Genetic studies for aquaculture and stock-enhancement of red drum (Sciaenops ocellatus)

Ma, Liang

17 September 2007

Hypervariable, nuclear-encoded microsatellites were used to (i) estimate genetic effective size (Ne) of red drum spawning over a two-week period in nine brood tanks at a TPWD hatchery; (ii) estimate heritability of early-larval growth and of growth rate and cold tolerance of juveniles; and (iii) test Mendelian segregation and independent assortment of 31 nuclear-encoded microsatellites. Assuming all tanks contributed equally to an offspring population, the maximum (expected) and observed Ne over the nine brood tanks was 43.2 and 27.0, respectively. The estimate of Ne based on observed variation in family size was 19.4. Simulations indicated that over a limited time period the simplest approach to maximizing Ne for a release population would be to utilize equal numbers of progeny from each brood tank. A family (genetic) effect was found to contribute significantly to the variance in early larval growth, juvenile growth rate, and cold tolerance. Estimates of narrow-sense heritability for these three traits were 0.07 +- 0.03, 0.52 +- 0.21 and 0.20 +- 0.10 (two growth intervals measured), and 0.30 +- 0.11, respectively, under the genetic models employed. The relatively low estimate of heritability for early larval growth suggests that genetic improvement for this trait likely would be slow. The heritability estimates for juvenile growth rate and cold tolerance, alternatively, suggest that genetic selection for these traits could be effective. Segregation at all 31 microsatellites fit Mendelian expectations for autosomal loci; a null allele was inferred at two of the microsatellites. Results from pairwise tests of independent assortment demonstrated that 20 of the 31 microsatellites could be placed into seven linkage groups. Additional linkage groups inferred from a prior study increased the number of inferred linkage groups in red drum to nine, with a range of two - five (avg. = 2.78) microsatellites in each linkage group. The remaining 11 microsatellites tested in this study assorted independently from all other microsatellites, suggesting the possibility of 11 additional linkage groups.

red drum

effective population size

heritabilitiy

growth rate

cold tolerance

genetic map

Genetic changes in natural populations caused by the release of cultured fishes [electronic resource] / by Michael Dominic Tringali.

Tringali, Michael D.

January 2003

Includes vita. / Title from PDF of title page. / Document formatted into pages; contains 241 pages. / Thesis (Ph.D.)--University of South Florida, 2003. / Includes bibliographical references. / Text (Electronic thesis) in PDF format. / ABSTRACT: Genetic changes likely occur in wild fish populations as a consequence of interactions with cultured fish, but to what extent do those changes threaten the maintenance of natural genetic diversity and population viability? Following a review and categorization of numerous processes suspected of being agents of post-release genetic change in recipient wild populations (Chapter 1), I focus on risks relating to the magnitude and duration of releases -- but with a twist. That is, I assume that the mean fitness of released, cultured individuals does not differ from that of the recipient natural population. Throughout, attention is devoted to potential post-release changes in inbreeding (NeI) and variance (NeV) effective population sizes -- indicators of expected rates of population-level change in inbreeding and drift variance, respectively. The reductive effect that large-scale releases exert on NeI in recipient populations can be significant. / ABSTRACT: The effect is shown to be a threshold process (Chapter 2) and thus suggestive of an approach for determining risk-adverse stocking (or release) rates. This approach is utilized in Chapter 3, which describes genetic recommendations for an incipient marine stocking program. Several discordant contemporary NeI models are examined mathematically and by computer simulation (Chapter 4). I show that certain published results pertaining to the effect of multiple paternity on NeI are erroneous; a general model is described which accounts for inbreeding and relatedness in and among parents. That model is utilized in an empirical study of gene correlation in a hatchery cohort (Chapter 5). Propagation-related causes of reductions in NeI are also investigated in this cohort. / ABSTRACT: Finally, extending mutational meltdown theory to accommodate fluctuating population sizes and recessive selective effects, I show that when large reductions in NeV occur (such as those that accompany admixtures of cultured and wild fish), the expected time to population inviability is significantly reduced (Chapter 6). Although a more comprehensive theoretical approach is needed, a precautionary inference may be drawn -- aquaculture-induced reductions in Ne, even though they may be transient, can lead to adverse genetic impacts. Avoidance of Ne-reductions cannot be accomplished, in a practical sense, without considering the stocking or release rates of cultured fish. / System requirements: World Wide Web browser and PDF reader. / Mode of access: World Wide Web.

inbreeding.

effective population size.

aquaculture.

mutational meltdown.

mating systems.

