Influência de fatores bióticos e abióticos na distribuição espacial e temporal de girinos em poças temporárias na Reserva Biológica Uatumã - Amazônia Central

Pegorini, Reysi Jhayne

29 August 2013

Made available in DSpace on 2015-04-22T22:12:40Z (GMT). No. of bitstreams: 1 Reysi Jhayne Pegorini.pdf: 1320238 bytes, checksum: adc3625a8f73af8fe95f5eea49051b81 (MD5) Previous issue date: 2013-08-29 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / The aim of this study was to evaluate the effects and relative importance of biotic and abiotic factors on the temporal and spatial distribution of tadpoles in temporary ponds, in Reserva Biológica do Uatumã, Central Amazon. The study area is composed of terra firme forest localized in a transitional environment between the Guiana crystalline shields and the Amazonian sedimentary basin. The species composition, richness and abundance were determined in three samplings periods during the wet season: January and February, April and June, 2012. The following variables were measured: igarapé width, width of the valley, total area of the pond, conductivity, temperature, depth of the leaf litter, canopy openness, and predator abundance. In the three sampling periods, 4.925 individuals of 20 species, distributed in 7 families, were recorded. The community did not present a uniform temporal distribution, with species substitution in each sample. Across the sampling periods, different environmental variables were responsible for the variation of community composition, such as canopy openness, conductivity and depth of the leaf litter. Nevertheless, when the three sampling periods were analyzed together, effects of depth of the leaf litter, width of the valley and vertebrate prey abundance were detected. These results suggest that pond habitats fluctuate over time. The majority of studies on tadpole communities found strong correlation of community structure and predators, as in this study. Invertebrate predators that use temporary ponds generally have short life cycles and may use the same resources as the tadpoles, operating more as potential competitors than predators. In this study vertebrate predators (fish) were the main structuring force on tadpole community in temporary ponds. In tropical pond systems, they are considered the main predators of tadpoles; they can eliminate entire populations within these environments, mainly in temporary ponds. Therefore, samplings on a single wet season are not sufficient to detect patterns of community structure, mainly when the organisms have short life cycles as the tadpoles in temporary ponds. / Este trabalho teve por objetivos avaliar os efeitos e a importância relativa de fatores abióticos e biótico sobre a distribuição espacial e temporal de girinos em poças temporárias, na Reserva Biológica do Uatumã, Amazônia Central. A área de estudo é composta por floresta de terra firme e está localizada em ambiente de transição entre os escudos cristalinos da Guiana e bacia sedimentar Amazônica. A abundância, riqueza e composição de espécies foram determinadas em três eventos de amostragem durante a estação chuvosa: janeiro e fevereiro, abril e junho de 2012. As variáveis medidas foram: largura do Igarapé, área do baixio, área total da poça, condutividade, temperatura, profundidade do folhiço, abertura de dossel e abundância de predadores. Nos três períodos de amostragem, foram registrados 4.925 indivíduos pertencentes a 20 espécies, distribuídas em 7 famílias. A comunidade não apresentou distribuição uniforme ao longo do tempo, com substituição de espécies em cada amostragem. Entre os períodos de amostragem, diferentes variáveis ambientais foram responsáveis pela variação na composição da comunidade, como a abertura do dossel, condutividade e profundidade do folhiço. No entanto, quando analisados os três períodos de amostragem conjuntamente, foram detectados efeitos das variáveis: profundidade do folhiço, área do baixio e abundância de predadores vertebrados. Esses resultados sugerem que habitats de poças temporárias flutuam ao longo do tempo. A maioria dos estudos com comunidades de girinos encontram relações fortes da estrutura da comunidade com predadores, fato também encontrado no presente estudo. Predadores invertebrados que utilizam poças temporárias geralmente possuem ciclos de vida rápidos e podem estar utilizando os mesmos recursos que os girinos, agindo como potenciais competidores do que como predadores. Predadores vertebrados (peixes) foram os principais estruturadores da comunidade de girinos em poças temporárias no presente estudo. Em sistemas de poças tropicais, eles são considerados os principais predadores de girinos, podendo eliminar populações inteiras dentro destes ambientes, principalmente em poças temporárias. Portanto, amostragens pontuais dentro de uma estação chuvosa podem não ser suficientes para captar padrões de como a comunidade é estruturada, principalmente quando os organismos possuem ciclos de vida curtos como girinos em poças temporárias.

