Geographic and temporal variation in the genetic mating systems of pipefish

Mobley, Kenyon Brice

02 June 2009

Understanding the processes that govern mating behaviors is a fundamental goal of evolutionary biology and behavioral ecology. Population-level patterns of mate acquisition and offspring production, otherwise known as the genetic mating system, play a central role in the sexual selection on morphological and behavioral traits and may facilitate speciation. The central hypothesis of this research is that variation in environmental conditions, such as temperature, turbidity, and habitat, and demographic influences such as population density, sex ratios and temporal availability of mates, may limit mating and reproductive success in a predictive manner. Therefore the goal of this dissertation is to examine the contributions of geographic and temporal variation on the plasticity of the genetic mating system in two species of pipefish. The first study examined whether meaningful variation in the genetic mating system exists between two natural populations of the dusky pipefish, Syngnathus floridae. Results of this investigation provide evidence that the genetic mating system differs among different geographic locations. The second study considered the relative contributions of environmental conditions and population demographics on differences in the genetic mating system of dusky pipefish from five natural populations. The results of this investigation show strong trends for demographic and environmental factors to strongly influence the genetic mating system between populations. The third study considered how variation in the number of available mates predicts the outcome of sexual selection during the course of a breeding season in the broad-nosed pipefish, Sygnathus typhle. The results of this study indicate a strong influence of the operational sex ratio on the genetic mating system. In addition to these studies, a study was conducted to investigate whether phylogeographic relationships may be responsible for geographic variation in the genetic mating system of the dusky pipefish of pipefish. Mitochondrial DNA analysis does not substantiate subspecies designations for this species and microsatellite analysis show a clear pattern of isolation by distance. Taken together, these studies significantly enhance the understanding of how mating systems are organized over broad environmental gradients and temporal/spatial scales and to the evolution of sexual selection on the whole.

Mating Systems

Sexual Selection

Pipefish

Syngnathidae

operational sex ratio

geographic variation

temporal variation

Reproductive Ecology of Bird-pollinated Babiana (Iridaceae): Floral Variation, Mating Patterns and Genetic Diversity

De Waal, Caroli

31 December 2010

Flowering plants possess striking variation in reproductive traits and mating patterns, even among closely related species. In this thesis, I investigate morphological variation, mating and genetic diversity of five taxa of bird-pollinated Babiana (Iridaceae), including two species with specialized bird perches. Field observations in 12 populations demonstrated that sunbirds were the primary pollinators. Babiana ringens exhibited correlated geographic variation in flower and perch size. Controlled field pollinations revealed self-compatibility and low pollen limitation in B. ringens subspecies, and self-incompatibility and chronic pollen limitation in B. hirsuta. Allozyme markers demonstrated moderate to high selfing rates among populations and considerable variation in levels of genetic diversity. In B. ringens there was a positive relation between the geographic and genetic distance of populations. The results of a manipulative field experiment indicated position-dependent herbivory on inflorescences of B. hirsuta and this could play a role in the evolution of specialized bird perches in Babiana.

Reproductive ecology

Floral variation

Bird pollination

Mating systems

Cape flora

Babiana (Iridaceae)

0329

0309

0369

Reproductive Ecology of Bird-pollinated Babiana (Iridaceae): Floral Variation, Mating Patterns and Genetic Diversity

De Waal, Caroli

31 December 2010

Flowering plants possess striking variation in reproductive traits and mating patterns, even among closely related species. In this thesis, I investigate morphological variation, mating and genetic diversity of five taxa of bird-pollinated Babiana (Iridaceae), including two species with specialized bird perches. Field observations in 12 populations demonstrated that sunbirds were the primary pollinators. Babiana ringens exhibited correlated geographic variation in flower and perch size. Controlled field pollinations revealed self-compatibility and low pollen limitation in B. ringens subspecies, and self-incompatibility and chronic pollen limitation in B. hirsuta. Allozyme markers demonstrated moderate to high selfing rates among populations and considerable variation in levels of genetic diversity. In B. ringens there was a positive relation between the geographic and genetic distance of populations. The results of a manipulative field experiment indicated position-dependent herbivory on inflorescences of B. hirsuta and this could play a role in the evolution of specialized bird perches in Babiana.

