Padrões de diversidade em comunidades de aves relacionadaos a varáveis de habitat em campos temperados do sudeste da América do Sul

Dias, Rafael Antunes

January 2013

Indivíduos, populações e espécies tendem a usar e selecionar habitats de modo não-aleatório. Consequentemente, a perda e a degradação de habitats geram impactos distintos sobre os organismos dependendo de seus atributos. Os efeitos da perda de habitat são claros – os organismos são eliminados ou desalojados por falta de habitat ou baixo sucesso reprodutivo. As consequências da degradação de habitat são mais sutis, e resultam na incapacidade de um ecossistema sustentar determinadas espécies. Como a perda e a degradação de habitat reduzem a disponibilidade de nichos, espera-se que táxons ecologicamente especializados e com requerimentos estreitos de nicho sejam mais propensos à extinção que generalistas. Organismos que são negativamente afetados por perda e degradação de habitat em geral exibem porte muito grande ou muito pequeno, baixa mobilidade, baixa fecundidade, reduzido recrutamento e estreitos requerimentos de nicho. Campos temperados constituem ambientes particularmente afetados por perda e degradação de habitat. No sudeste da América do Sul, como em muitas outras regiões do planeta, a expansão da agricultura e silvicultura são os principais responsáveis pela perda de habitat campestre. Os remanescentes de vegetação natural são usados para criação de gado, estando sujeitos à degradação pelo sobrepastejo, pisoteio e técnicas de manejo. Avaliar como a perda e degradação de habitat afetam a diversidade de organismos campestres é vital para o desenvolvimento de estratégias de conservação e manejo. A presente tese tem por objetivo investigar como a degradação e perda de habitat induzidas pela pecuária e silvicultura afetam a diversidade e a composição das comunidades de aves. Inicialmente, exploramos as relações entre variáveis de habitat e a composição da comunidade de aves num gradiente de altura da vegetação determinado por pastejo em campos litorâneos do Rio Grande do Sul. Posteriormente, avaliamos como variações no relevo interagem com variáveis de habitat e afetam a diversidade de aves em áreas de pecuária na Campanha gaúcha. Finalmente, avaliamos de que forma a perda de habitat resultante do estabelecimento de plantações industriais de celulose em áreas de campo afeta a composição de comunidades de aves campestres. Nossos resultados demonstram que a degradação de habitat decorrente do manejo de gado em campo nativo afeta a comunidade de aves de forma diferencial. Aves adaptadas a campos ralos ou generalistas tendem a ser beneficiadas pelo pastejo, ao passo que as espécies associadas à vegetação alta e densa são desfavorecidas. As variações na topografia reduzem os impactos da degradação de habitat nos campos. Essas variações interagem com o habitat e afetam de forma diferencial os distintos componentes da diversidade. Por outro lado, a perda de habitat decorrente da silvicultura gera um impacto de maior magnitude, alterando a composição das comunidades de aves e favorecendo aves não-campestres. Nesse contexto, impedir que novas áreas de campo nativo sejam convertidas em plantações de árvores passa a ser imperativo. Embora o manejo do gado aumente a diversidade em nível de paisagem ao criar um mosaico de manchas de vegetação de alturas distintas, maior atenção deve ser dada à manutenção e recuperação de formações densas de herbáceas de grande porte. Isso somente pode ser assegurado através de mudanças no regime do pastejo ou do desenvolvimento de técnicas de manejo alternativas. / Individuals, populations and species tend to select habitats in a non-random way. Consequently, habitat loss and degradation will have different impacts on organisms according to their traits. The effects of habitat loss are straightforward – organisms are eliminated or displaced because of the inexistence of adequate habitat or of low breeding success. Effects of habitat degradation are more subtle and result in the reduction of the capacity of an ecosystem to support some subsets of species. Since habitat loss and degradation reduce niche availability, ecologically specialized taxa with narrow niche requirements are expected to be more extinction prone than habitat generalists. Temperate grasslands have been strongly impacted by habitat loss and degradation. In southeastern South America, the expansion of agriculture and industrial pulpwood plantations are the main sources of habitat loss. Remnants of natural grassland vegetation are used for livestock ranching, being subject to habitat degradation from overgrazing, trampling and inadequate management techniques. The evaluation of how habitat loss and degradation affect the diversity of grassland organisms is vital for the development of management and conservation techniques. The main goal of this thesis is to evaluate how habitat degradation and loss related to cattle ranching and pulpwood plantations affect the diversity and composition of bird communities. We began by exploring the relationship between habitat variables and the composition of the bird community along a gradient of vegetation height determined by grazing in coastal grasslands of the state of Rio Grande do Sul. We then assessed how variations in the relief interact with habitat variables e affect the diversity of birds in rangelands of the Campanha gaúcha. Finally, we evaluated how habitat loss related with grassland afforestation for pulpwood plantations affects the composition of grassland bird communities. Our results demonstrate that habitat degradation resulting from livestock ranching in natural grasslands affects bird communities in a differential way. Birds adapted to stunted grasslands or habitat generalists tend to benefit from grazing, whereas tall-grass specialists are negatively affected. Variations in topography are responsible for reducing the impacts of habitat degradation in grasslands. These variations interact with habitat and have a differential effect on distinct components of diversity. On the other hand, the magnitude of the impact of habitat loss from afforestation is larger, altering the composition of bird communities and favoring a series of non-grassland species. In this sense, protecting remaining grasslands from afforestation is imperative. Although cattle ranching increases diversity at the landscape level by creating a mosaic of vegetation patches of different height, more attention should be given in maintaining and recovering dense formations of tall grassland plants. This can only be achieved by changing grazing regimes or developing alternative management techniques.

