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Author: Barbara Marie Going
Publisher:
ISBN: 9781267758811
Category :
Languages : en
Pages :
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Book Description
Climatic variation, perhaps the most important force structuring the world's ecological communities, now receives growing attention from ecologists because of the incontrovertible evidence for directional climate change, including increases in variability. One of the less understood aspects of climatic impacts is how they may be mediated by intrinsic differences among natural communities, in factors such as soil fertility, functional composition, functional diversity, invasion history, and human land use. My dissertation examines how soil mediates the response of species and communities to climate at local and regional spatial scales using experimental and observational approaches. In addition, I use species functional traits as a tool to better understand the mechanisms driving community response to both natural and experimental variation in climate.First, I compared grasslands on infertile serpentine and `normal' sedimentary soils with respect to temporal variability in species richness and composition using a 10 year data set. I found that variability in species richness and composition tracked precipitation on both soils, but variability was lower in grasslands on serpentine. Communities on serpentine had species with more "stress-tolerant" traits than non-serpentine communities. Within and between soils, variability in richness and temporal turnover were lower in communities scoring lower on a multivariate index of these stress-tolerant traits. In addition, I found that within 41 species found commonly on both soils, variability was lower on serpentine and was positively correlated with community biomass. Thus, I concluded that infertile soils reduce variability indirectly by selecting for stress-tolerant traits and directly by limiting productivity, suggesting that communities on infertile soils may respond more conservatively to predicted long-term directional changes in climate than communities on soils of normal fertility. Second, in a study across a 1200-km rainfall/productivity gradient in California, I asked if dissimilarity between 96 pairs of plant communities on serpentine and adjacent non-serpentine soils is higher in wetter and more productive regions. I found that communities on serpentine soil had more "stress-tolerant" traits than non-serpentine communities regardless of the climate. Local diversity, species composition, and functional composition were all less strongly related to climate on serpentine than non-serpentine soils. As predicted, the dissimilarity between serpentine and non-serpentine communities was highest in wet and productive climates. Soil organic matter and Ca:Mg increased with increasing climatic productivity, but only on non-serpentine soils generating a difference between soils that was positively correlated with dissimilarity. These results lend support to hypothesis that increasing niche specialization along productivity gradients may contribute to the positive productivity-beta diversity relationship.Finally, in a three year study, I experimentally tested the response of serpentine and non-serpentine communities to increases (via irrigation tanks) or decreases (via rainout shelters) in spring rain. I also compared the responses of endemics and generalists to changes in spring rain in the absence or presence of competition. Peak season biomass was significantly greater in the rain addition plots in the non-serpentine grassland compared to control plots, but depended on the year. There was no effect of either rain treatment on biomass production in the serpentine grassland. The survival, biomass production, growth rates, and seed production of soil endemics and generalists were all significantly reduced by competition, but were unaffected by changes in spring rain. Overall, endemics tended to perform better in serpentine soil and generalists tended to perform better in non-serpentine soil, suggesting that soil is an important factor for the establishment and survival of endemics and generalists. The effect of competition was similar on both soil types, suggesting that species interactions may be important even in low resource habitats. In conclusion, these results suggest that special soil or low fertility plant communities may be slow to respond to changes in climate compared to communities on more fertile soil and that community response may depend on the dominant species.