Composição de espécies

Estrutura da comunidade

Predadores

Variáveis ambientais

Poças temporárias

Species composition

Community structure

Predators

Environmental variables

Temporary ponds

CIÊNCIAS BIOLÓGICAS

Rodent Density and Species Composition in the Snake River Birds of Prey Natural Area, Idaho

Montan, Jon R., Jr.

01 May 1977

Rodent densities were estimated in the major vegetation types of the Snake River Birds of Prey Natural Area in 1975 and 1976 by a combination of live-trapping and kill-trapping. Only deer mice (Peromyscus maniculatus) were numerous enough to permit reliable density estimates. Relative densities of other rodent species were indicated by kill-trap capture rates. Densities of deer mice correlated well (r = 0.99) with kill-trap capture rates. The use of kill -trapping in place of live-trapping in 1976 permitted extensive sampling throughout the 1930 km2 study area. Differences were found among the major vegetation and land-use types in their ability to support the rodent species representing potential prey for feeding raptors.

rodent density

species composition

Snake River

birds of prey

Idaho

Animal Sciences

Ecology and Evolutionary Biology

Environmental Sciences

Plant Sciences

Two decades of vegetation change across tussock grasslands in New Zealand's South Island

Day, Nicola J.

January 2008

New Zealand's South Island tussock grasslands have been highly modified by human activities, including burning, grazing and introductions of exotic plants for pastoralism. Studies suggest that tussock grasslands are degraded, in that native species have declined, and exotic species have increased in both diversity and abundance. These trends are primarily thought to be related to the impacts of grazing and subsequent grazing removal. Few studies have assessed long-term changes that have occurred in tussock grasslands, and those that have are generally limited to one particular location. This thesis aimed to investigate temporal changes in community structure in tussock grasslands, and relate these changes to environmental variables and land tenure. Data were used from 90 permanently-marked vegetation transects, which were set up on 19 geographically widespread properties in areas of tussock grassland across Canterbury and Otago in the South Island of New Zealand. The transects were on land in both conservation and pastoral tenure. Each transect was 100 m, and consisted of 50 0.25 m² quadrats. The transects were measured between 1982 and 1986 (first measurement), were re-measured between 1993 and 1999 (second measurement) and again between 2005 and 2006 (third measurement). A total of 347 vascular species were observed over the 90 transects and three measurement times. Species richness declined between the first and second measurements (first time interval), and increased between the second and third measurements (second time interval), at both the small (quadrat) and large (transect) scales. Both native and exotic species declined in mean quadrat species richness during the first time interval, and then increased during the second time interval. Changes in mean quadrat species richness were similar on transects in both conservation and pastoral tenure. Multivariate analysis of species' occurrences in quadrats identified a long gradient in species composition for these 90 transects. Four key plant communities were identifed along this gradient and differed in their mean elevation: (1) Highly-modified pastoral community, (2) Short-tussock grassland community, (3) Tall-tussock grassland community, (4) Alpine mat-forming species community. A detailed investigation into temporal changes that occurred on 53 transects that occurred in short- and tall-tussock grassland communities showed that changes in species composition were not consistent over time. Transects on different properties changed in species composition by different amounts. Specifically, in ordination space, transects on two properties changed in composition significantly more than transects on one other property. The property that a transect was on also affected the way that it changed in composition, i.e. native species were more likely to have increased on transects on some properties. Transects in conservation tenure did not change in species richness or composition differently from those in pastoral tenure. Considering that many native plants in tussock grasslands are relatively slow-growing, and that these areas have been grazed and burned for more than a century, we may expect it to be some time before we can detect differences in vegetation dynamics on conservation land from that on pastoral land. The changes in the community structure of these tussock grasslands were related to a combination of environmental factors, such as soil chemistry, climate, and management factors. This study has allowed greater understanding of vegetation change in tussock grasslands, and demonstrates the importance of long-term ecological monitoring in making reliable and accurate predictions about landscape-scale changes in tussock grassland community structure.

vegetation change

plant species richness

plant species composition

management

tenure

Hieracium spp.