Aves

Diversidade vegetal

Ecologia de comunidades

Pecuária

Celulose

Habitat

Impacto ambiental

Ecological niche

Community ecology

Habitat loss and degradation

Livestock ranching

Management

Tall-grass

Short-grass

Habitat specialists

Canonical ordination

Model selection

Pulpwood

Environmental impact

Impact-reference

Eucalyptus

Campos grasslands

Padrões de diversidade em comunidades de aves relacionadaos a varáveis de habitat em campos temperados do sudeste da América do Sul

Dias, Rafael Antunes

January 2013

Indivíduos, populações e espécies tendem a usar e selecionar habitats de modo não-aleatório. Consequentemente, a perda e a degradação de habitats geram impactos distintos sobre os organismos dependendo de seus atributos. Os efeitos da perda de habitat são claros – os organismos são eliminados ou desalojados por falta de habitat ou baixo sucesso reprodutivo. As consequências da degradação de habitat são mais sutis, e resultam na incapacidade de um ecossistema sustentar determinadas espécies. Como a perda e a degradação de habitat reduzem a disponibilidade de nichos, espera-se que táxons ecologicamente especializados e com requerimentos estreitos de nicho sejam mais propensos à extinção que generalistas. Organismos que são negativamente afetados por perda e degradação de habitat em geral exibem porte muito grande ou muito pequeno, baixa mobilidade, baixa fecundidade, reduzido recrutamento e estreitos requerimentos de nicho. Campos temperados constituem ambientes particularmente afetados por perda e degradação de habitat. No sudeste da América do Sul, como em muitas outras regiões do planeta, a expansão da agricultura e silvicultura são os principais responsáveis pela perda de habitat campestre. Os remanescentes de vegetação natural são usados para criação de gado, estando sujeitos à degradação pelo sobrepastejo, pisoteio e técnicas de manejo. Avaliar como a perda e degradação de habitat afetam a diversidade de organismos campestres é vital para o desenvolvimento de estratégias de conservação e manejo. A presente tese tem por objetivo investigar como a degradação e perda de habitat induzidas pela pecuária e silvicultura afetam a diversidade e a composição das comunidades de aves. Inicialmente, exploramos as relações entre variáveis de habitat e a composição da comunidade de aves num gradiente de altura da vegetação determinado por pastejo em campos litorâneos do Rio Grande do Sul. Posteriormente, avaliamos como variações no relevo interagem com variáveis de habitat e afetam a diversidade de aves em áreas de pecuária na Campanha gaúcha. Finalmente, avaliamos de que forma a perda de habitat resultante do estabelecimento de plantações industriais de celulose em áreas de campo afeta a composição de comunidades de aves campestres. Nossos resultados demonstram que a degradação de habitat decorrente do manejo de gado em campo nativo afeta a comunidade de aves de forma diferencial. Aves adaptadas a campos ralos ou generalistas tendem a ser beneficiadas pelo pastejo, ao passo que as espécies associadas à vegetação alta e densa são desfavorecidas. As variações na topografia reduzem os impactos da degradação de habitat nos campos. Essas variações interagem com o habitat e afetam de forma diferencial os distintos componentes da diversidade. Por outro lado, a perda de habitat decorrente da silvicultura gera um impacto de maior magnitude, alterando a composição das comunidades de aves e favorecendo aves não-campestres. Nesse contexto, impedir que novas áreas de campo nativo sejam convertidas em plantações de árvores passa a ser imperativo. Embora o manejo do gado aumente a diversidade em nível de paisagem ao criar um mosaico de manchas de vegetação de alturas distintas, maior atenção deve ser dada à manutenção e recuperação de formações densas de herbáceas de grande porte. Isso somente pode ser assegurado através de mudanças no regime