Author: Barbara Marie Going
Publisher:
ISBN: 9781267758811
Category :
Languages : en
Pages :
Get Book Here
Book Description
Climatic variation, perhaps the most important force structuring the world's ecological communities, now receives growing attention from ecologists because of the incontrovertible evidence for directional climate change, including increases in variability. One of the less understood aspects of climatic impacts is how they may be mediated by intrinsic differences among natural communities, in factors such as soil fertility, functional composition, functional diversity, invasion history, and human land use. My dissertation examines how soil mediates the response of species and communities to climate at local and regional spatial scales using experimental and observational approaches. In addition, I use species functional traits as a tool to better understand the mechanisms driving community response to both natural and experimental variation in climate.First, I compared grasslands on infertile serpentine and `normal' sedimentary soils with respect to temporal variability in species richness and composition using a 10 year data set. I found that variability in species richness and composition tracked precipitation on both soils, but variability was lower in grasslands on serpentine. Communities on serpentine had species with more "stress-tolerant" traits than non-serpentine communities. Within and between soils, variability in richness and temporal turnover were lower in communities scoring lower on a multivariate index of these stress-tolerant traits. In addition, I found that within 41 species found commonly on both soils, variability was lower on serpentine and was positively correlated with community biomass. Thus, I concluded that infertile soils reduce variability indirectly by selecting for stress-tolerant traits and directly by limiting productivity, suggesting that communities on infertile soils may respond more conservatively to predicted long-term directional changes in climate than communities on soils of normal fertility. Second, in a study across a 1200-km rainfall/productivity gradient in California, I asked if dissimilarity between 96 pairs of plant communities on serpentine and adjacent non-serpentine soils is higher in wetter and more productive regions. I found that communities on serpentine soil had more "stress-tolerant" traits than non-serpentine communities regardless of the climate. Local diversity, species composition, and functional composition were all less strongly related to climate on serpentine than non-serpentine soils. As predicted, the dissimilarity between serpentine and non-serpentine communities was highest in wet and productive climates. Soil organic matter and Ca:Mg increased with increasing climatic productivity, but only on non-serpentine soils generating a difference between soils that was positively correlated with dissimilarity. These results lend support to hypothesis that increasing niche specialization along productivity gradients may contribute to the positive productivity-beta diversity relationship.Finally, in a three year study, I experimentally tested the response of serpentine and non-serpentine communities to increases (via irrigation tanks) or decreases (via rainout shelters) in spring rain. I also compared the responses of endemics and generalists to changes in spring rain in the absence or presence of competition. Peak season biomass was significantly greater in the rain addition plots in the non-serpentine grassland compared to control plots, but depended on the year. There was no effect of either rain treatment on biomass production in the serpentine grassland. The survival, biomass production, growth rates, and seed production of soil endemics and generalists were all significantly reduced by competition, but were unaffected by changes in spring rain. Overall, endemics tended to perform better in serpentine soil and generalists tended to perform better in non-serpentine soil, suggesting that soil is an important factor for the establishment and survival of endemics and generalists. The effect of competition was similar on both soil types, suggesting that species interactions may be important even in low resource habitats. In conclusion, these results suggest that special soil or low fertility plant communities may be slow to respond to changes in climate compared to communities on more fertile soil and that community response may depend on the dominant species.
Author: Susan Harrison
Publisher: Univ of California Press
ISBN: 0520948459
Category : Nature
Languages : en
Pages : 461
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Book Description
Serpentine soils have long fascinated biologists for the specialized floras they support and the challenges they pose to plant survival and growth. This volume focuses on what scientists have learned about major questions in earth history, evolution, ecology, conservation, and restoration from the study of serpentine areas, especially in California. Results from molecular studies offer insight into evolutionary patterns, while new ecological research examines both species and communities. Serpentine highlights research whose breadth provides context and fresh insights into the evolution and ecology of stressful environments.
Author: R. R. Brooks
Publisher:
ISBN:
Category : Science
Languages : en
Pages : 526
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Book Description
An exhaustive worldwide survey of serpentine soils and the characteristic vegetation that they support. It includes a continent-by-continent listing of known serpentine locations.
Author: Amy Lyn Freestone
Publisher:
ISBN:
Category :
Languages : en
Pages : 170
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Book Description
Author: Arnold van der Valk
Publisher: Springer Science & Business Media
ISBN: 904812798X
Category : Science
Languages : en
Pages : 356
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Book Description
recruitment of adult plants in entire communities, and all of them focus on changes in total densities of A central issue of plant ecology is the understanding individuals and do not refer to changes in community of the relative role of different life history stages in structure (Moles and Drake 1999; Rebollo et al. successful plant recruitment. The consecutive stages 2001; Goldberg et al. 2001). This ?eld of research of seed, seedling, and adult are related to each other has hardly been explored empirically, and we think it in a complex way that largely depends on species and may reveal interesting mechanisms for the regulation the in?uence of physical and biological factors of individual density and species diversity in plant (Goldberg et al. 2001), for example, irrigation and communities. At the functional group level (which grazing. As a result of relationships between these sorts species according to common features), we stages, the consequences of an ecological factor expect differences depending on growth form depend on the way that its effects propagate onto the (grasses versus forbs) and depending on seed mass following stage of the recruitment process. As far as (differences between small-seeded, medium-seeded, we know, there are no published studies that have and large-seeded species). Some authors (Goldberg addressed this subject. et al. 2001; Rebollo et al. 2001) studying annual In this article, we characterize the relationships plant communities have found greater seedling between the three plant developmental stages.
