Sex in Murky Waters : Anthropogenic Disturbance of Sexual Selection in Pipefish

Sundin, Josefin

January 2013

Animals experience variation in their environment because of natural changes. However, due to anthropogenic disturbance, the speed and severity of these changes have recently increased. This thesis investigates how reproductive behaviours may be affected by human induced environmental change. In specific, I investigate how visual and chemical changes in the aquatic environment, caused by eutrophication, affect mating systems and sexual selection in fish. Broad-nosed- and straight-nosed pipefish, which both have been studied in detail for a long period, were used as model organisms. These two species are particularly suitable model organisms since they perform complex courtship behaviours, including the advertisement of ornaments and a nuptial dance. Further, two distinct populations were studied, one on the Swedish west coast and one in the Baltic Sea, as these two locations vary in the degree and extent of environmental disturbance, in particular turbidity. I found that changes in the visual environment had no impact on the development of female sexual ornaments in these sex-role reversed pipefishes, but it hampered adaptive mate choice. Turbidity also had a negative effect on reproductive success in the Baltic Sea population. Changes in the chemical environment in the form of increased pH reduced the probability to mate, while hypoxia did not alter mating propensity. However, hypoxic water delayed the onset of both courting and mating. Hence, human induced change in aquatic environments may alter the processes of sexual selection and population dynamics.

Mating system

Mate choice

Courtship

Eutrophication

Turbidity

Hypoxia

Ocean acidification

Syngnathidae

Effects of Nectar Production and Pollinator Assemblies on Mating Patterns in Orchids

Zu, Pengjuan

January 2011

Pollinator visitation patterns should affect pollination success and mating patterns in flowering species. In the orchid family, about one third of the species do not provide any reward for their pollinators. Pollination by deceit is typically associated with low fruit set but may increase the chance of cross-pollination since the pollinator should soon leave the individual plant when there is no reward in the flowers. This may be beneficial if self-fertilisation results in inbreeding depression. I studied the mating patterns of one rewarding and one deceptive orchid in two closely related genera by tracking the fate of stained pollinia. I also conducted controlled crosses to estimate inbreeding depression. The results show that the deceptive orchid Dactylorhiza lapponica has lower pollination success, but higher cross-pollination rate (ca. 90%) than the nectariferous orchid Gymnadenia conopsea (ca. 18% cross-pollination). The results further suggest that in G. conopsea, nocturnal visitors mediate higher geitonogamous pollination rate (ca. 100%) than diurnal visitors (ca. 60%). In both study species, fruits produced from cross-pollination were heavier than fruits produced from selfing. Inbreeding depression for fruit mass did not differ significantly between the two species (δ = 0.21 in D. lapponica and δ = 0.29 in G. conopsea). These data support the hypothesis that pollination by deceit can enhance cross-pollination. A literature study including several rewarding and non-rewarding orchid species indicated lower geitonogamy in the deceptive orchids, but the difference was not statistically significant.

Inbreeding depression

mating system

nectar

nectarless

orchid

pollen staining

pollinator assembly

THE MOLECULAR EVOLUTION OF INNATE IMMUNITY GENES

Wlasiuk Battagliotti, Gabriela

January 2009

It is not clear whether genes of the innate immune system of vertebrates are subject to the same selective pressures as genes of the adaptive immune system, despite the fact that innate immunity genes lie directly at the interface between host and pathogens. The lack of consensus about the incidence, type, and strength of selection acting on vertebrate innate immunity genes motivated this study. The goal of this work was to elucidate the general principles of innate immune receptor evolution within and between species. A phylogenetic analysis of the Toll-like receptor 5 (TLR5) in primates showed an excess of nonsynonymous substitutions at certain codons, a pattern that is consistent with recurrent positive selection. The putative sites under selection often displayed radical substitutions, independent parallel changes, and were located in functionally important regions of the protein. In contrast with this interspecific pattern, population genetic analysis of this gene in humans and chimpanzees did not provide conclusive evidence of recent selection. The frequency and distribution of a TLR5 null mutation in human populations further suggested that TLR5 function might be partially redundant in the human immune system (Appendix A). Comparable analyses of the remaining nine human TLRs produced similar results and further pointed to a biologically meaningful difference in the pattern of molecular evolution between TLRs specialized in the recognition of viral nucleic acids and the other TLRs (Appendix B). The general picture that emerges from these studies challenges the conventional idea that pattern recognition receptors are subject to an extreme degree of functional constraint dictated by the recognition of molecules that are essential for microbial fitness. Instead, TLRs display patterns of substitution between species that reflect an old history of positive selection in primates. A common theme, however, is that only a restricted proportion of sites is under positive selection, indicating an equally important role for purifying selection as a conservative force in the evolution of this gene family. A comparative analysis of evolutionary rates at fifteen loci involved in innate, intrinsic and adaptive immunity, and mating systems revealed that more promiscuous species are on average under stronger selection at defense genes (Appendix C). Although the effect is weak, this suggests that sexual promiscuity plays some role in the evolution of immune loci by affecting the risk of contracting infectious diseases.