do pastejo ou do desenvolvimento de técnicas de manejo alternativas. / Individuals, populations and species tend to select habitats in a non-random way. Consequently, habitat loss and degradation will have different impacts on organisms according to their traits. The effects of habitat loss are straightforward – organisms are eliminated or displaced because of the inexistence of adequate habitat or of low breeding success. Effects of habitat degradation are more subtle and result in the reduction of the capacity of an ecosystem to support some subsets of species. Since habitat loss and degradation reduce niche availability, ecologically specialized taxa with narrow niche requirements are expected to be more extinction prone than habitat generalists. Temperate grasslands have been strongly impacted by habitat loss and degradation. In southeastern South America, the expansion of agriculture and industrial pulpwood plantations are the main sources of habitat loss. Remnants of natural grassland vegetation are used for livestock ranching, being subject to habitat degradation from overgrazing, trampling and inadequate management techniques. The evaluation of how habitat loss and degradation affect the diversity of grassland organisms is vital for the development of management and conservation techniques. The main goal of this thesis is to evaluate how habitat degradation and loss related to cattle ranching and pulpwood plantations affect the diversity and composition of bird communities. We began by exploring the relationship between habitat variables and the composition of the bird community along a gradient of vegetation height determined by grazing in coastal grasslands of the state of Rio Grande do Sul. We then assessed how variations in the relief interact with habitat variables e affect the diversity of birds in rangelands of the Campanha gaúcha. Finally, we evaluated how habitat loss related with grassland afforestation for pulpwood plantations affects the composition of grassland bird communities. Our results demonstrate that habitat degradation resulting from livestock ranching in natural grasslands affects bird communities in a differential way. Birds adapted to stunted grasslands or habitat generalists tend to benefit from grazing, whereas tall-grass specialists are negatively affected. Variations in topography are responsible for reducing the impacts of habitat degradation in grasslands. These variations interact with habitat and have a differential effect on distinct components of diversity. On the other hand, the magnitude of the impact of habitat loss from afforestation is larger, altering the composition of bird communities and favoring a series of non-grassland species. In this sense, protecting remaining grasslands from afforestation is imperative. Although cattle ranching increases diversity at the landscape level by creating a mosaic of vegetation patches of different height, more attention should be given in maintaining and recovering dense formations of tall grassland plants. This can only be achieved by changing grazing regimes or developing alternative management techniques.

Aves

Diversidade vegetal

Ecologia de comunidades

Pecuária

Celulose

Habitat

Impacto ambiental

Ecological niche

Community ecology

Habitat loss and degradation

Livestock ranching

Management

Tall-grass

Short-grass

Habitat specialists

Canonical ordination

Model selection

Pulpwood

Environmental impact

Impact-reference

Eucalyptus

Campos grasslands

Determinantes ecológicos do risco de extinção: abundância local, amplitude de nicho, capacidade de dispersão e a resposta das espécies de pequenos mamíferos à fragmentação florestal no Planalto Atlântico Paulista / Ecological determinants of extinction risk: local abundance, niche breadth, dispersal ability and response of small mammals to forest fragmentation at the Atlantic Plateau of São Paulo