Chionochloa spp.

tussock grasslands

vegetation monitoring

Effects of herbivory on arctic and alpine vegetation

Lindgren, Åsa

January 2007

<p>The distribution of plant species and functional traits in alpine and arctic environments are determined by abiotic conditions, but also by biotic interactions. In this thesis, I investigate interactions among plants and herbivory effects on plant community composition and plant functional traits in three different regions: Swedish Lapland, Beringia (USA/Russia) and Finnmark (Norway). Reindeer grazing was found to be extensive in southern Lapland and had limited effects on plant community composition and seedling germination. However, reindeer presence was found to influence plant functional traits, particularly in the subalpine birch forest. Tall herbs were lower and had lower SLA when reindeer were present, while small herbs showed an opposite pattern. The contrasting effects on the two herb groups are probably explained by a competitive release for small herbs when the tall herbs are suppressed by reindeer. Rodents had the largest relative impact on plant community composition in southern Lapland and this is consistent with the study from Finnmark, where rodents heavily affected dwarf shrubs on predator-free islands. With no predators present, vole densities increased profoundly and almost depleted some dwarf shrub species. These results support the idea that small mammals in arctic and alpine tundra are controlled by predators (i.e. top-down). However, a decrease in the nutritional quality in a sedge after defoliation gives support for the idea that small mammals are regulated by plant quality (i.e. bottom-up). In Beringia, small and large herbivores differed in the relation to plant community composition, since large herbivores were related to species richness and small herbivores were related to plant abundance. Plant functional traits were related only to large herbivores and standing crop of vascular plants.</p>

herbivory

reindeer

rodents

functional traits

plant species composition

arctic

alpine

tundra

seed limitation

Carex bigelowii

Biology

Biologi

Effects of herbivory on arctic and alpine vegetation

Lindgren, Åsa

January 2007

The distribution of plant species and functional traits in alpine and arctic environments are determined by abiotic conditions, but also by biotic interactions. In this thesis, I investigate interactions among plants and herbivory effects on plant community composition and plant functional traits in three different regions: Swedish Lapland, Beringia (USA/Russia) and Finnmark (Norway). Reindeer grazing was found to be extensive in southern Lapland and had limited effects on plant community composition and seedling germination. However, reindeer presence was found to influence plant functional traits, particularly in the subalpine birch forest. Tall herbs were lower and had lower SLA when reindeer were present, while small herbs showed an opposite pattern. The contrasting effects on the two herb groups are probably explained by a competitive release for small herbs when the tall herbs are suppressed by reindeer. Rodents had the largest relative impact on plant community composition in southern Lapland and this is consistent with the study from Finnmark, where rodents heavily affected dwarf shrubs on predator-free islands. With no predators present, vole densities increased profoundly and almost depleted some dwarf shrub species. These results support the idea that small mammals in arctic and alpine tundra are controlled by predators (i.e. top-down). However, a decrease in the nutritional quality in a sedge after defoliation gives support for the idea that small mammals are regulated by plant quality (i.e. bottom-up). In Beringia, small and large herbivores differed in the relation to plant community composition, since large herbivores were related to species richness and small herbivores were related to plant abundance. Plant functional traits were related only to large herbivores and standing crop of vascular plants.

herbivory

reindeer

rodents

functional traits

plant species composition

arctic

alpine

tundra

seed limitation

Carex bigelowii

Biology

Biologi

Avian Community Patterns In The Lesser Caucasus (northeastern Turkey)

