Long-term development of different grassland insect communities in Central Europe since the 1950s / Langfristige Entwicklung verschiedener Insektengemeinschaften der Grasflächen Mitteleuropas seit den 1950er Jahren

Schuch, Sebastian

14 July 2011

No description available.

500 Naturwissenschaften

Biology (incl. Psychology)

Auchenorrhyncha

Heteroptera

Orthoptera

Individuendichte

Artenvielfalt

Artzusammensetzung

Caelifera

Ensifera

Insektenvielfalt

Naturschutzgebiet

Auchenorrhyncha

Heteroptera

Orthoptera

abundance

species richness

species composition

Caelifera

Ensifera

insect diversity

nature reserve

42.97

WN 000: Ökologie {Biologie}

Determinants of native and exotic plant species diversity and composition in remnant oak savannas on southeastern Vancouver Island

Lilley, Patrick Ledford

05 1900

Many regional and local factors can influence the distribution of native and exotic species in ecological communities. I examined the regional- and local-scale determinants of native and exotic vascular plant species richness and composition in a highly fragmented oak savanna ecosystem on southeastern Vancouver Island. In sharp contrast to most reported results, I found a negative relationship between native and exotic richness at the regional scale, and no relationship at the local scale. Two extrinsic factors, surrounding road density and climate, best explained the regional-scale relationship by each affecting natives and exotics in opposite ways. Road density and climate were also the dominant predictors of native and exotic composition at the regional scale. Patterns in the patch occupancy of individual species confirmed the importance of these factors but I found that low surrounding road densities and cool, wet conditions predicted the presence of many natives and the absence of many exotics. Environmental factors explained variation in richness and composition at the local scale, but these factors were different for natives and exotics. My results suggest that natives and exotics respond to roads and climate in fundamentally different ways. Roads increase both exotic propagule pressure and disturbance, which may facilitate exotic invasion. In contrast, disturbance from roads may increase the likelihood of local extinction for particular natives. Differing climatic preferences within the native and exotic species pools may also partially explain the observed patterns. There was no evidence that native diversity directly affects exotic diversity (or vice versa). Surprisingly, I found that connectivity was not an important predictor of richness or composition despite the high degree of habitat fragmentation in this ecosystem.

Vancouver Island

Garry oak ecosystem

oak savannas

plant community ecology

exotic species

plant invasion

species richness

species composition

habitat fragmentation

human influence

roads

disturbance

propagule pressure

environment

climate

regional and local scales

Continuous riparian vegetation change following a large, infrequent flood along the Sabie River, Kruger National Park / Philip Ayres