Thais Kubik Martins

25 November 2011

Alterações antrópicas nos ecossistemas, em especial a perda e a fragmentação de habitat, são consideradas as principais causas do grande aumento nas extinções de espécies nas últimas décadas. Uma vez que o risco de extinção varia grandemente entre as espécies, os determinantes ecológicos associados à chance de extinção têm sido um tema central e muito debatido na literatura ecológica. Atributos ecológicos relacionados à raridade, como amplitude de nicho e abundância local, e a capacidade de dispersão são recorrentemente citados na literatura como determinantes do risco de extinção local. A partir de dados de ocorrência em fragmentos, matas contínuas e áreas de agricultura, e de captura-recaptura em três grades de 2 ha em mata continua, no Planalto Atlântico Paulista, investigamos o efeito desses três atributos ecológicos sobre o risco de extinção local em espécies de pequenos mamíferos. Utilizamos a abordagem de seleções de modelos e o critério de Akaike (AICc) para avaliar qual das hipóteses existentes na literatura sobre a relação destes atributos com o risco de extinção é mais plausível. Foram realizadas duas seleções de modelos: uma considerando os três atributos para sete espécies; e outra considerando apenas a amplitude de nicho e abundância local para 18 espécies. Os resultados de ambas as seleções indicam a amplitude de nicho como determinante principal do risco de extinção local, que aumenta à medida que a amplitude de nicho diminui. Abundância local apresentou uma importância secundária, com um efeito positivo sobre o risco de extinção, mas que é mais forte para espécies com menor amplitude de nicho. Este resultado é consistente com a idéia de que a abundância local é influenciada pelo grau de especialização e pela capacidade competitiva das espécies, a qual está negativamente relacionada à capacidade de colonização através de uma demanda conflitante. Como a capacidade de dispersão variou pouco entre as espécies estudadas e a capacidade de colonização é determinada também pela taxa de crescimento populacional, é possível que o risco de extinção das espécies de pequenos mamíferos especialistas de habitat seja secundariamente definido pela taxa de crescimento populacional / Anthropogenic disturbances, particularly habitat loss and fragmentation, are considered the main causes of the increased extinction rates observed in the last decades. Since the risk of extinction is extremely variable among species, the ecological determinants of the chance of extinction have been in the center of the debates in the ecological literature. Ecological traits associated with rarity, as niche breadth and local abundance, and dispersal ability are recurrently mentioned in the literature as the main determinants of the risk of local extinction. Using data on occurrence in fragments, continuous forest and areas of agriculture, and on capture-recapture in three 2-ha grids in continuous forest, in the Atlantic Plateau of São Paulo, we investigate the effects of these three ecological traits on the risk of local extinction in small mammals. We used a model selection approach and the Akaike criterion (AICc) to evaluate which of the existing hypotheses on the relationship of these traits with the extinction risk is most plausible. Two model selections were run: one considering the three traits and seven species, and another considering only niche breadth and local abundance and 18 species. The results from both selections point to niche breadth as the main determinant of the risk of local extinction. Local abundance was secondarily important, with a positive effect on extinction risk, which is stronger among the species with smaller niche breadth. This result is consistent with the idea that local abundance is influenced by species degree of ecological specialization and competitive ability, which is negatively related to colonization ability through a trade-off. As dispersal ability varied little among studied species, and colonization ability is also determined by population growth rate, it is possible that the risk of extinction among habitat specialist small mammals is secondarily defined by population growth rate

Área de vida

Capacidade de deslocamento

Demanda conflitante

Especialização ecológica

Espécies ameaçadas

Fragmentação de habitat

Movimento

Perda de habitat

Raridade

Requerimentos de habitat

Ecological specialization

Endangered species

Habitat fragmentation

Habitat loss

Habitat requirements

Home range

Movement

Rarity

Trade-off

Boreal populations facing climatic and habitat changes

Vatka, E. (Emma)

