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Vliv vojenského managementu na krajinu a vegetaci Dokeska / Influence of military activities on vegetation diversity in Doksy regionStaněk, Ondřej January 2013 (has links)
The thesis focuses on description of specific area of Doksy region, situated in northern Bohemia. This region was affected by fifty years of military management. Vegetation composition, species richness and several environmental characteristics were measured and statistically tested to determine the effect of military area on landscape and vegetation. No significant difference in species richness, but important changes in species composition were discovered. Also the environmental (soil) characteristics of the area were probably changed by the military history of landscape. There were no major changes in Beta diversity uncovered, probably because of different management leading to the same resulting changes applied in the landscape. Also four invasive plant species were found in high numbers present in the area connected with past military land-use.
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Diversidade e distribuição de anfíbios no Cerrado: o papel dos fatores históricos e dos gradientes ambientais / Diversity and distribution of anurans in Brazilian Cerrado: the role of historical factors and environmental gradientsValdujo, Paula Hanna 01 March 2011 (has links)
A integração de fatores contemporâneos locais e procesos biogeográficos fornece uma visão ampla e promissora a respeito da diversidade de espécies e seus padrões de diversidade. Utilizando ferramentas recentes para análises espaciais, eu integro fatores históricos e contemporâneos para analisar a distribuição e beta diversidade espécies de anuros do Cerrado. Forneço informações atualizadas a respeito da composição e distribuição das espécies de anuros no Cerrado, com base em um extensivo levantamento em coleções zoológicas e estudos de campo. Analiso a distribuição e beta diversidade em um contexto histórico, enfocando as relações do Cerrado com seus domínios vizinhos, e suas condições ambientais. Registrei 204 espécies de anuros no Cerrado, das quais 50% são endêmicas. Espécies que ocorrem no Cerrado e mais um domínio apresentam alta estruturação espacial, na qual espécies amazônicas estão restritas à porção noroeste e as espécies atlânticas estão restritas à porção sudeste do Cerrado. Registrei espécies endêmicas em quase todas as localidades e em todas as regiões, enquanto espécies de distribuição restrita ocorrem apenas em regiões montanhosas no centro, sudeste e sudoeste do Cerrado. Gêneros originado na Mata Atlântica e Amazonia estão distribuídos em um padrão de \"tabuleiro de xadrez\" dentro do Cerrado, e co-ocorrem menos do que seria esperado ao acaso. Essa estruturação espacial no Cerrado é influenciada pela ação combinada das condições ambientais e restrições históricas: gêneros atlânticos estão predominantemente distribuídos em áreas de montanha, com baixa precipitação e próximas ao limite com a Mata Atlântica, enquanto gêneros amazônicos estão distribuídos em vales mais próximos ao limite com a amazônia. Da mesma forma, os padrões de beta diversidade no Cerrado parece estar fortemente influenciados pelos gradientes ambientais, uma vez que metade da dissimilaridade na composição de espécies entre taxocenoses foi explicada por estes preditores. Espécies endêmica responderam às condições ambientais regionais de forma mais intensa que todas as espécies em conjunto. A resposta das espécies endêmicas parece estar relacionada na similaridade do ambiente em que ocorrem em relação aos domínios vizinhos, uma vez que suas espécies-irmãs estão principalmente distribuídas por estas regiões. Meus resultados reforçam a importância de se considerar a história biogeográfica das linhagens nas análises dos padrões regionais de disversidade. Demonstro também que a heterogeneidade na distribuição das espécies de anuros pode ter uma base histórica, que interage com restrições atuais, como o clima, disponibilidade de habitat e interações ecológicas na montagem de comunidades. / Integrating local contemporary factors and biogeographic processes allows a promising and broad view on species diversity and distribution patterns. Building on the development of new tools for spatial analysis, I integrate historical and contemporary factors that may explain species distribution and beta diversity patterns of anuran amphibians in Brazilian Cerrado. Especifically, I update information about species composition and distribution of anurans in the Cerrado, based on an extensive search in zoological collections and fieldwork. I analyze distribution and beta diversity in a historical framework, focusing