Insects and incest: Sib‐mating tolerance in natural populations of a parasitoid wasp

Sib‐mating avoidance is a pervasive behaviour that is expected to evolve in species subject to inbreeding depression. Although laboratory studies provide elegant demonstrations, small‐scaled bioassays minimize the costs of mate finding and choice, and thus may produce spurious findings. We therefore...

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Published inMolecular ecology Vol. 29; no. 3; pp. 596 - 609
Main Authors Collet, Marie, Amat, Isabelle, Sauzet, Sandrine, Auguste, Alexandra, Fauvergue, Xavier, Mouton, Laurence, Desouhant, Emmanuel
Format Journal Article
LanguageEnglish
Published England Blackwell Publishing Ltd 01.02.2020
Wiley
Subjects
Agricultural sciences
Agronomy
Animal biology
Animals
Avoidance
Avoidance behavior
Bioassays
Biochemistry, Molecular Biology
Biodiversity
Biodiversity and Ecology
Biological Evolution
Breeding
Cognitive science
Cognitive Sciences
Discrimination
Dispersal
Dispersion
Eggs
Environmental Sciences
Female
Females
Genomics
Genotype
Genotypes
genotyping
Global Changes
Hymenoptera
Inbreeding
Inbreeding - methods
Inbreeding depression
inbreeding tolerance
Incest
Insecta - genetics
Insecta - physiology
Insects
Invertebrate Zoology
kin recognition
Laboratories
Life Sciences
Male
Mate selection
Mating
mating behavior
Mating Preference, Animal - physiology
microsatellite repeats
Microsatellite Repeats - genetics
Microsatellites
Natural populations
Neurons and Cognition
Neuroscience
parasitic wasp
parasitic wasps
Parasitoids
Populations
Populations and Evolution
probability
Reproduction - physiology
Reproductive Biology
Sexual Behavior, Animal - physiology
Sexual reproduction
sl‐CSD
Superparasitism
Venturia canescens
Vertebrate Zoology
Wasps - genetics
Wasps - physiology
microsatellites
kin recognition
sl-CSD
Hymenoptera
inbreeding tolerance
parasitic wasp
Online AccessGet full text

