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NOAA Coastal Change Analysis Program (C-CAP): Guidance for Regional Implementation (2021)

Dobson, J. E. ; Bright, E. A. ; Ferguson, R. L. ; [et al.]

NOAA/National Marine Fisheries Service

In: http://aquaticcommons.org/id/eprint/2692 | 403 | 2011-09-29 18:34:30 | 2692 | United States National Marine Fisheries Service

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Publication Date: 2021-06-27

Description: EXECUTIVE SUMMARY: The Coastal Change Analysis Programl (C-CAP) is developinga nationally standardized database on landcover and habitat change in the coastal regions of the United States. C-CAP is part of the Estuarine Habitat Program (EHP) of NOAA's Coastal Ocean Program (COP). C-CAP inventories coastal submersed habitats, wetland habitats, and adjacent uplands and monitors changes in these habitats on a one- to five-year cycle. This type of information and frequency of detection are required to improve scientific understanding of the linkages of coastal and submersed wetland habitats with adjacent uplands and with the distribution, abundance,and health of living marine resources. The monitoringcycle will vary according to the rate and magnitude ofchange in each geographic region. Satellite imagery(primarily Landsat Thematic Mapper), aerial photography,and field data are interpreted, classified, analyzed,and integrated with other digital data in a geographicinformation system (GIS). The resulting landcoverchange databases are disseminated in digital formfor use by anyone wishing to conduct geographic analysisin the completed regions. C-CAP spatial information on coastal change will be input to EHP conceptual and predictive models to support coastal resource policy planning and analysis. CCAP products will include 1) spatially registered digital databases and images, 2) tabular summaries by state, county, and hydrologic unit, and 3) documentation. Aggregations to larger areas (representing habitats, wildlife refuges, or management districts) will be provided on a case-by-case basis. Ongoing C-CAP research will continue to explore techniques for remote determination of biomass, productivity, and functional status of wetlands and will evaluate new technologies (e.g. remote sensor systems, global positioning systems, image processing algorithms) as they become available. Selected hardcopy land-cover change maps will be produced at local (1:24,000) to regional scales (1:500,000) for distribution. Digital land-cover change data will be provided to users for the cost of reproduction.Much of the guidance contained in this document was developed through a series of professional workshopsand interagency meetings that focused on a) coastal wetlands and uplands; b) coastal submersed habitat including aquatic beds; c) user needs; d) regionalissues; e) classification schemes; f) change detectiontechniques; and g) data quality. Invited participantsincluded technical and regional experts and representativesof key State and Federal organizations. Coastal habitat managers and researchers were given an opportunity for review and comment. This document summarizes C-CAP protocols and procedures that are to be used by scientists throughout the United States to develop consistent and reliable coastal change information for input to the C-CAP nationwide database. It also provides useful guidelines for contributors working on related projects. It is considered a working document subject to periodic review and revision.(PDF file contains 104 pages.)

Keywords: Ecology ; Management ; Environment

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Pinniped diet composition: a comparison of estimation models (2021)

Laake, Jeffrey L. ; Browne, Patience ; DeLong, Robert L. ; [et al.]

In: http://aquaticcommons.org/id/eprint/15223 | 403 | 2014-06-01 18:59:40 | 15223 | United States National Marine Fisheries Service

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Publication Date: 2021-07-04

Description: Along the west coast of the United States, the potential impact of increasing pinniped populations on declining salmonid (Oncorhynchus spp.) stocks has become an issue of concern. Fisheries managers need species-specific estimates of consumption by pinnipeds to evaluate their impact on salmonid stocks. To estimate consumption, we developed a model that estimates diet composition by reconstructing prey biomass from fecal samples. We applied the model to data collected from harbor seals (Phoca vitulina) that are present year-round in the lower Columbia River where endangered stocks of salmonids pass as returning adults and as seaward-migrating smolts. Using the same data, we applied the split-sample frequency of occurrence model, which avoids reconstructing biomass by assuming that each fecal sample represents an equal volume of consumption and that within each sample each prey item represents an equal proportion of the volume. The two models for estimating diet composition yielded size-specific differences in consumption estimates that were as large as tenfold for the smallest and largest prey. Conclusions about the impact of harbor seal predation on adult salmonids, some of their largest prey species, remain uncertain without some appropriate rationale or further information (e.g. empirical captive studies) to discriminate between these models.

Keywords: Biology ; Fisheries ; Management

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Improving pinniped diet analyses through identification of multiple skeletal structures in fecal samples (2021)

Browne, Patience ; Laake, Jeffrey L. ; DeLong, Robert L.