Reproductive ecology

Floral variation

Bird pollination

Mating systems

Cape flora

Babiana (Iridaceae)

0329

0309

0369

Geographic and temporal variation in the genetic mating systems of pipefish

Mobley, Kenyon Brice

02 June 2009

Understanding the processes that govern mating behaviors is a fundamental goal of evolutionary biology and behavioral ecology. Population-level patterns of mate acquisition and offspring production, otherwise known as the genetic mating system, play a central role in the sexual selection on morphological and behavioral traits and may facilitate speciation. The central hypothesis of this research is that variation in environmental conditions, such as temperature, turbidity, and habitat, and demographic influences such as population density, sex ratios and temporal availability of mates, may limit mating and reproductive success in a predictive manner. Therefore the goal of this dissertation is to examine the contributions of geographic and temporal variation on the plasticity of the genetic mating system in two species of pipefish. The first study examined whether meaningful variation in the genetic mating system exists between two natural populations of the dusky pipefish, Syngnathus floridae. Results of this investigation provide evidence that the genetic mating system differs among different geographic locations. The second study considered the relative contributions of environmental conditions and population demographics on differences in the genetic mating system of dusky pipefish from five natural populations. The results of this investigation show strong trends for demographic and environmental factors to strongly influence the genetic mating system between populations. The third study considered how variation in the number of available mates predicts the outcome of sexual selection during the course of a breeding season in the broad-nosed pipefish, Sygnathus typhle. The results of this study indicate a strong influence of the operational sex ratio on the genetic mating system. In addition to these studies, a study was conducted to investigate whether phylogeographic relationships may be responsible for geographic variation in the genetic mating system of the dusky pipefish of pipefish. Mitochondrial DNA analysis does not substantiate subspecies designations for this species and microsatellite analysis show a clear pattern of isolation by distance. Taken together, these studies significantly enhance the understanding of how mating systems are organized over broad environmental gradients and temporal/spatial scales and to the evolution of sexual selection on the whole.

Mating Systems

Sexual Selection

Pipefish

Syngnathidae

operational sex ratio

geographic variation

temporal variation

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.

Reproductive ecology and life history trade-offs in a dimorphic polygynous mammal, the New Zealand fur seal

