Spelling suggestions: "subject:"lifehistory strategies"" "subject:"life'history strategies""
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Sociosexual Development: Infusing the Belsky, Steinberg, and Draper Model with Sexual SelectionJackson, Jenee James January 2010 (has links)
Life history theory attempts to explain between- and within-species variation in maturational and reproductive patterns, whereas sexual selection attempts to explain between- and within-sex differences in intersexual mate choice and intrasexual competition for members of the opposite sex. These two expansive evolutionary theories have been used by developmental scientists and social/personality psychologists to explain the variation observed in human reproduction, including the timing of reproductive events and individual differences in orientation toward mating and parenting. In Part I of the following paper, I review research related to life history theory and sexual selection in humans. I then show how integrating the principles of sexual selection with life history models of human reproductive strategies can address existing limitations. In Part II, I empirically examine many of the unique propositions that emerge from theoretical integration using a longitudinal dataset on adolescent development. Under investigation is an expanded model of sociosexual development that incorporates key principles from Belsky, Steinberg, and Draper's (BSD) psychosocial theory and sexual selection theory. I specifically examine the role of early rearing conditions within the home, as specified by BSD, and self-perceived mate value, as highlighted by a sexual selection perspective, on timing of sexual debut and sexual risk taking. The current study combines variable-centered and person-centered methods to assess specialized developmental trajectories. In total, the study provides novel support for BSD theory, while also highlighting needed revisions to account for the role of self-perceived mate value on adolescent sexual behavior.
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Tělesná velikost jako implicitní faktor: příkladové studie o životních strategiích a chování / Body size as an implicit factor: case studies of life-history strategies and behaviourŠimková, Olga January 2016 (has links)
Body size has a potential to influence almost any trait in animal biology. The thesis contains four case studies (I - IV) covering four various situations and four various taxa, mainly squamate reptiles (Lepidosauria). Body size is a connecting factor for all these studies, in which I and my co-authors tried to elucidate various implications of body size. I. The sex ratio in Cuban boa (Chilabothrus angulifer) litters is often male or female biased. The neonates are so large, that are able to accept the same type of prey as are adults (in contrast to the other Chilabothrus species). We found that both the sexes are of the same size and shape at birth. Large size of the neonates a long lifespan lead to considerable generation overlaps. This could clarify our findings that small females produce sons whereas the larger ones deliver daughters. Males are smaller than females, probably also less philopatric and refuse food during breeding season. We can conclude that females manipulate the sex ratio of neonates according to its own body size, in order to decrease the probability of competition with their own offspring. II. Mangrove-dwelling monitor lizard (Varanus indicus) shows one of the greatest degrees of sexual size dimorphism among monitor lizards. We recorded the growth of the individuals from...
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How Will Hydrologic Change Alter Riparian Plant Communities of the Arid and Semi-Arid Southwest? The Problem Approached from Two PerspectivesJanuary 2011 (has links)
abstract: Climate change has the potential to affect vegetation via changes in temperature and precipitation. In the semi-arid southwestern United States, heightened temperatures will likely lead to accelerated groundwater pumping to meet human needs, and altered storm patterns may lead to changes in flood regimes. All of these hydrologic changes have the potential to alter riparian vegetation. This research, consisting of two papers, examines relationships between hydrology and riparian vegetation along the Verde River in central Arizona, from applied and theoretical perspectives. One paper investigates how dominance of tree and shrub species and cover of certain functional groups change along hydrologic gradients. The other paper uses the Verde River flora along with that river's flood and moisture gradients to answer the question of whether functional groups can be defined universally. Drying of the Verde River would lead to a shift from cottonwood-willow streamside forest to more drought adapted desert willow or saltcedar, a decline in streamside marsh species, and decreased species richness. Effects drying will have on one dominant forest tree, velvet ash, is unclear. Increase in the frequency of large floods would potentially increase forest density and decrease average tree age and diameter. Correlations between functional traits of Verde River plants and hydrologic gradients are consistent with "leaf economics," or the axis of resource capture, use, and release, as the primary