Population Genetic Methods and Applications to Human Genomes

Gattepaille, Lucie

January 2015

Population Genetics has led to countless numbers of fruitful studies of evolution, due to its abilities for prediction and description of the most important evolutionary processes such as mutation, genetic drift and selection. The field is still growing today, with new methods and models being developed to answer questions of evolutionary relevance and to lift the veil on the past of all life forms. In this thesis, I present a modest contribution to the growth of population genetics. I investigate different questions related to the dynamics of populations, with particular focus on studying human evolution. I derive an upper bound and a lower bound for FST, a classical measure of population differentiation, as functions of the homozygosity in each of the two studied populations, and apply the result to discuss observed differentiation levels between human populations. I introduce a new criterion, the Gain of Informativeness for Assignment, to help us decide whether two genetic markers should be combined into a haplotype marker and improve the assignment of individuals to a panel of reference populations. Applying the method on SNP data for French, German and Swiss individuals, I show how haplotypes can lead to better assignment results when they are supervised by GIA. I also derive the population size over time as a function of the densities of cumulative coalescent times, show the robustness of this result to the number of loci as well as the sample size, and together with a simple algorithm of gene-genealogy inference, apply the method on low recombining regions of the human genome for four worldwide populations. I recover previously observed population size shapes, as well as uncover an early divergence of the Yoruba population from the non-African populations, suggesting ancient population structure on the African continent prior to the Out-of-Africa event. Finally, I present a case study of human adaptation to an arsenic-rich environment.

Population genetics

Human evolution

Genetic diversity

Genetic differentiation

Adaptation

Population structure

Effective population size

Genetic Effects of Pearl Culture Practices and Recruitment of the Black-Lipped Pearl Oyster (Pinctada margaritifera) in French Polynesia

Yaroshewski, Vicky

14 December 2011

French Polynesia relies solely on the collection of wild Pinctada margaritifera spat for pearl oyster culture. This was developed to help protect the wild populations from overexploitation, but it is feared that massive spat collection could lead to erosion of genetic diversity both in farmed and wild stocks. Wild and farmed collections of P. margaritifera from four atolls in French Polynesia were genotyped at eight microsatellite loci to determine whether there was a loss of genetic diversity from the wild to adjacent farmed aggregations. The average allelic richness for wild samples was not significantly different from that seen for farmed samples, but there was a significant effect of atoll and locus. Pair-wise genetic differentiation (FST) was not significant between adjacent wild and farmed collections or across atolls. Overall there was no evidence for a loss of genetic variability in farmed oysters. Both farmed and wild individuals analyzed here were adults and could have originated from multiple spawning events in time and space. This could have masked genetic processes linked to recruitment happening at a finer scale. P. margaritifera demonstrates high recruitment variability, but the number of parents contributing to a successful cohort of juveniles recruited on collectors is unknown. Low effective number of breeders and variable recruitment are assumed to be responsible for the genetic patchiness that has been observed at a small spatial scale for this species and this could lead to a loss of genetic diversity in both the farmed and wild stocks. The genetic diversity and family make-up of three groups of 1.5 year old oysters were assessed using 13 microsatellite markers. These individuals were harvested on collectors in three closely located sites of the Takapoto atoll. Higher recruitment density and higher allelic richness was observed in one zone compared to the other two. Significant genetic differentiation was also observed at a small spatial scale. Pair-wise FST estimates between collectors within zone were not significant, but were generally significant across zones. Estimates of effective population size and number of families present for these individuals were larger than expected and suggested that the numbers of parents contributing to the recruits on these collector lines were not limited. Similar results were obtained when assessing monthly cohorts of recruits collected in Takapoto over 5 months with 11 microsatellites. Levels of allelic richness were not significantly different among monthly cohorts, and were comparable to the levels observed in the adult samples above. Small but significant temporal genetic differentiation was observed between the monthly cohorts. Again, there was no evidence for low effective population size or for significant family structuring and it did not appear that a limited number of parents produced these temporal cohorts. Patchy genetic structure was observed, but recruitment on collectors does not seem to be driven by a limited number of successful parents. It does not appear that the current pearl culture practices are negatively impacting the local farmed and wild stocks of P. margaritifera in French Polynesia by reducing their levels of genetic diversity.

