Michigan Stream Salmonid Growth and Survival in a Changing Climate PDF Download
Are you looking for read ebook online? Search for your book and save it on your Kindle device, PC, phones or tablets. Download Michigan Stream Salmonid Growth and Survival in a Changing Climate PDF full book. Access full book title Michigan Stream Salmonid Growth and Survival in a Changing Climate by Andrew Kenneth Carlson. Download full books in PDF and EPUB format.
Author: Andrew Kenneth Carlson
Publisher:
ISBN: 9781392067321
Category : Electronic dissertations
Languages : en
Pages : 231
Get Book Here
Book Description
From biodiversity and aesthetic beauty to recreation and water for human use (e.g., municipal, industrial, agricultural), streams and rivers are socioeconomically and ecologically vital ecosystems. Coldwater streams and their biota are particularly unique, but they are increasingly threatened by climate change and associated temperature warming, changing hydrology (e.g., groundwater input, temperature; precipitation magnitude, intensity, frequency), and modifications to thermal and physical habitats that support aquatic organism growth, reproduction, and survival. As such, monitoring and modeling of stream thermal-hydrological regimes are important for sustainable management of coldwater fishes -- including Brook Trout (Salvelinus fontinalis), Brown Trout (Salmo trutta), and Rainbow Trout (Oncorhynchus mykiss ) -- in a changing climate. Ultimately, stream salmonid management decisions should foster social-ecological resilience -- the ability to retain robust stream ecosystems and human systems amid stressors such as climate change -- and promote resilience-based management. Using Michigan trout streams as a case study, the objectives of this dissertation were to: (1) Develop stream-specific temperature models to forecast stream thermal regimes and project thermal habitat suitability for Brook Trout, Brown Trout, and Rainbow Trout growth and survival throughout Michigan amid climate change; (2) Compare stream-specific and generalized (i.e., region-specific) temperature models relative to their accuracy (i.e., exactness of temperature prediction) and efficiency (i.e., applicability at management-relevant spatial extents) to develop a model implementation and evaluation approach that can be used for salmonid management programs in Michigan and beyond; (3) Integrate stream temperature modeling results with other thermal habitat information (e.g., groundwater input, watershed and riparian land use/land cover) and trout relative abundance to create a decision-support tool to assist fisheries professionals in operationalizing resilience-based salmonid management within and beyond Michigan in a changing climate; (4) Develop an approach for incorporating precipitation and groundwater into stream temperature modeling and thermal habitat management amid climate change. Climate change will affect Michigan stream trout in ways that vary among streams and populations. In most groundwater-dominated streams, thermal habitats can be accurately modeled and effectively managed using a generalized (i.e., region-specific) approach. However, stream-specific temperature modeling is considerably more accurate than a generalized approach in surface runoff-dominated systems, where the increased resource expenditure (e.g., money, time, personnel) associated with stream-specific modeling may be justified in systems containing high-priority fisheries resources (e.g. trophy individuals, endangered species). Decision-support tools are valuable for synthesizing biological, hydrological, and thermal data in ways that foster informed management decision-making on local and regional scales. Similarly, developing precipitation- and groundwater-corrected stream temperature models is important for accurate, efficient thermal habitat projections that promote resilience-based salmonid management in a changing climate.
Author: Andrew Kenneth Carlson
Publisher:
ISBN: 9781392067321
Category : Electronic dissertations
Languages : en
Pages : 231
Get Book Here
Book Description
From biodiversity and aesthetic beauty to recreation and water for human use (e.g., municipal, industrial, agricultural), streams and rivers are socioeconomically and ecologically vital ecosystems. Coldwater streams and their biota are particularly unique, but they are increasingly threatened by climate change and associated temperature warming, changing hydrology (e.g., groundwater input, temperature; precipitation magnitude, intensity, frequency), and modifications to thermal and physical habitats that support aquatic organism growth, reproduction, and survival. As such, monitoring and modeling of stream thermal-hydrological regimes are important for sustainable management of coldwater fishes -- including Brook Trout (Salvelinus fontinalis), Brown Trout (Salmo trutta), and Rainbow Trout (Oncorhynchus mykiss ) -- in a changing climate. Ultimately, stream salmonid management decisions should foster social-ecological resilience -- the ability to retain robust stream ecosystems and human systems amid stressors such as climate change -- and promote resilience-based management. Using Michigan trout streams as a case study, the objectives of this dissertation were to: (1) Develop stream-specific temperature models to forecast stream thermal regimes and project thermal habitat suitability for Brook Trout, Brown Trout, and Rainbow Trout growth and survival throughout Michigan amid climate change; (2) Compare stream-specific and generalized (i.e., region-specific) temperature models relative to their accuracy (i.e., exactness of temperature prediction) and efficiency (i.e., applicability at management-relevant spatial extents) to develop a model implementation and evaluation approach that can be used for salmonid management programs in Michigan and beyond; (3) Integrate stream temperature modeling results with other thermal habitat information (e.g., groundwater input, watershed and riparian land use/land cover) and trout relative abundance to create a decision-support tool to assist fisheries professionals in operationalizing resilience-based salmonid management within and beyond Michigan in a changing climate; (4) Develop an approach for incorporating precipitation and groundwater into stream temperature modeling and thermal habitat management amid climate change. Climate change will affect Michigan stream trout in ways that vary among streams and populations. In most groundwater-dominated streams, thermal habitats can be accurately modeled and effectively managed using a generalized (i.e., region-specific) approach. However, stream-specific temperature modeling is considerably more accurate than a generalized approach in surface runoff-dominated systems, where the increased resource expenditure (e.g., money, time, personnel) associated with stream-specific modeling may be justified in systems containing high-priority fisheries resources (e.g. trophy individuals, endangered species). Decision-support tools are valuable for synthesizing biological, hydrological, and thermal data in ways that foster informed management decision-making on local and regional scales. Similarly, developing precipitation- and groundwater-corrected stream temperature models is important for accurate, efficient thermal habitat projections that promote resilience-based salmonid management in a changing climate.