Innate immunity

mating system

Molecular evolution

primates

TLR

Toll-like receptors

Demography and Polyploidy in Capsella

St.Onge, Kate

January 2010

Studies of demography and population structure give insight into important evolutionary processes such as speciation and diversification. In the present work I perform such studies in the genus Capsella, which has three species: C. grandiflora, an outcrossing diploid, C. rubella a selfing diploid, and C. bursa-pastoris a selfing tetraploid. These three species make a good model system for evolutionary studies because they encompass two major plant evolutionary processes: mating system shifts and polyploidization. To conduct my studies I have gathered a large number of samples across the distributions of each species and scored them both phenotypically and genotypically: more specifically we measured flowering time and collected DNA sequence data. In the tetraploid C. bursa-pastoris we applied an association mapping approach which takes population structure into account to search for genetic variation associated with variation in flowering time. Flowering time is an important and highly adaptive trait which is frequently subject to natural selection. We found evidence of association between flowering time and several single nucleotide polymorphisms (SNPs) within the flowering locus C (FLC) and cryptochrome 1 (CRY1). In the case of FLC these SNPs code for nonconsensus splice site variation in one of the two copies of the gene. The SNPs could potentially have functional consequences and our results imply that non-functionalization of duplicate genes could be an important source of phenotypic variation. Using a novel coalescent based approach, we investigated the polyploid origin of C. bursa-pastoris and find evidence supporting a recent autopolyploid origin of this species. In the two diploid species, I use sequence data to investigate population structure and demographic history and to assess the effects of selfing on C. rubella. Observed patterns of population structure and genetic diversity in C. rubella can be explained by a combination of both demographic history and mating system. Observed patterns in C. grandiflora suggest that the investigated populations do not deviate strongly from the SNM, which has rarely been found in modern demographic studies. Finally, we investigate the effect of sampling strategy on demographic inference. Extensive sampling both within and across our populations allow us to empirically test the effect of sampling strategy on demographic inference. We complement the empirical analysis with simulations and conclude that the effect of sampling strategy is in many cases weak compared with that of demographic events. Nevertheless, these effects are real and have the potential to lead to false inference and therefore sampling strategy should be carefully considered in demographic studies. / Felaktigt tryckt som Digital Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science and Technology 725

Approximate Bayesian Computation

Mating system

Brassicaceae

flowering time

genetic diversity

Evolution

Biology

Biologi

Linking feeding and reproductive ecology in beluga (Delphinapterus leucas) and narwhal (Monodon monoceros)