Pinctada margaritifera

conservation genetics

recruitment

effective population size

number of breeders

French Polynesia

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

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.

Atlantic salmon

microsatellite

effective population size

genetics

parr

conservation

genetic monitoring

Evaluation de l'état des populations de raie bouclée / Assessment of the state of thornback ray populations

Marandel, Florianne

19 September 2018

Sous l'effet de la pêche, de nombreuses espèces de raies des eaux européennes ont décliné au cours du 20ème siècle. La conservation de ces espèces est un objectif majeur quant à la gestion des ressources marines. La raie bouclée (Raja clavata) est l'espèce de raie la plus répandue d'Atlantique Nord-Est. Sa gestion, basée sur un quota non spécifique, repose principalement sur les observations scientifiques et professionnelles et non sur des méthodes d'évaluations d'abondance. Les objectifs de cette thèse consistent ainsi à comparer les méthodes d'évaluations d'abondances disponibles pour cette espèce et à les appliquer aux données disponiblesDeux grands axes sont creusés : l'utilisation de méthodes basées sur la démographie de l'espèce et de méthodes basées sur la génétique. / During the 20th century, several skates and rays species in European waters declined because of fishing. Conservation of these species is a major objective of the management of marine resources. The thornback ray (Raja clavata) is the most widespread species of the North-Est Atlantic. Its management is based on a nonspecific quota and lay on observations only as no stock assessment is available.Thus this thesis aims to compare the available stock assessments methods for this species and to apply them to empiric data. Two types of methods are investigated: methods based on population demography and methods based on population genetics.

Modélisation

Génétique

Taille de population efficace

Connectivité

Conservation

Élasmobranches

Modelling

Genetics

Effective population size

Connectivity

Conservation

Elasmobranchs

Genetic Changes in Natural Populations Caused by the Release of Cultured Fishes

Tringali, Michael Dominic

03 November 2003

Genetic changes likely occur in wild fish populations as a consequence of interactions with cultured fish, but to what extent do those changes threaten the maintenance of natural genetic diversity and population viability? Following a review and categorization of numerous processes suspected of being agents of post-release genetic change in recipient wild populations (Chapter 1), I focus on risks relating to the magnitude and duration of releases -- but with a twist. That is, I assume that the mean fitness of released, cultured individuals does not differ from that of the recipient natural population. Throughout, attention is devoted to potential post-release changes in inbreeding (NeI) and variance (NeV) effective population sizes -- indicators of expected rates of population-level change in inbreeding and drift variance, respectively. The reductive effect that large-scale releases exert on NeI in recipient populations can be significant. The effect is shown to be a threshold process (Chapter 2) and thus suggestive of an approach for determining risk-adverse stocking (or release) rates. This approach is utilized in Chapter 3, which describes genetic recommendations for an incipient marine stocking program. Several discordant contemporary NeI models are examined mathematically and by computer simulation (Chapter 4). I show that certain published results pertaining to the effect of multiple paternity on NeI are erroneous; a general model is described which accounts for inbreeding and relatedness in and among parents. That model is utilized in an empirical study of gene correlation in a hatchery cohort (Chapter 5). Propagation-related causes of reductions in NeI are also investigated in this cohort. Finally, extending mutational meltdown theory to accommodate fluctuating population sizes and recessive selective effects, I show that when large reductions in NeV occur (such as those that accompany admixtures of cultured and wild fish), the expected time to population inviability is significantly reduced (Chapter 6). Although a more comprehensive theoretical approach is needed, a precautionary inference may be drawn -- aquaculture-induced reductions in Ne, even though they may be transient, can lead to adverse genetic impacts. Avoidance of Ne-reductions cannot be accomplished, in a practical sense, without considering the stocking or release rates of cultured fish.

aquaculture

effective population size

inbreeding

mating systems

mutational meltdown

American Studies

Arts and Humanities

From genes to species: Characterizing spatial and temporal variation in frog and toad multidimensional biodiversity

Moore, Chloe Ellen

15 May 2023

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

Salamander Mating Behaviors and Their Consequences for Individuals and Populations

Croshaw, Dean

22 May 2006

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 Morisita’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

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

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