Reproductive Allocation and Survival in Grasshoppers: Effects of Resource Availability, Grasshopper Density, and Parasitism

Branson, David Heath

01 May 2001

A major challenge in ecology is to understand intraspecific variation in life histories. Variation in resource availability can lead to differences in reproductive allocation and life histories. Grasshoppers are a good organism for the study of variation in life histories, since they exhibit life history plasticity in response to biotic and environmental factors. An optimality model for grasshoppers was developed that predicts optimal total allocation to reproduction and optimal effort-per-offspring as functions of resource availability and mortality. Relative allocation to reproduction is predicted to increase with resource availability, while relative allocation to survival declines. A resource-based trade-off between egg size and number does not exist, as optimal egg size is predicted to be independent of resource intake. I examined if changes in reproductive allocation and survival of Melanoplus sanguinipes (Fabricus) under a range of resource availabilities fit the predictions of the model. The patterns of reproductive allocation and survival in the field were in qualitative agreement with the predictions. I examined the importance of density, resources, and parasitism on the life history patterns of grasshoppers. I conducted an experiment to examine if differences in reproductive allocation of M. sanguinipes are primarily explained by exploitative competition. Per capita resource availability explained a significant amount of the variation in reproduction , as expected with exploitative competition. M. sanguinpes grasshoppers appeared to trade off resource allocation to reproduction for that of allocation to survival, because per capita resource availability did not affect survival. Careful examinations of changes in life history characteristics in response to parasitism are lacking, despite the fact that parasites often influence resource availability for the host. I investigated the effects of a grasshopper ectoparasitic mite on grasshopper reproduction and survival. Mites had small effects on grasshopper survival. As predicted, both species had reduced initial and total reproduction, and completed development of a lower percentage of ovarioles initiated when parasitized. These experiments act to expand our knowledge of life history theory and further our understanding of grasshopper life history variation and population fluctuations.

reproductive allocation

survival

grasshoppers

resource availability

density

Animal Sciences

Patterns of reproductive allocation in aphidophagous lady beetles and their response to various levels of resource availability

Vargas Orozco, German Andres

January 1900

Doctor of Philosophy / Department of Entomology / J.P. Michaud / James R. Nechols / The manner in which organisms allocate reproductive resources for reproduction is a central question with respect to life history theory. The main objectives of this research were to i) examine lifetime patterns of reproductive allocation in the lady beetles Coleomegilla maculata (DeGeer) and Hippodamia convergens (Guérin-Menéville) (Coleoptera: Coccinellidae) while manipulating environmental conditions that affect female body size (i.e., larval food supply), ii) to study the interaction between factors underlying female body size and the resources available during reproduction, and iii) to explore the maternal effects of female size and age on the development and survival of progeny. When different size classes of females were produced and adult females were maintained with unlimited food, there were no differences in egg size across female size in C. maculata, but egg size increased over time in all females. In H. convergens, only larger females increased egg size over time, and they laid larger eggs, on average, than did small females. Maternal body size was positively correlated with the number of eggs laid per day in both species. When three size classes of females were subjected to a fluctuating food supply as adults, female size was again positively correlated with egg and daily fecundity. Whereas both species varied daily fecundity in response to adult food supply, egg size was unaffected and demonstrated a fixed pattern of change with female age and species-specific effects of maternal body size. To observe maternal effects in H. convergens, three female size classes were again produced and progeny were reared from three different periods of each female‟s reproductive life. Offspring from later oviposition days and larger females developed faster and achieved larger adult size than those reared from earlier oviposition days. Egg size showed inconsistent correlations with developmental parameters and adult progeny size, so other, more cryptic, maternal signals were inferred to signal phenotype development in progeny. A fixed program of producing faster-developing offspring that mature to larger sizes late in the oviposition cycle is adaptive for exploiting ephemeral aphid blooms that exhibit predictable dynamics of declining prey abundance and increasing competition. In the case of H. convergens, resource limitation during development constrained not only body size, fecundity and egg size, but also maternal ability to manipulate progeny phenotypes.

