Your search keyword '"ANR-10-INTB-1705-04-MACBI"' showing total 2 results

1. Linking niche theory to ecological impacts of successful invaders: insights from resource fluctuation-specialist herbivore interactions

Author

Lionel Roques, Cindy Gidoin, Thomas Boivin, Unité de Recherches Forestières Méditerranéennes (URFM), Institut National de la Recherche Agronomique (INRA), Biostatistique et Processus Spatiaux (BioSP), French Agence Nationale pour la Recherche [ANR-10-INTB-1705-04-MACBI], and Biostatistique et Processus Spatiaux (BIOSP)

Subjects

Population Dynamics, Wasps, Population, Biodiversity, community theory, Introduced species, Biology, Diapause, Insect, Invasive species, megastigmus, mechanistic– statistical modelling, Species Specificity, Animals, Herbivory, education, Cedrus, Ecosystem, Ecology, Evolution, Behavior and Systematics, Coexistence theory, education.field_of_study, Models, Statistical, Ecology, interspecific competition, Species diversity, Interspecific competition, 15. Life on land, ecological specialization, Animal ecology, Seeds, Animal Science and Zoology, France, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Introduced Species

Abstract

Summary Theories of species coexistence and invasion ecology are fundamentally connected and provide a common theoretical framework for studying the mechanisms underlying successful invasions and their ecological impacts. Temporal fluctuations in resource availability and differences in life-history traits between invasive and resident species are considered as likely drivers of the dynamics of invaded communities. Current critical issues in invasion ecology thus relate to the extent to which such mechanisms influence coexistence between invasive and resident species and to the ability of resident species to persist in an invasive-dominated ecosystem. We tested how a fluctuating resource, and species trait differences may explain and help predict long-term impacts of biological invasions in forest specialist insect communities. We used a simple invasion system comprising closely related invasive and resident seed-specialized wasps (Hymenoptera: Torymidae) competing for a well-known fluctuating resource and displaying divergent diapause, reproductive and phenological traits. Based on extensive long-term field observations (1977–2010), we developed a combination of mechanistic and statistical models aiming to (i) obtain a realistic description of the population dynamics of these interacting species over time, and (ii) clarify the respective contributions of fluctuation-dependent and fluctuation-independent mechanisms to long-term impact of invasion on the population dynamics of the resident wasp species. We showed that a fluctuation-dependent mechanism was unable to promote coexistence of the resident and invasive species. Earlier phenology of the invasive species was the main driver of invasion success, enabling the invader to exploit an empty niche. Phenology also had the greatest power to explain the long-term negative impact of the invasive on the resident species, through resource pre-emption. This study provides strong support for the critical role of species differences in interspecific competition outcomes within animal communities. Our mechanistic-statistical approach disentangles the critical drivers of novel species assemblages resulting from intentional and non-intentional introductions of non-native species.

Published

2015

2. Temporal population genetics of time travelling insects: a long term study in a seed-specialized wasp

Author

Thomas Boivin, Jean-Noël Candau, Marie Suez, Alain Chalon, François Lefèvre, Cindy Gidoin, Ecologie des Forêts Méditerranéennes (URFM), Institut National de la Recherche Agronomique (INRA), Canadian Forest Service Great Lakes Forestry Centre (NRC), Natural Resources Canada (NRCan), ANR-10-INTB-1705-04-MACBI, and Boivin, Thomas

Subjects

0106 biological sciences, [SPI.OTHER]Engineering Sciences [physics]/Other, diapause prolongée, fluctuation interannuelle, Population Dynamics, Wasps, lcsh:Medicine, Population genetics, Population Modeling, Hymenoptera, Insect, 01 natural sciences, Gene flow, Behavioral Ecology, lcsh:Science, sud de la france, media_common, Animal biology, 0303 health sciences, education.field_of_study, Larva, Multidisciplinary, biology, Ecology, [SDV.BA]Life Sciences [q-bio]/Animal biology, Metamorphosis, Biological, environnement stochastique, larve, Phenotype, marqueur microsatellite, Genetic structure, étude génétique, fluctuation spatiale, hymenoptera, espèce animale, Research Article, Gene Flow, megastigmus schimitscheki, media_common.quotation_subject, Population, refuge démographique, Zoology, flux de gènes, Diapause, torymidae, 010603 evolutionary biology, 03 medical and health sciences, cohorte, Biologie animale, Animals, espèce invasive, guêpe, Terrestrial Ecology, education, Biology, 030304 developmental biology, Population Biology, lcsh:R, Computational Biology, insecta, biology.organism_classification, marqueur polymorphique, structure génétique, Genetics, Population, Evolutionary Ecology, génie génétique, Autre (Sciences de l'ingénieur), lcsh:Q, Population Ecology, Entomology, Population Genetics, Microsatellite Repeats

Abstract

International audience; Many animal species experiencing spatial or interannual fluctuations of their environment are capable of prolonged diapause, a kind of dormancy that extends over more than one year. Such a prolonged diapause is commonly perceived as a temporal demographic refuge in stochastic environments, but empirical evidence is still lacking of its consequences on temporal population genetic structures. In this long-term study, we investigated how a particular pattern of prolonged diapause may influence the temporal population genetics of the invasive seed-specialized wasp Megastigmus schimitscheki (Hymenoptera: Torymidae) in southeastern France. We characterized the diapause strategy of M. schimitscheki using records of emergence from diapause in 97 larval cohorts, and we conducted a temporal population genetic study on a natural invasive wasp population sampled during ten consecutive years (1999-2008) using polymorphic microsatellite markers. We found that M. schimitscheki can undergo a prolonged diapause of up to five years and displays two main adult emergence peaks after two and four years of diapause. Such a bimodal and atypical pattern did not disrupt temporal gene flow between cohorts produced in even and in odd years during the period of the study. Unexpectedly, we found that this wasp population consisted of two distinct genetic sub-populations that strongly diverged in their diapause strategies, with very few admixed individuals. One of the sub-populations displayed both short and prolonged diapause (2 and 4 years respectively) in equal proportions, whereas the other sub-population displayed mainly short diapause. This study provided empirical evidence that prolonged diapause phenotypes can substantially contribute to reproduction and impact temporal genetic structures. Prolonged diapause is likely to act as both demographic and genetic refuges for insect populations living in fluctuating environments.

Published

2013