Negro, Sandra Silvia

January 2008

Polygyny is the most common mating system in mammalian species (95%), yet our understanding of polygynous systems and microevolutionary processes is still limited. Pinniped mating systems range from extreme polygyny (e.g. elephant seals) to sequential female defence by males and hence have often been used as models for mating system studies. Parentage analysis has enabled the examination of mating success, the identification of pedigrees, and the elucidation of social organisation, greatly enhancing our understanding of mating systems (Chapter 1). However, such analyses are not without pitfalls, with erroneous assignments common in open systems (i.e. when parental and offspring samplings are incomplete). We investigated the effects of the user-defined parameters on the accuracy of parental assignment using two commonly used parental allocation programme, CERVUS and PASOS (Chapter 2). We showed that inaccurate user-defined parameters in CERVUS and PASOS can lead to highly biased output e.g. the assignment rate at 95% CL of offspring with a sampled known mother to sampled males decreased from 58% to 32% when the proportion of candidate males sampled in the parameter options decreasing 4-fold. We found that the use of both CERVUS and PASOS for parentage assignment can increase the likelihood of correctly allocating offspring to sampled parents to 97% in our study system. Incorrect parental assignment can bias estimates of various biological parameters, such as lifetime reproductive success and mate choice preference, and hence bias ecological and evolutionary interpretations. Here, we propose solutions to increase the power of parentage assignment and hence decrease the bias in biological parameter estimates. In addition, we analysed the effects of the intrinsic bias in likelihood assignment approaches towards assigning higher probability of parentage on individuals with rare alleles and those with heightened offspring-parent matches, which increase with the number of homozygous loci (Chapter 3). We showed that, as a consequence of the algorithms employed in the programmes CERVUS and PASOS, heterozygote males with rare genotypes are assigned higher rates of parentage than males with common alleles. Consequently, where two males could both be biological fathers of a given offspring, parentage assignment will more often go to the male with the rarer alleles (most often in heterozygous loci). Thus, the commonly used parentage assignment methods may systematically bias the results of parentage analyses towards supporting the notion that females prefer more genetically unusual, most often heterozygous, males. Such a bias may sway investigators towards incorrectly supporting the concept that females choose genetically more unusual males for heterozygosity fitness benefits that underpin the good genes hypothesis, when in fact no such relationship may exist. In polygynous mammals, successful males mate with multiple females by competing with and limiting the access of other males to females. When the status of many males (age, size, health, genetic etc.) prevents them from achieving the primary mating tactic, theory predicts selection for a diversification of male mating tactics. Recent studies in pinnipeds have shown that observed male mating success was correlated to male paternity success in some species (elephant-seals), but not in others (grey seals). The existence of alternative mating strategies can explain those discrepancies. Chapter 4 implemented the guidelines provided in Chapter 2 and 3 and focused on the polygynous New Zealand fur seal Arctocephalus forsteri, predicting that 1) competition for females is likely to cause a diversification of male mating tactics; and 2) that alternative tactics can yield reproductive success. Our results indicated three male behavioural profiles; one corresponded to large territorial males and two illustrated a continuum of alternative tactics employed by non-territorial subordinate males. Our study highlights that holding a territory is not a necessary condition for reproductive success in a population of otariids. The degree of sexual size dimorphism in polygynous species is expected to increase with the degree of intra-sexual competition and in turn with the degree of polygyny. The life history of an individual is the pattern of resource allocations to growth, maintenance, and reproduction throughout its lifetime. Both females and males incur viability costs of mating and reproduction. However, male viability costs due to increase growth and male-male competition can be greater than female viability costs of mate choice and reproduction. Although an abundant literature on sexual dimorphism in morphology, physiology, and parasite infections is available, little is known on the intra-sexual differences in physiology and parasite infections associated to the reproductive success of different mating strategies in mammalian species. Chapter 5 examined the reproductive costs between territorial and subordinate males New Zealand fur seal related to their relative reproductive success using a multidisciplinary approach (behaviour, genetics, endocrinology, parasitology). We found that dominant New Zealand fur seal males endure higher reproductive costs due to the direct and indirect effects of high testosterone levels and parasite burdens. Our study highlights that holding a territory confers a higher reproductive success, but induces higher costs of reproduction that may impair survival. Understanding microevolutionary processes associated to polygynous systems is fundamental in light of the ongoing anthropogenic alteration of the environment through climatic variations and habitat reduction which ultimately affect opportunity for sexual selection and shape the life history trade-offs.

Parentage

paternity

reproductive success

mating tactics

mating systems

polygyny

life history

pinniped

fur seal

The mating system and reproduction in the honey possum, Tarsipes rostratus: a life-history and genetical perspective