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Abstract Sib‐mating avoidance is a pervasive behaviour that is expected to evolve in species subject to inbreeding depression. Although laboratory studies provide elegant demonstrations, small‐scaled bioassays minimize the costs of mate finding and choice, and thus may produce spurious findings. We therefore combined laboratory experiments with field observations to examine the existence of inbreeding avoidance using the parasitoid wasp Venturia canescens. In the laboratory, our approach consisted of mate‐choice experiments to assess kin discrimination in population cages with competitive interactions. A higher mating probability after sib rejections suggested that females could discriminate their sibs; however, in contrast to previous findings, sib‐mating avoidance was not observed. To compare our laboratory results to field data, we captured 241 individuals from two populations. Females laid eggs in the lab, and 226 daughters were obtained. All individuals were genotyped at 18 microsatellite loci, which allowed inference of the genotype of each female's mate and subsequently the relatedness within each mating pair. We found that the observed rate of sib‐mating did not differ from the probability that sibs encountered one another at random in the field, which is consistent with an absence of sib‐mating avoidance. In addition, we detected a weak but significant male‐biased dispersal, which could reduce encounters between sibs. We also found weak fitness costs associated with sib‐mating. As such, the sex‐biased dispersal that we found is probably sufficient to mitigate these costs. These results imply that kin discrimination has probably evolved for purposes other than mate choice, such as superparasitism avoidance.
AbstractList Sib-mating avoidance is a pervasive behaviour that is expected to evolve in species subject to inbreeding depression. Although laboratory studies provide elegant demonstrations, small-scaled bioassays minimize the costs of mate finding and choice, and thus may produce spurious findings. We therefore combined laboratory experiments with field observations to examine the existence of inbreeding avoidance using the parasitoid wasp Venturia canescens. In the laboratory, our approach consisted of mate-choice experiments to assess kin discrimination in population cages with competitive interactions. A higher mating probability after sib rejections suggested that females could discriminate their sibs; however, in contrast to previous findings, sib-mating avoidance was not observed. To compare our laboratory results to field data, we captured 241 individuals from two populations. Females laid eggs in the lab, and 226 daughters were obtained. All individuals were genotyped at 18 microsatellite loci, which allowed inference of the genotype of each female's mate and subsequently the relatedness within each mating pair. We found that the observed rate of sib-mating did not differ from the probability that sibs encountered one another at random in the field, which is consistent with an absence of sib-mating avoidance. In addition, we detected a weak but significant male-biased dispersal, which could reduce encounters between sibs. We also found weak fitness costs associated with sib-mating. As such, the sex-biased dispersal that we found is probably sufficient to mitigate these costs. These results imply that kin discrimination has probably evolved for purposes other than mate choice, such as superparasitism avoidance.
Sib‐mating avoidance is a pervasive behaviour that is expected to evolve in species subject to inbreeding depression. Although laboratory studies provide elegant demonstrations, small‐scaled bioassays minimize the costs of mate finding and choice, and thus may produce spurious findings. We therefore combined laboratory experiments with field observations to examine the existence of inbreeding avoidance using the parasitoid wasp Venturia canescens . In the laboratory, our approach consisted of mate‐choice experiments to assess kin discrimination in population cages with competitive interactions. A higher mating probability after sib rejections suggested that females could discriminate their sibs; however, in contrast to previous findings, sib‐mating avoidance was not observed. To compare our laboratory results to field data, we captured 241 individuals from two populations. Females laid eggs in the lab, and 226 daughters were obtained. All individuals were genotyped at 18 microsatellite loci, which allowed inference of the genotype of each female's mate and subsequently the relatedness within each mating pair. We found that the observed rate of sib‐mating did not differ from the probability that sibs encountered one another at random in the field, which is consistent with an absence of sib‐mating avoidance. In addition, we detected a weak but significant male‐biased dispersal, which could reduce encounters between sibs. We also found weak fitness costs associated with sib‐mating. As such, the sex‐biased dispersal that we found is probably sufficient to mitigate these costs. These results imply that kin discrimination has probably evolved for purposes other than mate choice, such as superparasitism avoidance.
Sib-mating avoidance is a pervasive behaviour that is expected to evolve in species subject to inbreeding depression. Although laboratory studies provide elegant demonstrations, small-scaled bioassays minimize the costs of mate finding and choice, and thus may produce spurious findings. We therefore combined laboratory experiments with field observations to examine the existence of inbreeding avoidance using the parasitoid wasp Venturia canescens. In the laboratory, our approach consisted of mate-choice experiments to assess kin discrimination in population cages with competitive interactions. A higher mating probability after sib rejections suggested that females could discriminate their sibs; however, in contrast to previous findings, sib-mating avoidance was not observed. To compare our laboratory results to field data, we captured 241 individuals from two populations. Females laid eggs in the lab, and 226 daughters were obtained. All individuals were genotyped at 18 microsatellite loci, which allowed inference of the genotype of each female's mate and subsequently the relatedness within each mating pair. We found that the observed rate of sib-mating did not differ from the probability that sibs encountered one another at random in the field, which is consistent with an absence of sib-mating avoidance. In addition, we detected a weak but significant male-biased dispersal, which could reduce encounters between sibs. We also found weak fitness costs associated with sib-mating. As such, the sex-biased dispersal that we found is probably sufficient to mitigate these costs. These results imply that kin discrimination has probably evolved for purposes other than mate choice, such as superparasitism avoidance.Sib-mating avoidance is a pervasive behaviour that is expected to evolve in species subject to inbreeding depression. Although laboratory studies provide elegant demonstrations, small-scaled bioassays minimize the costs of mate finding and choice, and thus may produce spurious findings. We therefore combined laboratory experiments with field observations to examine the existence of inbreeding avoidance using the parasitoid wasp Venturia canescens. In the laboratory, our approach consisted of mate-choice experiments to assess kin discrimination in population cages with competitive interactions. A higher mating probability after sib rejections suggested that females could discriminate their sibs; however, in contrast to previous findings, sib-mating avoidance was not observed. To compare our laboratory results to field data, we captured 241 individuals from two populations. Females laid eggs in the lab, and 226 daughters were obtained. All individuals were genotyped at 18 microsatellite loci, which allowed inference of the genotype of each female's mate and subsequently the relatedness within each mating pair. We found that the observed rate of sib-mating did not differ from the probability that sibs encountered one another at random in the field, which is consistent with an absence of sib-mating avoidance. In addition, we detected a weak but significant male-biased dispersal, which could reduce encounters between sibs. We also found weak fitness costs associated with sib-mating. As such, the sex-biased dispersal that we found is probably sufficient to mitigate these costs. These results imply that kin discrimination has probably evolved for purposes other than mate choice, such as superparasitism avoidance.
Author Sauzet, Sandrine
Collet, Marie
Fauvergue, Xavier
Amat, Isabelle
Mouton, Laurence
Auguste, Alexandra
Desouhant, Emmanuel
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Issue 3
Keywords microsatellites
kin recognition
sl-CSD
Hymenoptera
inbreeding tolerance
parasitic wasp
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Snippet Sib‐mating avoidance is a pervasive behaviour that is expected to evolve in species subject to inbreeding depression. Although laboratory studies provide...
Sib-mating avoidance is a pervasive behaviour that is expected to evolve in species subject to inbreeding depression. Although laboratory studies provide...
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SubjectTerms Agricultural sciences
Agronomy
Animal biology
Animals
Avoidance
Avoidance behavior
Bioassays
Biochemistry, Molecular Biology
Biodiversity
Biodiversity and Ecology
Biological Evolution
Breeding
Cognitive science
Cognitive Sciences
Discrimination
Dispersal
Dispersion
Eggs
Environmental Sciences
Female
Females
Genomics
Genotype
Genotypes
genotyping
Global Changes
Hymenoptera
Inbreeding
Inbreeding - methods
Inbreeding depression
inbreeding tolerance
Incest
Insecta - genetics
Insecta - physiology
Insects
Invertebrate Zoology
kin recognition
Laboratories
Life Sciences
Male
Mate selection
Mating
mating behavior
Mating Preference, Animal - physiology
microsatellite repeats
Microsatellite Repeats - genetics
Microsatellites
Natural populations
Neurons and Cognition
Neuroscience
parasitic wasp
parasitic wasps
Parasitoids
Populations
Populations and Evolution
probability
Reproduction - physiology
Reproductive Biology
Sexual Behavior, Animal - physiology
Sexual reproduction
sl‐CSD
Superparasitism
Venturia canescens
Vertebrate Zoology
Wasps - genetics
Wasps - physiology
Title Insects and incest: Sib‐mating tolerance in natural populations of a parasitoid wasp
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fmec.15340
https://www.ncbi.nlm.nih.gov/pubmed/31850599
https://www.proquest.com/docview/2353882729
https://www.proquest.com/docview/2328345076
https://www.proquest.com/docview/2985726482
https://cnrs.hal.science/hal-02551701
Volume 29
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