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Local topography is more important than climate as a determinant of regional alpine plant diversity in southwestern British ColumbiaBaldwin-Corriveau, Katharine 04 September 2012 (has links)
Mountain ecosystems are considered highly sensitive to the impacts of climate change,
and are experiencing a magnitude of change that far exceeds global averages, particularly
with respect to increases in average temperature and precipitation. As such, scientists are
predicting a rapid habitat reduction or even the loss of the coolest climatic alpine zones,
thus threatening the continued survival of high elevation specialists. However, many of
these ‘doomsday’ predictions are based primarily on models with coarse-resolution
changes to atmospheric climate parameters, and do not take into account the potential
buffering effects of other environmental gradients known to structure alpine plant
communities, related to topography and soils. To assess the accuracy of predictions
regarding the state of vulnerability of alpine plant communities to climate change, this
thesis examined the relative importance of climate, topography and soils as determinants
of regional alpine plant diversity for all species, as well as for forbs, graminoids and
woody species separately, in alpine meadows of southwestern British Columbia. Through
redundancy analyses and variation partitioning, results show that topography and soils are
more important than climate as determinants of regional alpine plant diversity. Within
these groups, elevation, slope, soil moisture and mean summer temperature were most
significant. Interestingly, precipitation played only a small role, even though the study
area spanned a precipitation gradient of over 1200 mm/year. The stronger influence of
temperature, especially for woody species beta diversity, supports findings of shrub
expansion in arctic-alpine systems. The lower importance of climate as a determinant of
regional alpine plant diversity, especially for forbs, the dominant life form in alpine
meadow ecosystems, suggests that these productive environments may be more resilient
to on-going changes in atmospheric climate conditions than previously believed. / Graduate
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When and how does diversity increase group performance? a theoretical model followed by an experimental study /Roberge, Marie-Élène. January 2007 (has links)
Thesis (Ph. D.)--Ohio State University, 2007. / Title from first page of PDF file. Includes bibliographical references (p. 114-129).
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Impact of interacting disturbances on longleaf pine communitiesEstes, Becky Lynne, Gjerstad, Dean H. January 2006 (has links) (PDF)
Dissertation (Ph.D.)--Auburn University, 2006. / Abstract. Vita. Includes bibliographic references.
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Hymenopteran parasitoid diversity & tri-trophic interactions : the effects of habitat fragmentation in Wellington, New Zealand : a thesis submitted to the Victoria University of Wellington in fulfilment of the requirements for the degree of Doctor of Philosophy in Ecology and Biodiversity /Schnitzler, Franz-Rudolf. January 2008 (has links)
Thesis (Ph.D.)--Victoria University of Wellington, 2008. / Includes bibliographical references.
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Genetic and morphological diversity of natural populations of Carica papayaRieger, Jennifer Erin. January 2009 (has links)
Title from first page of PDF document. Includes bibliographical references (p. 24-26).
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The role of local government in the conservation of biodiversityKelly, Andrew Harley Heron. January 2004 (has links)
Thesis (Ph.D.)--University of Wollongong, 2004. / Typescript. Includes bibliographical references: leaf i-lxiv.
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Biodiversity prospecting agreements evaluating their economic and conservation benefits in Costa Rica and Peru /Crook, Carolyn, January 2001 (has links)
Thesis (Ph. D.)--University of Toronto, 2001. / Includes bibliographical references (leaves 161-181).
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Effects of habitat conditions and disturbance on lichen diversity : studies on lichen communities in nemoral, boreal, and grassland ecosystems /Johansson, Per. January 2006 (has links)
Thesis (doctoral)--Swedish University of Agricultural Sciences, 2006. / Thesis documentation sheet inserted. Appendix reproduces five manuscripts and journal articles co-authored with others. Includes bibliographical references. Also partially issued electronically via World Wide Web in PDF format; online version lacks appendix of papers.