Author: Javier Lobon-Cervia
Publisher: Springer Nature
ISBN: 3031443896
Category :
Languages : en
Pages : 733
Get Book Here
Book Description
Author: Javier Lobón-Cerviá
Publisher: John Wiley & Sons
ISBN: 1119268311
Category : Technology & Engineering
Languages : en
Pages : 821
Get Book Here
Book Description
Brown Trout: Biology, Ecology and Management A comprehensive guide to the most current research, history, genetics and ecology of the brown trout including challenging environmental problems The brown trout is an iconic species across its natural European distribution and has been introduced throughout the World. Brown Trout offers a comprehensive review of the scientific information and current research on this major fish species. While the brown trout is the most sought species by anglers, its introduction to various waters around the world is causing serious environmental problems. At the same time, introduction of exogenous brown trout lineages threats conservation of native gene pools of populations in many regions. The authors summarize the important aspects of the brown trout’s life history and ecology and focus on the impact caused by the species. The text explores potential management strategies in order to maintain numerous damaged populations within its natural distributional range and to ameliorate its impacts in exotic environments. The authors include information on a wide-range of topics such as recent updates in population genetics, evolutionary history, reproductive traits and early ontogeny, life history plasticity in anadromous brown trout and life history of the adfluvial brown trout and much more. This vital resource: Contains the latest research on the biology and ecology of brown trout Includes information on phylogeography, genetics, population dynamics and stock management Spotlights the brown trout’s introduction to regions around the world and the serious environmental impacts Offers a comprehensive review of conservation and management techniques Written for salmonid scientists and researchers, fishery and environmental managers, and students of population genetics, ecology and population dynamics, Brown Trout explores the most recent findings on the history, ecology and sustainability of this much-researched species.
Author: Mark R. Downen
Publisher:
ISBN:
Category : Salmon
Languages : en
Pages : 358
Get Book Here
Book Description
Author: Bror Johnsson
Publisher:
ISBN: 9783725803095
Category : Science
Languages : en
Pages : 0
Get Book Here
Book Description
Climate change poses threats to salmonid fishes causing their populations to decline and inducing sub-lethal effects. Increases in temperature change aquatic habitats and opportunities for fish to feed and find shelter. This Special Issue documents how these alterations influence salmonid populations. Across ten papers, leading ecologists from Europe and North America have exhibited how climate warming has influenced the ecology of salmonids in terms of their metabolic rates, development, growth, body size, sexual maturation, and reproductive traits. Climate change also influences their behaviors, including migrations, intraspecific competition, and predation. For instance, salmonids avoid warm stressful temperatures by seeking out cold tributary plumes, groundwater springs, alcoves and hyporheic upwellings, deep lakes, and artificial impoundments. Elevated temperatures affect their physiological, genetic, and epigenetic processes, which are important for their adaptations. This volume also lists examples of how climate change influences interspecific predation, and via mathematical modelling, it shows how climate conditions influence competition between trout and salmon in rivers. The authors have also revealed major research gaps related to species interactions, behavioral responses, and the effects of climate change across the fishes' life stages. This collection of research papers may also help managers in performing better salmonid management in a changing climate.
Author: Thomas Hein
Publisher: Frontiers Media SA
ISBN: 2889667634
Category : Science
Languages : en
Pages : 185
Get Book Here
Book Description
Author:
Publisher:
ISBN:
Category : Marine biology
Languages : en
Pages : 1200
Get Book Here
Book Description
Author: Marc Nelitz
Publisher:
ISBN: 9781897110379
Category : Fishes
Languages : en
Pages : 67
Get Book Here
Book Description
Author: John G. Stockner
Publisher: Bethesda, Md. : American Fisheries Society
ISBN:
Category : Nature
Languages : en
Pages : 312
Get Book Here
Book Description
Author: Bror Jonsson
Publisher: Springer Science & Business Media
ISBN: 9400711891
Category : Science
Languages : en
Pages : 720
Get Book Here
Book Description
Destruction of habitat is the major cause for loss of biodiversity including variation in life history and habitat ecology. Each species and population adapts to its environment, adaptations visible in morphology, ecology, behaviour, physiology and genetics. Here, the authors present the population ecology of Atlantic salmon and brown trout and how it is influenced by the environment in terms of growth, migration, spawning and recruitment. Salmonids appeared as freshwater fish some 50 million years ago. Atlantic salmon and brown trout evolved in the Atlantic basin, Atlantic salmon in North America and Europe, brown trout in Europe, Northern Africa and Western Asia. The species live in small streams as well as large rivers, lakes, estuaries, coastal seas and oceans, with brown trout better adapted to small streams and less well adapted to feeding in the ocean than Atlantic salmon. Smolt and adult sizes and longevity are constrained by habitat conditions of populations spawning in small streams. Feeding, wintering and spawning opportunities influence migratory versus resident lifestyles, while the growth rate influences egg size and number, age at maturity, reproductive success and longevity. Further, early experiences influence later performance. For instance, juvenile behaviour influences adult homing, competition for spawning habitat, partner finding and predator avoidance. The abundance of wild Atlantic salmon populations has declined in recent years; climate change and escaped farmed salmon are major threats. The climate influences through changes in temperature and flow, while escaped farmed salmon do so through ecological competition, interbreeding and the spreading of contagious diseases. The authors pinpoint essential problems and offer suggestions as to how they can be reduced. In this context, population enhancement, habitat restoration and management are also discussed. The text closes with a presentation of what the authors view as major scientific challenges in ecological research on these species.
