Marino, Roxanne M, Ganju, Neil, Foreman, Kenneth, McGlathery, Karen, Giblin, Anne E, Berg, Peter, Walker, Jeffrey D
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Sprache:eng
Schlagworte:
Algae
Animal and plant ecology
Animal, plant and microbial ecology
Atmospherics
autotrophs
basins
biogeochemistry
Biogeosciences
Biological and medical sciences
Carbon dioxide
carbon dioxide enrichment
Coastal ecosystems
Coastal zone management
Dissolved oxygen
Earth and Environmental Science
Earth Sciences
Earth, ocean, space
Ecosystems
Engineering and environment geology. Geothermics
Environmental Chemistry
Estuaries
Exact sciences and technology
Fundamental and applied biological sciences. Psychology
gross primary productivity
Groundwater
Harbors
Hypoxia
Lagoons
Life Sciences
macroalgae
Marine
Marine and continental quaternary
Marine biology
Marine ecosystems
Massachusetts
Metabolism
net ecosystem production
Nitrogen
Nitrogen enrichment
Oxygen
Phytoplankton
Pollution, environment geology
Primary production
Primary productivity
Respiration
Sea water ecosystems
seagrasses
Seawater
solar radiation
Sondes
Summer
Surficial geology
Synecology
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container_end_page 20
container_issue 1-3
container_start_page 1
container_title Biogeochemistry
container_volume 118
creator Howarth, Robert W
Hayn, Melanie
Marino, Roxanne M
Ganju, Neil
Foreman, Kenneth
McGlathery, Karen
Giblin, Anne E
Berg, Peter
Walker, Jeffrey D
description We measured metabolism rates in a shallow, nitrogen-enriched coastal marine ecosystem on Cape Cod (MA, USA) during seven summers using an open-water diel oxygen method. We compared two basins, one directly receiving most of the nitrogen (N) load (“Snug Harbor”) and another further removed from the N load and better flushed (“Outer Harbor”). Both dissolved oxygen and pH varied greatly over the day, increasing in daylight and decreasing at night. The more N-enriched basin frequently went hypoxic during the night, and the pH in both basins was low (compared to standard seawater) when the oxygen levels were low, due to elevated carbon dioxide. Day-to-day variation in gross primary production (GPP) was high and linked in part to variation in light. Whole-ecosystem respiration tended to track this short-term variation in GPP, suggesting that respiration by the primary producers often dominated whole-system respiration. GPP was higher in the more N-loaded Snug Harbor. Seagrasses covered over 60 % of the area of the better-flushed, Outer Harbor throughout our study and were the major contributors to GPP there. Seagrasses covered 20 % of the area in Snug Harbor for the first 5 years of our study, and their contribution to GPP was relatively small. The seagrasses in Snug Harbor died off completely in the 6th year, but GPP remained high then and in the subsequent year. Overall, rates of phytoplankton GPP were relatively low, suggesting that benthic micro- and macro-algae may be the dominant primary producers in Snug Harbor in most years. Net ecosystem production in both Snug Harbor and the Outer Harbor was variable from year to year, showing net heterotrophy in some years and net autotrophy in others, with a trend towards increasing autotrophy over the 7 years reported here.
doi_str_mv 10.1007/s10533-013-9901-x
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We compared two basins, one directly receiving most of the nitrogen (N) load (“Snug Harbor”) and another further removed from the N load and better flushed (“Outer Harbor”). Both dissolved oxygen and pH varied greatly over the day, increasing in daylight and decreasing at night. The more N-enriched basin frequently went hypoxic during the night, and the pH in both basins was low (compared to standard seawater) when the oxygen levels were low, due to elevated carbon dioxide. Day-to-day variation in gross primary production (GPP) was high and linked in part to variation in light. Whole-ecosystem respiration tended to track this short-term variation in GPP, suggesting that respiration by the primary producers often dominated whole-system respiration. GPP was higher in the more N-loaded Snug Harbor. Seagrasses covered over 60 % of the area of the better-flushed, Outer Harbor throughout our study and were the major contributors to GPP there. Seagrasses covered 20 % of the area in Snug Harbor for the first 5 years of our study, and their contribution to GPP was relatively small. The seagrasses in Snug Harbor died off completely in the 6th year, but GPP remained high then and in the subsequent year. Overall, rates of phytoplankton GPP were relatively low, suggesting that benthic micro- and macro-algae may be the dominant primary producers in Snug Harbor in most years. 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We compared two basins, one directly receiving most of the nitrogen (N) load (“Snug Harbor”) and another further removed from the N load and better flushed (“Outer Harbor”). Both dissolved oxygen and pH varied greatly over the day, increasing in daylight and decreasing at night. The more N-enriched basin frequently went hypoxic during the night, and the pH in both basins was low (compared to standard seawater) when the oxygen levels were low, due to elevated carbon dioxide. Day-to-day variation in gross primary production (GPP) was high and linked in part to variation in light. Whole-ecosystem respiration tended to track this short-term variation in GPP, suggesting that respiration by the primary producers often dominated whole-system respiration. GPP was higher in the more N-loaded Snug Harbor. Seagrasses covered over 60 % of the area of the better-flushed, Outer Harbor throughout our study and were the major contributors to GPP there. Seagrasses covered 20 % of the area in Snug Harbor for the first 5 years of our study, and their contribution to GPP was relatively small. The seagrasses in Snug Harbor died off completely in the 6th year, but GPP remained high then and in the subsequent year. Overall, rates of phytoplankton GPP were relatively low, suggesting that benthic micro- and macro-algae may be the dominant primary producers in Snug Harbor in most years. Net ecosystem production in both Snug Harbor and the Outer Harbor was variable from year to year, showing net heterotrophy in some years and net autotrophy in others, with a trend towards increasing autotrophy over the 7 years reported here.</abstract><cop>Cham</cop><pub>Springer-Verlag</pub><doi>10.1007/s10533-013-9901-x</doi><tpages>20</tpages></addata></record>
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subjects Algae
Animal and plant ecology
Animal, plant and microbial ecology
Atmospherics
autotrophs
basins
biogeochemistry
Biogeosciences
Biological and medical sciences
Carbon dioxide
carbon dioxide enrichment
Coastal ecosystems
Coastal zone management
Dissolved oxygen
Earth and Environmental Science
Earth Sciences
Earth, ocean, space
Ecosystems
Engineering and environment geology. Geothermics
Environmental Chemistry
Estuaries
Exact sciences and technology
Fundamental and applied biological sciences. Psychology
gross primary productivity
Groundwater
Harbors
Hypoxia
Lagoons
Life Sciences
macroalgae
Marine
Marine and continental quaternary
Marine biology
Marine ecosystems
Massachusetts
Metabolism
net ecosystem production
Nitrogen
Nitrogen enrichment
Oxygen
Phytoplankton
Pollution, environment geology
Primary production
Primary productivity
Respiration
Sea water ecosystems
seagrasses
Seawater
solar radiation
Sondes
Summer
Surficial geology
Synecology
title Metabolism of a nitrogen-enriched coastal marine lagoon during the summertime
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