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Technology and success in restoration, creation, and enhancement of Spartina afferniflora marshes in the United States. Vol. 1: Executive Summary and Annotated Bibliography (2021)

Matthews, Geoffrey A. ; Minello , Thomas J.

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

In: http://aquaticcommons.org/id/eprint/14659 | 403 | 2014-02-26 20:15:33 | 14659 | United States National Ocean Service

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Publication Date: 2021-07-01

Description: Extensive losses of coastal wetlands in the United States caused by sea-level rise, land subsidence, erosion, and coastal development have increased hterest in the creation of salt marshes within estuaries. Smooth cordgrass Spartina altemiflora is the species utilized most for salt marsh creation and restoration throughout the Atlantic and Gulf coasts of the U.S., while S. foliosa and Salicomia virginica are often used in California. Salt marshes have many valuable functions such as protecting shorelines from erosion, stabilizing deposits of dredged material, dampening flood effects, trapping water-born sediments, serving as nutrient reservoirs, acting as tertiary watertreatment systems to rid coastal waters of contaminants, serving as nurseries for many juvenile fish and shellfish species, and serving as habitat for various wildlife species(Kusler and Kentula 1989). The establishment of vegetation in itself is generally sufficient to provide the functions of erosion control, substrate stabilization, and sediment trapping. The development of other salt marsh functions, however, is more difficult to assess. For example, natural estuarine salt marshes support a wide variety of fish and shellfish, and the abundance of coastal marshes has been correlated with fisheries landings (Turner 1977, Boesch and Turner 1984). Marshes function for aquatic species by providing breeding areas, refuges from predation, and rich feeding grounds (Zimmerman and Minello 1984, Boesch and Turner 1984, Kneib 1984, 1987, Minello and Zimmerman 1991). However, the relative value of created marshes versus that of natural marshes for estuarine animals has been questioned (Carnmen 1976, Race and Christie 1982, Broome 1989, Pacific Estuarine Research Laboratory 1990, LaSalle et al. 1991, Minello and Zimmerman 1992, Zedler 1993). Restoration of all salt marsh functions is necessary to prevent habitat creation and restoration activities from having a negative impact on coastal ecosystems.

Keywords: Ecology ; Environment ; Fisheries

Repository Name: AquaDocs

Type: monograph

Format: application/pdf

Format: 465

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Patterns of scale-dependency and the influence of map resolution on the seascape ecology of reef fish (2021)

Kendall, Matthew S. ; Miller, Thomas J. ; Pittman, Simon J.

In: matt.kendall@noaa.gov | http://aquaticcommons.org/id/eprint/14785 | 403 | 2014-02-28 21:00:58 | 14785 | United States National Ocean Service

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Publication Date: 2021-06-25

Description: Detection and perception of ecological relationships between biota and their surrounding habitats is sensitive to analysis scale and resolution of habitat data. We measured strength of univariate linear correlations between reef fish and seascape variables at multiple spatial scales (25 to 800 m). Correlation strength was used to identify the scale that best associates fish to their surrounding habitat. To evaluate the influence of map resolution, seascape variables were calculated based on 4 separate benthic maps produced using 2 levels of spatial and thematic resolution, respectively. Individual seascape variables explained only 25% of the variability in fish distributions. Length of reef edge was correlated with more aspects of the fish assemblage than other features. Area of seagrass and bare sand correlated with distribution of many fish, not just obligate users. No fish variables correlated with habitat diversity. Individual fish species achieved a wider range of correlations than mobility guilds or the entire fish assemblage. Scales of peak correlation were the same for juveniles and adults in a majority of comparisons. Highly mobile species exhibited broader scales of peak correlation than either resident or moderately mobile fish. Use of different input maps changed perception of the strength and even the scale of peak correlations for many comparisons involving hard bottom edge length and area of sand, whereas results were consistent regardless of map type for comparisons involving area of seagrass and habitat diversity.

