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Author: Gregor-Fausto Siegmund
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
The study of life histories focuses on how evolution molds the life cycles of organisms and on the consequences of those life cycles for the demography and ecology of organisms. Plants exhibit a fantastic array of life history strategies for coping with environmental variability, including delayed germination that creates long-lived soil seed banks and years of vegetative growth followed by a single bout of flowering. In my dissertation, I revisit classic questions about the evolution and ecology of life histories in annual plants under temporal variability. Why do seed banks evolve? How does variability affect population dynamics? Does plant development alter life history strategies? I approach these questions with a variety of methods, from analyzing empirical data to simulations and theory. In Chapter 1, I develop statistical models to estimate seed mortality and germination from field experiments that ecologists regularly use to study the soil seed bank. In the next two chapters, I apply these models to empirical data to ask questions about the evolution of delayed germination and the consequences of temporal variability in demography. In Chapter 2, I test whether bet hedging explains patterns of germination in populations of the winter annual plant Clarkia xantiana ssp. xantiana. Delayed germination is predicted to act as a bet hedging trait via a trade-off between arithmetic and geometric mean fitness. Using 15 years of observations for per-capita reproductive success and estimates of seed survival and germination from a field experiment, I find that some, but not all, populations exhibit the expected trade-off. Across populations, observed germination rates are also lower than expected based on a density-independent bet hedging model. I do not find empirical support for the predictions of bet hedging theory, which suggests that understanding the evolution of delayed germination in C. xantiana ssp. xantiana will likely involve addressing factors such as density-dependence and plasticity in germination. In Chapter 3, I ask how temporal variability in demography shapes stochastic population dynamics across the range of C. xantiana ssp. xantiana. The `abundant center' hypothesis for geographic range limits predicts that vital rates and population growth rates will vary more through time in populations at the range edge than at the range center. I analyze observations from field surveys and experiments, and show that the variability of vital rates shows individualistic, vital-rate specific geographic patterns, but that variability in population growth rate is greatest at the range edge. I also conduct perturbation analyses that suggest variability has a bigger effect on population growth rate at range edges. In this chapter, I describe geographic patterns of variability and elucidate the processes that generate those patterns-closing this loop is central to understanding how life history mediates the effect of temporal variability on populations. In Chapter 4, I study the influence of plant development on the evolution of flowering time in variable environments. In plants, flowering is a critical event in the life cycle in which resources are re-allocated from growth to reproduction and meristems switch from vegetative to floral fates. I develop life history models that explicitly represent resource and meristem dynamics, and analyze the models with methods from optimal control theory. I show that both resources and meristems shape optimal flowering strategies when plants experience variability in season length. My dissertation contributes to the study of plant life histories and expands our empirical and theoretical understanding of the role of seed banks and plant development.
Author: Gregor-Fausto Siegmund
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
Get Book Here
Book Description
The study of life histories focuses on how evolution molds the life cycles of organisms and on the consequences of those life cycles for the demography and ecology of organisms. Plants exhibit a fantastic array of life history strategies for coping with environmental variability, including delayed germination that creates long-lived soil seed banks and years of vegetative growth followed by a single bout of flowering. In my dissertation, I revisit classic questions about the evolution and ecology of life histories in annual plants under temporal variability. Why do seed banks evolve? How does variability affect population dynamics? Does plant development alter life history strategies? I approach these questions with a variety of methods, from analyzing empirical data to simulations and theory. In Chapter 1, I develop statistical models to estimate seed mortality and germination from field experiments that ecologists regularly use to study the soil seed bank. In the next two chapters, I apply these models to empirical data to ask questions about the evolution of delayed germination and the consequences of temporal variability in demography. In Chapter 2, I test whether bet hedging explains patterns of germination in populations of the winter annual plant Clarkia xantiana ssp. xantiana. Delayed germination is predicted to act as a bet hedging trait via a trade-off between arithmetic and geometric mean fitness. Using 15 years of observations for per-capita reproductive success and estimates of seed survival and germination from a field experiment, I find that some, but not all, populations exhibit the expected trade-off. Across populations, observed germination rates are also lower than expected based on a density-independent bet hedging model. I do not find empirical support for the predictions of bet hedging theory, which suggests that understanding the evolution of delayed germination in C. xantiana ssp. xantiana will likely involve addressing factors such as density-dependence and plasticity in germination. In Chapter 3, I ask how temporal variability in demography shapes stochastic population dynamics across the range of C. xantiana ssp. xantiana. The `abundant center' hypothesis for geographic range limits predicts that vital rates and population growth rates will vary more through time in populations at the range edge than at the range center. I analyze observations from field surveys and experiments, and show that the variability of vital rates shows individualistic, vital-rate specific geographic patterns, but that variability in population growth rate is greatest at the range edge. I also conduct perturbation analyses that suggest variability has a bigger effect on population growth rate at range edges. In this chapter, I describe geographic patterns of variability and elucidate the processes that generate those patterns-closing this loop is central to understanding how life history mediates the effect of temporal variability on populations. In Chapter 4, I study the influence of plant development on the evolution of flowering time in variable environments. In plants, flowering is a critical event in the life cycle in which resources are re-allocated from growth to reproduction and meristems switch from vegetative to floral fates. I develop life history models that explicitly represent resource and meristem dynamics, and analyze the models with methods from optimal control theory. I show that both resources and meristems shape optimal flowering strategies when plants experience variability in season length. My dissertation contributes to the study of plant life histories and expands our empirical and theoretical understanding of the role of seed banks and plant development.
