Global ETD Search

21	From genes to species: Characterizing spatial and temporal variation in frog and toad multidimensional biodiversity Moore, Chloe Ellen 15 May 2023 (has links) Biodiversity is a complex concept encapsulating the variation that occurs within and among levels of biological organization. It is positively linked to ecosystem persistence, adaptability, and function. Biodiversity loss, driven by global change and human activities, is one of the most prominent threats to ecosystems. Characterizing the variation of and processes driving biodiversity is a critical step in understanding the causes, consequences, and magnitude of biodiversity loss. However, characterizing biodiversity comprehensively requires understanding multiple dimensions, or types, of diversity, such as genetic, taxonomic, phylogenetic, and life history diversity, that encompass both ecological and evolutionary processes varying across space and time. In this dissertation, I investigate spatial and temporal variation in frog and toad (order Anura) biodiversity to understand the effects of how diversity is measured on biodiversity characterization and the underlying processes driving biodiversity. In my first chapter, I examined the spatial and temporal variation of genetic diversity and other population genetic metrics to understand the effects of multi-year sampling on population genetic inference in an anuran metapopulation (Arizona treefrog, Hyla (Dryophytes) wrightorum). I found that a single sample year captures global, but not local, population genetic dynamics, as there is considerable temporal variation in genetic metrics within individual populations. In my second chapter, I developed a tool to improve the characterization of anuran life history diversity using species traits. Traits are the measurable attributes of species, and a suite of species traits is used to distinguish ecological strategies found among species. I collated trait data from 411 primary and secondary sources for 106 anuran species found in the United States to develop an anuran traits database for use in conservation, management, and research. In my third chapter, I investigated spatial variation within and among taxonomic, phylogenetic, and life history anuran diversity in the United States and examined the abiotic relationships behind observed patterns. To do this, I developed species distribution models at a 1 km2 resolution for the majority of the native US anurans. I identified relationships among diversity metrics for improved, comprehensive biodiversity characterization and potential ecological and evolutionary processes underlying biodiversity. Spatial variation in multidimensional relationships highlights regional needs for multiple metrics of diversity to comprehensively characterize biodiversity. This spatial variation is driven by temperature, elevation, and water availability, likely related to the biological limits for anurans. Collectively, these chapters highlight the considerable variation that exists within and among species of a broad and diverse biological. Furthermore, these chapters call attention to the importance of measuring multiple biodiversity dimensions for effective conservation in a rapidly changing world. / Doctor of Philosophy / Biodiversity loss, from global change and human activities, is one of the biggest threats to the Earth's ecosystems. Biodiversity is the similarities and differences in organismal characteristics, such as their genetics, evolutionary history, and ecology. Biodiversity is often linked to how well an ecosystem will persist and adapt to global change. To understand the causes and consequences of biodiversity loss, it is important to first measure diversity and what shapes it. However, there are many types of diversity and ways to measure them, such as the number of species in a system, or species richness, the span of evolutionary lineages in a system, or phylogenetic diversity, the number of roles species fill in a system, or life history diversity, and the genetic relationships within individuals and populations, or genetic diversity. In this dissertation, I investigate how our understanding of biodiversity is affected by the ways it can be measured and the relationship among those metrics. To do this, I studied diversity in three ways for frogs and toads of the United States. First, I investigated whether sampling across multiple years is necessary to adequately characterize genetic diversity in a frog species (Arizona treefrog: Hyla (Dryophytes) wrightorum) with populations that fluctuate in size over time. Here, I found that multiple sample years are necessary to capture the genetic variation within individual populations over time, but unnecessary to capture the average genetic variation among all populations over space and time. Second, I developed a tool to improve our ability to measure anuran life history diversity using traits. Traits are measurable attributes of species, and multiple species traits can be