Atkin Gencoglu, Gulden

01 December 2007

ABSTRACT AVIAN COMMUNITY PATTERNS IN THE LESSER CAUCASUS (NORTHEASTERN TURKEY) ATKIN GEN&Ccedil / OgLU, G&uuml / lden M. Sc., Department of Biological Sciences Supervisor: Assoc. Prof. Dr. C. Can Bilgin December 2007, 78 pages Species composition, diversity and species-habitat relations are widely used to describe communities. This study aimed to document diversity, composition and habitat relations of avian communities of the Turkish Lesser Caucasus by using point counts and multivariate analyses. 2845 individuals of 101 bird species were observed at 215 stations located in the study area. Point counts were revealed to be a useful method for terrestrial birds, especially passerines. Species richness and diversity changed significantly within parts of the study area and one particular sub-region was found to be considerably more diverse than the other three. Division of the Lesser Caucasus region into sub-ecoregions may not be justified using bird assemblages since habitat parameters, especially the presence of woody vegetation, seemed to be a better predictor of species composition than geographical proximity. Documented bird and habitat associations provide valuable information on the factors which affect bird occurrence or abundance. Baseline data provided by this study will help detect and understand changes in bird populations in the future. Keywords: avian community, species composition, species diversity, point count method, bird-habitat relationship

QH General and Animal Ecology 540-549.5

Best land-use strategies towards sustainable biodiversity and land degradation management in semi-arid western rangelands in southern Africa, with special reference to ants as bio-indicators / Marisa Coetzee.

Coetzee, Marisa

January 2006

In South Africa, the unsustainable use of natural resources by domestic livestock has led to resource depletion and serious land degradation. Rangeland degradation, especially bush encroachment and soil erosion, is particularly acute in the North-West Province, where all districts show signs of desertification and a loss of biodiversity resulting in a deterioration of human and animal health. This has a major impact on livestock productivity and the economic viability of livestock farming with serious consequences for the livelihoods of pastoral communities. It is important to recognise ecological change before irreversible changes occur. The aim of this study, which falls within the Global Environmental Facility Desert Margins Programme (GEF-DMP), was to investigate to what extent vegetation in combination with ant communities can be used as indicators of ecosystem change due to anthropogenic human induced land-use patterns and how can this information be used in land degradation management and biodiversity conservation in the semi-arid western rangelands of Southern Africa. Sites, representing a degradation gradient (relative poor and relative good rangeland condition extremes) within each of three Tribal-, three Commercial- and three Reserve areas, were surveyed. The impacts of these land uses on the herbaceous species composition, woody-, soil- and ant components were evaluated. Both the woody and herbaceous species components reflected the existence of a rangeland condition/degradation gradient across the larger study area. The herbaceous species composition reflected similar degradation tendencies within the Commercial and Reserve land uses, with sites being associated with low rangeland as well as high rangeland condition scores. The tendencies differed between these two land uses based on the woody degradation gradient. The entire Tribal herbaceous- and woody species