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6 results on '"Louis van de Zande"'

1. A re‐assessment of within‐host mating behavior in the Nasonia species complex

Author

M. C. W. G. Giesbers, Leo W. Beukeboom, Monika Trienens, Bart A. Pannebakker, Louis van de Zande, Beukeboom lab, and Van de Zande lab

Subjects
Sympatry, reproductive isolation, prezygotic barrier, Zoology, Nasonia, Laboratorium voor Erfelijkheidsleer, Parasitoid, Nasonia vitripennis, Nasonia giraulti, interspecific crosses, mating system, Mating, Pteromalidae, parasitoid, Ecology, Evolution, Behavior and Systematics, biology, hybrid, superparasitization, Reproductive isolation, biology.organism_classification, Mating system, PE&RC, Hymenoptera, Insect Science, Laboratory of Genetics, multiparasitization
Abstract

Insects have a wide variety of mating systems. For parasitic wasps, mating sites are often confined to where their hosts occur and this mutual interaction therefore greatly affects the evolution of alternative mating strategies. Parasitoids of the genus Nasonia (Hymenoptera: Pteromalidae) – comprising the species Nasonia vitripennis (Walker), Nasonia longicornis Darling, Nasonia giraulti Darling, and Nasonia oneida Raychouhury & Desjardins – parasitize blowfly pupae and typically mate immediately after emergence of the females from the host puparium. However, in one Nasonia species, N. giraulti, mating predominantly occurs within the host. Here, we re-assess within-host mating (WHM) rates within the Nasonia genus, using laboratory lines and field collected hosts, and including N. oneida for which no data were available yet. We confirm that WHM rates are low in N. vitripennis and N. longicornis, but high in N. giraulti. WHM is rare in N. oneida, despite its sympatry and close phylogenetic relationship with N. giraulti. Multiparasitization experiments with N. vitripennis and N. giraulti resulted in lower WHM proportions of N. giraulti. To evaluate whether this was due to an exit hole in the host pupa created by N. vitripennis males – where an exit hole may result in emergence of N. giraulti females and possibly males prior to mating – we artificially created exit holes in the host parasitized by N. giraulti only. This also yielded a lower WHM proportion. Progeny analysis of interspecific crosses of N. longicornis and N. oneida with N. giraulti, generating hybrid female but non-hybrid male offspring, revealed that WHM is largely determined by the maternal species and, hence, by the species to which the male offspring belong. We conclude that WHM is predominantly a male-mediated trait in N. giraulti, resulting from males refraining from making exit holes and mating with females inside the host. We discuss how these findings can be used to evaluate whether WHM contributes to preventing species hybridization.

Published
2021

2. Development of a Nasonia vitripennis outbred laboratory population for genetic analysis

Author

Louis van de Zande, Leo W. Beukeboom, Steven Ferber, Ammerins de Haan, Bart A. Pannebakker, Joost van Heerwaarden, Van de Zande lab, and Beukeboom lab

Subjects
Male, 0106 biological sciences, Wasps, ectoparasitic wasp, HYMENOPTERA, RECOMBINATION, sex-ratio, Breeding, single-nucleotide polymorphism (SNP), ECTOPARASITIC WASP, 01 natural sciences, Genome, Wiskundige en Statistische Methoden - Biometris, Nasonia vitripennis, Effective population size, Resource Articles, SEX-RATIO, Genetics, drosophila-melanogaster, 0303 health sciences, education.field_of_study, biology, PE&RC, GENOME, Female, Laboratory of Genetics, hymenoptera, Nasonia, parasitoid wasp, Biotechnology, natural-populations, Population, Laboratorium voor Erfelijkheidsleer, 010603 evolutionary biology, parasitoid wasp nasonia, 03 medical and health sciences, LOCAL MATE COMPETITION, Animals, Laboratory, evolution, Genetic variation, Genetic model, Animals, Outbred Strains, Animals, PARASITOID WASP NASONIA, local mate competition, education, genome, Mathematical and Statistical Methods - Biometris, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Whole genome sequencing, biology.organism_classification, recombination, EVOLUTION, Evolutionary biology, laboratory strain, DROSOPHILA-MELANOGASTER, pooled resequencing, genetic variation, effective population size, NATURAL-POPULATIONS
Abstract

The parasitoid wasp genus Nasonia has rapidly become a genetic model system for developmental and evolutionary biology. The release of its genome sequence led to the development of high-resolution genomic tools, for both interspecific and intraspecific research, which has resulted in great advances in understanding Nasonia biology. To further advance the utility of Nasonia vitripennis as a genetic model system and to be able to fully exploit the advantages of its fully sequenced and annotated genome, we developed a genetically variable and well-characterized experimental population. In this study, we describe the establishment of the genetically diverse HVRx laboratory population from strains collected from the field in the Netherlands. We established a maintenance method that retains genetic variation over generations of culturing in the laboratory. As a characterization of its genetic composition, we provide data on the standing genetic variation and estimate the effective population size (N-e) by microsatellite analysis. A genome-wide description of polymorphism is provided through pooled resequencing, which yielded 417331 high-quality SNPs spanning all five Nasonia chromosomes. The HVRx population and its characterization are freely available as a community resource for investigators seeking to elucidate the genetic basis of complex trait variation using the Nasonia model system.