k.bryant@murdoch.edu.au, Kate Alexandra Bryant

January 2004

The honey possum Tarsipes rostratus, a marsupial endemic to South-Western Australia, feeds exclusively upon nectar and pollen. It is one of the smallest marsupials, with adult females (8-12g) significantly larger than adult males (6-9g). Honey possum males have the longest sperm (356µm) recorded for any mammaland the testes represent 4.2% body weight, amongst the largest recorded formammal species. These features suggest that sperm competition is an importantpart of the mating system. This study used a combination of field based studies,DNA analysis and histological examination of the female reproductive tract toinvestigate the life history, multiple paternity and reproduction of the honey possum innatural populations in the Fitzgerald River National Park (FRNP), on the south coastof Western Australia. This study drew upon earlier work on the honey possum in the FRNP in order to describe its life-history. The honey possum is short-lived (1-2 years), and attains sexual maturity whilst still growing. All four teats are occupied after birth, but the litter is reduced to 2 or 3 young during pouch life. The young have a relatively slow rate of growth. Breeding occurs continuously throughout the year, but is affected by the flowering phenologies of its foodplants. The greatest proportion of females with pouch-young occurs in winter; there are fewest pouch-young in autumn, a time of year when there is a dearth of flowers. Honey possums are essentially solitary animals, with no structured social unit, and male and female home ranges overlap. In captivity they are largely tolerant of one another, but larger females are behaviorally dominant to smaller females and to males. The densities and structure of the honey possum populations in the FRNP were analyzed from trapping data collected over 19 years. Population densities fluctuated significantly from season to season throughout the year, with changes in the flowering food resources available. There were also year-to-year differences in the intensity of those fluctuations, and these were significantly associated with rainfall in the previous year, and probably mediated through a lag effect in the flowering of the honey possum’s foodplants. The greatest densities of animals occurred over winter. In years following high rainfall, mean winter densities reached 88 individuals per hectare. The lowest densities occurred in spring, and in years following low rainfall mean spring densities fell to 8 individuals per hectare. Even at these lowest densities, there is still the potential for interaction between males and females. A succession from high to low, then back to high densities was seen during the three years of the present study (2000-2002) and this shadowed a similar succession of changes in rainfall. The proportion of females with pouch-young was significantly affected by the season, and by rainfall in the previous year. Years following low rainfall had a lower proportion of females in a condition to breed. The autumn dip in breeding that occurred in all years was exacerbated following dry years. Of those females that did breed in 2001, a time of low resources, there was no difference in the size of the litter compared to 2000 and 2002, times of higher resource availability. The sex-ratio of pouch young was at parity, but there was a slight bias towards males among both juveniles (56%) and adults (58%). This was probably due to the greater movements shown by males. Sex ratios were not affected by changes in rainfall and density. Male-biased dispersal was detected using genetic data and the movement patterns of males showed that they moved greater distances than females during their normal activity. Analysis of four microsatellite loci revealed extremely high levels of variation, with 28 to 50 alleles per locus and a mean expected heterozygosity of 0.95. These are amongst the highest seen in any microsatellite study of vertebrates. There was multiple paternity in 86% litters, using a minimum number of sires per litter method, and in 95% litters, using an estimated number of sires method based upon the relatedness of litter males. This indicates that multiple mating is frequent in female honey possums and is evidence for sperm competition. The estimated number of sires in a litter was often three or four. In 41% of cases, the number of sires was less than the number of young in the litter, indicating that some males were more successful at siring offspring than others. Nevertheless, no more than two offspring in a litter were known to have been sired by the same male. Despite marked fluctuations in density from high in 2000, to low in 2001, then high again in 2002, the level of multiple paternity remained equally high in all years. Embryonic diapause and female reproduction was investigated in the honey possum. All adult females examined, both with and without pouch-young, were either close to oestrus, had ovulated or were carrying conceptuses. The honey possum has a postpartum oestrus and it was evident that this occurs approximately 2-4 days after birth. Cleavage and formation of the unilaminar blastocyst appears to occur rapidly over approximately 5 days. Embryonic diapause proceeded in a two phase manner similar to other small possum species. The unilaminar blastocyst expanded rapidly at first; and then, from about 18-20 days after birth, the diameter of the blastocyst remained constant at approximately 1.2-1.8mm. No growth or development beyond the unilaminar stage was observed during pouch-life. The first signs of reactivation occurred during lactation, after pouch exit, and expansion of the blastocyst only occurred in one post-lactational female. The development of the corpus luteum appeared different to patterns described for other marsupials, but its formation coincided with the formation of the unilaminar blastocyst. The diameter of the corpus luteum remained constant throughout diapause. The histology of the reproductive tract was generally similar to other marsupials. There were no sperm storage crypts in the female reproductive tract. The length of pouch-life in the honey possum was 55-65 days, and the interval between litters of the same size varied between 65 and 100 days. Embryonic diapause may reduce the time between production of successive litters in the honey possum, but lifetime reproductive potential is reasonably low. Females had up to four litters over the period that they were captured. Thus, each litter represents a substantial proportion (25%) of a female’s lifetime reproductive output. Reproductive amortization occurred, with 61% loss overall, due to overproduction of ova, loss of conceptuses and reduction of the litter during lactation. The behavioural dominance of females suggests that multiple mating is an active strategy, and this presumably allows the genetic quality of their offspring to be maximized. Males that succeed in sperm competition may be of better intrinsic quality. Overproduction of conceptuses by females presents the opportunity for them to select those fertilized by intrinsically viable males or genetically compatible males. Sexually active males are present all year round. Females were not synchronous in their sexual receptivity, and this would lead to a skewed operational sex ratio, with more reproductive males than oestrous females. Since adult males are significantly smaller than adult females and possess no ornaments or armaments, it is unlikely that males overtly fight for access to females. Rather, males appear to monitor the reproductive status of females through smell, and probably compete in their ability to locate oestrous females. The risk and intensity of sperm competition is high, sexual selection for a large investment in spermatogenesis is evident and competition after copulation is probably an important factor in the mating system. It is likely that males, as well as females mate multiply, and the mating system is promiscuous.

mating systems

tarsipes rostratus

honey possum

microsatellite

sperm competition

reproduction

embryonic diapause

Genetics and evolution of the Mediterranean Abies species /

Parducci, Laura,

January 1900

Diss. (sammanfattning) Umeå : Sveriges lantbruksuniv. / Härtill 5 uppsatser.