components showed a transitional shift towards another state, which differed significantly from the Commercial and Reserve land uses. Both the Tribal herbaceous and woody components were associated with low to intermediate rangeland condition ranges, with no significant rangeland condition gradient existing within the Tribal land use. Understanding and quantification of the soil-vegetation dynamics hold important implications for rangeland degradation management. This study provided criteria for selecting the most appropriate measures when incorporating the soil parameters as additive data in the multivariate analyses with the vegetation, ant and nominal environmental data. Different land use practices resulted in different soil patterns, with significant gradients pertaining to the soil stratum and openness/woodiness groups. There was a significant though neglectable difference pertaining to the rangeland condition/degradation gradient based on the soil component. Ants have been extensively used as bio-indicators, also with regard to the monitoring of the environmental effects of rangeland pastoralism. Ant species compositional patterns and functional groups displayed congruent clustering and diversity patterns as those of the vegetation and soil components. In contrast to the vegetation components, ant assemblages did not reflect a degradation gradient, but rather reflected environmental changes (modifications) to the habitat structure and - heterogeneity as a result of different land use disturbances. Both vegetation and ant diversity measures were mainly associated with the Tribal land use. These diversity indices were indicators of habitat complexity, heterogeneity and moderate disturbance, rather than indicators of a rangeland condition/degradation gradient. The diversity patterns are best described by a dichotomy between the humped-shaped productivity/diversity and the habitat complexity/heterogeneity models. Vegetation and ant diversity measures for this study should be considered as environmental indicators of habitat disturbance rather than as biodiversity indicators. It is suggested that vegetation, soil and ant patterns are best described by the state-and-transition model, which encompasses both equilibrium and non-equilibrium systems. The resilient nature of these rangelands, typical of non-equilibrium systems, was reflected by the low to intermediate differences between land uses with regard to the herbaceous, woody, soil and ant components. However, densitydependent coupling of herbivores to key resources resulted in transitional shifts and modification of the vegetation composition and structure within and between land uses, displaying the equilibrium dynamics pertaining to these rangelands. Small disturbances in these rangelands may result in detrimental “snowball” interactive biotic-biotic /abiotic cascades. Spatial heterogeneous patterns within and between land uses as displayed by the vegetation, soil and ant parameters, necessitate that monitoring and management at patch, paddock and landscape scale should be conducted, cautioning against the extrapolation and over simplification of management strategies across all land uses. Because these arid rangelands are linked socio-ecological systems, it is not possible to address biophysical issues associated with land degradation without including the human dimensions. A “Key assessment matrix” is provided for monitoring and management purposes pertaining to land degradation and diversity aspects within and between the different land uses, and can be used by the land user, extension officer and scientist. / Thesis (Ph.D. (Botany))--North-West University, Potchefstroom Campus, 2007.