used to define the role of a species in an ecosystem. I collected trait data from 411 sources for 106 frog and toad species found in the United States to develop a traits database for use in conservation, management, and research. Third, I investigated the similarities in multiple diversity metrics across the United States using species richness, phylogenetic diversity, and life history diversity. Species richness is highest in the eastern US, phylogenetic diversity is highest in the western US, and life history diversity is clustered around eastern US mountains. These regional relationships among metrics coincided with regional water availability, temperature, and elevation. These results collectively call attention to changes over space and time in frog and toad diversity and how the relationships within and among diversity types relate to our understanding of frog and toad biodiversity. Considering how, where, and when to measure biodiversity can lead to more effect biodiversity conservation in a rapidly changing world. amphibians genetic diversity effective population size metapopulation traits life history diversity phylogenetic diversity species richness
22	Salamander Mating Behaviors and Their Consequences for Individuals and Populations Croshaw, Dean 22 May 2006 (has links) In this dissertation, I report new information that is necessary for future mating system studies in a little studied species, the marbled salamander (Ambystoma opacum). I studied female mating behavior, sexual selection, and the consequences of polyandry for individual females and salamander populations. I also compared the performance of several statistical approaches for analyzing genetic mating system data. The first chapter summarizes the characteristics of several novel microsatellite DNA loci as well as cross-amplified loci for marbled salamanders and mole salamanders that may be used for future studies. In the second chapter, I report estimates of sire number for 13 marbled salamander clutches based on microsatellite data from 32 hatchlings per clutch. Females mated with as many as three different males as indicated by conservative techniques. Less than half of females mated with multiple males. Based on comparative analyses, I recommend the parental reconstruction approach with the computer program GERUD for assessing multiple paternity. The third chapter describes an experiment designed to study sexual selection. As expected, in breeding mesocosms, the potential for sexual selection was much higher for males than for females. Size was unrelated to variance in male reproductive fitness. Only opportunity for selection and Morisitaâ€™s index conformed to theoretical expectations of the relationship between operational sex ratio and the potential for sexual selection among males. Because opportunity for selection has intuitive links to formal sexual selection theory, I recommend its continued use. In the fourth chapter, I compared polyandrous and monandrous females to explore the potential fitness consequences of multimale mating. No fitness measure at the egg or hatchling stage (clutch size, hatching success, hatchling size, etc.) differed between the two types of clutches. Size of metamorphs was not different, but polyandrous clutches had significantly higher survival to metamorphosis. In the fifth chapter, I analyzed effects of increased polyandry and male availability on genetic diversity, effective population size (Ne), and fitness of experimental populations. Although no analyses were significant, some effects were moderate to high in size. Ne was higher when estimated from hatchlings than with metamorphs. Polyandry Sexual selection Opportunity for selection Microsatellites Effective population size Analyzing half-sib progeny arrays Marbled salamanders
23	Estrutura populacional e tendência genética de características de crescimento e adaptação de bovinos da raça Nelore, linhagem Lemgruber / Population structure and genetic trends of growth and adaptability traits in Nellore cattle, Lemgruber line Oliveira, Priscila Silva 21 December 2009 (has links) O presente estudo teve como objetivo avaliar a estrutura populacional, estimar parâmetros (coeficientes de herdabilidade e correlações) e determinar as tendências genéticas e fenotípicas de características de crescimento e adaptação em bovinos da raça Nelore, linhagem Lemgruber. O banco de dados utilizado nas análises constituiu-se de 39.290 animais no arquivo de pedigree e de 24.353 animais no arquivo de produção. Os parâmetros populacionais foram obtidos por meio dos softwares POPREP (GROENEVELD et al., 2009) e ENDOG v 3.2 (GUTIÉRREZ e GOYACHE, 2005). As estatísticas descritivas e os parâmetros genéticos para cada característica estudada foram estimadas por meio de quatro análises hepta-característica utilizando o programa VCE-6 (KOVAC & GROENEVELD, 2003) sob modelo animal completo. As tendências genéticas e fenotípicas foram obtidas pela regressão dos valores genéticos e fenotípicos respectivamente