Download or read book Conservation Genetics of Brook Trout salvelimus Fontinalis in Shenandoah National Park written by Alicia Gail Nelson and published by . This book was released on 2009 with total page 80 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Download or read book The Trout Fishery in Shenandoah National Park written by Robert E. Lennon and published by . This book was released on 1961 with total page 24 pages. Available in PDF, EPUB and Kindle. Book excerpt: Populations of brook trout in streams of Shenandoah National Park were reduced drastically early in the past decade by a succession of unusually severe droughts and floods. The drying of stream beds, predation, and scouring were principal factors in the loss of fish. The park was closed to fishing in 1954 and 1955 to protect survivors. The small numbers of survivors quickly repopulated the streams after drought conditions abated. The stocking of hatchery-reared fingerling trout in selected waters failed to augment the recovery of populations. Survival and growth of young, wild trout were especially good. Their redistribution through miles of previously dry streams was rapid. The park was opened again to fishing in 1956 under regulations which restrict the take but afford an increase in sporting opportunity. Two streams were placed under fishing-for-fun-only regulations in 1961. The welfare of the trout populations is dependent mostly on the weather cycle. Fish may be abundant in wet years but very scarce in dry ones. Thus, the stream must be managed as marginal for trout.
Download or read book Susceptibility of the Early Life Stages of Brook Trout Salvelinus Fontinalis and Adult Blacknose Dace Rhinichthys Atratulus to Acidification in Shenandoah National Park written by Stephen Edward MacAvoy and published by . This book was released on 1996 with total page 176 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Download or read book Conservatin Genetics of Brook Trout Salvelinus Fontinalis written by Matthew William Jones and published by . This book was released on 1996 with total page 16 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Download or read book Recovery from and Effects of a Catastrophic Flood and Debris Flow on the Brook Trout Salvelinus Fontinalis Population and Instream Habitat of the Staunton River Shenandoah National Park Virginia written by and published by . This book was released on 2000 with total page 91 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Download or read book Conservation Genetics of Remnant Anadromous Brook Trout Salvelinus Fontinalis Populations at the Southern Limit of Their Distribution written by Brendan J. Annett and published by . This book was released on 2005 with total page 104 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Download or read book Trout Fishing in the Shenandoah National Park written by Harry W. Murray and published by . This book was released on 1997 with total page 140 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Download or read book CONSERVATION GENETICS OF SOUTHERN APPALACHIAN BROOK TROUT Salvelinus Fontinalis written by Thomas Casey Weathers and published by . This book was released on 2019 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Many range-restricted species, particularly mountaintop species, are often the first groups in which entire species experience extinction due to range contractions and perturbations. Rear-edge, lower latitude, salmonid populations often occupy fragmented habitats and may in turn exhibit more pronounced signatures of isolation than higher latitude conspecifics. Therefore, rear-edge populations present significant conservation challenges to biologists interested in identifying and maintaining ecological and evolutionary processes within and among such populations. Brook Trout (Salvelinus fontinalis), the only endemic salmonid to southern Appalachia, are rich in ecologically and evolutionarily interesting traits such as multiple life history forms, broad latitudinal and elevational distribution, and prodigious neutral genetic differentiation. Causes of continual Brook Trout population and range declines include overharvest, acid precipitation, habitat degradation, competition with non-native species, and climate change. Such declines have led to the increased isolation of many populations of Brook Trout. In the absence of gene flow many isolated populations of Brook Trout may exhibit rapid genetic drift or inbreeding, thus resulting in subsequent losses of adaptive potential. Consequently, there is considerable demand for the implementation of restoration programs that maximize population recovery and resilience of wild Brook Trout. As such, resource managers must plan for an evolutionary future for such a trust species. While the current paradigm of conservation places emphasis on recognition and protection of irreplaceable evolutionarily distinct lineages, the precise and accurate delineation of populations must become a priority. Once populations are identified the best strategy for future conservation may be to enhance connectivity via restoration or translocation efforts rather than protecting specific genotypes. Elucidating spatial clusters of Brook Trout is critical to their conservation, particularly regarding unprecedented environmental change. Therefore, I have combined informative microsatellite data with riverscape genetics approaches to assess whether functional (meta)population assemblages exist among rear-edge populations of Brook Trout sampled across southern Appalachia in the following research chapters. My research elucidates the effects of isolation and fragmentation on Brook Trout genetic and phenotypic (i.e., morphometric and meristic) differentiation, whether neighboring populations exhibit enough gene flow to warrant being considered metapopulations, and the effect of potential barriers to gene flow upon subsequent metapopulation dynamics and genetic diversity. My research largely suggests that rear-edge populations of Brook Trout exhibit extensive neutral genetic differences and appear to be prodigiously isolated. My findings provide biologists a reference when setting management and conservation priorities and may foster more aggressive efforts focused on restoring connectivity among many populations of rear-edge Brook Trout. Further, by demarcating population and subpopulation clusters across riverscapes I provide resource managers information needed to enhance future Brook Trout conservation outcomes.I sought to document existing patterns of genetic variation within and among populations of Brook Trout and then translate my results into an approachable format for managers to access for future management and conservation decision making and to further encourage managers to implement population genetic monitoring programs. My work supports that non-native trout removals combined with habitat restorations could improve connectivity and enhance the outlook for many fragmented populations of wild, native brook trout across southern Appalachia. Moreover, it is my hope that the results from these studies can be used by Brook Trout biologists to select local restoration source stocks used to potentially bolster the effectiveness of different conservation strategies (i.e., founder translocations and genetic rescue).