Published
2014

4. Influence of population isolation on genetic variation and demography in Seychelles warblers: a field experiment

Author

Louis van de Zande, Anique Kappe, Jan Komdeur, Komdeur lab, and Van de Zande lab

Subjects
education.field_of_study, Ecology, biology, Reproductive success, Population, Fecundity, biology.organism_classification, Warbler, Acrocephalus, Inbreeding depression, Breeding pair, education, Inbreeding, Nature and Landscape Conservation
Abstract

Between 1959 and 1968 the entire world population of Seychelles warblers (Acrocephalus sechellensis) comprised only 26-29 individuals entirely confined to Cousin Island (26 ha). Through conservation actions the island population has reached a carrying capacity of ca 320 birds since 1982. The warbler population has significantly lower levels of genetic variation, as determined by multi-locus DNA fingerprinting, compared with its mainland relative, the Australian warbler (Acrocephalus australis) and other outbred natural bird populations (mean band sharing coefficients are 0.50, 0.22 and 0.21, respectively), and has a very low annual reproductive rate of 0.28 yearlings per breeding pair. Therefore some degree of inbreeding may have occurred in this population.The relatively low level of genetic variation is not directly responsible for this low reproductive output since breeding pairs that were transferred to the islands of Aride (68 ha) and Cousine (29 ha) with similar vegetation and climate, but with higher year-round insect food abundance, had significantly higher fecundity and survival. In contrast, no difference in reproductive success was observed between incestuous breeding pairs and non-incestuous breeding pairs.In addition, annual production of yearlings by pairs on Aride was on average 44 times higher than that by the same pairs on Cousin before the transfer. Annual production of yearlings by pairs on Cousine, that were as inbred as those on Aride, was on average five times higher than that by the same pairs on Cousin before the transfer. Eight years after translocation, the Aride population had grown to over 1000 birds, and six years after translocation, the Cousine population had grown to 186 birds.The experiments, controlled for group size, breeding partner, breeder age and experience, showed that the differences in reproductive success by warblers on the three islands cannot be due to genetic differences because of similar band-sharing similarities, but seem entirely accounted for by differences in food supply. Although the amount of genetic variation in the Seychelles warblers is relatively low, the demographic parameters do not indicate apparent signs of inbreeding depression in these populations.

Published
1998

5. Limitations of the RAPD technique in phylogeny reconstruction in Drosophila

Author

Louis van de Zande, Rudolf Bijlsma, and Van de Zande lab

Subjects
Genetics, MELANOGASTER, IDENTIFICATION, Phylogenetic tree, PHYLOGENY, ARBITRARY PRIMERS, NEAR-ISOGENIC LINES, AMPLIFIED POLYMORPHIC DNA, Biology, biology.organism_classification, Homology (biology), RAPD, DROSOPHILA, FRAGMENT-LENGTH-POLYMORPHISM, PCR, Sibling species, Phylogenetics, Genetic marker, GENETIC-MARKERS, DIVERGENCE, Melanogaster, RESISTANCE, Ecology, Evolution, Behavior and Systematics
Abstract

In this study the limitations of the RAPD technique for phylogenetic analysis of very closely related and less related species of Drosophila are examined. In addition, assumptions of positional homology of amplified fragments in different species are examined by cross-hybridization of RAPD fragments. It is demonstrated that in Drosophila the use of RAPD markers is very efficient in identification of species. For assessment of phylogenetic relationships, however, the method is limited to sibling species, and reliable measures for genetic distances cannot be obtained. Hybridization experiments demonstrate that fragments of similar length amplified from different species are not always derived from corresponding loci, and that not all RAPD fragments within the same amplification pattern are independent.

Published
1995

6. Corrigendum

Author

Oliver Niehuis, Bart A. Pannebakker, Christopher A. Desjardins, Andrea K. Judson, D. M. Van De Shuker, Louis van de Zande, John H. Werren, Kathleen Kennedy, Juergen Gadau, David Duggan, Leo W. Beukeboom, Michael S. Rosenberg, T. Koevoets, and Joshua D. Gibson

Subjects
biology, media_common.quotation_subject, Insect, biology.organism_classification, Genome, Parasitoid wasp, Evolutionary biology, Insect Science, Genetics, Haplodiploidy, Nasonia, Molecular Biology, Recombination, media_common
Published
2010

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