Coleomegilla maculata

Hippodamia convergens

Egg size

Egg number

Reproductive allocation

Maternal effects

Biology (0306)

Entomology (0353)

Evolution and Development (0412)

A comparative study on seed heteromorphism in<i> Achnatherum brachychaetum </i>(Godr.) Barkworth and<i> Nassella clarazii</i> (Ball) Barkworth

Lerner, Pamela Diana

03 January 2006

Seed heteromorphism related to chasmogamous (CH) and cleistogamous (CL) seeds can have different ecological significance in species with different functional characteristics, competitive ability and palatability. Punagrass [<i>Achnatherum brachychaetum </i> (Godr.) Barkworth], an invasive, perennial grass is common in grasslands of Argentina and it is an aggressive weed in other parts of the world. <i>Flechilla grande</i> [<i>Nassella clarazii</i> (Ball) Barkworth] is a palatable perennial grass associated with the dominant "climax" vegetation in grasslands of Argentina. Seeds of the two grasses were collected from grasslands of Argentina, and growth chamber and greenhouse experiments were conducted to determine: 1) germination, dormancy breaking, and mass of CH and CL seeds of the two species 2) effects of contrasting range condition on germination and seed mass of punagrass, 3) the relative fitness of plants from CH and CL seeds, 4) if contrasting range condition affect fitness of CH plants of punagrass, and 5) the effect of maternal nutrient environments on CH and CL seeds and on fitness in the two species. Small CH seeds of high dispersal potential were less dormant than large CL seeds of low dispersal potential in punagrass. CH and CL seeds of flechilla grande had similar mass, germination, and response to dehulling. CL seed size and CL seed production of punagrass increased with good range condition. Increasing the maternal, nutrient environment enhanced germination of CH seeds, CL seed size, growth rate, development, biomass and seed production more in punagrass than flechilla grande. Under low nutrient conditions, flechilla grande produced a few large CH seeds. CH progeny of punagrass grew fast and developed rapidly as compared to CL progeny, which in turn produced many CH seeds. CH and CL seeds of flechilla grande had similar contribution to the fitness of adult plants. In both species, the ecological significance of having seed heteromorphism is that sibling competition is probably reduced by having more diverse offspring. Heavy grazing of competitive species such as flechilla grande may favours species as punagrass with many small CH seeds, high potential for colonization as well as large CL seeds for persistence in the seed bank and seedling competition.

reproductive strategies in grasses

Stipa

reproductive allocation

colonization/competition strategies

seed size

seed dormancy

cleistogamy

chasmogamy

A comparative study on seed heteromorphism in<i> Achnatherum brachychaetum </i>(Godr.) Barkworth and<i> Nassella clarazii</i> (Ball) Barkworth

Lerner, Pamela Diana

03 January 2006

Seed heteromorphism related to chasmogamous (CH) and cleistogamous (CL) seeds can have different ecological significance in species with different functional characteristics, competitive ability and palatability. Punagrass [<i>Achnatherum brachychaetum </i> (Godr.) Barkworth], an invasive, perennial grass is common in grasslands of Argentina and it is an aggressive weed in other parts of the world. <i>Flechilla grande</i> [<i>Nassella clarazii</i> (Ball) Barkworth] is a palatable perennial grass associated with the dominant "climax" vegetation in grasslands of Argentina. Seeds of the two grasses were collected from grasslands of Argentina, and growth chamber and greenhouse experiments were conducted to determine: 1) germination, dormancy breaking, and mass of CH and CL seeds of the two species 2) effects of contrasting range condition on germination and seed mass of punagrass, 3) the relative fitness of plants from CH and CL seeds, 4) if contrasting range condition affect fitness of CH plants of punagrass, and 5) the effect of maternal nutrient environments on CH and CL seeds and on fitness in the two species. Small CH seeds of high dispersal potential were less dormant than large CL seeds of low dispersal potential in punagrass. CH and CL seeds of flechilla grande had similar mass, germination, and response to dehulling. CL seed size and CL seed production of punagrass increased with good range condition. Increasing the maternal, nutrient environment enhanced germination of CH seeds, CL seed size, growth rate, development, biomass and seed production more in punagrass than flechilla grande. Under low nutrient conditions, flechilla grande produced a few large CH seeds. CH progeny of punagrass grew fast and developed rapidly as compared to CL progeny, which in turn produced many CH seeds. CH and CL seeds of flechilla grande had similar contribution to the fitness of adult plants. In both species, the ecological significance of having seed heteromorphism is that sibling competition is probably reduced by having more diverse offspring. Heavy grazing of competitive species such as flechilla grande may favours species as punagrass with many small CH seeds, high potential for colonization as well as large CL seeds for persistence in the seed bank and seedling competition.

