Salinity and Marine Mammal Dynamics in Barataria Basin: Historic Patterns and Modeled Diversion Scenarios

Understanding spatiotemporal patterns of salinity in Barataria Basin in coastal Louisiana is important to better understand and manage operations of existing and proposed freshwater and sediment diversions from the Mississippi River into the estuary. In this study, a comprehensive salinity dataset w...
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Autor*in:	Eric D. White [verfasserIn] Francesca Messina [verfasserIn] Leland Moss [verfasserIn] Ehab Meselhe [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2018

Schlagwörter:	Barataria Mississippi River salinity sediment diversion freshwater diversion Delft3D Integrated Compartment Model Louisiana bottlenose dolphin

Übergeordnetes Werk:	In: Water - MDPI AG, 2010, 10(2018), 8, p 1015
Übergeordnetes Werk:	volume:10 ; year:2018 ; number:8, p 1015

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3390/w10081015

Katalog-ID:	DOAJ00972589X

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language	English
source	In Water 10(2018), 8, p 1015 volume:10 year:2018 number:8, p 1015
sourceStr	In Water 10(2018), 8, p 1015 volume:10 year:2018 number:8, p 1015
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institution	findex.gbv.de
topic_facet	Barataria Mississippi River salinity sediment diversion freshwater diversion Delft3D Integrated Compartment Model Louisiana bottlenose dolphin Hydraulic engineering Water supply for domestic and industrial purposes
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container_title	Water
authorswithroles_txt_mv	Eric D. White @@aut@@ Francesca Messina @@aut@@ Leland Moss @@aut@@ Ehab Meselhe @@aut@@
publishDateDaySort_date	2018-01-01T00:00:00Z
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callnumber-first	T - Technology
author	Eric D. White
spellingShingle	Eric D. White misc TC1-978 misc TD201-500 misc Barataria misc Mississippi River misc salinity misc sediment diversion misc freshwater diversion misc Delft3D misc Integrated Compartment Model misc Louisiana misc bottlenose dolphin misc Hydraulic engineering misc Water supply for domestic and industrial purposes Salinity and Marine Mammal Dynamics in Barataria Basin: Historic Patterns and Modeled Diversion Scenarios
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topic_title	TC1-978 TD201-500 Salinity and Marine Mammal Dynamics in Barataria Basin: Historic Patterns and Modeled Diversion Scenarios Barataria Mississippi River salinity sediment diversion freshwater diversion Delft3D Integrated Compartment Model Louisiana bottlenose dolphin
topic	misc TC1-978 misc TD201-500 misc Barataria misc Mississippi River misc salinity misc sediment diversion misc freshwater diversion misc Delft3D misc Integrated Compartment Model misc Louisiana misc bottlenose dolphin misc Hydraulic engineering misc Water supply for domestic and industrial purposes
topic_unstemmed	misc TC1-978 misc TD201-500 misc Barataria misc Mississippi River misc salinity misc sediment diversion misc freshwater diversion misc Delft3D misc Integrated Compartment Model misc Louisiana misc bottlenose dolphin misc Hydraulic engineering misc Water supply for domestic and industrial purposes
topic_browse	misc TC1-978 misc TD201-500 misc Barataria misc Mississippi River misc salinity misc sediment diversion misc freshwater diversion misc Delft3D misc Integrated Compartment Model misc Louisiana misc bottlenose dolphin misc Hydraulic engineering misc Water supply for domestic and industrial purposes
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title	Salinity and Marine Mammal Dynamics in Barataria Basin: Historic Patterns and Modeled Diversion Scenarios
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title_full	Salinity and Marine Mammal Dynamics in Barataria Basin: Historic Patterns and Modeled Diversion Scenarios
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title_sort	salinity and marine mammal dynamics in barataria basin: historic patterns and modeled diversion scenarios
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title_auth	Salinity and Marine Mammal Dynamics in Barataria Basin: Historic Patterns and Modeled Diversion Scenarios
abstract	Understanding spatiotemporal patterns of salinity in Barataria Basin in coastal Louisiana is important to better understand and manage operations of existing and proposed freshwater and sediment diversions from the Mississippi River into the estuary. In this study, a comprehensive salinity dataset was compiled which covered the entire basin and included data from 1990 through 2015. The data were aggregated into daily mean salinity timeseries across Barataria Basin at a variety of spatial scales and used to analyze historic patterns. Simulations were conducted with two hydrodynamic models, the Integrated Compartment Model (ICM) and Delft3D. The Delft3D model output was overlaid with observed geo-tagged locations of bottlenose dolphins that were sampled from the southwest quadrant of the basin. The ICM simulations were used to assess the impact of existing freshwater and proposed sediment diversion projects which reintroduce riverine water into the estuary. The salinity in the uppermost portions of the basin is sensitive primarily to the existing freshwater diversion, whereas additional flows from a proposed sediment diversion result in additional freshening. The lowermost region of the basin is most sensitive to the proposed sediment diversion; however, the magnitude varies by diverted flow volumes and assumed sea levels in the Gulf of Mexico.
abstractGer	Understanding spatiotemporal patterns of salinity in Barataria Basin in coastal Louisiana is important to better understand and manage operations of existing and proposed freshwater and sediment diversions from the Mississippi River into the estuary. In this study, a comprehensive salinity dataset was compiled which covered the entire basin and included data from 1990 through 2015. The data were aggregated into daily mean salinity timeseries across Barataria Basin at a variety of spatial scales and used to analyze historic patterns. Simulations were conducted with two hydrodynamic models, the Integrated Compartment Model (ICM) and Delft3D. The Delft3D model output was overlaid with observed geo-tagged locations of bottlenose dolphins that were sampled from the southwest quadrant of the basin. The ICM simulations were used to assess the impact of existing freshwater and proposed sediment diversion projects which reintroduce riverine water into the estuary. The salinity in the uppermost portions of the basin is sensitive primarily to the existing freshwater diversion, whereas additional flows from a proposed sediment diversion result in additional freshening. The lowermost region of the basin is most sensitive to the proposed sediment diversion; however, the magnitude varies by diverted flow volumes and assumed sea levels in the Gulf of Mexico.
abstract_unstemmed	Understanding spatiotemporal patterns of salinity in Barataria Basin in coastal Louisiana is important to better understand and manage operations of existing and proposed freshwater and sediment diversions from the Mississippi River into the estuary. In this study, a comprehensive salinity dataset was compiled which covered the entire basin and included data from 1990 through 2015. The data were aggregated into daily mean salinity timeseries across Barataria Basin at a variety of spatial scales and used to analyze historic patterns. Simulations were conducted with two hydrodynamic models, the Integrated Compartment Model (ICM) and Delft3D. The Delft3D model output was overlaid with observed geo-tagged locations of bottlenose dolphins that were sampled from the southwest quadrant of the basin. The ICM simulations were used to assess the impact of existing freshwater and proposed sediment diversion projects which reintroduce riverine water into the estuary. The salinity in the uppermost portions of the basin is sensitive primarily to the existing freshwater diversion, whereas additional flows from a proposed sediment diversion result in additional freshening. The lowermost region of the basin is most sensitive to the proposed sediment diversion; however, the magnitude varies by diverted flow volumes and assumed sea levels in the Gulf of Mexico.
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title_short	Salinity and Marine Mammal Dynamics in Barataria Basin: Historic Patterns and Modeled Diversion Scenarios
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