Land use

Rangeland condition

Degradation

Biodiversity

Species composition

Indicators

Key species

Ants

Semi-arid rangeland

Key assessment matrix

Best land-use strategies towards sustainable biodiversity and land degradation management in semi-arid western rangelands in southern Africa, with special reference to ants as bio-indicators / Marisa Coetzee.

Coetzee, Marisa

January 2006

In South Africa, the unsustainable use of natural resources by domestic livestock has led to resource depletion and serious land degradation. Rangeland degradation, especially bush encroachment and soil erosion, is particularly acute in the North-West Province, where all districts show signs of desertification and a loss of biodiversity resulting in a deterioration of human and animal health. This has a major impact on livestock productivity and the economic viability of livestock farming with serious consequences for the livelihoods of pastoral communities. It is important to recognise ecological change before irreversible changes occur. The aim of this study, which falls within the Global Environmental Facility Desert Margins Programme (GEF-DMP), was to investigate to what extent vegetation in combination with ant communities can be used as indicators of ecosystem change due to anthropogenic human induced land-use patterns and how can this information be used in land degradation management and biodiversity conservation in the semi-arid western rangelands of Southern Africa. Sites, representing a degradation gradient (relative poor and relative good rangeland condition extremes) within each of three Tribal-, three Commercial- and three Reserve areas, were surveyed. The impacts of these land uses on the herbaceous species composition, woody-, soil- and ant components were evaluated. Both the woody and herbaceous species components reflected the existence of a rangeland condition/degradation gradient across the larger study area. The herbaceous species composition reflected similar degradation tendencies within the Commercial and Reserve land uses, with sites being associated with low rangeland as well as high rangeland condition scores. The tendencies differed between these two land uses based on the woody degradation gradient. The entire Tribal herbaceous- and woody species components showed a transitional shift towards another state, which differed significantly from the Commercial and Reserve land uses. Both the Tribal herbaceous and woody components were associated with low to intermediate rangeland condition ranges, with no significant rangeland condition gradient existing within the Tribal land use. Understanding and quantification of the soil-vegetation dynamics hold important implications for rangeland degradation management. This study provided criteria for selecting the most appropriate measures when incorporating the soil parameters as additive data in the multivariate analyses with the vegetation, ant and nominal environmental data. Different land use practices resulted in different soil patterns, with significant gradients pertaining to the soil stratum and openness/woodiness groups. There was a significant though neglectable difference pertaining to the rangeland condition/degradation gradient based on the soil component. Ants have been extensively used as bio-indicators, also with regard to the monitoring of the environmental effects of rangeland pastoralism. Ant species compositional patterns and functional groups displayed congruent clustering and diversity patterns as those of the vegetation and soil components. In contrast to the vegetation components, ant assemblages did not reflect a degradation gradient, but rather reflected environmental changes (modifications) to the habitat structure and - heterogeneity as a result of different land use disturbances. Both vegetation and ant diversity measures were mainly associated with the Tribal land use. These diversity indices were indicators of habitat complexity, heterogeneity and moderate disturbance, rather than indicators of a rangeland condition/degradation gradient. The diversity patterns are best described by a dichotomy between the humped-shaped productivity/diversity and the habitat complexity/heterogeneity models. Vegetation and ant diversity measures for this study should be considered as environmental indicators of habitat disturbance rather than as biodiversity indicators. It is suggested that vegetation, soil and ant patterns are best described by the state-and-transition model, which encompasses both equilibrium and non-equilibrium systems. The resilient nature of these rangelands, typical of non-equilibrium systems, was reflected by the low to intermediate differences between land uses with regard to the herbaceous, woody, soil and ant components. However, densitydependent coupling of herbivores to key resources resulted in transitional shifts and modification of the vegetation composition and structure within and between land uses, displaying the equilibrium dynamics pertaining to these rangelands. Small disturbances in these rangelands may result in detrimental “snowball” interactive biotic-biotic /abiotic cascades. Spatial heterogeneous patterns within and between land uses as displayed by the vegetation, soil and ant parameters, necessitate that monitoring and management at patch, paddock and landscape scale should be conducted, cautioning against the extrapolation and over simplification of management strategies across all land uses. Because these arid rangelands are linked socio-ecological systems, it is not possible to address biophysical issues associated with land degradation without including the human dimensions. A “Key assessment matrix” is provided for monitoring and management purposes pertaining to land degradation and diversity aspects within and between the different land uses, and can be used by the land user, extension officer and scientist. / Thesis (Ph.D. (Botany))--North-West University, Potchefstroom Campus, 2007.