strategic trade-off for plants. This corresponds to the competitor-stress tolerator gradient in Grime's life history strategy theory. Plant height was also a strong indicator of hydrologic condition, though it is not clear from the literature if plant height is independent enough of leaf characteristics on a global scale to be considered a second axis. Though the ecohydrologic relationships are approached from different perspectives, the results of the two papers are consistent if interpreted together. The species that are currently dominant in the near-channel Verde River floodplain are tall, broad-leaf trees, and the species that are predicted to become more dominant in the case of the river drying are shorter trees or shrubs with smaller leaves. These results have implications for river and water management, as well as theoretical ecology. / Dissertation/Thesis / M.S. Plant Biology 2011
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From taxonomy to multiple-trait bioassessment : the role of Chironomidae in separating naturally poor from disturbed communities / D'une approche taxonomique à une approcha par les traits biologiques en bioévaluation : rôle des Chironomidae pour discriminer les communautés perturbées de celles naturellement pauvresQuinás Serra, Sónia Raquel 13 July 2017 (has links)
La famille des Chironomidae (Dipteres) présente une large distribution mondiale dans une large gamme d'habitats. Ses représentants ont colonisé presque tous les habitats d'eau douce et on trouve également des Chironomidae dans des environnements terrestres et marins. Cette famille représente ainsi une composante majeure des macroinvertébrés benthiques en termes d'abondance et de richesse. De part leur position trophique, les Chironomidae dominent souvent les communautés non perturbés en termes d'abondance et de biomasse, et représentent plus de 50% des espèces de macroinvertébrés benthiques dans les eaux stagnantes et courantes. Dans les zones profondes des lacs eutrophes et les cours d'eau très impactés par les activités humaines, c'est souvent la seule famille d'insectes aquatiques qui perdure. De ce fait, la famille des Chironomidae comprend un grand nombre de genres et d'espèces présentant des préférences écologiques diversifiées. De plus, la prédominance et la richesse spécifique des Chironomidae en font une source d'énergie très importante pour les prédateurs (vertébrés et invertébrés) et leur confère un rôle majeur dans le flux d'énergie dans les écosystèmes aquatiques. De ce fait, les Chironomidae pourraient avoir un rôle non négligeable dans la mise en place des conditions de référence pour la bioévaluation des rivières et dans la détection des cours d'eau plus et moins impactés, et pourraient fournir une information sur le fonctionnement des écosystèmes aquatiques. Cependant, les Chironomidae sont généralement délaissés dans l'étude de la structure de la communauté des cours d'eau, principalement à cause des difficultés d'identification des stades larvaires aquatiques des espèces. Les approches basées sur les traits fournis par la littérature sont basées sur la théorie de «l'habitat templet» selon laquelle, l'habitat fournit le cadre environnemental sur lequel les espèces forgent des stratégies à travers leur adaptation dans tous les types d'environnements. Conceptuellement, les conditions environnementales représentent des filtres qui, en éliminant les espèces ayant les combinaisons de traits les moins adaptées, participent à la mise en place des communautés. Comme les traits reflètent la performance des organismes dans des conditions environnementales données, l'objectif principal des analyses basées sur les traits est d'acquérir une compréhension plus mécaniste des relations entre les espèces et leur habitat. Dans les deux dernières décennies, la liaison espèces-trait-environnement a été explorée par de nombreux auteurs dans des études où la composition des traits a été analysée individuellement ou combinées en termes de stratégies. Ainsi, l'utilisation des traits dans les approches d'écologie des communautés (écologie fonctionnelle) s'est développée très rapidement, offrant l'avantage d'une relative indépendance des réponses vis-à-vis de la biogéographie des taxons. En d'autres termes, un trait tel que la respiration branchiale se rencontre dans les milieux aquatiques indépendamment de la région biogéographique alors même que l'identité des taxons change de manière importante entre régions [etc…] / Chironomidae (Diptera) have a worldwide distribution, being found over a wide range of habitats. Their larvae thrive in almost every possible freshwater habitat, with representatives also in terrestrial and marine environments, representing a major macroinvertebrate component in terms of abundance and richness. However, Chironomidae are generally neglected in community studies mainly because of difficulties in species larval identification. This compromises also the recognition and use of Chironomidae in trait-based approaches, which promote an indirect measurement of functional integrity in fresh waters. The aim of this thesis was to fill this latter gap by: (1) building a trait database for European Chironomidae at the genus level (Chapter I); (2) evaluating if the developed database at the genus level provides additional information to