Ayres, Philip

January 2012

The flood of 2000 caused extensive changes within the riparian landscape of the Sabie River, Kruger National Park (KNP). Changes within the riparian landscape and the removal of vegetation resulted in considerable changes in riparian vegetation characteristics. Open patches created by the flood served as a template for the establishment of new species and the regeneration of existing species, which consequently resulted in a patch mosaic. This memorable event encouraged an investigation into the response of the Sabie River ecosystem to the memorable Large Infrequent Disturbance (LID). Riparian ecosystems are driven by varying combinations of environmental factors, such as water availability, disturbance, herbivory, fire and river morphology. This complexity depicts unique vegetation structure and assemblages of associated plant species. The lack of sufficient knowledge on the role of riparian vegetation in the health assessment of surrounding ecosystems along semi-arid rivers prompted the establishment of the Kruger Rivers Post Flood Research Program (KRPFRP). Research conducted through this monitoring program four years after the 2000 flood, revealed no significant changes in the species composition, although the location and density of many common riparian species have been changed. There was a decrease in species density across the macro channel floor (MCF) and an increase in species density across the macro channel bank (MCB). Furthermore, it was reported that the flood altered the distribution of height classes across the macro channel. In general the riparian vegetation was shorter and bushier four years post-flood. These studies furthermore illustrated that the tree to shrub ratio did not change drastically from pre-flood conditions, although a decrease in the number of shrub individuals was reported. The research presented in this dissertation was designed to further explore changes in woody species composition and structure along the Sabie River, KNP at a post flood temporal interval, i.e. between the last survey in 2004 (by the KRPFRP) and 2010. For data compatibility, the sampling and analytical approach of this study conforms to the approach followed by the KRPFRP. Data were sampled within four preselected belt-transects that form part of the larger KRPFRP. All established woody individuals were counted and measured within each contiguous 10 m x 30 m plot within each of the four belt-transects. Log transformed species composition data were analysed through the application of the Bray Curtis dissimilarity index in combination with Ward’s method of clustering. Statistical significant differences between clusters were tested through the application of the Fisher’s exact relationship test. The MIXED Procedure or PROC MIXED model was used to investigate change within the vegetation structural data. Results obtained through the various analytical methods broadly support the findings of the KRPFRP. No significant change in woody species composition could be detected between 2004 and 2010. However, a change in the density (increase and decrease) of certain species across the MCB and MCF was revealed. Species richness and density increased significantly on the MCF oppose to small changes on the MCB. A significant increase in the total number of shrubs on the MCF contributed to an overall increase in woody density for the entire study area between 2004 and 2010. Shrubs therefore remained the most dominant growth form in both sampling years. Trees decreased across the MCB although the total number of established trees remained unchanged between 2004 and 2010. Riparian vegetation structure is directly linked to species assemblages, hence the continued dominance of shrub species along the Sabie River in the KNP The Sabie River riparian landscape is therefore still characterised by short and multi-stemmed woody individuals ten years after the LID. / Thesis (MSc (Environmental Sciences))--North-West University, Potchefstroom Campus, 2013

Riparian landscapes

River morphology

Riparian vegetation

Large infrequent disturbances

Floods

Channel type

Species composition

Vegetation structure

Vegetation dynamics

Bray-Curtis Dissimilarity

Fisher’s exact relationship test

PROC MIXED model

NMDS

Continuous riparian vegetation change following a large, infrequent flood along the Sabie River, Kruger National Park / Philip Ayres

Ayres, Philip

January 2012

The flood of 2000 caused extensive changes within the riparian landscape of the Sabie River, Kruger National Park (KNP). Changes within the riparian landscape and the removal of vegetation resulted in considerable changes in riparian vegetation characteristics. Open patches created by the flood served as a template for the establishment of new species and the regeneration of existing species, which consequently resulted in a patch mosaic. This memorable event encouraged an investigation into the response of the Sabie River ecosystem to the memorable Large Infrequent Disturbance (LID). Riparian ecosystems are driven by varying combinations of environmental factors, such as water availability, disturbance, herbivory, fire and river morphology. This complexity depicts unique vegetation structure and assemblages of associated plant species. The lack of sufficient knowledge on the role of riparian vegetation in the health assessment of surrounding ecosystems along semi-arid rivers prompted the establishment of the Kruger Rivers Post Flood Research Program (KRPFRP). Research conducted through this monitoring program four years after the 2000 flood, revealed no significant changes in the species composition, although the location and density of many common riparian species have been changed. There was a decrease in species density across the macro channel floor (MCF) and an increase in species density across the macro channel bank (MCB). Furthermore, it was reported that the flood altered the distribution of height classes across the macro channel. In general the riparian vegetation was shorter and bushier four years post-flood. These studies furthermore illustrated that the tree to shrub ratio did not change drastically from pre-flood conditions, although a decrease in the number of shrub individuals was reported. The research presented in this dissertation was designed to further explore changes in woody species composition and structure along the Sabie River, KNP at a post flood temporal interval, i.e. between the last survey in 2004 (by the KRPFRP) and 2010. For data compatibility, the sampling and analytical approach of this study conforms to the approach followed by the KRPFRP. Data were sampled within four preselected belt-transects that form part of the larger KRPFRP. All established woody individuals were counted and measured within each contiguous 10 m x 30 m plot within each of the four belt-transects. Log transformed species composition data were analysed through the application of the Bray Curtis dissimilarity index in combination with Ward’s method of clustering. Statistical significant differences between clusters were tested through the application of the Fisher’s exact relationship test. The MIXED Procedure or PROC MIXED model was used to investigate change within the vegetation structural data. Results obtained through the various analytical methods broadly support the findings of the KRPFRP. No significant change in woody species composition could be detected between 2004 and 2010. However, a change in the density (increase and decrease) of certain species across the MCB and MCF was revealed. Species richness and density increased significantly on the MCF oppose to small changes on the MCB. A significant increase in the total number of shrubs on the MCF contributed to an overall increase in woody density for the entire study area between 2004 and 2010. Shrubs therefore remained the most dominant growth form in both sampling years. Trees decreased across the MCB although the total number of established trees remained unchanged between 2004 and 2010. Riparian vegetation structure is directly linked to species assemblages, hence the continued dominance of shrub species along the Sabie River in the KNP The Sabie River riparian landscape is therefore still characterised by short and multi-stemmed woody individuals ten years after the LID. / Thesis (MSc (Environmental Sciences))--North-West University, Potchefstroom Campus, 2013