on the relationship of the Cerrado with its adjoining domains, and its environmental conditions. I found 204 anuran species occurring within the Cerrado, from which 50% are endemics. Species occurring in the Cerrado and one more domain present a highly structured spatial pattern, in which Amazonian species are restricted to the northwestern part of the Cerrado and Atlantic species are restricted to the southeastern part. I found Cerrado endemics in most of the localities, in all regions, whereas narrow endemics are restricted to mountain ranges in central, southeastern, and southwestern Cerrado. Cerrado anuran genera originated in Atlantic Forest and Amazon are distributed in a checkerboard pattern, and co-occur less than it would be expected by chance. This spatial structure within the Cerrado is influenced by the interplay of environmental conditions and historical constrains: Atlantic genera are mostly distributed in mountainous and upland areas, with low precipitation and closer to the boundaries of Atlantic Forest, whereas Amazonian genera are distributed in valleys closer to the boundaries of the Amazon. Similarly, patterns of beta diversity in the Brazilian Cerrado appear to be strongly influenced by the environmental gradients, since half of the dissimilarity in species composition was explained by these predictors. Endemic species responded to regional environmental conditions stronger than all species. Endemics may be responding to environment based on how similar they are to the conditions of adjoining phytogeographical domains, since their sister-species are mostly distributed in these regions. My results reinforce the importance of taking biogeographical history into account when analyzing spatial patterns of species diversity at a regional scale. I also show that the heterogeneity in anuran distribution in the Cerrado may have a historical basis, which interacts with present-day constraints, such as climate, habitat availability and ecological interactions, to shape local and regional assemblages.
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Patterns of distribution of tree species in the neotropical lowland rainforest biomeSerrano Atuesta, Yuliett Marcela January 2018 (has links)
This thesis aims to explore distributional patterns of tree species in the neotropical lowland rain forest biome based on diversity analyses, dated phylogenies and species distribution models, using the family Sapotaceae as a case study. Sapotaceae is an abundant and diverse group in the neotropical lowland rain forest and its distributional patterns are representative of other tree clades in this biome. These characteristics make this family a good model to test ecological and biogeographic hypothesis in neotropical rain forests. An analysis of beta-diversity measured by the number of shared species was used as a test of biotic homogeneity of Morrone's (2001) widely used system of neotropical biogeographic units. Biotic homogeneity was generally low, and Morrone's (2001) biogeographic regionalisation was found not to coincide with the distributional patterns of Sapotaceae species. Divergence times of Sapotaceae species were estimated using a dated phylogeny based on DNA sequences of the nuclear ribosomal internal transcribed spacer (ITS) to explore the effects of Andean uplift, closure of the Isthmus of Panama and Pleistocene climatic changes on the evolutionary history of lowland rain forests in northern South America. The Andean uplift was found to have affected patterns of distribution by creating new habitats and altering hydrologic systems in northern South America, and in some cases by isolating lineages to the east and west of the Eastern Cordillera of the Andes. The closure of the Panama Isthmus and Pleistocene climatic changes do not seem to have strongly affected patterns of distribution or diversification in Sapotaceae. In general, the lack of congruent dates for many repeated biogeographic splits in the phylogeny (e.g., Amazon-Choco) suggests that idiosyncratic dispersal events have had a substantial effects on Sapotaceae's biogeography. Finally, species distribution models generated for Sapotaceae in the Neotropics were used to identify areas of high predicted species richness in Colombia. The highest diversity of Sapotaceae species was predicted for the inter-Andean valleys and northern Amazon. These results were compared to the current system of Protected Areas in this country, demonstrating that areas of high conservation value based on predicted species richness have a low coverage of Protected Areas. Such gaps highlight the potential need for new systems for the delimitation of basic units for conservation at national levels in Colombia.