Author: Colleen K. Kelly
Publisher: Cambridge University Press
ISBN: 1107728843
Category : Science
Languages : en
Pages : 337
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Book Description
In contrast with the fundamental ecological expectation that similarity induces competition and loss of species, temporal dynamics allows similar species to co-occur. In fact, the coexistence of similar species contributes significantly to species diversity and could affect ecosystem response to climate change. However, because temporal processes take place over time, they have often been a challenge to document or even to identify. Temporal Dynamics and Ecological Process brings together studies that have met this challenge and present two specific aspects of temporal processes: reproductive scheduling and the stable coexistence of similar species. By using plants to extract general principles, these studies uncover deep ties between temporal niche dynamics and the above central ecological issues, thereby providing a better understanding of what drives temporal processes in nature. Written by leading scientists in the field, this title will be a valuable source of reference to research ecologists and those interested in temporal ecology.
Author: Mary Allessio Leck
Publisher: Cambridge University Press
ISBN: 0521873053
Category : Science
Languages : en
Pages : 514
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Book Description
Seedlings are highly sensitive to their environment. After seeds, they typically suffer the highest mortality of any life history stage. This book provides a comprehensive exploration of the seedling stage of the plant life cycle. It considers the importance of seedlings in plant communities; environmental factors with special impact on seedlings; the morphological and physiological diversity of seedlings including mycorrhizae; the relationship of the seedling with other life stages; seedling evolution; and seedlings in human altered ecosystems, including deserts, tropical rainforests, and habitat restoration projects. The diversity of seedlings is portrayed by including specialised groups like orchids, bromeliads, and parasitic and carnivorous plants. Discussions of physiology, morphology, evolution and ecology are brought together to focus on how and why seedlings are successful. This important text sets the stage for future research and is valuable to graduate students and researchers in plant ecology, botany, agriculture and conservation.
Author: Robert Klinger
Publisher: Frontiers Media SA
ISBN: 2832551734
Category : Science
Languages : en
Pages : 206
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Book Description
Numerous hypotheses have been proposed to explain the dynamics in abundance of individual species, how species interact, how communities assemble, and how interactions between biotic and abiotic processes shape ecosystem stability. Many if not most of these hypotheses find some degree of support, but often only within relatively narrow spatial and temporal ranges. This is because conditions vary over time and from place to place, and so the strength and extent of processes that were the focus of a given a hypothesis become altered by other forces. Ecologists have confronted variability from two perspectives; conceptual and statistical. Conceptually, spatial and temporal variability are now recognized as being scale dependent and hierarchical. Statistically, there are many models that ecologists readily use that account for the hierarchical and scale-dependence of variability present in many datasets. But linking the two perspectives into a meaningful understanding of what variability means in real systems has been much less successful. For example, it is common to see studies where the fixed effects of a generalized linear mixed model are reported, but very often random effects are completely ignored or, at best, given scant attention. The likelihood of this being a significant problem increases greatly in what are rapidly becoming more common studies that utilize datasets spanning long temporal and/or large spatial scales, or when extreme and often unpredictable events (gray and black swans) occur.
Author: Jelte Rozema
Publisher: Springer Science & Business Media
ISBN: 1402044437
Category : Science
Languages : en
Pages : 260
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Book Description
This book focuses on how climate affects or affected the biosphere and vice versa both in the present and in the past. The chapters describe how ecosystems from the Antarctic and Arctic, and from other latitudes, respond to global climate change. The papers highlight plant responses to atmospheric CO2 increase, to global warming and to increased ultraviolet-B radiation as a result of stratospheric ozone depletion.
Author: Lawrence D. Harder
Publisher: Oxford University Press, USA
ISBN: 0198570856
Category : Nature
Languages : en
Pages : 399
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Book Description
Floral biology, floral function, sexual systems, diversification.