sobre o ano de nascimento dos animais e os coeficientes da regressão foram estimados por meio do método de quadrados mínimos. Apesar da endogamia média do rebanho ser considerada moderada verificou-se alta porcentagem de indivíduos endogâmicos e reduzido tamanho efetivo populacional. Além disso, o incremento contínuo de endogamia ao longo dos anos demonstra a necessidade de intervenção na seleção dos indivíduos para reprodução, de modo que, problemas futuros possam ser evitados. Os coeficientes de herdabilidade direta foram estimados em 0,24, 0,31, 0,31, 0,21, 0,19, 0,30, 0,41, 0,19 e 0,17 respectivamente para peso ao nascimento (PN), peso aos 120 dias de idade (P120), peso à desmama (PD), peso ao ano (PES12), ganho de peso pós desmama, de 205 aos 550 dias (GP345), ganho de peso na prova à pasto da ABCZ, em 224 dias (GP224), perímetro escrotal (PE), temperamento (TEMP), e repelência (REP) e indicam que a variabilidade genética aditiva existente é suficiente para a obtenção do ganho genético em resposta à seleção desde que sejam realizados ajustes, tanto nas estratégias de seleção adotadas para a obtenção de maiores ganhos nos valores genéticos, como também nos fatores ambientais que possam possibilitar ao máximo, a expressão do potencial genético dos animais. / The present study had as objective to evaluate the population structure, to estimate parameters (coefficients of heritability and correlation) and to determine the phenotypic and genetic trends for growth and adaptability traits in Nellore cattle, Lemgruber line. The database used in the analysis consisted of 39,290 animals in the pedigree and 24,353 animals in the production file. The population parameters were obtained from the software POPREP (Groeneveld et al., 2009) and ENDOG v 3.2 (Gutierrez and GOYACHE, 2005). The descriptive statistics and genetic parameters for each characteristic studied were estimated by four seven-traits analysis using the program VCE-6 (Kovac & GROENEVELD, 2003) which uses the animal model. The phenotypic and genetic trends were obtained by means of phenotypic and genetic values respectively on the year of birth of the animals and the regression coefficients were estimated by the method of least squares. Although the average inbreeding of the herd being considered moderate, there was high percentage of inbred individuals and small effective population size. Furthermore, the continuous increase in inbreeding over the years demonstrates the need for intervention in the selection of individuals for reproduction, so that future problems can be avoided. Direct heritability coefficients were estimated as 0.24, 0.31, 0.31, 0.21, 0.19, 0.30, 0.41, 0.19 and 0.17 respectively for birth weight (PN), weight 120 days of age (P120), weaning weight (PD), weight at 12 months of age (PES12), weight gain after weaning from 205 to 550 days (GP345), weight gain during the pasture test of ABCZ in 224 days (GP224), scrotal circumference (PE), docility (TEMP) and repellency (REP) and indicate that the additive genetic variability is sufficient to obtain genetic gain in response to selection as far as adjustments in selection strategies are adopted to achieve larger gains in breeding values, and environmental factors that may allow the expression of the genetic potential of the animals. Docility Effective population size Endogamia Genetic parameters Growth traits Inbreeding Parâmetros genéticos Repelência Repellence to ectoparasites Tamanho efetivo populacional Temperamento
24	Minimum Ecologically Viable Populations : Risk assessment from a multispecies perspective Säterberg, Torbjörn January 2009 (has links) <p> </p><p> </p><p> </p><p>The extinction risk of threatened species has traditionally been assessed by the use of tools of Population Viability Analysis (PVA). Species interactions, however, have seldom been accounted for in PVA:s. The omission of species interactions in risk assessments may further lead to serious mistakes when setting target sizes of populations. Even a slight abundance decrease of a target species may result in changes of the community structure; in the worst case leading to a highly impoverished community. Of critical importance to conservation is therefore the question of how many individuals of a certain population that is needed in order to avoid this kind of consequences. In the current study, a stochastic multispecies model is used to estimate minimum ecological viable populations (MEVP); earlier defined as “the minimum size of a population that can survive before itself or some other species in the community becomes extinct”. The MEVP:s are compared to population sizes given by a single species model where interactions with other species are treated as a constant source incorporated in the species specific growth rate. MEVP:s are found to be larger than the population sizes given by the single species model. The results are trophic level dependent and multispecies approaches are suggested to be of major importance when setting target levels for species at the basal level. Species at higher trophic levels, however, are altogether more prone to extinction than species at the basal level, irrespective of food web size and food web complexity.</p><p> </p> Ecological effective population size extinction minimum viable population multispecies modeling population viability analysis Other biology Övrig biologi