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Environmental correlates to amphibian and reptile diversity in Costa RicaLaurencio, David Edelman 15 May 2009 (has links)
The study of species diversity patterns and their causes remains a central theme
of ecology. Work conducted over the last few decades has shown that both historical
and ecological factors are important in determining species diversity patterns.
Additionally, different causal mechanisms are important at different spatial and temporal
scales. At the regional scale, species diversity patterns can best be studied in terms of
three diversity components (alpha, beta and gamma). This study used the amphibians
and reptiles of Costa Rica to examine these species diversity components at the regional
scale. To accomplish this, existing species lists were compiled from the literature.
Additionally, three herpetofaunal surveys were conducted at under surveyed sites to fill
knowledge gaps.
A survey of Parque Nacional Carara, a transitional zone site on Costa Rica’s
central Pacific coast, gave evidence of a rich herpetofauna, containing species from both
the dry tropical forest to the north and the wet lowland forest to the south. Survey
results show that Carara’s herpetofaunal assemblage is more similar to that of the wet
forest than the dry forest, and suggest many species from both assemblages reach their
range limit at or near the park. Surveys of four sites in the eastern Área de Conservación
Guanacaste showed rich herpetofaunal diversity and validated the newly purchased Rincón Rainforest as an important conservation area. A survey of Reserva Natural
Absoluta Cabo Blanco provided a preliminary list of amphibian and reptile species of the
lower Nicoya Peninsula and highlighted the importance of Laguna Balsitas to the local
amphibian fauna. A comparison of amphibian and reptile alpha diversity among 17 sites
throughout Costa Rica showed highest alpha amphibian diversity in the lowland
rainforests of the Pacific versant and highest reptile alpha diversity in lowland
rainforests of the Atlantic versant. An analysis of beta diversity produced dendrograms
showing sites within lowland ecoregions being most similar. A Canonical
Correspondence Analysis (CCA) of environmental variables showed two climate
gradients, an elevation/temperature gradient and a sun/rain gradient, to be important in
determining species diversity patterns for both amphibians and reptiles in Costa Rica.
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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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Diversidade e distribuição de anfíbios no Cerrado: o papel dos fatores históricos e dos gradientes ambientais / Diversity and distribution of anurans in Brazilian Cerrado: the role of historical factors and environmental gradientsPaula Hanna Valdujo 01 March 2011 (has links)
A integração de fatores contemporâneos locais e procesos biogeográficos fornece uma visão ampla e promissora a respeito da diversidade de espécies e seus padrões de diversidade. Utilizando ferramentas recentes para análises espaciais, eu integro fatores históricos e contemporâneos para analisar a distribuição e beta diversidade espécies de anuros do Cerrado. Forneço informações atualizadas a respeito da composição e distribuição das espécies de anuros no Cerrado, com base em um extensivo levantamento em coleções zoológicas e estudos de campo. Analiso a distribuição e beta diversidade em um contexto histórico, enfocando as relações do Cerrado com seus domínios vizinhos, e suas condições ambientais. Registrei 204 espécies de anuros no Cerrado, das quais 50% são endêmicas. Espécies que ocorrem no Cerrado e mais um domínio apresentam alta estruturação espacial, na qual espécies amazônicas estão restritas à porção noroeste e as espécies atlânticas estão restritas à porção sudeste do Cerrado. Registrei espécies endêmicas em quase todas as localidades e em todas as regiões, enquanto espécies de distribuição restrita ocorrem apenas em regiões montanhosas no centro, sudeste e sudoeste do Cerrado. Gêneros originado na Mata Atlântica