In: http://aquaticcommons.org/id/eprint/15222 | 403 | 2014-06-01 19:00:08 | 15222 | United States National Marine Fisheries Service

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Publication Date: 2021-07-04

Description: Marine mammal diet is typically characterized by identifying fish otoliths and cephalopod beaks retrieved from stomachs and fecal material (scats). The use and applicability of these techniques has been the matter of some debate given inherent biases associated with the method. Recent attempts to identify prey using skeletal remains in addition to beaks and otoliths are an improvement; however, difficulties incorporating these data into quantitative analyses have limited results for descriptive analyses such as frequency of occurrence. We attempted to characterize harbor seal (Phoca vitulina) diet in an area where seals co-occur with several salmon species, some endangered and all managed by state or federal agencies, or both. Although diet was extremely variable within sampling date, season, year, and between years, the frequency and number of individual prey were at least two times greater for most taxa when prey structures in addition to otoliths were identified. Estimating prey mass in addition to frequency and number resulted in an extremely different relative importance of prey in harbor seal diet. These data analyses are a necessary step in generating estimates of the size, total number, and annual biomass of a prey species eaten by pinnipeds for inclusion in fisheries management plans.

Keywords: Biology ; Fisheries ; Management

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Format: 423-433

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Characterization of toxic impacts on living marine resources in tidal rivers of the Chesapeake Bay (2021)

Fulton, M. H. ; Hyland, J. L. ; Key, P. B. ; [et al.]

NOAA/National Ocean Service | Charleston, SC

In: http://aquaticcommons.org/id/eprint/14622 | 403 | 2014-02-21 21:38:49 | 14622 | United States National Ocean Service

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Publication Date: 2021-06-30

Description: In 1999, the Chesapeake Bay Program completed a survey of existing data on chemical contaminants and the potential for bioeffects in 38 tidal river systems of Chesapeake Bay.This review led to the identification of 20 areas for which there were insufficient data to adequately characterize the potential for contaminant bioeffects on the Bay’s livingresources. The goal of the present study was to estimate the current status of ecological condition in five of these areas and thus help to complete the overall toxics inventory for the Bay. These five systems included the Chester River, Nanticoke River, Pocomoke River, Lower Mobjack Bay (Poquosin and Back Rivers) and the South and Rhode Rivers. This study utilized a Sediment Quality Triad (SQT) approach in combination with additional water-column contaminant analysis to allow for a “weight of evidence”assessment of environmental condition. A total of 60 stations distributed among the five systems, using a probabilistic stratified random design, were sampled during the summer of 2004 to allow for synoptic measures of sediment contamination, sediment toxicity, and benthic condition. Upon completion of all analyses, stations were assigned to one of four categories based on the three legs of the triad. Stations with high sediment quality had nohits on any of the three legs of the triad; those with moderate quality had one hit; those with marginal quality had two hits; and those with poor quality had hits for all three legs of the triad. The Pocomoke River had by far the largest proportion of the total area (97.5%) classified as having high sediment quality, while the Rhode/South system had the highest proportion (11.4%) classified as poor. None of the stations in the Chester River, Nanticoke River, and Lower Mobjack Bay systems were classified as poor. Morethan 65% of the area of each of the five systems was classified with high to moderate sediment quality. The Rhode/South system had 30.4% of total area classified withmarginally to severely poor quality. The results of this study highlight the importance of using multiple indicators and a “weight of evidence” approach to characterizeenvironmental quality and the potential bioeffects of toxic contaminants.

Keywords: Ecology ; Fisheries ; Management ; Pollution

Repository Name: AquaDocs

Type: monograph

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Format: 80

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A pilot study to determine the movements of buoy line used in the crab pot fishery to assess bottlenose dolphin entanglement (2021)

McFee, W. E. ; Burdett, L G. ; Beddia , L. A.

NOAA/National Ocean Service | Silver Spring, MD

In: http://aquaticcommons.org/id/eprint/14630 | 403 | 2014-02-21 21:31:30 | 14630 | United States National Ocean Service

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Publication Date: 2021-06-30

Description: A pilot study on the characteristics of crab pot buoy line movements to assess bottlenose dolphin entanglement was conducted from 19 September to 30 September 2005 in the Charleston Harbor, Charleston, South Carolina. The objectives of this study were to determine: 1) the movements of the buoy line in the water at various tidal stages, current strengths, lengths of line, and water depth, 2) if lead-core rope was a better alternative to nylon rope, 3) and if the manner of deployment of the gear affected the suspension of the line in the water and on the bottom. Diamond braided nylon (#10) rope of varying length (20 ft. – 80 ft.) were used during 31 trials and stiffened (polypropylene lead-core) rope was used in four trials. Observations of the buoy line movements were captured with an Atlantis underwater camera attached to a Digital DPC-1000 video recorder. Results from this study showed that: 1) the method used for deployment was important in keeping the buoy line from arcing or coiling, 2) little to no arcing occurred in water current velocities of 〉0.20 m/s, 3) rope lengths of ≥50 ft. deployed in 〈10 ft. of water produced waving in the water column and arcing on the bottom, 4) slack tide was a period of increased risk of entanglement for bottlenose dolphins, and 5) poly lead-core rope was not a good alternative to nylon rope unless in deep water with strong water current velocities. This pilot study produced questions that can be used for future studies on the characteristics of buoy line movements in the crab pot fishery as it relates to bottlenose dolphin entanglements.