Land use

Rangeland condition

Degradation

Biodiversity

Species composition

Indicators

Key species

Ants

Semi-arid rangeland

Key assessment matrix

Estrutura taxonômica, filogenética e funcional de metacomunidades de pequenos mamíferos não-voadores de ecótonos campo-floresta no sul do Brasil

Luza, André Luís

January 2013

Ecótonos campo-floresta no sul do Brasil são originados pela expansão de ecossistemas florestais sobre os campestres, um processo natural gerado por mudanças climáticas de larga escala espacial e temporal. Este processo provoca mudanças vegetacionais que consequentemente modificam os padrões de distribuição, composição e riqueza faunística. Assim, ecótonos campo-floresta são sistemas adequados para inferir sobre a influência de processos históricos, biogeográficos e ecológicos na estruturação de comunidades. Para respondermos questões relacionadas a processos agindo em diferentes escalas espaciais, distribuímos as amostragens de modo a obtermos um panorama espacial da estrutura das assembléias. Assim, a proposta de estudo desenvolvido no Capítulo I foi avaliar o papel do ambiente e de dinâmicas espaciais sobre a composição, riqueza de espécies e número de indivíduos em metacomunidades de pequenos mamíferos não-voadores de ecótonos campo-floresta. Os resultados demonstram que os componentes ambiental, espacial e a estrutura espacial do ambiente contribuem igualmente na explicação da variância na composição de espécies, enquanto o ambiente foi mais importante em explicar mudanças na riqueza de espécies e número de indivíduos. Assim, concluímos que requerimentos de nicho das espécies e processos regionais como a limitação da dispersão, o distanciamento de centros de especiação e distribuição geográfica e o processo de expansão florestal conjuntamente explicam variações na estrutura de metacomunidades de pequenos mamíferos não-voadores em ecótonos campo-floresta no Sul do Brasil. No Capítulo II, inferimos sobre os processos gerando os padrões de coexistência de pequenos mamíferos não-voadores em assembléias baseando-se em afinidades filogenéticas e funcionais. Considerando estas similaridades, avaliamos se a diferenciação de nicho ou os filtros ambientais compõem processos importantes para explicar os padrões de coexistência em escalas de hábitat, paisagem e região. Os resultados apontam um padrão de agrupamento filogenético e funcional em todas as escalas avaliadas, embora um padrão de repulsão foi registrado no interior florestal, atestando a influência da diferenciação de nicho estruturando as assembléias de pequenos mamíferos não-voadores nesta porção do gradiente campo-floresta. A predominância do padrão de agrupamento filogenético e funcional afirma a ação de filtros ambientais como processos majoritariamente importantes em explicar os padrões de coexistência de espécies e indivíduos de pequenos mamíferos não-voadores nas escalas avaliadas. Desta forma, o estudo compõem uma das primeiras tentativas para definir os processos de estruturação de assembléias de pequenos mamíferos não-voadores neotropicais combinando aspectos taxonômicos, funcionais e filogenéticos, levantando também questões de conservação da biodiversidade nos sistemas ecológicos estudados. / Grassland-forest ecotones in southern Brazil are originated by forest expansion on grasslands, a natural process generated by climate shifts in large spatial and temporal scales, which causes vegetation changes and likely affects distribution, composition and faunal richness patterns. Thus, grassland-forest ecotones in southern Brazil are suitable systems to infer about influence of historical, biogeographical and ecological processes structuring communities. In order to make these inferences, we spatially sampled non-flying small mammals to characterize the spatial structure of species assemblages. The study proposal of Chapter I was to evaluate the role of environment and spatial dynamics on the composition, species richness and individuals number of nonflying small mammals metacommunities in grassland-forest ecotones. The results shows that environment, space and spatial structure of environment explained equally variations in species composition, while environment variables was the most important component explaining changes in species richness and number of individual. Thus, we conclude that niche requirements and regional processes like dispersal limitation, increase in distance of speciation cores and geographic distribution centers and the forest expansion process explain together variation in metacommunities structure of non-flying small mammals in grassland-forest ecotones at southern Brazil. In Chapter II, we inferred the coexistence patterns of non-flying small mammals based on phylogenetic and functional affinities. Considering these ecological similarities, we evaluate whether niche differentiation or environmental filters processes are responsible for patterns of species coexistence in habitat, landscape and regional scales. Results indicated a phylogenetic and functional cluster across all evaluated scales, although phylogenetic and functional repulsion was registered at forest interior, proving the importance of niche differentiation structuring non-flying small mammals assemblages in this grassland-forest gradient portion. Prevalence of phylogenetic and functional cluster across all scales attests environmental filters as important processes explaining species and individual coexistence patterns in habitat, landscape and regional scales. Therefore, this study comprises one of first attempts to define processes underlying the structure of neotropical non-flying small mammals assemblages combining taxonomic, functional and phylogenetic aspects, concurrently addressing important questions to biodiversity conservation in the ecological systems under study.

Filogenética

Biodiversidade

Didelphimorphia

Didelphimorphia

Environmental filters

Phylogenetic clustering

Phylogenetic repulsion

Rodentia

Similarity limitation

Species composition

Species richness

Variation partitioning

Estrutura taxonômica, filogenética e funcional de metacomunidades de pequenos mamíferos não-voadores de ecótonos campo-floresta no sul do Brasil