25	Mutation and Diversity in Avian Sex Chromosomes Sundström, Hannah January 2003 (has links) <p>Sex chromosomes are useful for the study of how factors such as mutation, selection, recombination and effective population size affect diversity and divergence.</p><p>A comparison of gametologous introns in seven different bird species revealed a complete lack of diversity on the female-specific W chromosome. In contrast, Z had at least one segregating site in all examined species. This can be explained by the lower mutation rate and lower effective population size of W but also suggests that selection affects diversity levels on the non-recombining W chromosome.</p><p>In a diverse set of chicken breeds, the Z chromosome showed reduced diversity compared to autosomes and significant heterogeneity in levels of variation. High variance in male reproductive success, leading to a reduced Z chromosome effective population size, can partly explain this observation. In addition, we suggest that selective sweeps frequently act on the Z chromosome and are responsible for a significant part of the observed Z reduction. </p><p>Differences in the mutation rate of Z and W chromosome sequences indicate that the time spent in male germ line is important for the mutation rate, but does not exclude a specifically reduced mutation rate on the Z chromosome. Estimates of mutation rate in autosomal, Z- and W-linked chicken and turkey sequences indicate a slight reduction in the rate on Z. However, due to rate heterogeneity among introns this reduction is not significant and we cannot exclude male biased mutation as the single cause of rate variation between the chromosomal classes.</p><p>Analysis of indel mutation rates in avian and mammalian gametologous introns show frequent occurrence of indels on both W and Y, excluding meiotic recombination as the only source of this type of mutation. The different indel rate patterns in birds (Z>W) and mammals (X=Y) suggest that indels are caused by both replication and recombination.</p> Genetics mutation rate diversity sex chromosomes indels male bias selective sweep effective population size birds Genetik Clinical genetics Klinisk genetik
26	Mutation and Diversity in Avian Sex Chromosomes Sundström, Hannah January 2003 (has links) Sex chromosomes are useful for the study of how factors such as mutation, selection, recombination and effective population size affect diversity and divergence. A comparison of gametologous introns in seven different bird species revealed a complete lack of diversity on the female-specific W chromosome. In contrast, Z had at least one segregating site in all examined species. This can be explained by the lower mutation rate and lower effective population size of W but also suggests that selection affects diversity levels on the non-recombining W chromosome. In a diverse set of chicken breeds, the Z chromosome showed reduced diversity compared to autosomes and significant heterogeneity in levels of variation. High variance in male reproductive success, leading to a reduced Z chromosome effective population size, can partly explain this observation. In addition, we suggest that selective sweeps frequently act on the Z chromosome and are responsible for a significant part of the observed Z reduction. Differences in the mutation rate of Z and W chromosome sequences indicate that the time spent in male germ line is important for the mutation rate, but does not exclude a specifically reduced mutation rate on the Z chromosome. Estimates of mutation rate in autosomal, Z- and W-linked chicken and turkey sequences indicate a slight reduction in the rate on Z. However, due to rate heterogeneity among introns this reduction is not significant and we cannot exclude male biased mutation as the single cause of rate variation between the chromosomal classes. Analysis of indel mutation rates in avian and mammalian gametologous introns show frequent occurrence of indels on both W and Y, excluding meiotic recombination as the only source of this type of mutation. The different indel rate patterns in birds (Z>W) and mammals (X=Y) suggest that indels are caused by both replication and recombination. Genetics mutation rate diversity sex chromosomes indels male bias selective sweep effective population size birds Genetik Clinical genetics Klinisk genetik