e Amazonia estão distribuídos em um padrão de \"tabuleiro de xadrez\" dentro do Cerrado, e co-ocorrem menos do que seria esperado ao acaso. Essa estruturação espacial no Cerrado é influenciada pela ação combinada das condições ambientais e restrições históricas: gêneros atlânticos estão predominantemente distribuídos em áreas de montanha, com baixa precipitação e próximas ao limite com a Mata Atlântica, enquanto gêneros amazônicos estão distribuídos em vales mais próximos ao limite com a amazônia. Da mesma forma, os padrões de beta diversidade no Cerrado parece estar fortemente influenciados pelos gradientes ambientais, uma vez que metade da dissimilaridade na composição de espécies entre taxocenoses foi explicada por estes preditores. Espécies endêmica responderam às condições ambientais regionais de forma mais intensa que todas as espécies em conjunto. A resposta das espécies endêmicas parece estar relacionada na similaridade do ambiente em que ocorrem em relação aos domínios vizinhos, uma vez que suas espécies-irmãs estão principalmente distribuídas por estas regiões. Meus resultados reforçam a importância de se considerar a história biogeográfica das linhagens nas análises dos padrões regionais de disversidade. Demonstro também que a heterogeneidade na distribuição das espécies de anuros pode ter uma base histórica, que interage com restrições atuais, como o clima, disponibilidade de habitat e interações ecológicas na montagem de comunidades. / Integrating local contemporary factors and biogeographic processes allows a promising and broad view on species diversity and distribution patterns. Building on the development of new tools for spatial analysis, I integrate historical and contemporary factors that may explain species distribution and beta diversity patterns of anuran amphibians in Brazilian Cerrado. Especifically, I update information about species composition and distribution of anurans in the Cerrado, based on an extensive search in zoological collections and fieldwork. I analyze distribution and beta diversity in a historical framework, focusing on the relationship of the Cerrado with its adjoining domains, and its environmental conditions. I found 204 anuran species occurring within the Cerrado, from which 50% are endemics. Species occurring in the Cerrado and one more domain present a highly structured spatial pattern, in which Amazonian species are restricted to the northwestern part of the Cerrado and Atlantic species are restricted to the southeastern part. I found Cerrado endemics in most of the localities, in all regions, whereas narrow endemics are restricted to mountain ranges in central, southeastern, and southwestern Cerrado. Cerrado anuran genera originated in Atlantic Forest and Amazon are distributed in a checkerboard pattern, and co-occur less than it would be expected by chance. This spatial structure within the Cerrado is influenced by the interplay of environmental conditions and historical constrains: Atlantic genera are mostly distributed in mountainous and upland areas, with low precipitation and closer to the boundaries of Atlantic Forest, whereas Amazonian genera are distributed in valleys closer to the boundaries of the Amazon. Similarly, patterns of beta diversity in the Brazilian Cerrado appear to be strongly influenced by the environmental gradients, since half of the dissimilarity in species composition was explained by these predictors. Endemic species responded to regional environmental conditions stronger than all species. Endemics may be responding to environment based on how similar they are to the conditions of adjoining phytogeographical domains, since their sister-species are mostly distributed in these regions. My results reinforce the importance of taking biogeographical history into account when analyzing spatial patterns of species diversity at a regional scale. I also show that the heterogeneity in anuran distribution in the Cerrado may have a historical basis, which interacts with present-day constraints, such as climate, habitat availability and ecological interactions, to shape local and regional assemblages.