a commonly used European database developed at the subfamily and tribe level for Chironomidae (Chapter II); (3) testing Chironomidae traits relevance in bioassessment through their ability to discriminate naturally different stream types and segregate least disturbed from disturbed sites (Chapters III and IV); (4) comparing trait information gathered in the new European database (Chapter I) with similar information gathered for North America for the same genus and species, and simultaneously testing for trait variability between continents (Chapter V). In Chapter I the general methodology for the construction of the Chironomidae trait database at the genus level is described. The trait database was developed gathering existing information in literature for 744 species and 178 genera, considering 186 trait categories from 37 traits divided in two major domains: Eltonian - related to organism function and influence over its environments; and Grinnellian - associated to organism requirements and performance in its environments. In Chapter II traits at the genus level (from Chapter I) and the existing ones at the subfamily level (tribe at most; Tachet et al. 2010) are compared. This comparison showed that there are significant differences in trait information gathered at different taxonomic levels, thus questioning the use of the Chironomidae subfamily level in ecological, functional and biomonitoring studies. Subfamilies are very heterogeneous in terms of traits, exposing the evolutionary divergence in each subfamily. The distances between subfamilies given by their traits are also not in agreement with the most accepted phylogenetic subfamily relatedness, indicating a divergence from the traits of a common ancestry. In Chapter III Chironomidae taxonomic composition at the genus level, unlike the subfamily level, allowed the segregation of different stream types: permanent medium elevation, permanent lowland, and south temporary. Different Chironomidae assemblages manifest different trait composition for Eltonian traits (emergence season, maximal body size, overwinter diapause stage, substrate relation), but also morphological traits (body setae, mentum, Lauterborn organs, premandible brush, claws of anterior parapods). Morphological traits seem interesting tools that would avoid the laborious identification of genus that rely on multiple minute structures, enabling the trait assessment through the observation of few Chironomidae structures. In Chapter IV it is tested whether using Chironomidae taxonomic and trait compositions allow the segregation of disturbed sites under multiple anthropogenic stressors (subjected to hydromorphological and physicochemical alterations) from leastdisturbed sites in Mediterranean temporary streams. Traits were analysed individually and also grouped into life-history strategies. Both methods enabled a significant segregation between disturbed and least-disturbed sites. Individual traits that were significantly different between sites were also those that are evolutionarily interrelated and used to define Chironomidae life-history trait strategies [etc]
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Consistency of demographic trade-offs across 13 (sub)tropical forestsKambach, Stephan, Condit, Richard, Aguilar, Salomon, Bruelheide, Helge, Bunyavejchewin, Sarayudh, Chang-Yang, Chia-Hao, Chen, Yu-Yun, Chuyong, George, Davies, Stuart J., Ediriweera, Sisira, Ewango, Corneille E.N., Fernando, Edwino S., Gunatilleke, Nimal, Gunatilleke, Savitri, Hubbell, Stephen P., Itoh, Akira, Kenfack, David, Kiratiprayoon, Somboon, Lin, Yi-Ching, Makana, Jean-Remy, Mohamad, Mohizah Bt., Pongpattananurak, Nantachai, Perez, Rolando, Rodriguez, Lillian Jennifer V., Sun, I-Fang, Tan, Sylvester, Thomas, Duncan, Thompson, Jill, Uriarte, Maria, Valencia, Renato, Wirth, Christian, Wright, S. Joseph, Wu, Shu-Hui, Yamakura, Takuo, Yao, Tze Leong, Zimmerman, Jess, Rüger, Nadja 04 January 2024 (has links)
1. Organisms of all species must balance their allocation to growth, survival and
recruitment. Among tree species, evolution has resulted in different life-history
strategies for partitioning resources to these key demographic processes.Life-history strategies in tropical forests have often been shown to align along
a trade-off between fast growth and high survival, that is, the well-known
fast–slow continuum. In addition, an orthogonal trade-off has been proposed
between tall stature—resulting from fast growth and high survival— and recruit-
ment success, that is, a stature−recruitment trade-off. However, it is not clear
whether these two independent dimensions of life-history variation structure
tropical forests worldwide.
2. We used data from 13 large-scale and long-term tropical forest monitoring plots
in three continents to explore the principal trade-offs in annual growth, sur-
vival and recruitment as well as tree stature. These forests included relatively
undisturbed forests as well as typhoon-disturbed forests. Life-history variation
in 12 forests was structured by two orthogonal trade-offs, the growth−survival
trade-off and the stature−recruitment trade- off. Pairwise Procrustes analysis
revealed a high similarity of demographic relationships among forests. The small
deviations were related to differences between African and Asian plots.