04 February 2014

Abstract Anthropogenic climate change and habitat loss and deterioration affect populations worldwide. Climate warming has changed phenologies of many species across trophic levels. Some predator populations now experience temporal mismatches with their prey, as timings of peak prey abundance and of the predator’s highest food demands no longer meet. The temporal mismatch hypothesis suggests that the population’s recruitment rate is related to its degree of synchrony with the food resources needed to feed offspring. However, species’ and populations’ responses to climate warming differ. Human land use alters and destroys habitats of countless species. For example, many boreal forest bird populations have declined, presumably due to intensive forestry. It has decreased the amount of dead wood, causing a threat to saproxylic species. Identification of the key characteristics of high-quality habitats is essential for conservation planning and for developing sustainable forestry. As individuals are suspected to settle in habitats that maximize their fitness, analysis of nest site selection can be used to identify the key habitats. My dissertation concerns the impacts of climate change and habitat deterioration on boreal populations. I use hole-nesting passerines as model species. By utilizing long-term data I show that breeding phenologies of Parus major and Poecile montanus, but not of Cyanistes caeruleus, have shifted earlier. Also, the timing of the food peak has advanced, improving the synchrony between P. montanus and caterpillars. In P. major and C. caeruleus, synchrony has remained good. However, the positive effect of good synchrony on breeding success seems to be conditional, arising only in certain circumstances, such as in years of high caterpillar abundance. I suggest that in boreal populations temperature affects timing of breeding mostly as a proximate factor. The availability of standing decaying trees used for nesting sites was the most important habitat characteristic determining the nest site selection of P. montanus. Remote sensing data alone was insufficient to produce reliable models, as the ecologically important small-scale factor can only be determined by direct field surveys. Omission of forest thinning in selected forest sites would ensure the continuous availability of decaying wood with positive influence on biodiversity in managed forests. / Tiivistelmä Ihmisen aiheuttama habitaattien katoaminen ja huononeminen sekä ilmastonmuutos vaikuttavat populaatioihin kaikkialla maailmassa. Ilmaston lämpeneminen on muuttanut monien lajien fenologioita eri trofiatasoilla. Osalla saalistajalajien populaatioista suurin ravinnontarve ei enää ajoitu samaan aikaan saaliin runsaushuipun kanssa. Ajoituksen eriaikaisuus -hypoteesin mukaan todennäköisyys populaatioon rekrytoitumiselle riippuu synkronian asteesta saaliin kanssa. Ilmaston lämpenemisen vaikutuksissa lajeihin ja populaatioihin on kuitenkin vaihtelua. Ihmisen maankäyttö muuttaa ja tuhoaa lukuisien lajien elinympäristöjä. Esimerkiksi useiden boreaalisten metsien lintupopulaatioiden pienentymistä on selitetty intensiivisellä metsätaloudella. Lahopuun määrä metsissä on vähentynyt, mikä on uhka lahopuusta riippuvaisille lajeille. Korkealaatuisten habitaattien keskeisten piirteiden tunnistaminen on tärkeää luonnonsuojelun ja kestävän metsätalouden suunnittelulle. Koska yksilöiden oletetaan valitsevan niiden kelpoisuutta maksimoivia elinympäristöjä, pesäpaikanvalinta-analyysiä voidaan käyttää tärkeiden habitaattipiirteiden tunnistamiseen. Tarkastelen väitöskirjassani ilmastonmuutoksen ja habitaattien laadun vaikutuksia boreaalisiin populaatioihin. Mallilajeina käytän koloissa pesiviä varpuslintuja. Hyödyntämällä pitkäaikaisaineistoja osoitan, että lisääntymisen ajoittuminen on aikaistunut tali- ja hömötiaisella, mutta ei sinitiaisella. Myös ravintohuippu on aikaistunut, mikä on parantanut synkroniaa hömötiaisen ja sen pääasiallisen ravinnon eli toukkien välillä. Tali- ja sinitiaisella synkronia on pysynyt hyvänä. Hyvän synkronian myönteinen vaikutus lisääntymismenestykseen vaikuttaa kuitenkin ehdolliselta: se tulee esiin vain tietyissä olosuhteissa, kuten vuosina jolloin toukkia on runsaasti. Kevään lämpötilat näyttävät vaikuttavan pesinnän ajoittumiseen erityisesti proksimaattisena tekijänä. Pesäpaikkoina toimivien seisovien lahopuiden määrä on tärkein hömötiaisen pesäpaikanvalintaa määräävä tekijä. Kaukokartoitusaineisto yksinään ei riitä luotettavien mallien tuottamiseen, sillä ekologisesti tärkeät pienen skaalan tekijät voidaan kartoittaa vain suorin maastomittauksin. Metsien harventamatta jättäminen valituilla laikuilla turvaisi lahopuun jatkuvan saatavuuden, mikä vaikuttaisi myönteisesti talousmetsien biodiversiteettiin.

