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Author: Justin Micheal Krebs Publisher: ISBN: Category : Languages : en Pages :
Book Description
To assess the potential influence of coastal development on the quality of estuarine habitat for nekton, we characterized land use and the intensity of land development surrounding small tidal tributaries of Tampa Bay. Based on this characterization, we classified tributaries as undeveloped, industrial, urban or man-made (i.e., mosquito-control ditches). Over one-third (37%) of tributaries were determined to be heavily developed, while fewer than one-third (28%) remain relatively undeveloped. We then examined the nekton community from eleven tributaries in watersheds representing the defined land-use classes. Whereas mean nekton density and species richness were both independent of land use, nekton-community structure differed between non-urban (i.e., undeveloped, industrial, ditches) and urban tributaries. In urban tributaries, the community was skewed towards high densities of poeciliid fishes while typically dominant estuarine taxa were in low abundance or nearly absent. Densities of economically important taxa in urban creeks were also only half that observed in most non-urban creeks, but were similar to those observed in mosquito ditches. Furthermore, six of nine common taxa were found to be in relatively poor condition (6-22% smaller in mass), or were rarely collected, in urban creeks. Reproductive output was reduced for both sailfin mollies (i.e., fecundity) and grass shrimp (i.e., very low densities and few ovigerous females) in urban tributaries. Canonical correspondence analysis differentiated non-urban and urban tributaries based on greater impervious surface, less natural mangrove shoreline, higher frequency of hypoxia and lower, more variable salinities in urban tributaries. These characteristics explained 48% of the variation in nekton data, including the high densities of poeciliid fishes, greater energy reserves in sailfin mollies and low densities of several common nekton and economically important taxa from urban creeks.
Author: Justin Micheal Krebs Publisher: ISBN: Category : Languages : en Pages :
Book Description
To assess the potential influence of coastal development on the quality of estuarine habitat for nekton, we characterized land use and the intensity of land development surrounding small tidal tributaries of Tampa Bay. Based on this characterization, we classified tributaries as undeveloped, industrial, urban or man-made (i.e., mosquito-control ditches). Over one-third (37%) of tributaries were determined to be heavily developed, while fewer than one-third (28%) remain relatively undeveloped. We then examined the nekton community from eleven tributaries in watersheds representing the defined land-use classes. Whereas mean nekton density and species richness were both independent of land use, nekton-community structure differed between non-urban (i.e., undeveloped, industrial, ditches) and urban tributaries. In urban tributaries, the community was skewed towards high densities of poeciliid fishes while typically dominant estuarine taxa were in low abundance or nearly absent. Densities of economically important taxa in urban creeks were also only half that observed in most non-urban creeks, but were similar to those observed in mosquito ditches. Furthermore, six of nine common taxa were found to be in relatively poor condition (6-22% smaller in mass), or were rarely collected, in urban creeks. Reproductive output was reduced for both sailfin mollies (i.e., fecundity) and grass shrimp (i.e., very low densities and few ovigerous females) in urban tributaries. Canonical correspondence analysis differentiated non-urban and urban tributaries based on greater impervious surface, less natural mangrove shoreline, higher frequency of hypoxia and lower, more variable salinities in urban tributaries. These characteristics explained 48% of the variation in nekton data, including the high densities of poeciliid fishes, greater energy reserves in sailfin mollies and low densities of several common nekton and economically important taxa from urban creeks.
Author: Publisher: Academic Press ISBN: 0080878857 Category : Science Languages : en Pages : 4604
Book Description
The study of estuaries and coasts has seen enormous growth in recent years, since changes in these areas have a large effect on the food chain, as well as on the physics and chemistry of the ocean. As the coasts and river banks around the world become more densely populated, the pressure on these ecosystems intensifies, putting a new focus on environmental, socio-economic and policy issues. Written by a team of international expert scientists, under the guidance of Chief Editors Eric Wolanski and Donald McClusky, the Treatise on Estuarine and Coastal Science, Ten Volume Set examines topics in depth, and aims to provide a comprehensive scientific resource for all professionals and students in the area of estuarine and coastal science Most up-to-date reference for system-based coastal and estuarine science and management, from the inland watershed to the ocean shelf Chief editors have assembled a world-class team of volume editors and contributing authors Approach focuses on the physical, biological, chemistry, ecosystem, human, ecological and economics processes, to show how to best use multidisciplinary science to ensure earth's sustainability Provides a comprehensive scientific resource for all professionals and students in the area of estuarine and coastal science Features up-to-date chapters covering a full range of topics