3. Synthesis. The fast–slow continuum and tree stature are two independent di-
mensions structuring many, but not all tropical tree communities. Our discovery
of the consistency of demographic trade-offs and life-history strategies across
different forest types from three continents substantially improves our ability to
predict tropical forest dynamics worldwide.
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Pollinators, Enemies, Drought, and the Evolution of Reproductive Traits in Primula farinosaToräng, Per January 2007 (has links)
In this thesis, I combined comparative and experimental approaches to examine selection on reproductive traits and population differentiation in the insect-pollinated, self-incompatible, perennial herb Primula farinosa. More specifically, I (1) determined whether the effects of floral display and interactions with pollinators and seed predators, and plant reproductive success were frequency-dependent and affected by surrounding vegetation context, (2) examined the consequences of intermittent drought years on population dynamics using numerical simulations based on demographic data collected over seven years, (3) analyzed among-population differentiation in flowering phenology and reproductive allocation, and its relationship to soil-depth at the site of origin. A field experiment suggested that conspicuous plants facilitate inconspicuous plants in terms of pollinator attraction, and that the facilitation effect is contingent on the height of the surrounding vegetation. Further experiments revealed that both mutualistic and antagonistic interactions can result in frequency-dependent selection on floral display. Among inconspicuous plants, both fruit initiation, and damage from seed predators increased with the proportion of the conspicuous morph. The relative strength of these effects, and therefore their net outcome on the relationship between morph ratio and seed production varied among years. I combined information on vital rates and their relation to environmental conditions in simulations to predict future population viability in changing environments. Simulated stochastic population growth rate decreased with increasing frequency of drought years. Reproductive allocation varied significantly among populations both in the field and in a common-garden experiment, but was correlated with soil depth at the site of origin only in the field. The results suggest that among-population variation in reproductive effort in the field mainly reflects plastic responses to environmental conditions, and that this plasticity may be adaptive. The common-garden experiment suggested that the study populations have diverged genetically in flowering time.
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Pollinators, Enemies, Drought, and the Evolution of Reproductive Traits in <i>Primula farinosa</i>Toräng, Per January 2007 (has links)
<p>In this thesis, I combined comparative and experimental approaches to examine selection on reproductive traits and population differentiation in the insect-pollinated, self-incompatible, perennial herb <i>Primula farinosa</i>. More specifically, I (1) determined whether the effects of floral display and interactions with pollinators and seed predators, and plant reproductive success were frequency-dependent and affected by surrounding vegetation context, (2) examined the consequences of intermittent drought years on population dynamics using numerical simulations based on demographic data collected over seven years, (3) analyzed among-population differentiation in flowering phenology and reproductive allocation, and its relationship to soil-depth at the site of origin. </p><p>A field experiment suggested that conspicuous plants facilitate inconspicuous plants in terms of pollinator attraction, and that the facilitation effect is contingent on the height of the surrounding vegetation. Further experiments revealed that both mutualistic and antagonistic interactions can result in frequency-dependent selection on floral display. Among inconspicuous plants, both fruit initiation, and damage from seed predators increased with the proportion of the conspicuous morph. The relative strength of these effects, and therefore their net outcome on the relationship between morph ratio and seed production varied among years. </p><p>I combined information on vital rates and their relation to environmental conditions in simulations to predict future population viability in changing environments. Simulated stochastic population growth rate decreased with increasing frequency of drought years. </p><p>Reproductive allocation varied significantly among populations both in the field and in a common-garden experiment, but was correlated with soil depth at the site of origin only in the field. The results suggest that among-population variation in reproductive effort in the field mainly reflects plastic responses to environmental conditions, and that this plasticity may be adaptive. The common-garden experiment suggested that the study populations have diverged genetically in flowering time.</p>
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Population dynamics of Daphnia galeatat in the biomanipulated Bautzen Reservoir: life history strategies against food deficiency and predation / Populationsdynamik von Daphnia galeata in der biomanipulierten Talsperre Bautzen: life history Strategien gegen Futtermangel und PrädationHülsmann, Stephan 20 September 2003 (has links) (PDF)
