1 |
LONG-TERM EVIDENCE THAT PRECOCIOUS PARR CAN SIGNIFICANTLY INCREASE THE EFFECTIVE SIZE OF A POPULATION OF ATLANTIC SALMON (SALMO SALAR)Johnstone, Devon 13 August 2012 (has links)
I describe temporal changes in the genetic composition of a small anadromous Atlantic salmon (Salmo salar) population from South Newfoundland, an area where salmon populations are considered as Threatened (COSEWIC 2010). I examined the genetic variability (13 microsatellite loci) in 869 out-migrating smolt and post-spawning kelt samples, collected from 1985 to 2011 for a total of 22 annual collections and a 30 year span of assigned cohorts. I estimated the annual effective number of breeders (Nb) and the generational effective population size (Ne) through genetic methods and demographically using the anadromous sex ratio. Comparisons between genetic and demographic estimates show that the anadromous spawners inadequately explain the observed Ne estimates, suggesting that mature male parr are significantly increasing Nb and Ne over the study period. Spawning as parr appears to be a viable and important strategy in the near absence of anadromous males.
|
2 |
USING GENOMICS TO UNDERSTAND POPULATION DEMOGRAPHICS IN THE CONTEXT OF AMPHIBIAN CONSERVATIONNunziata, Schyler O. 01 January 2017 (has links)
Understanding the demography of species over recent history (e.g., < 100 years) is critical in studies of ecology and evolution, but records of population history are rarely available. Large single nucleotide polymorphism datasets generated with restriction-site associated DNA sequencing (RADseq), in combination with demographic inference methods, are improving our ability to gain insights into the population history of both model and non-model species. However, to assess the performance of genetic methods it is important to compare their estimates of population history to known demography, in both simulation and empirical settings. Here, I used a simulation approach to examine the potential for RADseq datasets to accurately estimate effective population size (Ne) in Wright-Fisher populations over the course of stable and declining population trends, and distinguish stable from steadily declining populations over a contemporary time scale (20 generations). Overall, my results reveal that demographic inference using genome-wide data can be successfully applied to estimate Ne, and the detection of population-size declines. Next, I assess these methods in an empirical study from a wetland with 37 years of amphibian mark-recapture data to study the utility of genetically-based demographic inference on salamander species with documented population declines (Ambystoma talpoideum) and expansions (A. opacum). For both species, demographic model inference supported population size changes that corroborated mark-recapture data. To further validate these findings, I used individual-based population models of the pond-breeding salamander, Ambystoma opacum, with life-history parameters estimated from a long-term dataset, over a 50 year projection. My results demonstrate that genetically estimated Ne is positively correlated with census size in isolated and subdivided A. opacum populations. Finally, I investigated metapopulation patterns of genomic diversity in A. opacum and A. talpoideum and how migration may impact Ne estimation. I found strong patterns of subpopulation structuring, signatures of migration between subpopulations, and differences in Ne at the subpopulation level in both species. Overall, my findings suggest the ability of genomic data to reconstruct recent demographic changes, which can have important applications to conservation biology, and ultimately can help us elucidate the effects of environmental disturbances in the demography of endangered or declining species.
|
3 |
Cross-Temporal Analysis of Genetic Diversity in the Endangered Medium Tree Finch (Camarhynchus pauper) and Closely Related Darwin's FinchesMetzger, Colleen M. January 2012 (has links)
No description available.
