Hydrological Conditions Control P Loading and Aquatic Metabolism in an Oligotrophic, Subtropical Estuary

Gregory R. Koch; Daniel Childers; Peter A. Staehr; René M. Price; Stephen E. Davis; Evelyn E. Gaiser

doi:10.1007/s12237-011-9431-5

Hydrological Conditions Control P Loading and Aquatic Metabolism in an Oligotrophic, Subtropical Estuary

Gregory R. Koch, Daniel Childers, Peter A. Staehr, René M. Price, Stephen E. Davis, Evelyn E. Gaiser

Life Sciences, School of (SOLS)

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

Using high-resolution measures of aquatic ecosystem metabolism and water quality, we investigated the importance of hydrological inputs of phosphorus (P) on ecosystem dynamics in the oligotrophic, P-limited coastal Everglades. Due to low nutrient status and relatively large inputs of terrestrial organic matter, we hypothesized that the ponds in this region would be strongly net heterotrophic and that pond gross primary production (GPP) and respiration (R) would be the greatest during the "dry," euhaline estuarine season that coincides with increased P availability. Results indicated that metabolism rates were consistently associated with elevated upstream total phosphorus and salinity concentrations. Pulses in aquatic metabolism rates were coupled to the timing of P supply from groundwater upwelling as well as a potential suite of hydrobiogeochemical interactions. We provide evidence that freshwater discharge has observable impacts on aquatic ecosystem function in the oligotrophic estuaries of the Florida Everglades by controlling the availability of P to the ecosystem. Future water management decisions in South Florida must include the impact of changes in water delivery on downstream estuaries.

Original language	English (US)
Pages (from-to)	292-307
Number of pages	16
Journal	Estuaries and Coasts
Volume	35
Issue number	1
DOIs	https://doi.org/10.1007/s12237-011-9431-5
State	Published - Jan 2012

Keywords

Estuary
Everglades
Hydrology
Metabolism
Phosphorus

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics
Aquatic Science
Ecology

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10.1007/s12237-011-9431-5

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title = "Hydrological Conditions Control P Loading and Aquatic Metabolism in an Oligotrophic, Subtropical Estuary",

abstract = "Using high-resolution measures of aquatic ecosystem metabolism and water quality, we investigated the importance of hydrological inputs of phosphorus (P) on ecosystem dynamics in the oligotrophic, P-limited coastal Everglades. Due to low nutrient status and relatively large inputs of terrestrial organic matter, we hypothesized that the ponds in this region would be strongly net heterotrophic and that pond gross primary production (GPP) and respiration (R) would be the greatest during the {"}dry,{"} euhaline estuarine season that coincides with increased P availability. Results indicated that metabolism rates were consistently associated with elevated upstream total phosphorus and salinity concentrations. Pulses in aquatic metabolism rates were coupled to the timing of P supply from groundwater upwelling as well as a potential suite of hydrobiogeochemical interactions. We provide evidence that freshwater discharge has observable impacts on aquatic ecosystem function in the oligotrophic estuaries of the Florida Everglades by controlling the availability of P to the ecosystem. Future water management decisions in South Florida must include the impact of changes in water delivery on downstream estuaries.",

keywords = "Estuary, Everglades, Hydrology, Metabolism, Phosphorus",

author = "Koch, {Gregory R.} and Daniel Childers and Staehr, {Peter A.} and Price, {Ren{\'e} M.} and Davis, {Stephen E.} and Gaiser, {Evelyn E.}",

note = "Funding Information: Acknowledgments We would like to thank Mark Zucker at the United States Geological Survey for assistance in obtaining discharge data at Taylor River stations. We also thank Rafael Travieso, Adam Hines, and Damon Rondeau for assistance in the field and also with LTER data processing. Xavier Zapata-Rios collected groundwater samples. We thank Jon Cole, Jennifer Richards, and two anonymous reviewers for helpful discussions and feedback that improved the quality of this manuscript. This research was supported in part by the NASA WaterSCAPES project and an Everglades Foundation Graduate Fellowship. This material is based upon work supported by the National Science Foundation through the Florida Coastal Everglades Long-Term Ecological Research program under grant no. DEB-9910514 (for work from 2000 to 2005) and grant no. DBI-0620409 (for work from 2006–present) and through the Central Arizona-Phoenix LTER Program under grant no. SBE-1026865. This is contribution number 508 from the Southeast Environmental Research Center at Florida International University.",

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doi = "10.1007/s12237-011-9431-5",

language = "English (US)",

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AU - Koch, Gregory R.