Author: Jens Kvist Nielsen
Publisher: Springer Science & Business Media
ISBN: 9401727767
Category : Science
Languages : en
Pages : 257
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Book Description
The 11th International Symposium on Insect-Plant Relationships (SIP11), held on August 4-10, 2001, in Helsingør, Denmark, followed the tradition of previous SIP meetings and covered topics of different levels from chemistry, physiology, and ethology to ecology, genetics, and evolution of insect-plant relationships. The present volume includes a representative selection of fully refereed papers as well as a complete list of all the contributions which were presented at the meeting. Reviews of selected topics as well as original experimental data are included. The book provides valuable information for students and research workers interested in chemical and biological aspects of interactions between individuals and populations of different organisms.
Author: David J. Gibson
Publisher: Oxford University Press, USA
ISBN: 0199671478
Category : Nature
Languages : en
Pages : 319
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Book Description
A user-friendly introduction to the methodology of plant population ecology research.
Author: Michael Begon
Publisher: John Wiley & Sons
ISBN: 1119279372
Category : Science
Languages : en
Pages : 864
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Book Description
A definitive guide to the depth and breadth of the ecological sciences, revised and updated The revised and updated fifth edition of Ecology: From Individuals to Ecosystems – now in full colour – offers students and practitioners a review of the ecological sciences. The previous editions of this book earned the authors the prestigious ‘Exceptional Life-time Achievement Award’ of the British Ecological Society – the aim for the fifth edition is not only to maintain standards but indeed to enhance its coverage of Ecology. In the first edition, 34 years ago, it seemed acceptable for ecologists to hold a comfortable, objective, not to say aloof position, from which the ecological communities around us were simply material for which we sought a scientific understanding. Now, we must accept the immediacy of the many environmental problems that threaten us and the responsibility of ecologists to play their full part in addressing these problems. This fifth edition addresses this challenge, with several chapters devoted entirely to applied topics, and examples of how ecological principles have been applied to problems facing us highlighted throughout the remaining nineteen chapters. Nonetheless, the authors remain wedded to the belief that environmental action can only ever be as sound as the ecological principles on which it is based. Hence, while trying harder than ever to help improve preparedness for addressing the environmental problems of the years ahead, the book remains, in its essence, an exposition of the science of ecology. This new edition incorporates the results from more than a thousand recent studies into a fully up-to-date text. Written for students of ecology, researchers and practitioners, the fifth edition of Ecology: From Individuals to Ecosystems is anessential reference to all aspects of ecology and addresses environmental problems of the future.
Author: Robert H. Robichaux
Publisher: University of Arizona Press
ISBN: 0816552460
Category : Science
Languages : en
Pages : 312
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Book Description
The Sonoran Desert is a distinctive biotic region that fascinates scientist, students, and nature lovers. This book offers an accessible introduction to Sonoran Desert ecology. Eight original essays by Sonoran Desert specialists provide an overview of the practice of ecology at landscape, community, and organismal scales. The essays explore the rich diversity of plant life in the Sonoran Desert and the ecological patterns and processes that underlie it. They also reveal the history and scientific legacy of the Desert Laboratory in Tucson, which has conducted research on the Sonoran Desert since 1903. Coverage includes diversity and affinities of the flora, physical environments and vegetation, landscape complexity and ecological diversity, population dynamics of annual plants, form and function of cacti, and the relationship between plants and the animals that use them as feeding and breeding resources. The text also examines the ecological consequences of modern agricultural development, as well as the impact on the modern biota of 40,000 years of change in climate, vegetation, megafauna, and ancient cultures. This comprehensive book covers a broad range of spatial and temporal scales to highlight the diversity of research being pursued in the Sonoran Desert. It is both a testament to these ongoing studies and an authoritative introduction to the diverse plant life in the region. Contents 1. Diversity and Affinities of the Flora of the Sonoran Floristic Province, Steven P. McLaughlin and Janice E. Bowers 2. Vegetation and Habitat Diversity at the Southern Edge of the Sonoran Desert, Alberto Bórquez, Angelina Martínez Yrízar, Richard S. Felger, and David Yetman 3. The Sonoran Desert: Landscape Complexity and Ecological Diversity, Joseph R. McAuliffe 4. Population Ecology of Sonoran Desert Annual Plants, D. Lawrence Venable and Catherine E. Pake 5. Form and Function of Cacti, Park S. Nobel and Michael E. Loik 6. Ecological Genetics of Cactophilic Drosophila, William J. Etges, W. R. Johnson, G. A. Duncan, G. Huckins, and W. B. Heed 7. Ecological Consequences of Agricultural Development in a Sonoran Desert Valley, Laura L. Jackson and Patricia W. Comus 8. Deep History and a Wilder West, Paul S. Martin