Download or read book Electrophoretic Analysis and Population Genetics of Selected Enzymes of Brook Trout Salvelinus Fontinalis in the Great Smoky Mountains National Park written by Elizabeth Shipp and published by . This book was released on 1979 with total page 78 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Download or read book Movement Growth and Mortality of Brook Trout Within the Hazel River Shenandoah National Park written by Roger D. Bryan and published by . This book was released on 1993 with total page 182 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Download or read book Genetic Characteristics of Southern and Northern Brook Trout Salvelinus Fontinalis Populations at the Zone of Contact written by Joanne E. Printz and published by . This book was released on 2018 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Population genetic evidence suggests differentiation among evolutionarily significant units of southern and northern Appalachian brook trout, with the zone of contact in southwestern Virginia. Before this differentiation was recognized, brook trout of northern origin were stocked throughout the southeastern United States. In order to determine this differentiation, established allozyme markers were used to classify 56 southwest Virginia populations as southern, northern, or introgressed. Variation at 4 polymorphic loci, including the diagnostic creatine kinase (CK-A2*) locus, indicated that 19 populations were of southern origin, 5 of northern origin, and 32 of mixed genetic origin. Data compiled among genetic studies of brook trout in the southern Appalachians showed that the southern/northern break is sharp, occurring at the New/Roanoke-James watershed divide. New River drainage populations exhibited the southern allele at high frequency, suggesting their historic native character as southern, with presence of northern alleles due to stocking or stream capture events. In conclusion, the present study suggests that management of southern Appalachian brook trout should include: (1) genetically cognizant planning of stocking events, (2) management of populations on a stream-by-stream basis, (3) prioritized conservation of pure southern brook trout populations, and (4) use of southern Appalachian hatchery stocks in restoration efforts.
Download or read book Investigating the Conservation Genetics Small Population Paradigm Using the Brook Trout Salvelinus Fontinalis written by Jacquelyn L. A. Wood and published by . This book was released on 2014 with total page 331 pages. Available in PDF, EPUB and Kindle. Book excerpt: The conservation genetics small population paradigm predicts reduced quantitative genetic variation and consequently, adaptive potential, for populations which have become small and isolated due to habitat fragmentation. While these expectations are supported by laboratory studies, their generality in wild populations remain unresolved. In actuality, the evolutionary consequences of fragmentation may depend on whether environmental characteristics– and by extension, selective regimes are (1) shifted in a consistent directional manner as is widely assumed (Directional hypothesis), or (2) become more variable as population and fragment size decrease (Variable hypothesis); this latter possibility has so far received little empirical attention. Implementing field techniques, I explore these two competing hypotheses by relating variability in habitat characteristics to population size in a series of differentially abundant brook trout (Salvelinus fontinalis) populations located at Cape Race, Newfoundland. I furthermore use these hypotheses as a foundation to test the assumptions of the conservation genetic small population paradigm by investigating the relationships of population size at Cape Race to additive genetic variation (VA), trait differentiation (QST), and phenotypic plasticity in common garden analyses, and to the extent of natural selection in a meta-analysis using a large number of natural populations and species. Across two years and in relation to two population size metrics, patterns of habitat characteristics among small versus large Cape Race populations supported the Variable hypothesis. However, small brook trout populations did not significantly differ from large populations in either the magnitude or variability of VA, QST, or phenotypic plasticity. Results of the meta-analysis similarly revealed little support for differences in the strength, direction, and form of selection among wild populations differing in population size. The lack of differences might be explained by long term fluctuating environmental conditions which resulted in fluctuating selective pressures and similar outcomes among small compared to large Cape Race populations, and among the species included in the meta-analysis. Overall, the results of this research contradict the assumption that small populations generally inhabit marginal environments and also dispute the major tenets of the conservation genetics small population paradigm. Taken together, they suggest that even very small populations of some species may retain the adaptive potential necessary to cope with future environmental change.