Author: Jan-Olaf Meynecke Publisher: ISBN: Category : Electronic dissertations Languages : en Pages :
Book Description
Abstract: The primary data sources for this study were (1) 17 years of commercial fish catch data from over 30 selected estuarine fish species or species groups; and (2) estuarine habitat maps for Queensland, Australia. Queensland appears to be the best study region as it had the largest extent of soft sediment estuarine habitats, comprising seagrass, salt marsh and mangroves, and offers long-term commercial fish catch data compared to other states in Australia. As a first step, the relationship between catch (both as catch-per-unit-effort (CPUE) and total catch) for commercially caught species in their dominant fisheries (trawl, line, net or pot fisheries) and estuarine geomorphic spatial metrics were extracted from digital habitat maps in geographic information systems (GIS). For preliminary analyses, I examined 13 geographical regions in Queensland based on their importance to commercial fisheries. Spatial metric characteristics such as Euclidean distance, patch density and landscape connectivity for 273 estuaries along the Queensland coast were then calculated within 90 fish catch grids, which provided inshore fish catch data from 21 species groups. The collective spatial characteristics of estuarine habitats such as size and structural connectivity showed significant correlation with fish catch, with r2 values> 0.7 for 17 commercial species groups. More detailed multiple regression analysis and non-metric multidimensional scaling (nMDS) plots showed significant links between geomorphic coastal features such as structural connectivity and nearshore fisheries production. The relationship was best explained by connectivity indices for mangroves, salt marsh and channels, further suggesting the fundamental importance of connected tidal wetlands to the fish catch. Climate-driven dependencies of fish catch were explored by using CPUE, rainfall, coastal air temperature and the Southern Oscillation Index (SOI) and catch time-series for specific combinations of climate, seasons and regions. Surplus production models where applied to the commercial fish catch data using the program CLIMPROD. In addition to habitat configuration, climate, particularly rainfall, played a major role in the species composition of the fish catch. Up to 30 % of Queensland's total fish catch and up to 80 % of the barramundi catch variation for specific regions were explained by rainfall, often with a time-lag response to rainfall events. Temperature had similar influences on fish and prawn catches, with high temperatures having a negative effect on the prawn catch in the Gulf of Carpentaria. The importance of estuary-scale habitat connectivity to fish populations was assessed by studying fish movement in relation to the extent of flooding for several commercially and recreationally important species in and out of a small mangrove creek using a stationary passive integrated transponder (PIT) system, augmented by underwater digital video recorders (DVRs) for visual sensing. A high-resolution digital elevation model derived from airborne light detection and ranging (LIDAR) and aerial imagery was used to estimate inundation pattern of intertidal habitats to compare with movement of PIT tagged fish. Investigations of fish movement at a detailed scale confirmed the broad-scale findings that habitat connectivity and close spatial proximity of resources are key factors for estuary-dependent fish species in tide-dominated systems to access different habitats. Access to habitat resources such as mangroves is more limited in time than previously thought and is dependent on fish species and size, thus suggesting importance of other adjoining habitats. Fish species and size also affected time of residency and diel pattern of habitat use. The analyses presented in this thesis also allow an evaluation of the economic consequences of climate parameters on estuarine fisheries. Species-specificity in climate-catch relationships suggested a strong need to develop forecast models and manage estuaries for future climate change by adjusting the quota for the more sensitive species. In addition, my findings on the role of estuarine habitat connectivity could guide the construction of a network of protected marine areas of various structural configurations that can optimise ecosystem services. The demonstrated value of habitat connectivity further warns against future reduction of connectivity by habitat destruction and climate change. The new techniques developed for assessing the spatial ecology of estuarine fish and their habitat utilisation and site fidelity behaviour will assist evaluation of the role of estuarine habitat inter-dependencies in supporting coastal fish populations. The fish catch data set used for fisheries management is valid for broad-scale investigations. However, it can be insufficient for managing certain stocks, e.g., fish targeted by recreational fishers. Data sets can be significantly improved by in-corporating locally collected recreational fish catch data, which can provide detailed information for particular river systems and allow better assessments of potential overfishing. The results of this study suggest that sound ecosystem-based fisheries management requires a diversity of information, an improved catch record system, a species-specific approach to managing the impact of climate change, and ecologically meaningful protection areas with high habitat connectivity.