AU - Childers, Daniel

AU - Staehr, Peter A.

AU - Price, René M.

AU - Davis, Stephen E.

AU - Gaiser, Evelyn E.

N1 - Funding Information: Acknowledgments We would like to thank Mark Zucker at the United States Geological Survey for assistance in obtaining discharge data at Taylor River stations. We also thank Rafael Travieso, Adam Hines, and Damon Rondeau for assistance in the field and also with LTER data processing. Xavier Zapata-Rios collected groundwater samples. We thank Jon Cole, Jennifer Richards, and two anonymous reviewers for helpful discussions and feedback that improved the quality of this manuscript. This research was supported in part by the NASA WaterSCAPES project and an Everglades Foundation Graduate Fellowship. This material is based upon work supported by the National Science Foundation through the Florida Coastal Everglades Long-Term Ecological Research program under grant no. DEB-9910514 (for work from 2000 to 2005) and grant no. DBI-0620409 (for work from 2006–present) and through the Central Arizona-Phoenix LTER Program under grant no. SBE-1026865. This is contribution number 508 from the Southeast Environmental Research Center at Florida International University.

PY - 2012/1

Y1 - 2012/1

N2 - Using high-resolution measures of aquatic ecosystem metabolism and water quality, we investigated the importance of hydrological inputs of phosphorus (P) on ecosystem dynamics in the oligotrophic, P-limited coastal Everglades. Due to low nutrient status and relatively large inputs of terrestrial organic matter, we hypothesized that the ponds in this region would be strongly net heterotrophic and that pond gross primary production (GPP) and respiration (R) would be the greatest during the "dry," euhaline estuarine season that coincides with increased P availability. Results indicated that metabolism rates were consistently associated with elevated upstream total phosphorus and salinity concentrations. Pulses in aquatic metabolism rates were coupled to the timing of P supply from groundwater upwelling as well as a potential suite of hydrobiogeochemical interactions. We provide evidence that freshwater discharge has observable impacts on aquatic ecosystem function in the oligotrophic estuaries of the Florida Everglades by controlling the availability of P to the ecosystem. Future water management decisions in South Florida must include the impact of changes in water delivery on downstream estuaries.

AB - Using high-resolution measures of aquatic ecosystem metabolism and water quality, we investigated the importance of hydrological inputs of phosphorus (P) on ecosystem dynamics in the oligotrophic, P-limited coastal Everglades. Due to low nutrient status and relatively large inputs of terrestrial organic matter, we hypothesized that the ponds in this region would be strongly net heterotrophic and that pond gross primary production (GPP) and respiration (R) would be the greatest during the "dry," euhaline estuarine season that coincides with increased P availability. Results indicated that metabolism rates were consistently associated with elevated upstream total phosphorus and salinity concentrations. Pulses in aquatic metabolism rates were coupled to the timing of P supply from groundwater upwelling as well as a potential suite of hydrobiogeochemical interactions. We provide evidence that freshwater discharge has observable impacts on aquatic ecosystem function in the oligotrophic estuaries of the Florida Everglades by controlling the availability of P to the ecosystem. Future water management decisions in South Florida must include the impact of changes in water delivery on downstream estuaries.

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KW - Metabolism

KW - Phosphorus

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IS - 1

ER -

Hydrological Conditions Control P Loading and Aquatic Metabolism in an Oligotrophic, Subtropical Estuary

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