27	Effects of Agriculture on Abundance, Genetic Diversity and Fitness in the Common Frog, Rana temporaria Johansson, Markus January 2004 (has links) The aims of this thesis were to evaluate the effects of agriculture on amphibians in terms of (i) population genetic consequences of agriculture-induced spatial changes of the landscape and (ii) local adaptation and tolerance to frequently used agrochemicals. The study was performed using the common frog Rana temporaria as a model. Abundance, occurrence, genetic diversity and gene flow were negatively affected by agriculture in southern Sweden, but unaffected or even positively affected by agriculture in the central and northern regions, respectively. These test parameters correlated positively with landscape diversity both in the south and in the north. Moreover, the size and occurrence of R. temporaria populations decreased towards the north i.e. the margin of the species’ distribution range. In accordance with theoretical expectations, genetic variability decreased and population substructuring increased as a negative function of (effective) population size. Southern Swedish common frogs are naturally exposed to higher levels of nitrates, and thus have a higher tolerance to high nitrate levels than their northern conspecifics. This suggests local adaptation to naturally varying nitrate levels. Consequently, increased anthropogenic supplementation of nitrate could impact more the northern than the southern Swedish common frog populations. Exposure to the pesticides azoxystrobin, cyanazine and permethrin at ecologically relevant concentrations had small or no effects on R. temporaria tadpoles. The populations with lowest microsatellite variation (fragmented populations) in southern Sweden had considerably lower fitness in terms of survival and growth as compared to those with the highest genetic variability (non-fragmented populations). The results indicate that populations with low levels of neutral genetic variability were phenotypically less differentiated than populations with higher levels of variability. One possible explanation for this is that the degree of population differentiation in low variability populations has been constrained due to lack of suitable genetic variation or inefficiency of selection relative to genetic drift. Biology agriculture agrochemicals amphibians effective population size genetic diversity genetic structure hierarchical sampling microsatellites Rana temporaria Biologi Biology Biologi
28	Minimum Ecologically Viable Populations : Risk assessment from a multispecies perspective Säterberg, Torbjörn January 2009 (has links) The extinction risk of threatened species has traditionally been assessed by the use of tools of Population Viability Analysis (PVA). Species interactions, however, have seldom been accounted for in PVA:s. The omission of species interactions in risk assessments may further lead to serious mistakes when setting target sizes of populations. Even a slight abundance decrease of a target species may result in changes of the community structure; in the worst case leading to a highly impoverished community. Of critical importance to conservation is therefore the question of how many individuals of a certain population that is needed in order to avoid this kind of consequences. In the current study, a stochastic multispecies model is used to estimate minimum ecological viable populations (MEVP); earlier defined as “the minimum size of a population that can survive before itself or some other species in the community becomes extinct”. The MEVP:s are compared to population sizes given by a single species model where interactions with other species are treated as a constant source incorporated in the species specific growth rate. MEVP:s are found to be larger than the population sizes given by the single species model. The results are trophic level dependent and multispecies approaches are suggested to be of major importance when setting target levels for species at the basal level. Species at higher trophic levels, however, are altogether more prone to extinction than species at the basal level, irrespective of food web size and food web complexity. Ecological effective population size extinction minimum viable population multispecies modeling population viability analysis Other biology Övrig biologi
29	Variação genética, herdabilidades e ganhos na seleção para caracteres de crescimento e forma, em teste de progênies de polinização aberta de Eucalyptus cloeziana, aos 24 anos de idade em Luiz Antônio-SP / Berti, Christian Luis Ferreira. January 2010 (has links) Resumo: O objetivo deste estudo foi estimar parâmetros genéticos para caracteres de crescimento e forma em um teste de progênies de Eucalyptus cloeziana, com 24 anos de idade, estabelecido em Luiz Antônio, SP. O teste foi instalado com sementes de polinização aberta provenientes de 35 árvores matrizes oriundas de Helenvale e Cardwell St. Forest, Austrália. O delineamento experimental utilizado foi o de blocos ao acaso, com parcela composta por apenas uma planta, com 100 repetições. O ensaio foi mensurado aos 24 anos de idade para diâmetro a altura do peito (DAP), altura total, volume e forma. Foram detectadas diferenças significativas entre progênies para todos os caracteres