Riparian landscapes

River morphology

Riparian vegetation

Large infrequent disturbances

Floods

Channel type

Species composition

Vegetation structure

Vegetation dynamics

Bray-Curtis Dissimilarity

Fisher’s exact relationship test

PROC MIXED model

NMDS

The vegetation of Maud Island, Marlborough, New Zealand

Sheldon-Sayer, Lynne

January 2006

Maud Island (Te Hoiere - "a long paddle or mighty pull") is a moderately sized island of 309 hectares, located in the Pelorus Sound (41°, 02 'S, 173° 54 'E) Marlborough, at the north-east end of the South Island of New Zealand. It has a long history of human modification and impacts since its colonisation by Maori and early Europeans. The vegetation of Maud Island has been studied in the 1980's and again in the early 1990's. The objectives of this study were to (1) describe how the vascular plant communities vary in species composition across Maud Island, (2) determine which environmental factors are important predictors of the variation in species composition of Maud Island plant communities, and (3) describe the pattern of succession of the plant communities on Maud Island over the last twenty years. In this 2001 study, I comprehensively sampled the vegetation on Maud Island using a Reconnaissance Description Procedure in a total of 158 plots across the island and compared these results to previous descriptions. I also retook photos at permanent photo points to provide a visual comparison of vegetation change. In total, 219 plant species were identified; 177 species occurred within the plots and 42 additional species were observed while walking around the coastline and walking tracks. Six dominant plant species occurred in over 70% of the plots. They were Pteridium esculentum, Pseudopanax arboreus, Hebe stricta var. stricta, Melicytus ramiflorus, Ozothamnus leptophylla and Coprosma robusta. Two-Way Indicator Species Analysis resulted in the description of eight different plant communities on the island. Detrended correspondence analysis showed a high degree of turnover in species composition among these communities. Canonical correspondence analysis showed that slope and moisture were particularly important predictors of variation in plant species composition. The environmental factors that best predicted to variation communities were slope, moisture, and a gradient in historical disturbance. Comparisons of present and past vegetation maps and photos (ground and aerial) showed, in terms of the successional pathways of the vegetation on Maud Island, that over time, the vegetation is reverting from short stature grassland and scrub to predominantly forest scrub and young secondary forest.

plant communities

species composition

Maud Island

environmental impacts

vegetation study

Effects of ecological scaling on biodiversity patterns

Antão, Laura H.