Description: Included in theme section, "Seascape ecology: application of landscape ecology to the marine environment"

Keywords: Ecology ; Fisheries ; Management

Repository Name: AquaDocs

Type: article , TRUE

Format: application/pdf

Format: 259-274

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A habitat-use model to determine essential fish habitat for juvenile brown shrimp (Farfantepenaeus aztecus) in Galveston Bay, Texas (2021)

Clark, Randall D. ; Christensen, John D. ; Monaco, Mark E. ; [et al.]

In: http://aquaticcommons.org/id/eprint/15048 | 403 | 2014-05-27 14:21:56 | 15048 | United States National Marine Fisheries Service

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Publication Date: 2021-07-01

Description: A density prediction model for juvenile brown shrimp (Farfantepenaeus aztecus) was developed by using three bottom types, five salinity zones, and four seasons to quantify patterns of habitat use in Galveston Bay, Texas. Sixteen years of quantitative density data were used. Bottom types were vegetated marsh edge, submerged aquatic vegetation, and shallow nonvegetated bottom. Multiple regression was used to develop density estimates, and the resultant formula was then coupled with a geographical information system (GIS) to provide a spatial mosaic (map) of predicted habitat use. Results indicated that juvenile brown shrimp (〈100 mm) selected vegetated habitats in salinities of 15−25 ppt and that seagrasses were selected over marsh edge where they co-occurred. Our results provide a spatially resolved estimate of high-density areas that will help designate essential fish habitat (EFH) in Galveston Bay. In addition, using this modeling technique, we were able to provide an estimate of the overall population of juvenile brown shrimp (〈100 mm) in shallow water habitats within the bay of approximately 1.3 billion. Furthermore, the geographic range of the model was assessed by plotting observed (actual) versus expected (model) brown shrimp densities in three other Texas bays. Similar habitat-use patterns were observed in all three bays—each having a coefficient of determination 〉0.50. These results indicate that this model may have a broader geographic application and is a plausible approach in refining current EFH designations for all Gulf of Mexico estuaries with similar geomorphological and hydrological characteristics.

Keywords: Fisheries ; Management

Repository Name: AquaDocs

Type: article , TRUE

Format: application/pdf

Format: 264-277

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Blue Crab target setting: final report (2021)

Miller, Thomas J. ; Houde, Edward D.

University of Maryland Center for Environmental Science. Chesapeake Biological Laboratory | Solomons, MD

In: http://aquaticcommons.org/id/eprint/2926 | 130 | 2011-09-29 18:12:36 | 2926 | University of Maryland Center for Environmental Science. Chesapeake Biological Laboratory

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Publication Date: 2021-06-29

Description: We have developed a hierarchy of target levels, designated to address sustainability, efficiency, and recovery scenarios. Targets were derived from: 1) reported catches and effort in the commercial fishery, 2) statistics from fishery-independent surveys, and 3) knowledge of the biology of blue crab. Targets that are recommended include population sizes, catches, and effort levels, as well as reference fishing mortality rates. They are intended to be conservative and risk-averse. (PDF contains 182 pages)

Description: Living Resources Subcommittee Chesapeake Bay Program. U.S. E.P.A.

Description: Technical Series No. TS-177-99 of the University of Maryland Center for Environmental Science, Chesapeake Biological Laboratory

Keywords: Conservation ; Ecology ; Management ; Fisheries ; Blue crab ; sustainability ; efficiency ; survey

Repository Name: AquaDocs

Type: monograph

Format: application/pdf

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Length-weight relationship of some deep-sea fish inhabiting the continental slope beyond 250m depth along the west coast of India (2021)

Thomas, J. ; Venu, S. ; Kurup, B.M.