Kelley, Tritsya

22 April 2014

Beluga whales (Delphinapterus leucas) and narwhals (Monodon monoceros) are arctic specialists. Both species show philopatry to their summer grounds, though the reason for this site tenacity is not well understood. Aside from migration routes, little is known about other aspects of monodontid ecology, such as their mating and feeding ecology. An understanding of the feeding ecology of a species may provide some insights into their mating ecology, and vice versa. The purpose of this thesis is to relative testes mass and dietary biomarkers to gain insights in the mating and feeding ecology of both species, as well as possible links between the two. Relative testes and brain masses and body masses of odontocetes were collected from the literature and analysed for correlations between sexual size dimorphism (SSD), relative brain mass, and relative testes mass. Results indicate that odontocete species follow a pattern of increasing SSD with decreasing testes mass. An examination of reproductive tracts from belugas and narwhal collected across the Canadian arctic was performed to examine differences in beluga and narwhal mating systems. Belugas were found to have larger relative testes masses, and narwhal testes masses were correlated with tusk length, indicating that sperm competition may play a larger role in the beluga mating system than for narwhal, and narwhal tusks may be honest indicators of male fitness. Investigations of narwhal and beluga feeding ecology using dietary biomarkers were conducted. In the summer, belugas appear to be congregating and feeding in the estuary plume during the summer, as opposed to along ice floe edges in the spring. Spring diets are representative of diets consumed during the beluga mating season, and no sexual segregation in carbon isotopes or fatty acids was apparent. There was no evidence for sexual segregation in feeding habits outside the mating season, either. Conversely, narwhal showed some evidence of sexual segregation outside the mating season, and the sexes may be feeding in different food webs. Results suggest that belugas may have a more promiscuous mating system, while narwhals are more polygynous. Implications for conservation for both species are discussed.

odontocete

mating system

diet

Arctic

testes

tusk

sexual segregation

stable isotopes

fatty acids

sperm competition

Life history evolution in a bivoltine butterfly

Larsdotter Mellström, Helena

January 2012

Evolution is not always straight-forward, as selection pressures may differ between different generations of the same species. This thesis focuses on the evolution of life history of the model species, the Green-veined White butterfly Pieris napi. In central Sweden P. napi has two generations per year. The directly developing summer generation is short-lived and time stressed, compared to the diapausing generation. In paper I polyandry, defined as female mating rate, was shown to differ between generations but was unaffected by environmental factors. In paper II both males and females of the direct developing generation were shown to eclose more immature than the diapausing generation, indicating larval time constraints. Consistent with this, diapausing males mated sooner than direct developers. Directly developing females, however, mated sooner after eclosion than diapausing females, even though they are more immature. This was shown to negatively affect fecundity, but can pay off when the season is short. Paper III shows that directly developing males have less sex pheromones at eclosion than diapausers, and the differences in sex pheromone production is consistent with developmental time constraints and the differences in mating system. In P. napi and other polyandrous butterflies, males transfer a large, nutritious ejaculate at mating. Large ejaculates confer advantages under sperm competition, but as they are costly, males should adjust ejaculate size to the risk of sperm competition. In paper IV we found that males transfer on average 20% larger spermatophores under high male competition than at low competition. The same effect could be observed if we added male sex pheromone to the air in a mating cage without male-male competition. Paper V shows that males of the two generations respond differently to an increase in male-male competition, with diapausing males transferring larger spermatophores than direct developers at high male competition risk. / <p>At the time of the doctoral defence the following paper was unpublished and had a status as follows: Paper 5: Submitted manuscript.</p>

Bivoltine

Diapause

Lepidoptera

Life history

Mating system

Pheromone

Polyphenism

Population density

Sexual selection

Sperm competition

Conservation genetics and reproduction in three Australian marsupial species

Miller, Emily Jane, Biological, Earth & Environmental Sciences, Faculty of Science, UNSW

January 2008

Many Australian marsupial species require active population management to ensure their survival in the wild. Such management should be based on a sound understanding of species biology. This thesis explores how knowledge of reproduction and genetics can be applied to the management of three Australian marsupial species faced with contrasting management scenarios. The ??vulnerable?? greater bilby is the sole remaining desert bandicoot in Australia. They are a secretive, solitary species whose mating system is unclear. This research examined temporal changes in genetic diversity within two captive breeding programs utilising different management strategies. Using seven microsatellite loci, this study found the regular translocation of new individuals into the population maintained genetic diversity. Parentage analysis revealed the bilby to have a promiscious mating system. Sires and non-sires could not be distinguished by morphological traits. The tammar wallaby is a polygynous, solitary species that is threatened on mainland Australia, but overabundant on some offshore islands. The population genetics of tammars from the Abrolhos Islands in Western Australia were examined using nine autosomal and four Y-linked microsatellite loci, and mitochondrial DNA. There was a relationship between island size, population size and genetic diversity. The Abrolhos populations have significantly lower genetic diversity and are more inbred than mainland tammars and all sampled populations were significantly differentiated. The Abrolhos and mainland populations should be treated as separate Management Units. The eastern grey kangaroo is a gregarious, polygynous species that is often locally overabundant. To determine traits influencing male reproductive success, behavioural, morphological, physiological and genetic data were examined and showed dominance status, body size and testosterone concentrations were important factors. Sires were also significantly more heterozygous and genetically dissimilar to females, than non-sires. As body condition influences individual fitness, and management decisions; five body condition indices (BCI) calculated from morphological data were validated using serum biochemistry and haematology in two kangaroo populations with contrasting body condition. Blood parameters were found to be more reliable indicators of condition, questioning the credibility of BCIs currently used in management. These studies demonstrate the importance of reproductive and genetic data in assisting wildlife management, regardless of a species conservation status.