Download or read book The Virginia Journal of Science written by and published by . This book was released on 2007 with total page 484 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Download or read book Conservation Applications of Watershed Level Brook Trout Riverscape Genetics written by Lucas Nathan and published by . This book was released on 2018 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Contemporary Brook Trout Salvelinus fontinalis populations are often fragmented due to anthropogenic influences. Although research and conservation actions have traditionally focused at the stream-reach level, inter-stream movements may connect seemingly isolated populations to form larger metapopulations. The overall goal of my research was to use watershed-level riverscape genetics to inform Brook Trout conservation. Specifically, my objectives were to 1) present a synthesis of existing Brook Trout literature and identify future research directions, 2) evaluate Brook Trout genetic population structuring and identify gene flow barriers at the watershed level, 3) validate and modify a pre-existing Brook Trout habitat patch spatial layer that can be used to predict extant Brook Trout metapopulations, and 4) develop decision support tools to identify Brook Trout conservation opportunity areas (COAs) at watershed levels. Using empirical data, I found evidence of genetic connectivity among streams spanning 5 - 15 km of mainstem habitat. Watersheds with high levels of development were associated with increased differentiation, suggesting that development acts a barrier to gene flow at the watershed level. The pre-existing patch layer adequately predicted many genetic metapopulations, however patches with dams or high levels of development often exhibited higher levels of genetic structuring. Modifying the patches reduced evidence of genetic structuring, which suggested a better representation of existing genetic patterns. Using the set of COA tools, I identified patches and watersheds across Connecticut to target for specific conservation actions. Simulating barrier removals, I found rapid (1 - 10 years) increases in genetic diversity, however barrier severity and monitoring location strongly influenced the observed effects. Through this research, I have demonstrated that Brook Trout, despite being isolated by unsuitable mainstem habitat, exist in metapopulations at the watershed level. Such dynamics are important for long term population viability, and thus conservation actions should take watershed-level processes into consideration. Using the modified patch layer and the set of COA tools I developed as part of this research, resource managers can visualize and identify areas across broad landscapes to target for Brook Trout conservation. Doing so will promote the long-term resilience and adaptive potential of Brook Trout metapopulations.
Download or read book Conservation Genetics and Metapopulation Structure of Brook Trout Salvelinus Fontinalis in Nipigon Bay Lake Superior Ontario written by Silvia D'Amelio and published by . This book was released on 2002 with total page 236 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Download or read book Effects of Drifting Prey Abundance on Food Consumption and Growth of Brook Trout in Shenandoah National Park written by Kelly Joseph Meyer and published by . This book was released on 1990 with total page 222 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Download or read book Assessing Populations of Eastern Brook Trout Salvelinus Fontinalis Above and Below Waterfalls in Mountain Streams of Virginia written by and published by . This book was released on 2019 with total page 93 pages. Available in PDF, EPUB and Kindle. Book excerpt: Anthropogenically driven factors, such as increasing temperature and sediment in valley streams, acidification of mountain streams, and the introduction of non-native trout, are restricting habitat suitable for healthy populations of eastern brook trout (Salvelinus fontinalis) throughout their native Appalachian range. Brook trout are important as predators of insects in mountain streams and as a favorite of anglers. It is crucial that remaining populations in sustainable habitats be identified and preserved. Waterfalls are geologic knickpoints preventing base-level lowering that create unique, stable landscapes above them, which may alleviate the temperature-productivity/acidity "habitat squeeze" for populations of brook trout and could serve as potentially ideal targets for conservation efforts despite being isolated. This study investigates brook trout occurrence above waterfalls in Virginia and compares brook trout populations found above waterfalls to those below them. One-hundred meter reaches above and below seven waterfalls in Virginia's George Washington and Jefferson National Forest were sampled for brook trout via 3-pass, block-netted, backpack electrofishing depletions. All brook trout were counted, weighed, and measured for fork length. The response variables are differences in 1) percent dominance, 2) population size, 3) biomass, and 4) length-weight index (Fulton's Condition Factor) between brook trout above and below waterfalls. Brook trout dominance (100 vs. 36.9%) is greater above than below waterfalls, but not significantly (p = 0.1003). We found abundance (26 vs.12 individuals per 100m) and overall biomass (885.3 vs 284.6 grams per 100m) of brook trout populations above waterfalls to be significantly greater than their below waterfall counterparts (p = 0.078 for both). We also found brook trout above waterfalls to have a higher condition factor (1.086g/cm3 vs 1.0636g/cm3) than those below waterfalls (p = 0.031). Lastly, we found populations above waterfalls where their occurrence was previously unknown. Despite being isolated, brook trout populations above waterfalls were just as if not more robust than those below and may be excellent targets for conservation.