January 2018

Biodiversity is determined by a myriad of complex processes acting at different scales. Given the current rates of biodiversity loss and change, it is of paramount importance that we improve our understanding of the underlying structure of ecological communities. In this thesis, I focused on Species Abundance Distributions (SAD), as a synthetic measure of biodiversity and community structure, and on Beta (β) diversity patterns, as a description of the spatial variation of species composition. I systematically assessed the effect of scale on both these patterns, analysing a broad range of community data, including different taxa and habitats, from the terrestrial, marine and freshwater realms. Knowledge of the scaling properties of abundance and compositional patterns must be fully integrated in biodiversity research if we are to understand biodiversity and the processes underpinning it, from local to global scales. SADs depict the relative abundance of the species present in a community. Although typically described by unimodal logseries or lognormal distributions, empirical SADs can also exhibit multiple modes. However, the existence of multiple modes in SADs has largely been overlooked, assumed to be due to sampling errors or a rare pattern. Thus, we do not know how prevalent multimodality is, nor do we have an understanding of the factors leading to this pattern. Here, I provided the first global empirical assessment of the prevalence of multimodality across a wide range of taxa, habitats and spatial extents. I employed an improved method combining two model selection tools, and (conservatively) estimated that ~15% of the communities were multimodal with strong support. Furthermore, I showed that the pattern is more common for communities at broader spatial scales and with greater taxonomic diversity (i.e. more phylogenetically diverse communities, since taxonomic diversity was measured as number of families). This suggests a link between multimodality and ecological heterogeneity, broadly defined to incorporate the spatial, environmental, taxonomic and functional variability of ecological systems. Empirical understanding of how spatial scale affects SAD shape is still lacking. Here, I established a gradient in spatial scale spanning several orders of magnitude by decomposing the total extent of several datasets into smaller subsets. I performed an exploratory analysis of how SAD shape is affected by area sampled, species richness, total abundance and taxonomic diversity. Clear shifts in SAD shape can provide information about relevant ecological and spatial mechanisms affecting community structure. There was a clear effect of area, species richness and taxonomic diversity in determining SAD shape, while total abundance did not exhibit any directional effect. The results supported the findings of the previous analysis, with a higher prevalence of multimodal SADs for larger areas and for more taxonomically diverse communities, while also suggesting that species spatial aggregation patterns can be linked to SAD shape. On the other hand, there was a systematic departure from the predictions of two important macroecological theories for SAD across scales, specifically regarding logseries distributions being selected only for smaller scales and when species richness and number of families were proportionally much smaller than the total extent. β diversity quantifies the variation in species composition between sites. Although a fundamental component of biodiversity, its spatial scaling properties are still poorly understood. Here, I tested if two conceptual types of β diversity showed systematic variation with scale, while also explicitly accounting for the two β diversity components, turnover and nestedness (species replacement vs species richness differences). I provided the first empirical analysis of β diversity scaling patterns for different taxa, revealing remarkably consistent scaling curves. Total β diversity and turnover exhibit a power law decay with log area, while nestedness is largely insensitive to scale changes. For the distance decay of similarity analysis, while area sampled affected the overall dissimilarity values, rates of similarity were consistent across large variations in sampled area. Finally, in both these analyses, turnover was the main contributor to compositional change. These results suggest that species are spatially aggregated across spatial scales (from local to regional scales), while also illustrating that substantial change in community structure might occur, despite species richness remaining relatively stable. This systematic and comprehensive analysis of SAD and community similarity patterns highlighted spatial scale, ecological heterogeneity and species spatial aggregation patterns as critical components underlying the results found. This work expanded the range of scales at which both theories deriving SAD and community similarity studies have been developed and tested (from local plots to continents). The results here showed strong departures from two important macroecological theories for SAD at different scales. In addition, the overall findings in this thesis clearly indicate that unified theories of biodiversity (or assuming a set of synthetic minimal assumptions) are unable to accommodate the variability in SADs shape across spatial scales reported here, and cannot fully reproduce community similarity patterns across scales. Incorporating more realistic assumptions, or imposing scale dependent assumptions, may prove to be a fruitful avenue for ecological research regarding the scaling properties of SAD and community similarity patterns. This will allow deriving new predictions and improving the ability of theoretical models to incorporate the variability in abundance and similarity patterns across scales.