Paridae

climate warming

habitat loss

insect caterpillars

multi-model inference

nest site selection

phenology

synchrony

the temporal mismatch hypothesis

Paridae

ajoituksen eriaikaisuus -hypoteesi

fenologia

habitaattien katoaminen

hyönteiset

ilmaston lämpeneminen

pesäpaikan valinta

synkronia

toukat

useiden mallien tulkinta

Ökologie der Fischbestände in Fließgewässern des Khentii-Gebirges (Mongolei): Bestandsaufbau, Dynamik und Gefährdung durch den Gold-Tagebau

Krätz, Daniel A.

25 March 2009

Die Fischfauna der Mongolei umfasst 64 Arten, von denen aktuell in der Roten Liste elf Arten als regional bedroht und vier Arten als potentiell bedroht eingestuft werden. Eine der wichtigsten Ursachen für den Rückgang der Arten ist der Gold-Tagebau. Viele Goldvorkommen lagern in alluvialen Sedimenten der Fließgewässerauen und werden durch großflächigen Abbau und mechanische Auswaschungsprozesse gewonnen. Dies führt zu erheblichen Störungen im Schwebstoff- und Stoffhaushalt der Fließgewässer und beeinflusst die Habitatverfügbarkeit und -qualität für die Fischfauna. Das primäre Ziel der Arbeit war daher die abiotische und ichthyologische Charakterisierung ausgewählter Referenzgewässer sowie durch Gold-Tagebau beeinflusster Gewässer und die Quantifizierung der Einflüsse des Gold-Tagebaus. Ein weiteres Ziel lag in der Formulierung von angepassten Managementstrategien für eine nachhaltige Entwicklung des expandierenden Bergbausektors in der Mongolei. Die Untersuchungen fanden in den Jahren 2003 bis 2006 an vier rhitralen Gewässern des Khentii-Gebirges im Nord-Osten der Mongolei statt. Die Erfassung der Fischbestände erfolgte mit Hilfe von Elektrofischfanganlagen und Reusen, wobei die vorkommenden Habitate repräsentativ erfasst wurden. Zusätzlich erfolgten Untersuchungen zum Stoffhaushalt der Gewässer und der Gewässersohle. Die relevanten Habitate wurden kartiert und Experimente zum Wanderverhalten ausgewählter Arten durchgeführt. Die Untersuchungen erbrachten folgende wesentliche Ergebnisse: 1. Die Fischfauna der untersuchten Gewässer umfasste 14 Taxa mit überwiegend rhitralen Charakterarten wie Salmoniden, Äschen und Elritzen. Die Fischbestände wiesen eine sehr hohe saisonale Dynamik auf, wobei kleinere Fließgewässer im Herbst verlassen und im Frühjahr neu besiedelt wurden. 2. Der Gold-Tagebau führte zu erhöhten Schwebstoffkonzentrationen und zur Kolmation des hyporheischen Interstitials. Die physikalisch-chemischen Untersuchungen ergaben vor allem eine signifikante Erhöhung der Wassertemperaturen in den belasteten Gewässerabschnitten. Durch den Gold-Tagebau wurden weiterhin die Auenvegetation und die natürlichen Uferstrukturen zerstört, was zu vielfältigen Habitatveränderungen führt. 3. Die untersuchten Effekte des Gold-Tagebaus sind als sublethal und verhaltens-verändernd einzustufen. Sie wirken sich z.B. auf das funktionale Gefüge der verschiedenen trophischen Ebenen des Fließgewässerökosystems aus. So wiesen zahlreiche Fischarten einen signifikant verringerten Konditionsfaktor auf, der offensichtlich bottom-up gesteuert durch verminderten Aufwuchs und geringere Abundanzen des Makrozoobenthos verursacht wird. Auch wurde ein deutlicher Einfluss auf die Fischwanderung festgestellt, der vermutlich durch ungünstige physikalisch-chemische oder hydraulische Habitateigenschaften innerhalb des Abbaugebiets verursacht wird. Für Arktische Äschen und Lenok ist das Abbaugebiet nicht oder nur eingeschränkt passierbar. 4. Die Kolmation des Kieslückensystems führte zum Verlust von Laich- und Überwinterungshabitaten und ist daher als ein gravierender Einflussfaktor für die lokale Fischfauna einzustufen. 