Luza, André Luís

January 2013

Ecótonos campo-floresta no sul do Brasil são originados pela expansão de ecossistemas florestais sobre os campestres, um processo natural gerado por mudanças climáticas de larga escala espacial e temporal. Este processo provoca mudanças vegetacionais que consequentemente modificam os padrões de distribuição, composição e riqueza faunística. Assim, ecótonos campo-floresta são sistemas adequados para inferir sobre a influência de processos históricos, biogeográficos e ecológicos na estruturação de comunidades. Para respondermos questões relacionadas a processos agindo em diferentes escalas espaciais, distribuímos as amostragens de modo a obtermos um panorama espacial da estrutura das assembléias. Assim, a proposta de estudo desenvolvido no Capítulo I foi avaliar o papel do ambiente e de dinâmicas espaciais sobre a composição, riqueza de espécies e número de indivíduos em metacomunidades de pequenos mamíferos não-voadores de ecótonos campo-floresta. Os resultados demonstram que os componentes ambiental, espacial e a estrutura espacial do ambiente contribuem igualmente na explicação da variância na composição de espécies, enquanto o ambiente foi mais importante em explicar mudanças na riqueza de espécies e número de indivíduos. Assim, concluímos que requerimentos de nicho das espécies e processos regionais como a limitação da dispersão, o distanciamento de centros de especiação e distribuição geográfica e o processo de expansão florestal conjuntamente explicam variações na estrutura de metacomunidades de pequenos mamíferos não-voadores em ecótonos campo-floresta no Sul do Brasil. No Capítulo II, inferimos sobre os processos gerando os padrões de coexistência de pequenos mamíferos não-voadores em assembléias baseando-se em afinidades filogenéticas e funcionais. Considerando estas similaridades, avaliamos se a diferenciação de nicho ou os filtros ambientais compõem processos importantes para explicar os padrões de coexistência em escalas de hábitat, paisagem e região. Os resultados apontam um padrão de agrupamento filogenético e funcional em todas as escalas avaliadas, embora um padrão de repulsão foi registrado no interior florestal, atestando a influência da diferenciação de nicho estruturando as assembléias de pequenos mamíferos não-voadores nesta porção do gradiente campo-floresta. A predominância do padrão de agrupamento filogenético e funcional afirma a ação de filtros ambientais como processos majoritariamente importantes em explicar os padrões de coexistência de espécies e indivíduos de pequenos mamíferos não-voadores nas escalas avaliadas. Desta forma, o estudo compõem uma das primeiras tentativas para definir os processos de estruturação de assembléias de pequenos mamíferos não-voadores neotropicais combinando aspectos taxonômicos, funcionais e filogenéticos, levantando também questões de conservação da biodiversidade nos sistemas ecológicos estudados. / Grassland-forest ecotones in southern Brazil are originated by forest expansion on grasslands, a natural process generated by climate shifts in large spatial and temporal scales, which causes vegetation changes and likely affects distribution, composition and faunal richness patterns. Thus, grassland-forest ecotones in southern Brazil are suitable systems to infer about influence of historical, biogeographical and ecological processes structuring communities. In order to make these inferences, we spatially sampled non-flying small mammals to characterize the spatial structure of species assemblages. The study proposal of Chapter I was to evaluate the role of environment and spatial dynamics on the composition, species richness and individuals number of nonflying small mammals metacommunities in grassland-forest ecotones. The results shows that environment, space and spatial structure of environment explained equally variations in species composition, while environment variables was the most important component explaining changes in species richness and number of individual. Thus, we conclude that niche requirements and regional processes like dispersal limitation, increase in distance of speciation cores and geographic distribution centers and the forest expansion process explain together variation in metacommunities structure of non-flying small mammals in grassland-forest ecotones at southern Brazil. In Chapter II, we inferred the coexistence patterns of non-flying small mammals based on phylogenetic and functional affinities. Considering these ecological similarities, we evaluate whether niche differentiation or environmental filters processes are responsible for patterns of species coexistence in habitat, landscape and regional scales. Results indicated a phylogenetic and functional cluster across all evaluated scales, although phylogenetic and functional repulsion was registered at forest interior, proving the importance of niche differentiation structuring non-flying small mammals assemblages in this grassland-forest gradient portion. Prevalence of phylogenetic and functional cluster across all scales attests environmental filters as important processes explaining species and individual coexistence patterns in habitat, landscape and regional scales. Therefore, this study comprises one of first attempts to define processes underlying the structure of neotropical non-flying small mammals assemblages combining taxonomic, functional and phylogenetic aspects, concurrently addressing important questions to biodiversity conservation in the ecological systems under study.

Filogenética

Biodiversidade

Didelphimorphia

Didelphimorphia

Environmental filters

Phylogenetic clustering

Phylogenetic repulsion

Rodentia

Similarity limitation

Species composition

Species richness

Variation partitioning