Understanding Patterns of Bird Species Distribution in the Western Ghats

Vijayakumar, Sneha

January 2015

Macroecology is the study of relationships between organisms and the environment at large spatial and temporal scales. This field of research examines patterns in species abundance, distribution and diversity. Understanding patterns in species distribution and richness can contribute significantly to our knowledge of community assembly and macroecological patterns, as well as to the effective conservation of threatened species and habitats. Although there have been a plethora of studies on birds in India over the years, there is a critical need to accurately delineate species distributions and understand patterns of richness. The focus of this study was to understand the factors (abiotic and biotic) that influence the distribution and composition of bird species in the Western Ghats, as well as to explore patterns in their geographic range sizes. The objectives of this study were addressed at the scale of the entire Western Ghats using a combination of field surveys, secondary data collection and species distribution modeling. The specific approaches to address these questions and the findings are outlined below. Chapter 2: Bird species in the Western Ghats – Patterns in composition and richness Fine-scale data on species presence and abundance are essential for exploring patterns in species distribution and richness. Despite the fact that birds have been extensively studied in the Western Ghats, systematic data collection and compilation of information over the entire mountain range has not been carried out, especially for the purpose of testing macroecological questions. This chapter describes patterns in bird species presence, abundance, composition and richness within the Western Ghats. The study area, site selection protocol and the sampling technique have also been described in detail. This dataset establishes a baseline of information about birds in the Western Ghats and subsets of this larger dataset will be used to address various questions in the following chapters. Chapter 3: Predicting bird species distribution in the Western Ghats Detailed knowledge of species’ ecological and geographical distributions is fundamental for conservation, as well as for understanding ecological and evolutionary determinants of spatial patterns of biodiversity. However, occurrence data for a vast majority of species are sparse, resulting in information about species distributions that is inadequate for many purposes. Species distribution models attempt to provide detailed predictions of distributions by relating presence or abundance of species to environmental predictors. In this chapter, we describe the usage of Maxent, a species distribution modelling technique based on presence-only data, to predict the distributions of bird species within the Western Ghats. For this purpose, we put together primary locations of bird species presence along with a published dataset. Using a number of important environmental layers, predicted species distribution maps were derived for 98 bird species, including 13 endemics, in the Western Ghats. Additionally, we calculated predicted range sizes for each of these species and obtained percentage contributions of important environmental predictors to each species’ distribution. This is the first study to develop species distribution models for bird species within the Western Ghats. Chapter 4: Patterns of range size among bird species Understanding large-scale patterns of variation in species geographic range size is fundamental to questions in macroecology and conservation biology. In general, range is believed to be influenced by a combination of environmental factors, evolutionary history and biotic interactions, mediated by species specific traits. These patterns need to be examined even for well-studied taxa like birds, especially within biodiversity hotspots faced by persistent degradation due to anthropogenic activities such as the Western Ghats. In this chapter, we use a dataset of 98 bird species within the Western Ghats to examine trends in range sizes, measured as latitudinal extent of occurrence and predicted range size from species distribution models. We show a significant relationship between latitude and range size for these bird species, supporting Rapoport’s rule. As far as we know, this relationship has never been tested at such low latitudes for birds. We also find that species traits such as body size, mean abundance and diet do not seem to show any discernable effect on patterns of range size. Additionally, we found that widely-used bird species range maps (in this case, from BirdLife International) are inaccurate representations of species ranges in comparison to the predicted species distribution maps that were derived in the previous chapter. We quantitatively demonstrated that these expert-drawn maps need to re-evaluated, especially since they are used to make conservation decisions. This is the first study to quantify species range sizes of birds within the Western Ghats and assess such range maps that are used to determine conservation status of species. Chapter 5: Environmental predictors of bird species distribution One of the major goals in ecology is to understand patterns and processes that determine species diversity. The drivers of global species richness gradients have been studied, especially in the case of birds, in terms of contemporary and historical factors. Such broad scale processes may not always reflect the processes affecting richness and distribution at smaller scales. Therefore, understanding the factors that influence individual species distributions is the first step towards this larger goal. In this chapter, we examined the environmental predictors that contributed to the predicted distribution of bird species observed in the Western Ghats, using the variable importance contribution values derived in Chapter 3. We found that a large proportion of the 98 bird species studied were influenced by normalized differential vegetation index, annual precipitation and elevation. The predictors did not differ among birds of different diet guilds and body size classes. Using Prinicipal components analysis, we observed that all 98 bird species are spread out across the environmental ordination space depicted by the PC axes 1 and 2. These axes are governed by measures of habitat heterogeneity and water-energy related variables, consistent with other tropical studies. The insectivorous guild seemed to occupy a variety of environmental niches across this space and other guilds seemed to be nested within the insectivorous guild. Similarly, larger sized birds were spread across the entire environmental ordination space, with species of smaller sizes nested within. This is the first step in trying to understand environmental predictors acting on birds in the Western Ghats. Further detailed studies need to be carried out to come to definite conclusions. Chapter 6: Relative roles of floristics and vegetation structure on bird species composition On the basis of the hierarchical model of habitat selection, it is known that birds select suitable habitats based on vegetation structure (physiognomy) at coarse biogeographic scales, and plant species composition (floristics) at more local scales. This chapter examines the relative influence of tree species composition and vegetation structure on bird species composition in the Western Ghats. These relationships were specifically assessed across the entire Western Ghats, within regions of the Western Ghats as well as within specific forest types. We found that floristics had a strong association with bird species composition across the Western Ghats and within evergreen and mixed deciduous habitat types. This association seems to be independent of the structural variation in the region. There was a decrease in association strength from the southern to the northern Western Ghats, in terms of both floristics and structure. We did not find an association between vegetation structure and insectivore composition, whereas phytophage composition did show a stronger association with floristics than structure. This is the first study at the scale of the entire Western Ghats to test the relative roles of floristics and vegetation structure. Taken as a whole, this dissertation examines large-scale macroecological questions regarding species distribution, range size and patterns of composition using primary data at the scale of the Western Ghats. The findings of this study have established a foundation that will help further our understanding of species distribution and richness in the Western Ghats, and aid in the decision making for conservation strategies in the future.