Variabilidade genética entre e dentro de subpopulações de ipê-roxo Handroanthus Heptaphyllus (Vell.) Mattos e seu sistema reprodutivo

Mori, Neide Tomita [UNESP]

17 June 2010

Made available in DSpace on 2014-06-11T19:23:30Z (GMT). No. of bitstreams: 0 Previous issue date: 2010-06-17Bitstream added on 2014-06-13T19:50:20Z : No. of bitstreams: 1 mori_nt_me_botfca.pdf: 988090 bytes, checksum: 61ea693b25f67c44cb9358042b0c2f9c (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Handroanthus heptaphyllus (Vell.) Mattos, sinonímia Tabebuia heptaphylla ( Vell.) Toledo, popularmente conhecida por ipê-roxo, é uma espécie pertencente a família Bignoneaceae, muito apreciada pela sua beleza, madeira de excelente qualidade, além de algumas espécies dessa família possuírem substâncias as quais são usadas como produtos medicinais. A espécie é polinizada por abelhas, pássaros e outros visitantes que podem se alimentar das flores e dos frutos. Atualmente é utilizada em programas de reflorestamento de áreas degradadas, paisagismo e restauração. Ocorre em grande parte do Brasil, desde o Estado da Bahia até o Rio Grande do Sul, Minas Gerais, Mato Grosso do Sul, Santa Catarina e São Paulo, compreendendo as latitudes de 13ºS (BA) a 30ºS (RS). O trabalho teve como objetivos estudar a variabilidade genética entre e dentro das subpopulações de H. heptaphyllus, por meio de marcadores microssatélites e conhecer sobre o seu sistema reprodutivo. Para tanto, foram colhidas sementes de 30 árvores, na região de Botucatu, S.P., sendo grande parte na Fazenda Experimental Lageado pertencente a UNESP - Campus de Botucatu. As sementes foram semeadas no viveiro da UNESP e as folhas das mudas produzidas foram coletadas para a extração de DNA e posteriormente analisadas em géis de poliacrilamida. No total, foram estudados oito locos microssatélites polimórficos, que apresentaram desde seis alelos por loco (loco TAU22) a 14 alelos (locos TAU12, TAU30 e TAU31). A média de heterozigosidade esperada ( e H ˆ ) para as seis subpopulações foi de 0,732, sendo que a heterozigosidade observada ( o H ˆ ) foi de 0,618. Os índices médios de fixação variaram de -0,082 (subpopulação 4) a 0,255 (subpopulação 3), com média de 0,152. Os resultados das subpopulações estudadas mostraram os índices de fixação em níveis aceitáveis, com média de 15,2%, no entanto... / Handroanthus heptaphyllus (Vell.) Mattos, sinonímia Tabebuia heptaphylla (Velloso) Toledo, known as ipê-roxo, belongs to the Family Bignoniaceae. It is a very important Brazilian forest tree species because of its beautiful flowers, excellent wood quality, and medicinal properties. Its flowers are usually visited by animals, like bees, birds, bats, etc, for feeding and for pollination purposes. The species has also been used in programs of reforestation of degraded areas, landscaping, and restoration. The ipê-roxo is widespread throughout Brazil, from Bahia State to Rio Grande do Sul, Minas Gerais, Mato Grosso do Sul, Santa Catarina, and São Paulo States, from 13ºS (BA) to 30ºS (RS) latitudes. The research has as objectives to study the genetic diversity within and between subpopulations of H. heptaphyllus by microsatellite molecular markers and to understand its mating system. We collected seeds of 30 trees, through the Botucatu region, Brazil, mostly from the Lageado Experimental Station, São Paulo State University (UNESP) – Botucatu. The seeds were sown in a nursery and the leaves were collected, to extract the DNA, and analyzed through polyacrilamide gels. In a total of eight polymorphic microsatellite loci were analyzed that varied from six alleles (TAU22 locus) to 14 alleles (TAU12, TAU30, and TAU31 loci). The expected heterozygosity mean ( e H ˆ ) for the six subpopulations was 0.7318, the observed heterozygosity mean ( o H ˆ ) was 0.6183, and the average of fixation index (f) between pairs of the six population varied from -0,082 (subpopulation 4) to 0.255 (subpopulation 3), with an average of 0.152. The results of the studied subpopulations have shown acceptable levels of fixation index, presenting an average of 15.2%, therefore, the subpopulation 4 has shown a higher amount of heterozygous than expected. The total genetic diversity ( IT fˆ ) for the six subpopulations... (Complete abstract click electronic access below)