Keywords: Ecology ; Fisheries ; Health ; Management

Repository Name: AquaDocs

Type: monograph

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Format: 35

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Effects of reducing nutrient loads to surface waters within the Mississippi River Basin and the Gulf of Mexico: Topic 4 Report for the Integrated Assessment on Hypoxia in the Gulf of Mexico (2021)

Brezonik, Patrick L. ; Bierman, Jr., Victor J. ; Alexander , Richard ; [et al.]

NOAA/National Centers for Coastal Ocean Science | Silver Spring, MD

In: http://aquaticcommons.org/id/eprint/14640 | 403 | 2014-02-23 00:20:32 | 14640 | United States National Ocean Service

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Publication Date: 2021-06-30

Description: The overall goal of this assessment was to evaluate the effects of nutrient-source reductions that may be implemented in the Mississippi River Basin (MRB) to reduce the problem of low oxygen conditions (hypoxia) in the nearshore Gulf of Mexico. Such source reductions would affect the quality of surface waters—streams, rivers, and reservoirs—in the drainage basin itself, as well as nearshore Gulf waters. The task group’s work was divided into addressing the effects of nutrient-source reductions on: (1) surface waters in the MRB and (2) hypoxia in the Gulf of Mexico.

Keywords: Ecology ; Environment ; Fisheries ; Management

Repository Name: AquaDocs

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Format: 130

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A survey of deep-water coral and sponge habitats along the west coast of the US using a remotely operated vehicle: NOAA Fisheries Survey Vessel (FSV)'Bell M. Shimada', November 1-5, 2010 (2021)

Stierhoff, Kevin L. ; Etnoyer, Peter J. ; Murfin, David W. ; [et al.]

NOAA/National Centers for Coastal Ocean Science | Charleston, SC

In: http://aquaticcommons.org/id/eprint/14778 | 403 | 2014-02-27 19:42:59 | 14778 | United States National Ocean Service

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Publication Date: 2021-07-03

Description: Remotely operated vehicle (ROV) surveys were conducted from NOAA’s state-of-the-art Fisheries Survey Vessel (FSV) Bell M. Shimada during a six-day transit November 1-5, 2010 between San Diego, CA and Seattle, WA. The objective of this survey was to locate and characterize deep-sea coral and sponge ecosystems at several recommended sites insupport of NOAA’s Coral Reef Conservation Program. Deep-sea corals and sponges were photographed and collected whenever possible using the Southwest Fisheries Science Center’s (SWFSC) Phantom ROV ‘Sebastes’ (Fig. 1).The surveyed sites were recommended by National Marine Sanctuary (NMS) scientists at Monterey Bay NMS, Gulf of the Farallones NMS, and Olympic Coast NMS (Fig. 2). The specific sites were: Sur Canyon, The Football, Coquille Bank, and Olympic Coast NMS. During each dive, the ROV collected digital still images, video, navigation, and along-track conductivity-temperature-depth (CTD), and optode data. Video and high-resolution photographs were used to quantify abundance of corals, sponges, and associated fishes and invertebrates to the lowest practicable taxonomic level, and also to classify the seabed by substrate type. A reference laser system was used to quantify area searched and estimate the density of benthic fauna.

Keywords: Ecology ; Fisheries ; Management ; Oceanography

Repository Name: AquaDocs

Type: monograph

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Format: 38

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Accelerating loss of seagrasses across the globe threatens coastal ecosystems (2021)

Waycott, Michelle ; Duarte, Carlos M. ; Carruthers, Tim J.B. ; [et al.]

In: http://aquaticcommons.org/id/eprint/14853 | 403 | 2014-03-07 19:33:39 | 14853 | United States National Ocean Service

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Publication Date: 2021-06-26

Description: Coastal ecosystems and the services they provide are adversely affected by a wide variety of human activities. In particular, seagrass meadows are negatively affected by impacts accruing from the billion or more people who live within 50 km of them. Seagrass meadows provide important ecosystem services, including an estimated $1.9 trillion per year in the form of nutrient cycling; an order of magnitude enhancement of coral reef fish productivity; a habitat for thousands of fish, bird, and invertebrate species; and a major food source for endangered dugong, manatee, and green turtle. Although individual impacts from coastal development, degraded water quality, and climate change have been documented, there has been no quantitative global assessment of seagrass loss until now. Our comprehensive global assessment of 215 studies found that seagrasses have been disappearing at a rate of 110 square kilometers per year since 1980 and that 29% of the known areal extent has disappeared since seagrass areas were initially recorded in 1879. Furthermore, rates of decline have accelerated from a median of 0.9% per year before 1940 to 7% per year since 1990. Seagrass loss rates are comparable to those reported for mangroves, coral reefs, and tropical rainforests and place seagrass meadows among the most threatened ecosystems on earth.