Birds Geographical Distribution

Macroecology

Western Ghats Endemic Birds

Endemic Bird Species

Maxent: Species Distribution Model

Community Ecology

Bird Community Assemblage

Western Ghats - Biodiversity Hotspot

Bird Species Composition

Ecology

Synantropní květena vesnic na gradientu nadmořské výšky v jižní části Čech / Synanthropic flora of villages on altitudinal gradient in southern part of the Czech Republic

JENČOVÁ, Dana

January 2011

The study is a floristic survey of 131 villages in southern part of South Bohemia. In total 27.773 floristic records were collected with occurence of 585 taxa of wild vascular plants recorded, 548 taxa were further used in statistical analyses. Environmental factors with potencial effect on village flora composition and diversity were recorded along or extracted from various sources. Relations of diversity (number of species) and environmental factors were studied. Species composition was compared with these variables using multivariate statistical methods.

Dinâmica de populações e comunidades de borboletas e aves ao longo do tempo / Population and community dynamics of butterflies and birds over time

Carlos Candia-Gallardo

27 April 2017

As abundâncias e identidades das espécies de qualquer comunidade biológica mudam tanto ao longo do espaço quanto do tempo. Não obstante, aspectos espaciais da biodiversidade têm sido muito mais explorados do que os temporais. Um dos motivos pelos quais padrões temporais têm recebido menos atenção é a escassez de estudos de longo prazo, especialmente na região neotropical, uma das mais biodiversas e ameaçadas do planeta. Estudar a dinâmica de populações e comunidades ao longo do tempo pode revelar processos ecológicos fundamentais, bem como descrever como pressões naturais e humanas afetam a biodiversidade. Entender a dinâmica das populações e comunidades envolve entender as histórias de vida dos organismos, como eles interagem com o ambiente, o papel de interações entre espécies, o papel de processos demográficos estocásticos, dentre outros fatores. Nesta tese investigamos a dinâmica temporal de populações e comunidades de borboletas e aves, e ao longo dos capítulos avaliamos o papel de diferentes processos na regulação dessas dinâmicas. No Capítulo 1 investigamos se um comportamento sazonal observado em borboletas Ithomiini (Nymphalidae, Danainae), supostamente adaptativo à seca - os \"bolsões de Ithomiini\"- seria uma simples resposta reativa à falta de chuvas ou se mecanismos endógenos (\"relógios biológicos\") estariam envolvidos. No Capítulo 2 realizamos um estudo de dinâmica populacional comparada de borboletas miméticas da tribo Ithomiini. Algumas evidências têm sugerido que além de convergir na morfologia, espécies co-miméticas tenderiam a convergir também no comportamento, no uso de microhabitats e possivelmente em suas dinâmicas populacionais. Testamos as hipóteses de que 1) pares de espécies co-miméticas (i.e., com a morfologia convergente) ou 2) pares de espécies mais próximas filogeneticamente teriam suas dinâmicas populacionais mais correlacionadas do que pares de espécies agrupados ao acaso. No Capítulo 3 descrevemos como a composição de espécies de assembleias de aves e borboletas de nove localidades tropicais e subtropicais na América do Sul e do Norte variou ao longo do tempo (anos a décadas), e se diferenças demográficas entre espécies (nicho) seriam importantes para explicar os padrões observados. No Capítulo 1 encontramos evidências de que a agregações seriam um comportamento endógeno sincronizado com o fotoperíodo, com plasticidade limitada para lidar com as alterações no regime de chuvas previstas para a região e para o continente. No Capítulo 2 encontramos que as dinâmicas populacionais de pares de espécies de Ithomiini de um mesmo anel mimético ou mais próximas filogeneticamente não tenderam a ser mais correlacionadas do que pares reunidos ao acaso, e que as espécies, anéis miméticos e subtribos estudadas tiveram suas dinâmicas temporais mais correlacionados do que seria esperado por acaso. Estes resultados e os do Capítulo 1 sugerem que na dinâmica desse sistema as pressões seletivas exercidas por fatores ambientais seriam mais importantes do que interações entre espécies. No Capítulo 3 mostramos que a composição de espécies de assembleias de aves na Amazônia, Cerrado, Mata Atlântica e Flórida se alterou ao longo dos anos, mesmo em assembleias de áreas bem preservadas. Sobreposta a essa rotatividade (turnover) interanual também encontramos rotatividade sazonal, previsível, na composição de espécies de assembleias de aves da Amazônia e da Mata Atlântica e na assembleia de borboletas Ithomiini. Padrões de rotatividade sazonal na composição de espécies podem ser mais comuns em comunidades neotropicais do que se imagina. As estratégias temporais dos organismos neotropicais, as quais parecem ser a base dos padrões sazonais observados nas comunidades, podem