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Coral symbioses under stress: spatial and temporal dynamics of coral-Symbiodinium interactionsClaar, Danielle C. 17 December 2018 (has links)
Coral reefs, the planet’s most diverse marine ecosystems, are threatened globally by climate change and locally by overfishing and pollution. The dynamic partnership between coral and their endosymbiotic algae (Symbiodinium) is the foundation of all tropical reef ecosystems. Symbiodinium provide coral with nutrients for growth, but stress can break down this symbiosis, causing coral bleaching. There are also life-history trade-offs amongst Symbiodinium types - some provide coral with more nutrition, while others are better able to cope with environmental stressors. Although these symbioses are believed to be a critical element of reef resilience, little is known about how local and global stressors alter these partnerships. In this thesis, I combine synthetic literature reviews and a meta-analysis, with field research, molecular analyses, bioinformatics, and statistical analyses to investigate environmentally-driven mechanisms of change in coral-symbiont interactions with the aim of advancing understanding of how corals will adapt to the stressors they now face.
First, I conducted a review of coral-Symbiodinium interactions, from molecules to ecosystems and summarized the current state of the field and knowledge gaps. Next, I conducted a meta-analysis of coral bleaching and mortality during El Niño events and created an open-source coral heat stress data product. I found that the 2015-2016 El Niño instigated unprecedented thermal stress on reefs globally, and that, across all El Niño events, coral bleaching and mortality were greater at locations with higher long-term mean temperatures. I provided recommendations for future bleaching surveys, and in a related perspectives piece, highlighted the importance of survey timing during prolonged coral bleaching events.
The latter three empirical chapters are based on my six field expeditions to Kiritimati (Christmas Island). Taking advantage of the atoll’s natural ecosystem-scale experiment, I tagged, sampled and tracked over 1,000 corals across its chronic human disturbance gradient. Since corals can uptake Symbiodinium from the surrounding environment, I first investigated the effect of local disturbance and winter storm waves on Symbiodinium communities in coral, sediment, and seawater. Greater variability in Symbiodinium communities at highly disturbed sites suggests that local disturbance destabilizes symbiont community structure. Since local disturbance influences Symbiodinium community structure and coral-associated microbial communities, I next examined the covariance of coral-associated Symbiodinium and microbial communities for six coral species across Kiritimati’s disturbance gradient.
Most strikingly, I found corals on Kiritimati that recovered from globally unprecedented thermal stress, experienced during the 2015-2016 El Niño, while they were still at elevated temperatures. This is notable, because no coral has previously been documented to recover from bleaching while still under heat stress. Only corals protected from local stressors exhibited this capacity. Protected corals had distinct pre-bleaching algal symbiont communities and recovered with different algal symbionts, suggesting that Symbiodinium are the mechanism of resilience and that protection governs their communities.
Together, this research provides novel evidence that local protection may be more important for coral resilience than previously thought, and that variability in symbiotic and microbial communities provides a potentially flexible mechanism for corals to respond to both local and global stressors. / Graduate / 2019-11-26
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Small Traditional Human Communities Sustain Genomic Diversity over Microgeographic Scales despite Linguistic IsolationCox, Murray P., Hudjashov, Georgi, Sim, Andre, Savina, Olga, Karafet, Tatiana M., Sudoyo, Herawati, Lansing, J. Stephen 07 June 2016 (has links)
At least since the Neolithic, humans have largely lived in networks of small, traditional communities. Often socially isolated, these groups evolved distinct languages and cultures over microgeographic scales of just tens of kilometers. Population genetic theory tells us that genetic drift should act quickly in such isolated groups, thus raising the question: do networks of small human communitiesmaintain levels of genetic diversity over microgeographic scales? This question can no longer be asked in most parts of the world, which have been heavily impacted by historical events that make traditional society structures the exception. However, such studies remain possible in parts of Island Southeast Asia and Oceania, where traditional ways of life are still practiced. We captured genome-wide genetic data, together with linguistic records, for a case-study system-eight villages distributed across Sumba, a small, remote island in eastern Indonesia. More than 4,000 years after these communities were established during the Neolithic period, most speak different languages and can be distinguished genetically. Yet their nuclear diversity is not reduced, instead being comparable to other, evenmuch larger, regional groups. Modeling reveals a separation of time scales: while languages and culture can evolve quickly, creating social barriers, sporadic migration averaged over many generations is sufficient to keep villages linked genetically. This loosely-connected network structure, once the global norm and still extant on Sumba today, provides a living proxy to explore fine-scale genome dynamics in the sort of small traditional communities within which the most recent episodes of human evolution occurred.
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