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Bibliographic Details
Main Authors: Kearney, Kelly, Butler, Mark, Glazer, Robert, Kelble, Christopher, Serafy, Joseph, Stabenau, Erik
Format: Dataset Open Access
Language:en
Published: PANGAEA 2014
Subjects:
Online Access:https://doi.org/10.1594/PANGAEA.835373
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author Kearney, Kelly
Butler, Mark
Glazer, Robert
Kelble, Christopher
Serafy, Joseph
Stabenau, Erik
author_facet Kearney, Kelly
Butler, Mark
Glazer, Robert
Kelble, Christopher
Serafy, Joseph
Stabenau, Erik
collection Datos científicos de ciencias marinas y ambientales
contents The Florida Bay ecosystem supports a number of economically important ecosystem services, including several recreational fisheries, which may be affected by changing salinity and temperature due to climate change. In this paper, we use a combination of physical models and habitat suitability index models to quantify the effects of potential climate change scenarios on a variety of juvenile fish and lobster species in Florida Bay. The climate scenarios include alterations in sea level, evaporation and precipitation rates, coastal runoff, and water temperature. We find that the changes in habitat suitability vary in both magnitude and direction across the scenarios and species, but are on average small. Only one of the seven species we investigate (Lagodon rhomboides, i.e., pinfish) sees a sizable decrease in optimal habitat under any of the scenarios. This suggests that the estuarine fauna of Florida Bay may not be as vulnerable to climate change as other components of the ecosystem, such as those in the marine/terrestrial ecotone. However, these models are relatively simplistic, looking only at single species effects of physical drivers without considering the many interspecific interactions that may play a key role in the adjustment of the ecosystem as a whole. More complex models that capture the mechanistic links between physics and biology, as well as the complex dynamics of the estuarine food web, may be necessary to further understand the potential effects of climate change on the Florida Bay ecosystem.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_835373
institution PANGAEA
language en
publishDate 2014
publisher PANGAEA
record_format pangaea
spellingShingle Freshwater runoff for Taylor Slough to Florida Bay for 1965 to 2000 for the FATHOM model
Kearney, Kelly
Butler, Mark
Glazer, Robert
Kelble, Christopher
Serafy, Joseph
Stabenau, Erik
Florida; Florida_bay
The Florida Bay ecosystem supports a number of economically important ecosystem services, including several recreational fisheries, which may be affected by changing salinity and temperature due to climate change. In this paper, we use a combination of physical models and habitat suitability index models to quantify the effects of potential climate change scenarios on a variety of juvenile fish and lobster species in Florida Bay. The climate scenarios include alterations in sea level, evaporation and precipitation rates, coastal runoff, and water temperature. We find that the changes in habitat suitability vary in both magnitude and direction across the scenarios and species, but are on average small. Only one of the seven species we investigate (Lagodon rhomboides, i.e., pinfish) sees a sizable decrease in optimal habitat under any of the scenarios. This suggests that the estuarine fauna of Florida Bay may not be as vulnerable to climate change as other components of the ecosystem, such as those in the marine/terrestrial ecotone. However, these models are relatively simplistic, looking only at single species effects of physical drivers without considering the many interspecific interactions that may play a key role in the adjustment of the ecosystem as a whole. More complex models that capture the mechanistic links between physics and biology, as well as the complex dynamics of the estuarine food web, may be necessary to further understand the potential effects of climate change on the Florida Bay ecosystem.
title Freshwater runoff for Taylor Slough to Florida Bay for 1965 to 2000 for the FATHOM model
topic Florida; Florida_bay
url https://doi.org/10.1594/PANGAEA.835373