Marcadores moleculares

Plantas - Reprodução

Ipê-roxo

Microssatélites

Molecular markers

Microsatellite

Progenies

Mating systems

Genetic diversity

Ocorrência de poliandria na broca-do-café, Hypothenemus hampei (Coleoptera: Curculionidae: Scolytinae) / Polyandry occurence in the coffee berry Borer, Hypothenemus hampei (Coleoptera: Curculionidae: Scolytinae)

Camila Moreira Costa

29 January 2014

Estudos relacionados ao sistema de acasalamento nos insetos permite a compreensão dos aspectos evolutivos do comportamento reprodutivo de uma espécie. Esses sistemas são classificados, geralmente, pelo número de parceiros sexuais de um indivíduo durante um período de acasalamento. Em fêmeas, pode ocorrer monogamia, quando a cópula for realizada com somente um macho e, poliandria, quando há ocorrência de múltiplas cópulas com machos diferentes ou com o mesmo macho (cópulas repetidas). Em espécies como a broca-do-café, Hypothenemus hampei, que passam a maior parte de sua vida (ovo a adulto) no interior do fruto de café e possuem ciclo multivoltino os estudos envolvendo o sistema de acasalamento são escassos. Portanto, este trabalho visou estudar o acasalamento da broca-do-café, avaliando se há ocorrência de poliandria e os possíveis efeitos de múltiplas cópulas e cópulas repetidas sobre a bioecologia da fêmea e sua prole. Os resultados revelaram pela primeira vez a ocorrência de poliandria em H. hampei. Foi observado um maior número de recópulas em fêmeas colonizadoras, quando comparado com as fêmeas em oviposição, sugerindo que a condição fisiológica da fêmea foi um fator decisivo no momento da recópula. Além disso, a duração da recópula foi menor nas fêmeas em oviposição do que em fêmeas colonizadoras. A fecundidade foi afetada negativamente pela poliandria, sugerindo a presença de um custo associado a realização de múltiplas cópulas. A longevidade não foi influenciada pelo sistema de acasalamento, demonstrando que a poliandria não influenciou o tempo de vida das fêmeas. A recuperação larva:adulto em H. hampei não foi influenciada pelo sistema de acasalamento. Por outro lado, a taxa de eclosão de larvas foi superior na condição de poliandria, comparativamente à monogamia. / Researches about insects mating systems are important to understand the aspects of reproductive behavior evolution. Mating systems are usually grouped according to the number of mates during mating. Insect females mating system are classified as monogamy when there is only one copulation per male while polyandry refers to multiple mating with different males or with the same male (repeated mating). There is a lack of researches dealing with mating systems in species like the coffee berry borer, Hypothenemus hampei, which spend most of its life cycle (egg to adult) inside of the coffee berry and has a multivoltine cycle. This research aimed to study the mating system of H. hampei females, verifying the existence of polyandry and evaluating the effects of the multiple and repeated mating on the bioecology of the female and its offspring. The current study showed for the first time the occurrence of polyandry on females of H. hampei. The number of remating in colonizing females was higher than in the females under oviposition, thus the female physiological condition is crucial on remating behavior. The copula duration was shorter in females under oviposition than in the colonizing females. Fecundity was negatively affected by polyandry suggesting the existence of costs associated with multiple mating by females. Longevity were not influenced by the mating systems, showing that polyandry does not affect female lifetime. Although egg hatching was superior in polyandry compared to monogamy, the larva:adult recovery rate in H. hampei was not affected by the mating system.

Hypothenemus hampei

Café

Poliandria

Sistemas de acasalamento

Hypothenemus hampei

Coffee

Mating systems

Polyandry