avaliados. Foram detectados altos coeficientes de variação genética e herdabilidade para todos os caracteres estudados, o que demonstra um forte controle genético na herança destes e a possibilidade de se obter altos ganhos com a seleção massal e individual entre e dentro de progênies. Os ganhos esperados para plantios com 24 anos de idade, realizados em locais com as mesmas características ambientais de Luiz Antônio e com sementes coletadas após a seleção no teste de progênies, foram estimados em 42,91% para DAP e 16,82% para altura / Abstract: The aim of this study was to estimate genetic parameter for growth and stem shape traits in a progeny test of Eucalyptus cloeziana, at 24 years old, established in Luiz Antônio, SP. The trial was established with open-pollinated seeds from 35 mother trees from provenances Helenvale and Cardwell St. Forest, Australia. The trial was established in a random block design, with single tree plots and 100 replications. The trial was measured at 24 years old of age for diameter at breast height (DBH), total height, volume and stem shape. All studied traits presented significant differences among progenies. All studied traits presented also high coefficient of variation and heritability, showing a strong genetic control in this traits and the possibility to obtain genetic gains by massal and among and within progenies selection. The expected genetic gains for stands with 24 years old, growing in sites with the same environmental characteristics of Luiz Antônio and with seeds collected after selection in the progeny test were estimated in 42.91% for DAP and 16.82% for height / Orientador: Miguel Luiz Menezes Freitas / Coorientador: Mario Luiz Teixeira de Moraes / Banca: Walter Veriano Valério Filho / Banca: Rinaldo César de Paula / Mestre Variabilidade genética. Tree breeding. eng Genetic variability. eng Genetic parameters. eng Coancestry. eng Effective population size. eng
30	Variação genética, herdabilidades e ganhos na seleção para caracteres de crescimento e forma, em teste de progênies de polinização aberta de Eucalyptus cloeziana, aos 24 anos de idade em Luiz Antônio-SP Berti, Christian Luis Ferreira [UNESP] 26 March 2010 (has links) (PDF) Made available in DSpace on 2014-06-11T19:29:42Z (GMT). No. of bitstreams: 0 Previous issue date: 2010-03-26Bitstream added on 2014-06-13T21:00:02Z : No. of bitstreams: 1 berti_clf_me_ilha.pdf: 1147349 bytes, checksum: 79588686dea2715fc03a56db3c25b881 (MD5) / Universidade Estadual Paulista (UNESP) / O objetivo deste estudo foi estimar parâmetros genéticos para caracteres de crescimento e forma em um teste de progênies de Eucalyptus cloeziana, com 24 anos de idade, estabelecido em Luiz Antônio, SP. O teste foi instalado com sementes de polinização aberta provenientes de 35 árvores matrizes oriundas de Helenvale e Cardwell St. Forest, Austrália. O delineamento experimental utilizado foi o de blocos ao acaso, com parcela composta por apenas uma planta, com 100 repetições. O ensaio foi mensurado aos 24 anos de idade para diâmetro a altura do peito (DAP), altura total, volume e forma. Foram detectadas diferenças significativas entre progênies para todos os caracteres avaliados. Foram detectados altos coeficientes de variação genética e herdabilidade para todos os caracteres estudados, o que demonstra um forte controle genético na herança destes e a possibilidade de se obter altos ganhos com a seleção massal e individual entre e dentro de progênies. Os ganhos esperados para plantios com 24 anos de idade, realizados em locais com as mesmas características ambientais de Luiz Antônio e com sementes coletadas após a seleção no teste de progênies, foram estimados em 42,91% para DAP e 16,82% para altura / The aim of this study was to estimate genetic parameter for growth and stem shape traits in a progeny test of Eucalyptus cloeziana, at 24 years old, established in Luiz Antônio, SP. The trial was established with open-pollinated seeds from 35 mother trees from provenances Helenvale and Cardwell St. Forest, Australia. The trial was established in a random block design, with single tree plots and 100 replications. The trial was measured at 24 years old of age for diameter at breast height (DBH), total height, volume and stem shape. All studied traits presented significant differences among progenies. All studied traits presented also high coefficient of variation and heritability, showing a strong genetic control in this traits and the possibility to obtain genetic gains by massal and among and within progenies selection. The expected genetic gains for stands with 24 years old, growing in sites with the same environmental characteristics of Luiz Antônio and with seeds collected after selection in the progeny test were estimated in 42.91% for DAP and 16.82% for height Variabilidade genética Parâmetros genéticos Coancestria Tamanho efetivo Tree breeding Genetic variability Genetic parameters Coancestry Effective population size

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