|
4 |
Conservation Genetics of Scandinavian WolverinesHedmark, Eva January 2006 (has links)
<p>In this thesis, genetic methods for individual identification and sex determination of wolverines from non-invasive samples were developed and applied in genetic monitoring of Scandinavian wolverine populations. Paternity and mating system of wolverines were studied by combining genetic analysis with telemetry data. Moreover, the possibility to obtain DNA from claws left on tanned carnivore hides was investigated.</p><p>Non-invasive genetic sampling was effective in revealing important population parameters. For the subpopulation in southern Norway, a population size of approximately 90 individuals, an equal sex ratio and similar levels of genetic diversity as in the main Scandinavian population were revealed. Genetic erosion in this small population has likely been counteracted by immigration of individuals from the main population since its re-establishment around 1970.</p><p>During the 1990s, two areas in east-central Sweden were colonised by wolverines. In a survey comprising 400 non-invasive samples collected during five winters, a total of 22 wolverines were detected. Genetic data suggest that inbreeding has occurred in both areas and that the two populations were founded by as few as 2-4 individuals. These findings suggest that gene flow from the main population is crucial for their survival even in a short time perspective. The detection of occasional stray individuals from the main population shows that this is indeed feasible. </p><p>Paternity analysis of 145 wolverine offspring in northern Sweden and southern Norway confirmed a polygamous mating system in wolverines. Breeding pair formation was generally consistent with the territories held by males and females, i.e. breeding pairs had overlapping territories. In the majority of litters, siblings were assigned the same father, thus indicating that multiple paternity is rare. </p><p>Tanning is a common form of preservation of mammalian specimens that normally precludes genetic analysis. Nevertheless, I demonstrate the possibility to successfully extract and amplify DNA from claws left on tanned carnivore hides.</p>
|
5 |
Conservation Genetics of Scandinavian WolverinesHedmark, Eva January 2006 (has links)
In this thesis, genetic methods for individual identification and sex determination of wolverines from non-invasive samples were developed and applied in genetic monitoring of Scandinavian wolverine populations. Paternity and mating system of wolverines were studied by combining genetic analysis with telemetry data. Moreover, the possibility to obtain DNA from claws left on tanned carnivore hides was investigated. Non-invasive genetic sampling was effective in revealing important population parameters. For the subpopulation in southern Norway, a population size of approximately 90 individuals, an equal sex ratio and similar levels of genetic diversity as in the main Scandinavian population were revealed. Genetic erosion in this small population has likely been counteracted by immigration of individuals from the main population since its re-establishment around 1970. During the 1990s, two areas in east-central Sweden were colonised by wolverines. In a survey comprising 400 non-invasive samples collected during five winters, a total of 22 wolverines were detected. Genetic data suggest that inbreeding has occurred in both areas and that the two populations were founded by as few as 2-4 individuals. These findings suggest that gene flow from the main population is crucial for their survival even in a short time perspective. The detection of occasional stray individuals from the main population shows that this is indeed feasible. Paternity analysis of 145 wolverine offspring in northern Sweden and southern Norway confirmed a polygamous mating system in wolverines. Breeding pair formation was generally consistent with the territories held by males and females, i.e. breeding pairs had overlapping territories. In the majority of litters, siblings were assigned the same father, thus indicating that multiple paternity is rare. Tanning is a common form of preservation of mammalian specimens that normally precludes genetic analysis. Nevertheless, I demonstrate the possibility to successfully extract and amplify DNA from claws left on tanned carnivore hides.
|
6 |
Assessing and monitoring genetic patterns for conservation purposes with special emphasis on ScandinaviaPalmé, Anna January 2010 (has links)
Genetic variation is essential for biological evolution, for maintaining viability of populations, and to ensure ecosystem resilience. Increased human exploitation and environmental change result in rapid loss of biological variation, including genetic diversity. Measures to halt this trend require that biological diversity is assessed and monitored. Assessment of biodiversity includes identifying patterns of distribution of genetic variation within individual species. This thesis focuses on spatial genetic structure and assessment of units for conservation in continuous environments without apparent migration barriers. Empirical data refer to Scandinavia and the model species are northern pike (Esox lucius), brown trout (Salmo trutta), and harbour porpoise (Phocoena phocoena). Questions regarding monitoring genetic diversity and releases of alien populations are also addressed. The spatial genetic structure of the northern pike in the Baltic Sea is characterized by isolation by distance and continuous genetic change. Positive genetic correlation was found among pike within geographical distances of less than 150 km. This distance may be used to suggest management units in this area. For the brown trout, genetic monitoring identified two sympatric populations within a small mountain lake system. The situation is characterized by a clear genetic but no apparent phenotypic dichotomy. Scientific support for a genetically distinct Baltic harbour porpoise population is limited, and the spatial genetic structure of the harbour porpoise in Swedish waters needs to be clarified. Data for launching conservation genetic monitoring programs is available for only a few Swedish species. Millions of forest trees, fish, and birds are released annually in Sweden and the documentation on these releases is poor. To meet responsibilities of safeguarding biodiversity and surveying biological effects of releases, there is an urgent need for studies aimed at evaluating genetic diversity. / At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 2: Manuscript.