reproductive strategies in grasses

Stipa

reproductive allocation

colonization/competition strategies

seed size

seed dormancy

cleistogamy

chasmogamy

Dynamique de population d'une légumineuse du sous-bois de la forêt landaise (Ulex europaeus) dans le cadre de la sylviculture du pin maritime : proposition d'un modèle conceptuel / Population dynamic of an undestory legume (Ulex europaeus) in the context of forestry of maritime pine in the 'Landes de Gascogne'" : Proposition for a conceptual model

Delerue, Florian

27 June 2013

La fixation symbiotique d'azote par l'ajonc d'Europe (Ulex europaeus) représente une source importante d'azote dans la forêt cultivée de pins maritimes des 'Landes de Gascogne'. Cette thèse a pour objectif la création d'un modèle conceptuel de dynamique de population de l'ajonc dans la région en vue de la prédiction du flux d'azote associé. Pour cela plusieurs étapes du cycle de vie de l'espèce ont été étudiées: la production et la prédation des graines, puis le recrutement de nouveaux individus depuis le stock de graines du sol. Nos résultats suggèrent que le maintien de cette espèce héliophile à l'ombre de la canopée des pins est facilité par la diminution de l'allocation de ressources à la reproduction, lui permettant de maintenir sa croissance, et par la diminution de la prédation des graines. Par ailleurs, le recrutement de nouveaux ajoncs semble influencé par des facteurs écologiques identifiables (e.g. humidité du sol). Mais ces facteurs sont fortement variables dans l'espace et dans le temps, et aucun micro habitat n'apparait comme plus favorable à la régénération de l'espèce. Ces résultats sont intégrés à un modèle conceptuel, représentant les différentes étapes du cycle de vie de l'espèce, et l'impact des opérations sylvicoles sur ces étapes. Les connaissances issues de cette thèse pourraient aussi bénéficier à d'autres problématiques liées à l'espèce (e.g. c'est une espèce invasive dans de nombreuses régions du monde) et à la compréhension de l'écologie de la régénération des espèces ligneuses. En effet, l'allocation des ressources à la reproduction pourrait être plastique et permettre une réponse adaptative à un environnement changeant; et la variabilité spatiotemporelle de la régénération des ligneux pourrait reposer sur l'existence de niches écologiques de régénération définies dans l'espace écologique. / Symbiotic nitrogen fixation by European gorse (Ulex europaeus) is a major source of nitrogen in the 'Landes de Gascogne' cultivated forest of maritime pine. This thesis aims to build a conceptual model of the population dynamic of gorse in the region, with a view to predict the associated flux of nitrogen. To achieve this, several steps of the life cycle of the species were studied: production and predation of seeds, and the recruitment of new plants from the seedbank.The results suggest that the maintenance of this light demanding species in the shade of the canopy of pines is improved by the decrease of reproductive allocation, which enable to maintain its growth, and by the decrease of the predation of seeds. The recruitment of new gorse plants seems controlled by identifiable ecological factors (e.g. soil moisture), however these factors are highly variable in space and time, and no specific micro-habitat appears to be more favourable for the species regeneration.These results are integrated into a conceptual model based on the different steps of the life cycle of the species, and taking into consideration the influence of forestry practices on these steps. Furthermore, the production of knowledge could benefit other subjects related to the species (e.g gorse is a noxious weed in many region in the world) and the understanding of the ecology of woody plants' regeneration. Allocation of resources to reproduction may be plastic and enable an adaptative response to a changing environment; and spatiotemporal variability of the regeneration of woody plants may rely on the existence of ecological regeneration niches defined in the ecological space.

Dynamique de population

Sous-bois

Plantes ligneuses

Modèle spatialement explicite

Allocation à la reproduction

Prédation avant la dispersion

Niche de régénération

Population dynamic

Understory

Woody plants

Spatially explicit models

Reproductive allocation

Predispersal seed predation

Regeneration niche