The population dynamics and demography of Daphnia galeata was analysed in a five year study in the biomanipulated Bautzen Reservoir. Samples were taken two times a week during the period May-July in the pelagic zone of this highly eutrophic water. Major bottom-up and top-down factors were determined during the study period and analysed with regard to their influence on Daphnia dynamics and life history. Field data on fecundity and population structure of D. galeata were combined with results from life table and growth experiments performed under approximately in situ conditions to gain insight into the mechanisms leading to a midsummer decline of this cladoceran species which dominates the zooplankton community in Bautzen Reservoir. Two main patterns of Daphnia dynamics emerged: In years without a midsummer decline the population increased slowly in spring, starting from low densities. High water transparency was observed already during the build-up of the population of D. galeata. Despite considerable fluctuations, Daphnia abundance remained on a high level throughout summer. In years with a midsummer decline the population started from relatively high densities in early May and more than doubled during one week. Peak densities were reached before the clear-water stage emerged. At the end of this period the population declined to low values which lasted for the rest of the summer. Fecundity of the Population of D. galeata declined, whereas the mean egg volume increased at the beginning of the clear-water stage as a result of declining food levels. The size at maturity (SAM) remained high during this period. Additionally, juvenile growth was reduced and the age at maturity was retarded. Survival probability was low for those daphnids born shortly before or during the clear-water stage compared to those born later. It can be concluded from these results that recruitment to adult stages is strongly reduced during the clear-water stage. The end of this period is marked by an alternation in generations. Only at that time can SAM be reduced because the new generation of adults matures at a smaller size, carrying small eggs. A high impact of non-predatory adult mortality can be expected when the population is dominated by a strong peak-cohort during the clear-water stage according to recruitment patterns during the build-up of the population. The most drastic decline both of Daphnia abundance and SAM was observed in those years when the biomass of juvenile fish exceeded 20 kg ha-1 at the end of the clear-water stage. Due to gape-size limitation juvenile fish mainly feed on juvenile daphnids during this period and thus, they reinforce bottom-up effects on the Daphnia population. When fish change their size selection towards adult daphnids at the time when the new generation takes over, this seems to represent the worst case for the Daphnia population. Consequently, the timing between bottom-up effects and the feeding pressure of juvenile fish determines the extent of the decline. - (This manuscript is also available - in the form of a book - from Shaker Verlag GmbH, Postfach 101818, 52018 Aachen, Germany world-wide web address: http://www.shaker.de, electronic-mail address: info@shaker.de. It has been posted on the web sites of Dresden University of Technology with the permission of the publisher)
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Keeping the balance ? : Management of oxidative stress, body mass and reproduction under energetic constraints by dispersing and philopatric collared flycatchers / Garder l'équilibre ? : gestion du stress oxydant, de la masse corporelle et de la reproduction selon le statut de dispersion et les contraintes énergétiques chez le gobemouche à collierRécapet, Charlotte 03 December 2015 (has links)
La dispersion, c’est-à-dire le déplacement d’un individu entre deux sites de reproduction, est un processus clé pour la dynamique des métapopulations et les flux de gènes. Son succès peut être modulé par des différences de phénotype ou syndromes de dispersion. Cependant, les contraintes environnementales (externes) et physiologiques (internes) qui sous-tendent ces syndromes restent mal connus. Ce projet vise à clarifier l’impact des variations environnementales et des contraintes oxydatives (liées aux espèces réactives de l’oxygène produites durant la respiration) sur les phénotypes associés à la dispersion chez un passereau, le gobemouche à collier Ficedula albicollis. La demande énergétique a été expérimentalement (i) augmentée en manipulant la surface alaire ou (ii) diminuée par une supplémentation en nourriture. L’équilibre oxydo-réducteur des gobemouches en reproduction est influencé par des interactions complexes entre facteurs intrinsèques (statut de dispersion) et extrinsèques (densité de couples reproducteurs, année, traitement expérimental). La capacité antioxydante dépend principalement des différences permanentes entre individus, alors que les pro-oxydants présentent de grandes variations intra-individu. Les variations environnementales et les contraintes énergétiques modulent aussi les différences de succès reproducteur et de comportement parental liées au statut de dispersion. Nos résultats confirment que les oiseaux dispersants et philopatriques diffèrent dans leur gestion de l’équilibre oxydo-réducteur lorsqu’il est en compétition avec l’investissement reproducteur. Ces différences pourraient avoir des conséquences à long terme sur la valeur sélective et compenser les différences de succès reproducteur entre individus dispersants et philopatriques dans les habitats de faible qualité. Ce travail souligne que les traits associés à la dispersion sont souvent déterminés par des normes de réaction à