|
7 |
Monitoring gene level biodiversity - aspects and considerations in the context of conservationCharlier, Johan January 2011 (has links)
The objectives of this thesis relate to questions needed to be addressed in the context of genetic monitoring for implementing the Convention on Biological Diversity for the gene level. Genetic monitoring is quantifying temporal changes in population genetic metrics. Specific goals of this thesis include i) synthesizing existing information relevant to genetic monitoring of Swedish species, ii) providing a genetic baseline for the Swedish moose, iii) evaluating the relative performance of nuclear versus organelle genetic markers for detecting population divergence, iv) actually monitoring the genetic composition, structure, level of variation, and effective population size (Ne) and assessing the relation between Ne and the actual number of individuals for an unexploited brown trout population. The concept of conservation genetic monitoring is defined and Swedish priority species for such monitoring are identified; they include highly exploited organisms such as moose, salmonid fishes, Norway spruce, Atlantic cod, and Atlantic herring. Results indicate that the Swedish moose might be more genetically divergent than previously anticipated and appears to be divided into at least three different subpopulations, representing a southern, a central, and a northern population. The relative efficiency of nuclear and organelle markers depends on the relationship between the degree of genetic differentiation at the two types of markers. In turn, this relates to how far the divergence process has progressed. For the monitored brown trout population no indication of systematic change of population structure or allele frequencies was observed over 30 years. Significant genetic drift was found, though, translating into an overall Ne-estimate of ~75. The actual number of adult fish (NC) was assessed as ~600, corresponding to an Ne/NC ratio of 0.13. In spite of the relatively small effective population size monitoring did not reveal loss of genetic variation.
|
8 |
Estrutura genética populacional do camarão rosa Farfantepenaeus paulensis (Pérez-Farfante, 1967) nas costas sul e sudeste brasileiraTeodoro, Sarah de Souza Alves. January 2018 (has links)
Orientador: Rogério Caetano da Costa / Resumo: O camarão-rosa Farfantepenaeus paulensis é um dos mais importantes recursos pesqueiros da costa sul-sudeste do Brasil. Os fundos de pesca da espécie incluem dois estoques reprodutivos principais, localizados nas costas dos estados de Santa Catarina e São Paulo. A espécie apresenta ciclo de vida do tipo II, com uma fase reprodutiva no ambiente marinho e recrutamento juvenil em áreas estuarinas e baías. O conhecimento sobre o fluxo gênico entre estoques é a base de todo o ordenamento pesqueiro, uma vez que unidades genéticas podem apresentar características particulares e, normalmente, necessitam de estratégias específicas de manejo. Porém, há poucas informações que podem servir de subsídio para verificar se os diferentes estoques pesqueiros de F. paulensis também representam estoques genéticos distintos. O crescimento desordenado da frota industrial, o incremento da pesca artesanal nas áreas de criadouro, somado à pequena eficácia da legislação pesqueira, associados à ineficiência da fiscalização, levaram a um cenário de colapso da pescaria do camarão rosa no fim dos anos 90. Um melhor entendimento da estruturação genética das populações de F. paulensis é necessário, não somente pelo seu alto valor comercial e ecológico, mas também para permitir a implementação de medidas de manejo mais efetivas. Assim, o presente trabalho buscou avaliar a estruturação genética das populações do camarão rosa F. paulensis ao longo de sua distribuição no Atlântico Sul Ocidental, utilizando como ... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The pink shrimp Farfantepenaeus paulensis is one of the most important fishing resources on the south-southeast coast of Brazil. The fishing zone of the species includes two main reproductive stocks, located on the coasts of Santa Catarina and São Paulo states. The species exhibits the type II life cycle, with an offshore reproductive stage and a juvenile recruitment in bays and estuarine areas. Knowledge on the amount of gene flow between stocks is the basis of all fisheries management, since genetic units may have particular characteristics and usually require specific management strategies. However, there is little information to verify whether F. paulensis's different fish stocks also represent different genetic stocks. The unrestricted growth of the industrial fleet, the increase in artisanal fishing in breeding areas, coupled with the low effectiveness of fisheries legislation and the inefficiency of inspection, led to a collapse of the pink shrimp fishery in the late 1990s. A better understanding of the genetic structuring of the populations of F. paulensis is necessary, not only for its high commercial and ecological value, but also to allow the implementation of more effective management measures. Thus, the present work aimed to assess the genetic structuring of the populations of the pink shrimp F. paulensis throughout its distribution in the Western South Atlantic, using as molecular marker the Control Region (D-loop) of the mitochondrial DNA (Chapter 1). In additi... (Complete abstract click electronic access below) / Doutor
|
Page generated in 0.1162 seconds