ser largamente determinadas por ritmos (\"relógios\") endógenos. Estudos sobre a regulação dos ritmos e estratégias temporais dos organismos, e dos efeitos das mudanças climáticas e do uso do solo sobre eles, são essenciais. Um importante passo nesse sentido é a disseminação de estudos de longo-prazo de populações e comunidades, contínuos, sistemáticos e com resolução para detectar padrões sazonais. Além disso, a interação das perspectivas, bases teóricas e abordagens da biologia molecular, fisiologia, cronobiologia e ecologia pode avançar nosso entendimento sobre os processos que moldam a dinâmica da biodiversidade e sobre as consequências das perturbações humanas sobre os ecossistemas / The species abundances and identities of any biological community change both over space and time. Nevertheless, Spatial biodiversity dimensions have been much more exploited than temporal ones. One of the reasons for which temporal patterns have received less attention is a scarcity of long-term studies, especially in the neotropical region, one of the most biodiverse and endangered on the planet. Studying the dynamics of populations and communities over time can reveal key ecological processes as well as describe how natural and human pressures affect biodiversity. Understanding the dynamics of populations and communities involves understanding organisms life histories, how they interact with the environment, the role of interactions among species, the role of stochastic demographic processes, and other factors. In this dissertation we investigated the temporal dynamics of butterflies and birds populations and assemblages, and throughout its chapters we evaluate the role of different processes in the regulation of dynamics. In Chapter 1 we investigated whether a seasonal behavior observed in butterflies Ithomiini (Nymphalidae, Danainae), supposedly adaptive to dissecation - the \"Ithomiini pockets \" - is a simple reactive response to drought or there is internal time-keeping mechanisms involved. In Chapter 2, we performed a comparative population dynamics study of mimetic butterflies of the Ithomiini tribe. Some evidence has suggested that besides the convergence in morphology, co-mimetic species would tend to converge also in behavior, in the use of microhabitats and possibly in their population dynamics. We hypothesized that (1) pairs of co-mimetic species or (2) pairs of species more phylogenetically related would have their population dynamics more correlated than pairs of species grouped at random. In Chapter 3 we described how species composition of bird and butterfly assemblages from nine tropical and subtropical locations in South and North America varied over time (years and decades), and if demographic differences between species (niche) are needed to explain observed patterns. In Chapter 1 we found evidence that Ithomiini pockets are regulated by internal time-keeping mechanisms synchronized to photoperiod, and that mechanism has limited plasticity to cope with rainfall regime changes predicted for the study region and for the continent as a whole. In Chapter 2 we found that the population dynamics of Ithomiini species pairs more phylogenetically related or belonging to the same mimetic ring did not tend to be more correlated than pairs assembled at random, and that the species, mimetic rings and subtribes had their temporal dynamics more correlated than would be expected By chance These results and those of Chapter 1 suggest that this system dynamics is more influenced by selective pressures exerted by environmental factors than by species interactions. In Chapter 3 we show that the composition of bird assemblages in the Amazon, Cerrado, Atlantic Rainforest, and Florida has changed over the years, even in assemblies of well-preserved areas. Superimposed to this interannual turnover we also found seasonal, predictable turnover in species composition of bird assemblages of the Amazon and Atlantic Forest and in the Ithomiini butterflies assembly. Patterns of seasonal turnover in species composition may be more common in neotropical communities than is imagined. The temporal strategies of neotropical organisms, which appear to be the basis of the seasonal patterns observed in communities, can be largely determined by endogenous rhythms (\"biological clocks\"). Studies on the regulation of organisms\' temporal rhythms and strategies, and the effects of climate change and land use on them, are essential. An important step in this direction is the dissemination of continuous, systematic, population and community long-term studies, with sampling resolution to detect seasonal patterns. In addition, the interaction of perspectives, theoretical basis, and approaches of molecular biology, physiology, chronobiology, and ecology can advance our understanding of the processes that shape biodiversity dynamics and the consequences of human disturbances on ecosystems