mating system

conservation genetics

reproductive success

body condition

phylogenetics

wildlife management

Conservation genetics and reproduction in three Australian marsupial species

Miller, Emily Jane, Biological, Earth & Environmental Sciences, Faculty of Science, UNSW

January 2008

Many Australian marsupial species require active population management to ensure their survival in the wild. Such management should be based on a sound understanding of species biology. This thesis explores how knowledge of reproduction and genetics can be applied to the management of three Australian marsupial species faced with contrasting management scenarios. The ??vulnerable?? greater bilby is the sole remaining desert bandicoot in Australia. They are a secretive, solitary species whose mating system is unclear. This research examined temporal changes in genetic diversity within two captive breeding programs utilising different management strategies. Using seven microsatellite loci, this study found the regular translocation of new individuals into the population maintained genetic diversity. Parentage analysis revealed the bilby to have a promiscious mating system. Sires and non-sires could not be distinguished by morphological traits. The tammar wallaby is a polygynous, solitary species that is threatened on mainland Australia, but overabundant on some offshore islands. The population genetics of tammars from the Abrolhos Islands in Western Australia were examined using nine autosomal and four Y-linked microsatellite loci, and mitochondrial DNA. There was a relationship between island size, population size and genetic diversity. The Abrolhos populations have significantly lower genetic diversity and are more inbred than mainland tammars and all sampled populations were significantly differentiated. The Abrolhos and mainland populations should be treated as separate Management Units. The eastern grey kangaroo is a gregarious, polygynous species that is often locally overabundant. To determine traits influencing male reproductive success, behavioural, morphological, physiological and genetic data were examined and showed dominance status, body size and testosterone concentrations were important factors. Sires were also significantly more heterozygous and genetically dissimilar to females, than non-sires. As body condition influences individual fitness, and management decisions; five body condition indices (BCI) calculated from morphological data were validated using serum biochemistry and haematology in two kangaroo populations with contrasting body condition. Blood parameters were found to be more reliable indicators of condition, questioning the credibility of BCIs currently used in management. These studies demonstrate the importance of reproductive and genetic data in assisting wildlife management, regardless of a species conservation status.

mating system

conservation genetics

reproductive success

body condition

phylogenetics

wildlife management

Variabilidade genética e estimativa da taxa de cruzamento do pinhão manso (Jatropha curcas L.) empregando marcadores moleculares / Genetic variability and estimation of outcrossing rate of physic nut (Jatropha curcas L.) using molecular markers