Author: David Seaborg
Publisher: CRC Press
ISBN: 1000826384
Category : Science
Languages : en
Pages : 557
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Book Description
This book presents a hypothesis and evidence that organisms promote and ecosystems maximize biodiversity. All species have a net positive effect on their environment, other species, and diversity. The sun is 30% hotter than when life began, but the temperature has been kept moderate by life. Life created high oxygen, the ozone layer, and fertile soil, a diverse, living system. No species evolves in isolation, and most evolution is coevolution. The nature and number of links between species are as important as species number. Eukaryotes coevolve with complex ecosystems of microbes with which they exchange genes. Genomes and intraspecific interactions both act to promote evolution and diversification. Viruses increase diversity of their hosts and cause macroevolutionary transitions. Key Features Life alters the Earth in ways that increase biodiversity All species make their environment better for other species and promote diversity Life created the life-friendly atmosphere, temperature, and soil of today
Author: Michel Loreau
Publisher: John Wiley & Sons
ISBN: 1119902908
Category : Science
Languages : en
Pages : 386
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Book Description
The idea that changes in biodiversity can impact how ecosystems function has, over the last quarter century, gone from being a controversial notion to an accepted part of science and policy. As the field matures, it is high time to review progress, explore the links between this new research area and fundamental ecological concepts, and look ahead to the implementation of this knowledge. This book is designed to both provide an up-to-date overview of research in the area and to serve as a useful textbook for those studying the relationship between biodiversity and the functioning, stability and services of ecosystems. The Ecological and Societal Consequences of Biodiversity Loss is aimed at a wide audience of upper undergraduate students, postgraduate students, and academic and research staff.
Author: Brian Larry Anacker
Publisher:
ISBN: 9781124508283
Category :
Languages : en
Pages :
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Book Description
A significant amount of plant diversity in California is associated with infertile serpentine soils. Serpentine hosts a large number of endemic species and contributes to the turnover of community composition. My dissertation examines serpentine plant diversity from a phylogenetic and functional perspective. First, I investigated the evolutionary origins and consequences of serpentine endemism in 23 genera of the California flora, finding that transitions out of serpentine endemism were rare, despite a high estimated reversal rate, and that endemism is associated with decreased rates of diversification. Next, I found that evolutionary transitions towards serpentine endemism were associated with climate divergences, but climate divergences were more likely for transitions from non-tolerator ancestors to endemism versus tolerator ancestors to endemism. Finally, at the community level, I found that soil infertility and climate had a strong filtering effect on the species and functional composition of chaparral communities. Soil infertility decreased fire frequency and fire severity, favoring obligate seeding species. Similarly, benign climates decreased fire frequency and fire severity, favoring obligate seeding species.
Author: Zehao Shen
Publisher: Frontiers Media SA
ISBN: 2889710807
Category : Science
Languages : en
Pages : 144
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Book Description
Author:
Publisher: Elsevier
ISBN: 012813576X
Category : Science
Languages : en
Pages : 2290
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Book Description
Encyclopedia of the Anthropocene, Five Volume Set presents a currency-based, global synthesis cataloguing the impact of humanity’s global ecological footprint. Covering a multitude of aspects related to Climate Change, Biodiversity, Contaminants, Geological, Energy and Ethics, leading scientists provide foundational essays that enable researchers to define and scrutinize information, ideas, relationships, meanings and ideas within the Anthropocene concept. Questions widely debated among scientists, humanists, conservationists, politicians and others are included, providing discussion on when the Anthropocene began, what to call it, whether it should be considered an official geological epoch, whether it can be contained in time, and how it will affect future generations. Although the idea that humanity has driven the planet into a new geological epoch has been around since the dawn of the 20th century, the term ‘Anthropocene’ was only first used by ecologist Eugene Stoermer in the 1980s, and hence popularized in its current meaning by atmospheric chemist Paul Crutzen in 2000. Presents comprehensive and systematic coverage of topics related to the Anthropocene, with a focus on the Geosciences and Environmental science Includes point-counterpoint articles debating key aspects of the Anthropocene, giving users an even-handed navigation of this complex area Provides historic, seminal papers and essays from leading scientists and philosophers who demonstrate changes in the Anthropocene concept over time