In: http://aquaticcommons.org/id/eprint/9540 | 115 | 2012-10-03 10:30:22 | 9540 | WorldFish Center

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Publication Date: 2021-07-07

Description: The length–weight relationships of 22 species of deep-sea fishes inhabiting the continental slopes beyond 250 m depth along the West Coast of India are presented. The parameters a and b of the equation W=a Lb were estimated. The fish samples were collected from trawl surveys during 1999 to 2001 on board the FORV Sagar Sampada at a depth range of 250 to 600 m in the area between 7°N and 20°N latitude. The value of b ranged from 1.94 to 3.36.

Keywords: Aquaculture ; Fisheries ; Length-weight relationships ; Deep-sea fisheries ; India

Repository Name: AquaDocs

Type: article

Format: application/pdf

Format: 17-21

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Agassiz, Garman, Albatross, and the Collection of Deep-sea Fishes (2021)

Summers, Adam P. ; Hartel, Karsten E. ; Koob, Thomas J.

In: http://aquaticcommons.org/id/eprint/9787 | 403 | 2012-08-14 20:16:15 | 9787 | United States National Marine Fisheries Service

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Publication Date: 2021-07-09

Description: The first of Alexander Agassiz’ voyages on the U.S. Fish Commission steamer Albatross in 1891 yielded significant scientific results. This paper reviews the background of the voyage, including the career path that led Agassiz to the back deck of the Albatross. We also give a brief account of the life and work of Samuel Garman. Garman wrote up the ichthyological material from this Albatross voyage in a magnificent book on deep-sea fishes published in 1899. This book was exceptional in its coverage, anatomical detail, and recognition of phylogenetically important morphology.

Keywords: Biology ; Ecology ; Fisheries

Repository Name: AquaDocs

Type: article , TRUE

Format: application/pdf

Format: 58-68

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Design of a Recreational Fishing Survey and Mark-Recapture Study for the Blue Crab, Callinectes sapidus, in Chesapeake Bay (2021)

Miller, Thomas J. ; Fogarty, Michael J. ; Lipcius, Romuald ; [et al.]

University of Maryland Center for Environmental Science. Chesapeake Biological Laboratory | Solomons, MD

In: http://aquaticcommons.org/id/eprint/4126 | 130 | 2011-09-29 16:23:52 | 4126 | University of Maryland Center for Environmental Science. Chesapeake Biological Laboratory

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Publication Date: 2021-06-30

Description: The development of bay wide estimates of recreational harvest has been identified as a high priority by the Chesapeake Bay Scientific Advisory Committee (CBSAC) and by the Chesapeake Bay Program as reflected in the Chesapeake Bay Blue Crab Fishery Management Plan (Chesapeake Bay Program 1996). In addition, the BiState Blue Crab Commission (BBCAC), formed in 1996 by mandate from the legislatures of Maryland and Virginia to advise on crabmanagement, has also recognized the importance of estimating the levels and trends in catches in the recreational fishery. Recently, the BBCAC has adopted limit and target biological reference points. These analyses have been predicated on assumptions regarding the relative magnitude of the recreational and commercial catch. The reference points depend on determination of the totalnumber of crabs removed from the population. In essence, the number removed by the various fishery sectors, represents a minimum estimate of the population size. If a major fishery sector is not represented, the total population will be accordingly underestimated. If the relative contribution of the unrepresented sector is constant over time and harvests the same components ofthe population as the other sectors, it may be argued that the population estimate derived from the other sectors is biased but still adequately represents trends in population size over time. If either of the two constraints mentioned above is not met, the validity of relative trends over time is suspect. With the recent increases in the human population in the Chesapeake Bay watershed, there is reason to be concerned that the recreational catch may not have been a constant proportion of the total harvest over time. It is important to assess the catch characteristics and the magnitude of the recreational fishery to evaluate this potential bias. (PDF contains 70 pages)

Description: Chesapeake Bay Stock Assessment Committee, NOAA Chesapeake Bay Office

Description: Draft of Final Report

Keywords: Conservation ; Ecology ; Management ; Fisheries ; Blue Crab ; Chesapeake Bay ; Maryland ; Virginia ; Survey

Repository Name: AquaDocs

Type: monograph

Format: application/pdf

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