Water Quality Drivers in 11 Gulf of Mexico Estuaries

Coastal water-quality is both a primary driver and also a consequence of coastal ecosystem health. Turbidity, a measure of dissolved and particulate water-quality matter, is a proxy for water quality, and varies on daily to interannual periods. Turbidity is influenced by a variety of factors, includ...

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Bibliographic Details
Published in:Remote Sensing
Main Authors: Matthew McCarthy, Daniel Otis, Pablo Méndez-Lázaro, Frank Muller-Karger
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2018
Subjects:
MODIS
turbidity
wind speed
discharge
North Atlantic
North Atlantic oscillation
Online Access:https://doi.org/10.3390/rs10020255
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spelling ftmdpi:oai:mdpi.com:/2072-4292/10/2/255/ 2023-08-20T04:08:24+02:00 Water Quality Drivers in 11 Gulf of Mexico Estuaries Matthew McCarthy Daniel Otis Pablo Méndez-Lázaro Frank Muller-Karger agris 2018-02-07 application/pdf https://doi.org/10.3390/rs10020255 EN eng Multidisciplinary Digital Publishing Institute https://dx.doi.org/10.3390/rs10020255 https://creativecommons.org/licenses/by/4.0/ Remote Sensing; Volume 10; Issue 2; Pages: 255 MODIS turbidity wind speed discharge Text 2018 ftmdpi https://doi.org/10.3390/rs10020255 2023-07-31T21:22:53Z Coastal water-quality is both a primary driver and also a consequence of coastal ecosystem health. Turbidity, a measure of dissolved and particulate water-quality matter, is a proxy for water quality, and varies on daily to interannual periods. Turbidity is influenced by a variety of factors, including algal particles, colored dissolved organic matter, and suspended sediments. Identifying which factors drive trends and extreme events in turbidity in an estuary helps environmental managers and decision makers plan for and mitigate against water-quality issues. Efforts to do so on large spatial scales have been hampered due to limitations of turbidity data, including coarse and irregular temporal resolution and poor spatial coverage. We addressed these issues by deriving a proxy for turbidity using ocean color satellite products for 11 Gulf of Mexico estuaries from 2000 to 2014 on weekly, monthly, seasonal, and annual time-steps. Drivers were identified using Akaike’s Information Criterion and multiple regressions to model turbidity against precipitation, wind speed, U and V wind vectors, river discharge, water level, and El Nino Southern Oscillation and North Atlantic Oscillation climate indices. Turbidity variability was best explained by wind speed across estuaries for both time-series and extreme turbidity events, although more dynamic patterns were found between estuaries over various time steps. Text North Atlantic North Atlantic oscillation MDPI Open Access Publishing Remote Sensing 10 2 255
institution Open Polar
collection MDPI Open Access Publishing
op_collection_id ftmdpi
language English
topic MODIS
turbidity
wind speed
discharge
spellingShingle MODIS
turbidity
wind speed
discharge
Matthew McCarthy
Daniel Otis
Pablo Méndez-Lázaro
Frank Muller-Karger
Water Quality Drivers in 11 Gulf of Mexico Estuaries
topic_facet MODIS
turbidity
wind speed
discharge
description Coastal water-quality is both a primary driver and also a consequence of coastal ecosystem health. Turbidity, a measure of dissolved and particulate water-quality matter, is a proxy for water quality, and varies on daily to interannual periods. Turbidity is influenced by a variety of factors, including algal particles, colored dissolved organic matter, and suspended sediments. Identifying which factors drive trends and extreme events in turbidity in an estuary helps environmental managers and decision makers plan for and mitigate against water-quality issues. Efforts to do so on large spatial scales have been hampered due to limitations of turbidity data, including coarse and irregular temporal resolution and poor spatial coverage. We addressed these issues by deriving a proxy for turbidity using ocean color satellite products for 11 Gulf of Mexico estuaries from 2000 to 2014 on weekly, monthly, seasonal, and annual time-steps. Drivers were identified using Akaike’s Information Criterion and multiple regressions to model turbidity against precipitation, wind speed, U and V wind vectors, river discharge, water level, and El Nino Southern Oscillation and North Atlantic Oscillation climate indices. Turbidity variability was best explained by wind speed across estuaries for both time-series and extreme turbidity events, although more dynamic patterns were found between estuaries over various time steps.
format Text
author Matthew McCarthy
Daniel Otis
Pablo Méndez-Lázaro
Frank Muller-Karger
author_facet Matthew McCarthy
Daniel Otis
Pablo Méndez-Lázaro
Frank Muller-Karger
author_sort Matthew McCarthy
title Water Quality Drivers in 11 Gulf of Mexico Estuaries
title_short Water Quality Drivers in 11 Gulf of Mexico Estuaries
title_full Water Quality Drivers in 11 Gulf of Mexico Estuaries
title_fullStr Water Quality Drivers in 11 Gulf of Mexico Estuaries
title_full_unstemmed Water Quality Drivers in 11 Gulf of Mexico Estuaries
title_sort water quality drivers in 11 gulf of mexico estuaries
publisher Multidisciplinary Digital Publishing Institute
publishDate 2018
url https://doi.org/10.3390/rs10020255
op_coverage agris
genre North Atlantic
North Atlantic oscillation
genre_facet North Atlantic
North Atlantic oscillation
op_source Remote Sensing; Volume 10; Issue 2; Pages: 255
op_relation https://dx.doi.org/10.3390/rs10020255
op_rights https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.3390/rs10020255
container_title Remote Sensing
container_volume 10
container_issue 2
container_start_page 255
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