Composição de espécies

Estudos de longo-prazo

Marcação-recaptura

Mimetismo Mülleriano

Mudanças climáticas

Nicho temporal

Ritmos biológicos

Simulações computacionais

Teoria neutra

Biological rhythms

Climatic changes

Computational simulations

Long-term studies

Mark-recapture

Müllerian mimicry

Neutral theory

Species composition

Temporal niche

Vildsvinsbök i skogsmark – en studie i tre områden i Mellansverige

Lundquist, Kristin

January 2016

I april-juli år 2010 undersöktes tre studieområden i mellersta Sverige avseende hur fördelningen av vildsvinsbök såg ut i dessa områden. Resultaten visade att vildsvinsbök främst återfanns i miljöer dominerade av tall-och granskog där åldern på träden låg runt 45-90 år, samt med fältskikt bestående av bärris, mossa eller gräs. På två utav de tre lokalerna påverkades inte arealen på bök av faktorer såsom trädartsammansättning, trädålder eller fältskikt men det fanns däremot korrelationer mellan dessa faktorer på en utav lokalerna. Vidare påverkades arealen på bök inte av populationstäthet eller hur lång tid vildsvin förekommit i området. / In April-July in 2010, three forest dominated areas in central Sweden were studied to investigate wild boar rooting habits. The results showed that rooting mainly occurred in pine-and spruce dominated habitats where tree-ages varied between 45-90 years old and with ground surface vegetation consisting of shrubs (blueberry/lingonberry), mosses and grass. In two of the three study areas the size of rooted areas was not affected by factors such as tree species composition, forest age or vegetation ground cover, but correlations between these factors were found in one of the areas. The size of rooted areas was not affected by the population density or the time with wild boar present in the area.

wild boar

rooting

wild boar rooting

forest

tree species composition

forest age

ground surface vegetation

vildsvin

bök

vildsvinsbök

skogsmark

trädartsammansättning

trädålder

fältskikt

Ecology

Ekologi

Miljö- och naturvårdsvetenskap