Eduardo de Andrade Bressan

27 January 2012

O pinhão manso é uma pequena árvore tropical que adquiriu importância econômica pelo conteúdo de óleo em suas sementes e pela possibilidade de sua utilização para produção de biocombustível. As sementes e o óleo do pinhão manso são tóxicos devido principalmente à presença de ésteres de forbol, o que dificulta a sua utilização direta para o consumo humano e também dos resíduos para a alimentação animal. A falta de programas de melhoramento e cultivares comerciais e problemas com pragas e doenças estão desestimulando o cultivo do pinhão manso pelo mundo. Por se tratar de uma espécie semi-domesticada, a utilização de marcadores moleculares como ITS, PCR-RFLP, microssatélites e TRAP poderia auxiliar nos estudos de diversidade genética, visando o desenvolvimento de variedades adaptadas às necessidades dos agricultores. O objetivo deste estudo foi caracterizar a variabilidade genética de acessos de pinhão manso depositados no Banco de Germoplasma da Universidade Federal de São Carlos, além de possibilitar estudos sobre as relações entre as populações, centros de diversidade e determinar o sistema reprodutivo da espécie. Os resultados são discutidos destacando que a maior parte da diversidade encontra-se entre as populações estudadas. Os resultados derivados dos quatro marcadores utilizados corroboram que o centro de diversidade da espécie possivelmente está na América, com destaque para o México, Brasil e Colômbia. Os resultados apontam também para a diferenciação genética dos acessos atóxicos dos mexicanos quando comparados com os demais acessos tóxicos de pinhão manso. Os marcadores microssatélites desenvolvidos indicam que o pinhão manso apresenta um sistema misto de reprodução, combinando autofecundações, apomixia e cruzamento entre indivíduos aparentados, o que pode explicar a menor diversidade genética encontrada dentro das populações. Devido ao sistema misto de reprodução e aos acasalamentos correlacionados, a coleta de sementes de polinização aberta para fins de melhoramento ou conservação deve ser conduzida em um número de árvores acima de 100, visando garantir uma amostra estruturada / Physic nut (Jatropha curcas L.) is a tropical tree that has acquired economic importance for the content of oil in its seeds and the possibility of its use for biofuel production. However, oil seeds and physic nut are toxic because of the presence of secondary metabolites such as phorbol esters which makes its use directly for human consumption and also its waste for animal feed difficult. The lack of commercial varieties and problems with pests and diseases are making physic nut cultivation in the world unattractive. The use of molecular markers such as ITS, PCR-RFLP, microsatellites and TRAP can help in studies of genetic diversity, aimed at developing varieties adapted to farmers needs. The aim of this study was to characterize the genetic variability of physic nut accessions deposited in the Germplasm Bank of the \'Universidade Federal de São Carlos\', in addition to allowing studies on the relationship among accessions, centers of diversity and reproductive system. Results are discussed highlighting that most diversity is concentrated among populations. The four markers used indicated that the center of diversity of this species is probably in America with emphasis on Mexico, Brazil and Colombia. The microsatellite markers indicate that physic nut has a mixed system of reproduction, combining self-pollinations, apomixis and crossing between related individuals which may explain the small genetic diversity found within populations. Due to the mixed system of reproduction and correlated mating, the collection of open-pollinated seeds for plant breeding or conservation should be conducted in a number of trees above 100 in order to ensure a structured sample

Árvore tropical

Diversidade genética

Marcadores moleculares

Sistema reprodutivo

Genetic diversity

Mating system

Molecular markers

Tropical tree

Estudos genéticos em populações naturais da Macaúba em Reservas Legais de assentamentos rurais no Pontal do Paranapanema / Genetic studies in natural populations of macaw palm in Legal Reserves of rural settlements at Pontal do Paranapanema