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Microbial Diversity in the Human Gut Microbiota in Relation to Dietary Fiber Consumption of College Freshman at a Southwestern UniversityJanuary 2020 (has links)
abstract: First year college students have been identified as a vulnerable population for weight gain and the onset of overweight and obesity. Research regarding the gut microbiome has identified differences in the microbial composition of overweight and obese individuals compared to normal weight individuals. Dietary components like dietary fibers, act as prebiotics, or fermentable substrate, that the gut microbiota use for metabolic functions including the production of short-chain fatty acids. The objective of this longitudinal, observational study was to assess changes in the gut microbiota over time in relation to changes in fiber consumption in healthy college students at a large a southwestern university (n=137). Anthropometric and fecal samples were collected at the beginning and end of the fall and spring semesters between August 2015 and May 2016. Both alpha, within sample, diversity and beta, between sample, diversity of participant gut microbes were assessed longitudinally using non-parametric pairwise (pre-post) comparisons and linear mixed effect (LME) models which also adjusted for covariates and accounted for time as a random effect. Alpha and beta diversity were also explored using LME first difference metrics and LME first distance metrics, respectively, to understand rates of change over time in microbial richness/phylogeny and community structure. Pre-post comparisons of Shannon Diversity and Faith’s PD were not significantly different within participant groups of fiber change (Shannon diversity, p=0.96 and Faith’s PD, p=0.66). Beta diversity pairwise comparisons also did not differ by fiber consumption groups (Unweighted UniFrac p=0.182 and Bray Curtis p=0.657). Similarly, none of the LME models suggested significant associations between dietary fiber consumption and metrics of alpha and beta diversity. Overall, data from this study indicates that small changes in fiber consumption among a free-living population did not have an impact on gut microbial richness, phylogeny or community structure. This may have been due to the low intake (~15 g/d) of fiber. Further study is needed to fully elucidate the role that fiber plays in the diversity and composition of the gut microbiota, especially when delivered from a variety of food sources rather than fiber supplements. / Dissertation/Thesis / Masters Thesis Nutrition 2020
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Patterns of species diversity in coastal forests : case studies on tree and bird assemblages in KwaZulu-Natal, South AfricaOlivier, Pieter Ignatius January 2014 (has links)
Habitat loss and fragmentation drives the current extinction crisis. The processes through which it affects biodiversity, however, are complex and poorly understood. This is especially true for spatially complex regions that comprise a mosaic of land-use types, which often range from protected areas to dense human settlements. In such human-modified landscapes, it is important to determine the extent and impact of changing land-use patterns on biodiversity if we are to meet conservation targets or regain ecosystem services. My analyses of coastal forests in KwaZulu-Natal suggest that extensive loss of forests (82%) incurred an extinction debt, modelled to match the 11 bird species now listed as threatened locally. Forest fragments are now also smaller, fewer, further apart and more encroached by human land uses than in the past. Yet, species interactions with the gradient of habitat conditions that now surround forest fragments may have forestalled the realisation of predicted extinctions. I found that natural matrix habitats adjacent forest fragments (e.g. grasslands and woodlands) may facilitate dispersal, enable species spillover from forest fragments, and buffer forest interiors from changes in abiotic conditions associated with high contrast matrix habitats (e.g. agricultural plantations). However, when natural matrix habitats were transformed, these processes were disrupted, which suggest that the effect of landscape change on coastal forest diversity may stretch beyond forest loss per se and the deterministic extinctions predicted by conventional species-area relationships.
Next, I determined that the response of different bird species to habitat fragmentation parameters (i.e. area, connectivity and matrix habitats), depended on life-history traits such as body size, feeding guild and habitat specialization. Extinction risk was, however, not a function of species traits or the fragmentation parameter species responded to. This means that a conservation approach that only focuses on restoring a single fragmentation parameter (e.g. area) may not be successful in halting predicted extinctions, simply because multiple factors may determine extinction risk in coastal forests.
The interpretation of biodiversity patterns in fragmented landscapes may, however, also be influenced by spatial scale. I therefore used a fractal-based sampling design to test how sampling at fine, intermediate and coarse scales influences (1) beta diversity of and (2) inferences from the modelled contribution of niche- versus dispersal-based assembly processes in structuring tree and bird assemblages. I showed that inferences from beta diversity are scale dependent. As a result, studies with similar sampling effort and temporal sampling protocol, but with different sampling grains are likely to report dissimilar ecological patterns, which may ultimately lead to inappropriate conservation strategies.