Author: Sue Wells Publisher: UNEP/Earthprint ISBN: 9280726811 Category : Science Languages : en Pages : 76
Book Description
The tragic and devastating consequences of the Asian tsunami, December 2004, and the hurricanes and cyclones of 2005 were a wake up call for the global community, dramatically drawing attention to the dangers of undermining the services that coastal ecosystems provide to humankind. This report has gathered lessons that have been learned since these events that will be relevant to future management of the coasts in the context of severe weather events and other potential consequences of global warming. The publication aims to help decision and policy makers around the world understand the importance of coastal habitats to humans, focusing on the role of coral reefs and mangroves. As well as coastal protection, it also addresses the huge range of other benefits provided by these ecosystems and the role that they can play in coastal development and in restoring livelihoods for those suffering from the effects of extreme events
Author: Monetta S. Wilson Publisher: ISBN: Category : Languages : en Pages :
Book Description
ABSTRACT: Mangroves are an important resource. They provide a breeding ground for commercially and recreationally important fish, protect shorelines from erosion and improve coastal water quality. Historically, mangroves were undervalued, leading to a loss of 35% of mangroves worldwide and 44% in Tampa Bay due to anthropogenic stressors. Efforts to protect and restore mangroves have led to a variety of management programs. In Tampa Bay the main management program is the Tampa Bay Estuary Program (TBEP). The program has identified the need for simple and easy to use assessment tools to track mangrove quality and aid in mangrove quality. There are several types of assessment methods recommended for measuring habitat quality. Among these approaches, environmental indices are favorable because they are simple and easy to use as well as objective measures of habitat quality. Indices are most effective when configured to a specific habitat. Although similar assessment methods have been developed for several habitats, there are none specifically for estuarine wetlands in peninsular Florida. This study aims to fill this gap and create an index to assess the quality of mangroves in Tampa Bay and measure the impact of human activities on the habitat. The index was created by measuring a variety of physical characteristics in three reference wetlands of varying quality. Cockroach Bay was the highest quality wetland in the most pristine condition, Weedon Island moderately impacted and Feather Sound the most highly impacted and lowest quality. Metrics for the index were determined by performing simple correlation analysis of the physical characteristics and condition. The characteristics strongly correlating to conditions were selected as metrics. Based on this analysis, a mangrove quality index (MQI) was recommended for Tampa Bay. This index contains three categories: biota, vegetation and water. The resulting MQI is recommended for use by mangrove managers and policy makers to ensure the protection and restoration of Tampa Bay's mangroves.
Author: Daniel Friess Publisher: Elsevier ISBN: 0128175109 Category : Science Languages : en Pages : 652
Book Description
Dynamic Sedimentary Environments of Mangrove Coasts provides knowledge on the importance of sedimentary dynamics in managing mangrove forests. In the first part of the book, the editors seamlessly offer a general introduction of mangrove sedimentary dynamics. This leads into more in-depth information on soil surface elevation change, sea level rise, and the importance of sedimentary dynamics in the loss or gain of blue carbon. The book concludes the discussion of mangrove sedimentary dynamics by addressing the issues of climate change (e.g. sea level rise and blue carbon) on mangrove restoration and sediment.This book will assist coastal managers and academics in addressing the gaps in mangrove restoration and coastal management. As such, it will be a valuable reference for advanced undergraduate students, graduate students, researchers, academics in the field of coastal restoration, and coastal management practitioners. - Provides a state-of-the-art summary of research into sedimentary dynamics in mangrove forests - Includes updates on issues of climate change-relevant to mangroves, such as blue carbon and sea level rise - Presents scientific background and successful case studies for mangrove restoration that can solve problems relating to mangrove management
Author: Patrick Neil Bowskill Reis dos Santos Publisher: ISBN: Category : Coastal ecology Languages : en Pages : 173
Book Description
Connectivity is a critical component of marine fish populations as it drives population replenishment, determines colonization patterns and populations' resilience to harvest. Knowledge of individual movement patterns is pivotal to ascertain population dynamics and underpins sustainable management. Many marine fish species occupy spatially segregated habitats throughout their life history. Estuarine nursery function and the ecological link between estuaries and the coastal environment were reviewed with emphasis on quantifying estuarine contributions and assessing fish movement to coastal adult populations. The chemical composition of otoliths is one of the most promising natural tags to quantify fish movement, particularly for early life stages. Yet, many uncertainties remain regarding the factors affecting elemental incorporation in otoliths. Temperature, salinity and water composition variations were examined to evaluate their interactive effects on Dicentrarchus labrax otolith chemistry, which is a vital first step in reconstructing environmental histories and intra-estuarine movement patterns. The combined use of otolith chemistry and muscle stable isotopes provided corroborative and complementary information, at different spatio-temporal scales, of intraestuarine habitat use and outlined limited movement between segregated estuarine nursery areas. Otolith elemental signatures of juvenile Platichthys flesus and D. labrax collected in estuarine nurseries along the Portuguese coast were year specific; though variation among seasons did not hinder spatial discrimination. Juveniles were accurately assigned to their estuaries of origin. These elemental signatures constituted the baseline for assessments of connectivity between juvenile and adult populations. The quantification of the relative contributions of estuaries to coastal populations of P. flesus and D. labrax in two years enabled the identification of the estuarine systems which contributed most to the replenishment of coastal populations. Overall, results contributed to prioritization of the conservation of ecologically important habitats and to the development of integrated management strategies for these commercially important species.
Author: Justin Micheal Krebs
Author: Justin Micheal Krebs
Author: 
Author: Jan-Olaf Meynecke
Author: Sue Wells
Author: Monetta S. Wilson
Author: Karen J. Murchie
Author: 
Author: Samuel C. Snedaker
Author: Daniel Friess
Author: Patrick Neil Bowskill Reis dos Santos