EO-1 advanced land imager data in submerged aquatic vegetation mapping

Submerged aquatic vegetation (SAV) habitats such as seagrass communities are among the most productive coastal habitats vital to estuarine ecosystems. Seagrasses serve a vital function in nutrient cycling, sediment stabilization, and maintaining water quality in the coastal zone (Newell and Koch, 20...

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Main Authors: Akins, Eric R., Wang, Yeqiao, Zhou, Yuyu
Format: Text
Language:unknown
Published: DigitalCommons@URI 2009
Subjects:
Duarte
Long Island
Newell
Sav’
Northeast Atlantic
Online Access:https://digitalcommons.uri.edu/nrs_facpubs/886
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spelling ftunivrhodeislan:oai:digitalcommons.uri.edu:nrs_facpubs-1887 2023-07-30T04:05:47+02:00 EO-1 advanced land imager data in submerged aquatic vegetation mapping Akins, Eric R. Wang, Yeqiao Zhou, Yuyu 2009-01-01T08:00:00Z https://digitalcommons.uri.edu/nrs_facpubs/886 unknown DigitalCommons@URI https://digitalcommons.uri.edu/nrs_facpubs/886 Natural Resources Science Faculty Publications text 2009 ftunivrhodeislan 2023-07-17T19:10:14Z Submerged aquatic vegetation (SAV) habitats such as seagrass communities are among the most productive coastal habitats vital to estuarine ecosystems. Seagrasses serve a vital function in nutrient cycling, sediment stabilization, and maintaining water quality in the coastal zone (Newell and Koch, 2004; Larkum et al., 2006) and provide food and habitat for fi sh and other fauna (Heck et al., 1989, 1995; Hughes et al., 2002; Lazzari and Stone, 2006). The most prominent seagrass in the Northeast Atlantic region of the United States is eelgrass (Zostera marina L.), which grows in quiet embayments along the coast. Eelgrass has been deemed a critical marine resource and is currently protected by both Federal (Clean Water Act; 33 U.S.C. 26 Section 1251 et seq.) and state legislations (e.g., Long Island South Shore Estuary Reserve Comprehensive Management Plan). Even with this protection, eelgrass is declining in some areas. Seagrass communities are adversely affected by direct human impacts, such as eutrophication and physical damage from boating and fi shing, and indirect human impacts stemming from climate change, such as sea level rise and increased ultraviolet irradiance (Duarte, 2002). Increases in human population and changes in land use in the coastal zone contribute to increased nitrogen loading in estuaries and the effects of nitrogen loading on eelgrass have been extensively quantifi ed (Burkholder et al., 1992; Short and Burdick, 1996; Hauxwell et al., 2003). Additionally, the threat of climate change on seagrasses and coastal ecosystems through rising sea levels, increased temperatures, changes in water chemistry, and increased storm activity is expected to be severe (Short and Neckles, 1999; Orth et al., 2006). Inventory and monitoring are critical components in seagrass ecosystem management, restoration, and protection and provide key insights into the overall health of estuarine ecosystems. Text Northeast Atlantic University of Rhode Island: DigitalCommons@URI Duarte ENVELOPE(-60.950,-60.950,-64.200,-64.200) Long Island Newell ENVELOPE(-59.533,-59.533,-62.333,-62.333) Sav’ ENVELOPE(156.400,156.400,68.817,68.817)
institution Open Polar
collection University of Rhode Island: DigitalCommons@URI
op_collection_id ftunivrhodeislan
language unknown
description Submerged aquatic vegetation (SAV) habitats such as seagrass communities are among the most productive coastal habitats vital to estuarine ecosystems. Seagrasses serve a vital function in nutrient cycling, sediment stabilization, and maintaining water quality in the coastal zone (Newell and Koch, 2004; Larkum et al., 2006) and provide food and habitat for fi sh and other fauna (Heck et al., 1989, 1995; Hughes et al., 2002; Lazzari and Stone, 2006). The most prominent seagrass in the Northeast Atlantic region of the United States is eelgrass (Zostera marina L.), which grows in quiet embayments along the coast. Eelgrass has been deemed a critical marine resource and is currently protected by both Federal (Clean Water Act; 33 U.S.C. 26 Section 1251 et seq.) and state legislations (e.g., Long Island South Shore Estuary Reserve Comprehensive Management Plan). Even with this protection, eelgrass is declining in some areas. Seagrass communities are adversely affected by direct human impacts, such as eutrophication and physical damage from boating and fi shing, and indirect human impacts stemming from climate change, such as sea level rise and increased ultraviolet irradiance (Duarte, 2002). Increases in human population and changes in land use in the coastal zone contribute to increased nitrogen loading in estuaries and the effects of nitrogen loading on eelgrass have been extensively quantifi ed (Burkholder et al., 1992; Short and Burdick, 1996; Hauxwell et al., 2003). Additionally, the threat of climate change on seagrasses and coastal ecosystems through rising sea levels, increased temperatures, changes in water chemistry, and increased storm activity is expected to be severe (Short and Neckles, 1999; Orth et al., 2006). Inventory and monitoring are critical components in seagrass ecosystem management, restoration, and protection and provide key insights into the overall health of estuarine ecosystems.
format Text
author Akins, Eric R.
Wang, Yeqiao
Zhou, Yuyu
spellingShingle Akins, Eric R.
Wang, Yeqiao
Zhou, Yuyu
EO-1 advanced land imager data in submerged aquatic vegetation mapping
author_facet Akins, Eric R.
Wang, Yeqiao
Zhou, Yuyu
author_sort Akins, Eric R.
title EO-1 advanced land imager data in submerged aquatic vegetation mapping
title_short EO-1 advanced land imager data in submerged aquatic vegetation mapping
title_full EO-1 advanced land imager data in submerged aquatic vegetation mapping
title_fullStr EO-1 advanced land imager data in submerged aquatic vegetation mapping
title_full_unstemmed EO-1 advanced land imager data in submerged aquatic vegetation mapping
title_sort eo-1 advanced land imager data in submerged aquatic vegetation mapping
publisher DigitalCommons@URI
publishDate 2009
url https://digitalcommons.uri.edu/nrs_facpubs/886
long_lat ENVELOPE(-60.950,-60.950,-64.200,-64.200)
ENVELOPE(-59.533,-59.533,-62.333,-62.333)
ENVELOPE(156.400,156.400,68.817,68.817)
geographic Duarte
Long Island
Newell
Sav’
geographic_facet Duarte
Long Island
Newell
Sav’
genre Northeast Atlantic
genre_facet Northeast Atlantic
op_source Natural Resources Science Faculty Publications
op_relation https://digitalcommons.uri.edu/nrs_facpubs/886
_version_ 1772817945493241856

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