This thesis provides information of how land-use changes impact on biodiversity patterns and derived processes in a human-modified landscape. It also highlights some conservation opportunities in the coastal forest landscape mosaic, where conservation and restoration actions should focus on both forest fragments and on the surrounding matrices. The conservation of natural matrices may buffer forest communities from impacts associated with high contrast habitat edges, enhance natural plant regeneration through species spillover, provide important linkages between forest fragments, boost regional diversity and allow coastal forests to track environmental change under changing climatic conditions. / Thesis (PhD)--University of Pretoria, 2014. / tm2015 / Zoology and Entomology / PhD / Unrestricted
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Sustainable management of naturally disturbed forests / Nachhaltiges Management von natürlichen Störungen in WäldernGeorgiev, Kostadin January 2021 (has links) (PDF)
Owing to climate change, natural forest disturbances and consecutive salvage logging are drastically increasing worldwide, consequently increasing the importance of understanding how these disturbances would affect biodiversity conservation and provision of ecosystem services.
In chapter II, I used long-term water monitoring data and mid-term data on α-diversity of twelve species groups to quantify the effects of natural disturbances (windthrow and bark beetle) and salvage logging on concentrations of nitrate and dissolved organic carbon (DOC) in streamwater and α-diversity. I found that natural disturbances led to a temporal increase of nitrate concentrations in streamwater, but these concentrations remained within the health limits recommended by the World Health Organization for drinking water. Salvage logging did not exert any additional impact on nitrate and DOC concentrations, and hence did not affect streamwater quality. Thus, neither natural forest disturbances in watersheds nor associated salvage logging have a harmful effect on the quality of the streamwater used for drinking water. Natural disturbances increased the α-diversity in eight out of twelve species groups. Salvage logging additionally increased the α-diversity of five species groups related to open habitats, but decreased the biodiversity of three deadwood-dependent species groups.
In chapter III, I investigated whether salvage logging following natural disturbances (wildfire and windthrow) altered the natural successional trajectories of bird communities. I compiled data on breeding bird assemblages from nine study areas in North America, Europe and Asia, over a period of 17 years and tested whether bird community dissimilarities changed over time for taxonomic, functional and phylogenetic diversity when rare, common and dominant species were weighted differently. I found that salvage logging led to significantly larger dissimilarities than expected by chance and that these dissimilarities persisted over time for rare, common and dominant species, evolutionary lineages, and for rare functional groups. Dissimilarities were highest for rare, followed by common and dominant species.
In chapter IV, I investigated how β-diversity of 13 taxonomic groups would differ in intact, undisturbed forests, disturbed, unlogged forests and salvage-logged forests 11 years after a windthrow and salvage logging. The study suggests that both windthrow and salvage logging drive changes in between-treatment β-diversity, whereas windthrow alone seems to drive changes in within-treatment β-diversity. Over a decade after the windthrow at the studied site, the effect of subsequent salvage logging on within-treatment β-diversity was no longer detectable but the effect on between-treatment β-diversity persisted, with more prominent changes in saproxylic groups and rare species than in non-saproxylic groups or common and dominant species.
Based on these results, I suggest that salvage logging needs to be carefully weighed against its long-lasting impact on communities of rare species. Also, setting aside patches of naturally disturbed areas is a valuable management alternative as these patches would enable post-disturbance succession of bird communities in unmanaged patches and would promote the conservation of deadwood-dependent species, without posing health risks to drinking water sources. / In Folge des Klimawandels treten in Wäldern vermehrt natürliche Störungen auf, wodurch wiederum die Zahl an nachfolgenden Sanitärhieben (Räumungen) drastisch gestiegen ist. Wie sich natürliche Störungen und Sanitärhiebe auf die biologische Vielfalt und die Bereitstellung von Ökosystemleistungen auswirken können, ist bisher jedoch nur unzureichend bekannt.