Keywords: Biology ; Ecology ; Management ; Pollution

Repository Name: AquaDocs

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Accelerating loss of seagrasses across the globe threatens coastal ecosystems (2021)

Waycott, Michelle ; Duarte, Carlos M. ; Carruthers, Tim J. B. ; [et al.]

In: http://aquaticcommons.org/id/eprint/2445 | 403 | 2014-03-07 19:35:15 | 2445 | United States National Ocean Service

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Publication Date: 2021-07-13

Description: Coastal ecosystems and the services they provide are adversely affected by a wide variety of human activities. In particular, seagrass meadows are negatively affected by impacts accruing from the billion or more people who live within 50 km of them. Seagrass meadows provide important ecosystem services, including an estimated $1.9 trillion per year in the form of nutrient cycling; an order of magnitude enhancement of coral reef fish productivity; a habitat for thousands of fish, bird, and invertebrate species; and a major food source for endangered dugong, manatee, and green turtle. Although individual impacts from coastal development, degraded water quality, and climate change have been documented, there has been no quantitative global assessment of seagrass loss until now. Our comprehensive global assessment of 215 studies found that seagrasses have been disappearing at a rate of 110 square kilometers per year since 1980 and that 29% of the known areal extent has disappeared since seagrass areas were initially recorded in 1879. Furthermore, rates of decline have accelerated from a median of 0.9% per year before 1940 to 7% per year since 1990. Seagrass loss rates are comparable to those reported for mangroves, coral reefs, and tropical rainforests and place seagrass meadows among the most threatened ecosystems on earth.

Description: PNAS early edition. Article PDF contains 5 pages; supplemental materials PDF contains 4 pages.

Keywords: Conservation ; Management ; Environment ; Ecosystem decline ; Global Trajectories ; Habitat loss ; Marine habitat

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Long-Term Monitoring of Ecological Conditions In Gray’s Reef National Marine Sanctuary: Comparison of soft-bottom benthic assemblages and contaminant levels in sediments and biota in Spring 2000 and 2005 (2021)

Bathis, W. L. ; Hyland, J. L. ; Cooksey, C. ; [et al.]

NOAA/National Ocean Service/National Centers for Coastal Ocean Science | Charleston, SC

In: http://aquaticcommons.org/id/eprint/2159 | 403 | 2014-02-21 20:17:06 | 2159 | United States National Ocean Service

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Publication Date: 2021-07-12

Description: As part of an ongoing program of benthic sampling and related assessments of sediment quality at Gray’s Reef National Marine Sanctuary (GRNMS) off the coast of Georgia, a survey of soft-bottom benthic habitats was conducted in spring 2005 to characterize condition of macroinfaunal assemblages and levels of chemical contaminants in sediments and biota relative to a baseline survey carried out in spring 2000. Distribution and abundance of macrobenthos were related foremost to sediment type (median particle size, % gravel), which in turn varied according to bottom-habitat mesoscale features (e.g., association with live bottom versus flat or rippled sand areas). Overall abundance and diversity of soft-bottom benthic communities were similar between the two years, though dominance patterns and relative abundances of component species were less repeatable. Seasonal summer pulses of a few taxa (e.g., the bivalve Ervilia sp. A) observed in 2000 were not observed in 2005. Concentrations of chemical contaminants insediments and biota, though detectable in both years, were consistently at low, background levels and no exceedances of sediment probable bioeffect levels or FDA action levels for edible fish or shellfish were observed. Near-bottom dissolved oxygen levels and organic-matter content ofsediments also have remained within normal ranges. Highly diverse benthic assemblages were found in both years, supporting the premise that GRNMS serves as an important reservoir of marine biodiversity. A total of 353 taxa (219 identified to species) were collected during the spring 2005 survey. Cumulatively, 588 taxa (371 identified to species) have been recorded in the sanctuary from surveys in 2000, 2001, 2002, and 2005. Species Accumulation Curves indicate that the theoretical maximum should be in excess of 600 species. Results of this study will be of value in advancing strategic science and management goals for GRNMS, including characterization and long-term monitoring of sanctuary resources and processes, as well as supporting evolving interests in ecosystem-based management of the surrounding South Atlantic Bight (SAB) ecosystem. (PDF contains 46 pages)

Description: Center for Coastal Environmental Health and Biomolecular Research

Keywords: Ecology ; Management

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