Natália Helena Pesso Coelho

15 February 2017

A espécie Acrocomia aculeata (Jacq.) Lodd. ex Mart. é uma palmeira nativa, popularmente conhecida como macaúba, que possui ampla utilização desde a indústria alimentícia até na produção de biodiesel. Para estudos genéticos, foram coletados e extraído DNA de 50 indivíduos da espécie em três assentamentos no Pontal do Paranapanema-SP (FU, PJ e GB) e em Amparo-SP (AM) toatalizando 200 amostras. Os objetivos do trabalho foram caracterizar a diversidade genética, a estrutura genética espacial (EGE) e o sistema reprodutivo da espécie no Pontal do Paranapanema. A diversidade genética foi caracterizada pelos parâmetros: número de alelos por loco (&Acirc; ), heterozigosidades observada (&Hcirc;o) e esperada (&Hcirc;e) e índice de fixação (F^ ). As estatísticas F foram utilizadas como parâmetro de diferenciação genética entre ( F^ ST) e dentro das subpopulações ( F^IS). A EGE foi realizada pela estimativa do coeficiente de coancestria (&theta;^xy ) entre pares de árvores em relação a posição espacial destas. As populações de macaúba estudadas apresentaram níveis relativamente altos de polimorfismo, pois dos nove locos utilizados obteve-se um total de 103 alelos, sendo que 34 alelos são privados. O &Hcirc;o médio variou de 0,410 a 0,531; O &Hcirc;e médio variou de 0,547 a 0,615. O F apresentou valores positivos e significativos (0,119, 0,173 e 0,276) nas médias de PJ, GB e AM, respectivamente. As estatísticas F mostraram 16,8% de diferenciação entre as populações, ou seja, a maior parte da diversidade genética se encontra dentro das populações. Apenas para a população FU a EGE não foi significativa, na população PJ foi significativa na distância de 810 m (&theta;^xy =0,0211), porém foi considerado sem significado biológico. Nas outras o &theta;^xy foi significativo nas distâncias de 38 m (&theta;^xy = 0,0182 a &theta;^xy = 0,0418) e 71 (&theta;^xy =0,0213 a &theta;^xy =0,0934) para GB e AM, respectivamente, indicando que indivíduos dentro destas distâncias possuem algum grau de parentesco. Os parâmetros para estudar o sistema de reprodução foram calculados pelo MLTR e foram utilizadas 246 progênies (20 mães) da população FU, obtendo os parâmetros t^m =0,97, t^s =0,928, t^m - t^s=0,042, r^s =0,1 e r^p(m) =0,015. O número efetivo de doadores de pólen foi 66,66, a porcentagem de meio-irmãos, irmãos de autofecundação e cruzamento, irmãos completos e irmãos de autofecundação foram 92,7%, 5,8%, 1,4% e 0,09%, respectivamente. O tamanho efetivo foi 3,10, a coancestria foi &theta;^ =0,134 e o número de matrizes foi m^ =48,29. A macaúba é uma palmeira alógama, não houve correlação significativa de paternidade e o número de matrizes para coleta de sementes deve ser pelo menos 15 sementes de 49 árvores. / Acrocomia aculeata (Jacq.) Lodd. ex Mart. is a native palm, also known as Macaw, which has widespread utilization in the food industry as well as for biodiesel oil production. Samples were collected and DNA was extracted from 50 adult individuals in each of the three rural settlements at Pontal do Paranapanema (FU, PJ and GB) and at Amparo-SP (AM), totaling 200 samples. The study aimed to characterize the genetic diversity, spatial genetic structure (SGS) and the mating system in the Pontal do Parapanema. Genetic diversity was estimated by number of aleles per locus (&Acirc;), observed (&Hcirc;o) and expected heterozygozity (&Hcirc;e), fixation index (F^). The F^ statistics were used as genetic differentiation parameter among and within subpopulations. The SGS was studied by coancestry coeficiente (&theta;^xy ) between pair of trees. The studied populations showed relatively high levels of polymorphism using nine microsatellites loci with a total of 103 alleles, where 34 of these are private. The average of &Hcirc;o and &Hcirc;e ranged from 0.410 to 0.531 and 0.547 to 0.615, respectively. The fixation index (F^) presented positive and significant values in average for PJ (0.119), GB (0.173) and AM (0.276), respectively. The genetic differentiation ( F^ ST) was 16,8%, so most of the diversity is within populations. Only in the FU population the SGS was not significant, was significant up to 810 m (&theta;^xy=0.0211) for PJ with no ecological meaning. This parameter (&theta;^xy) was significant at up to 38 m (&theta;^xy = 0.0182 a &theta;^xy = 0.0418) and 71 m (&theta;^xy =0.0213 a &theta;^xy =0.0934) for GB and AM, respectively, indicating that individuals within these distances are related. The parameters to study the mating system were calculated using MLTR with 246 siblings of open pollination of 20 maternal families trees of the FU population, showing values of t^m=0,97, t^s =0,928, t^m - t^s=0,042, r^s =0,1 e r^p(m) =0,015. The number of effective pollen donors was 66,66, the percentage of the pairwise half sibs self-half-sibs, full sibs and sef sibs were 92,7%, 5,8%, 1,4% and 0,09%, respectively. The effective size was 3,10, the coancestry was &theta;^ =0,134 and the number of matrices m^ =48,29. The macaw palm is an outcrossing palm, there was no significant correlation of paternity and the collection of seeds should be in at least 15 seeds from more than 49 trees to keep a high genetic diversity.

Acrocomia aculeata

Diversidade genética

Estrutura genética espacial

Acrocomia aculeata

Genetic diversity

Mating system

Spatial genetic structure