l’environnement et non des différences fixées entre individus, et améliore notre compréhension des syndromes de dispersion / Dispersal, i.e. individual movement between breeding sites, is a key process for metapopulation dynamics and gene flow. Its success can be modulated by phenotypic differences between dispersing and philopatric individuals, or dispersal syndromes. However, the environmental (external) and physiological (internal) constraints underlying such syndromes remain poorly known. This project aimed at clarifying the impact of environmental variation and oxidative constraints, linked to the reactive oxygen species produced during respiration, on phenotypes associated to dispersal in a passerine bird, the collared flycatcher Ficedulla albicollis. Energetic demand was experimentally (i) increased through a wing load manipulation or (ii) relieved through food supplementation. The oxidative balance of breeding flycatchers was influenced by complex interactions of dispersal status and extrinsic factors (breeding density, year, experimental treatments). Interestingly, antioxidant capacity was influenced both by permanent individual differences and by food availability, whereas measures of pro-oxidants were highly variables within individuals. Environmental variation and energetic constraints also modulated the differences in reproduction associated with dispersal: dispersing and philopatric birds differ in their management of the oxidative balance when it is competing with reproductive investment. This thesis highlights that reaction norms, rather than fixed differences, often shape traits associated to dispersal
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Déterminants individuels et environnementaux de la dispersion chez une espèce hermaphrodite, l'escargot Cornu aspersum / Individual and environmental drivers of dispersal in a hermaphrodite species, the land snail Cornu aspersumDahirel, Maxime 23 October 2014 (has links)
Les comportements de dispersion, c'est-À-Dire les mouvements conduisant à des flux de gènes dans l'espace, jouent un rôle majeur dans de nombreux processus écologiques et évolutifs. Les Gastéropodes terrestres sont des hermaphrodites simultanés dont le mouvement est extrêmement coûteux, une combinaison de traits très intéressante pour étudier les liens entre dispersion et autres traits d'histoire de vie. Dans le cadre de cette thèse, nous avons étudié (i) les relations complexes entre dispersion, croissance, reproduction mâle et femelle chez le petit-Gris Cornu aspersum, un escargot anthropophile, (ii) comment la dispersion et le comportement exploratoire de cette espèce varient en fonction de la compétition ressentie et de l'hétérogénéité environnementale, (iii) comment la propension à disperser coévolue avec d'autres traits à l'échelle interspécifique. Cornu aspersum passe par une phase subadulte mâle de durée variable avant de devenir adulte et hermaphrodite. Le comportement de dispersion s'exprime principalement pendant cette phase subadulte, et sa diminution chez les adultes est liée à l'accroissement de l'investissement dans la fonction femelle. Cette espèce disperse de façon très densité-Dépendante : les individus quittent les sites à haute densité et s'installent dans ceux peu peuplés, une stratégie qui facilite la colonisation et la persistance en environnements instables. La propension à explorer augmente en environnements urbains fragmentés, malgré les coûts plus élevés du mouvement. Au niveau interspécifique, dispersion et généralisme sont liés, ce qui rend les espèces spécialistes doublement vulnérables, mais facilite le succès des généralistes en milieux hétérogènes. Cette combinaison de traits a probablement joué un rôle majeur dans la colonisation de nombreux milieux anthropisés par cette espèce à travers le monde. / Dispersal behaviours, i.e. movements leading to gene flow in space, play a key role in many ecological and evolutionary processes. Terrestrial gastropods are simultaneous hermaphrodites and have an extremely high cost of locomotion, a seldom studied combination of traits which makes them very valuable to investigate the links between dispersal and other life-History traits. During this project, we investigated (i) the complex relationships and trade-Offs between dispersal behaviour, growth, male and female reproduction in the anthropophilous brown garden snail Cornu aspersum, (ii) how its dispersal and exploration vary as a function of competition and environmental heterogeneity, (iii) how dispersal ability coevolved with other traits at the interspecific level. This snail presents a male-Biased subadult phase of varying duration before reaching adulthood and hermaphroditism. Dispersal behavior was mostly expressed during this subadult stage, and its decrease in adults was linked to investment in the female function. Brown garden snail dispersal is highly density-Dependant: snails leave crowded sites and settle readily in low-Density patches, a strategy that facilitates colonization and persistence in spatio-Temporally variable environments. Their movement propensity increases in urban, fragmented habitats, despite the higher costs of movement. At the interspecific level, dispersal and ecological generalism are linked in a dispersal syndrome, which makes specialist species doubly vulnerable, but increases success odds of generalists in heterogeneous landscapes . This combination of traits is likely to have played a major role in the successful worldwide colonization of many anthropogenic landscapes by this species.
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