In Kapitel II nutzte ich langfristige Wassermonitoringdaten und mittelfristige Biodiversitätsdaten über zwölf Artengruppen, um die Effekte von natürlichen Störungen (Windwurf und Borkenkäfer) und Sanitärhieben auf die Konzentrationen von Nitraten und gelöster organischer Kohlenstoffe (GOK) in Bächen und Artenzahl zu quantifizieren. Die Ergebnisse zeigen, heraus, dass natürliche Störungen zu einer temporären Erhöhung der Nitratwerte führen, welche dennoch laut Angaben der Weltgesundheitsorganisation immer noch als unbedenklich eingestuft werden können. Die Sanitärhiebe hatten keinen zusätzlichen Einfluss auf die Nitrat- und GOK-Konzentrationen und daher keinen Einfluss auf die Wasserqualität. Daraus lässt sich schließen, dass sich weder natürliche Waldstörungen in Wassereinzugsgebieten noch die damit verbundenen Sanitärhiebe auf die Trinkwasserqualität aus auswirken. Natürliche Störungen erhöhten die Artenzahlen in acht von zwölf Artengruppen. Zusätzlich erhöhten die Sanitärhiebe die Artenzahlen von fünf Artengruppen, welche auf offene Lebensräume angewiesen sind, verringerte jedoch die Artenzahlen von drei xylobionte Artengruppen.
In Kapitel III habe ich untersucht, ob Sanitärhiebe nach natürlichen Waldstörungen zu sukzessiven Veränderungen der Vogelgemeinschaften führen. Hierzu habe ich die taxonomische, funktionelle und phylogenetische Diversität von Brutvogelgemeinschaften aus neun Untersuchungsregionen in Nordamerika, Europa und Asien über die Zeit von 17 Jahren verglichen und analysiert, ob sich das jeweilige Diversitätsmaß verändert, wenn seltene, häufige und dominante Arten unterschiedlich gewichtet werden. Ich konnte zeigen, dass Sanitärhiebe zu signifikant größeren Unterschieden geführt haben als zufällig zu erwarten gewesen sind und dass diese Unterschiede über die Zeit sowohl für seltene, häufige und dominante Arten, als auch für evolutionäre Linien, und funktionelle Gruppen fortdauern. Diese Unterschiede waren am größten für seltene, gefolgt von häufigen und dominanten Arten.
In Kapitel IV untersuchte ich wie sich die β-Diversität von 13 taxonomischen Gruppen zwischen ungestörten Wäldern, gestörten und ungeräumten Wäldern sowie gestörten und geräumten Wäldern 11 Jahre nach Windwurf und anschließender Räumung unterscheidet. Die Ergebnisse deuten darauf hin, dass sowohl Windwurf als auch Räumung Änderungen in der β-Diversität bewirken. Windwurf allein jedoch scheint diese Änderungen in der β-Diversität innerhalb der Behandlung bewirken zu können. Über ein Jahrzehnt nach dem Windwurf war der Effekt des Sanitärhiebes auf die β-Diversität innerhalb der Behandlung nicht mehr nachweisbar. Der Effekt auf die β-Diversität zwischen den Behandlungen blieb jedoch bestehen, wobei sich die xylobionten Gruppen und seltenen Arten stärker veränderten als die nicht-xylobionten Gruppen oder häufigen und dominanten Arten.
Basierend auf diesen Ergebnissen schlage ich vor, dass der Einsatz von Sanitärhieben sorgfältig gegen ihre langfristigen Auswirkungen auf Gemeinschaften seltener Arten abgewogen werden muss. Zusätzlich, besteht mit dem Belassen von natürlich gestörten Waldgebieten eine wertvolle Managementalternative, da diese Flächen eine natürliche Entwicklung von Vogelgemeinschaften ermöglichen und xylobionte Arten fördern, ohne dass die Trinkwasserqualität negativ beeinträchtigt wird.
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The assembly of island floras from a macroecological perspective.König, Christian 25 October 2018 (has links)
No description available.
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