5. Letale Effekte wie Kiemen- oder Schleimhautverletzungen auf Grund von direkter Schädigung der Tiere durch die erhöhten Schwebstofffrachten wurden nicht beobachtet. Im Rahmen der Arbeit wurden ökologische Grundlagenkenntnisse zu Fischbeständen und Populationsdynamiken im Nord-Osten der Mongolei erarbeitet. Diese Informationen tragen zu einem besseren Verständnis der Gefährdungsursachen bei. Auf Basis der gewonnenen Erkenntnisse über die Ökologie der Arten und der Einflüsse des Gold-Tagebaus wurden Managementempfehlungen unterschiedlicher Priorität formuliert und an Hand eines Fallbeispiels exemplarisch bearbeitet. Darüber hinaus wurden Grundlagen für ein ökologisches Monitoring des Gold-Tagebaus entwickelt. / The fish fauna of Mongolia comprises 64 species of which eleven are regionally endangered and four potentially endangered according to the Red List of Mongolian Fish. Gold mining is regarded as one of the major causes for declining fish populations. Many gold deposits are found in the alluvial sediments of the floodplains and are extracted by large scale mining and mechanical elutriation. This heavily disturbs the balance of suspended sediments and matter in running waters and affects the habitat availability and quality for the fish fauna. Thus, the primary objective of this study was the abiotic and ichthyological characterization of selected reference waters and waters influenced by gold mining as well as the quantification of gold mining effects. Furthermore, an aim was the formulation of management strategies for a sustainable development of the expanding mining sector in Mongolia. The investigation took place from 2003 to 2006 at four rhitral waters of the Khentii Mountains in north-east Mongolia. Data acquisition of the fish fauna was carried out with electric fishing devices and fish traps on representative habitats. In addition, the balance of mater and characteristics of the hyporheic zone were analyzed, relevant habitats mapped and the migratory behavior of selected species experimentally studied. The following major results were obtained from this research: 1. The fish fauna of the examined waters comprised 14 taxa dominated by rhitral characteristic species like salmonids, arctic grayling and minnows. The fish population was strongly seasonally influenced, whereas small running waters being repopulated yearly in spring. 2. Gold mining brings about an increase in concentrations of suspended sediment and clogging of the hyporheic interstitial. Physical-chemical investigations primarily identified a significant rise in water temperatures in the polluted water sectors. Furthermore, gold mining degrades floodplain vegetation and natural bank structures causing varied habitat changes. 3. The examined gold mining effects are sublethal to fish or influence their behavior. They disrupt the functional arrangement of the different trophic levels of the river ecosystem. Thus, the condition of some fish species was significantly decreased, evidently regulated bottom-up by depleted periphyton and reduced abundances of macro invertebrates. Moreover, a strong influence on the river continuum was assessed. Arctic grayling and lenok did not migrate through the mining area, possibly due to unfavorable physical-chemical or hydraulic conditions within the mining site. 4. The clogging of the river bed substrate resulted in a loss of spawning and hibernation habitats and thus must be regarded as a major thread to the local fish fauna. 5. Lethal effects like injuries of gills or skin by direct lesions of suspended particles could not be observed. In this study basic ecological knowledge and population dynamics of the fish fauna in north-east Mongolia have been identified. This information is fundamental for a better understanding of the causes of endangerment. Based on the findings on the ecology of fish species and the influences of gold-mining management recommendations of different priority were developed and exemplified in a case study. Furthermore, this study worked out basic principles for an ecological monitoring of gold mining.

info:eu-repo/classification/ddc/620

ddc:620

Independent effects of habitat loss and fragmentation on pollination : tropical forest fragmentation alters hummingbird movements and pollination dynamics

Hadley, Adam S.

27 August 2012

A growing body of work reveals that animal-mediated pollination is negatively affected by anthropogenic disturbance. Landscape-scale disturbance results in two often inter-related processes: (1) habitat loss, and (2) disruptions of habitat configuration (i.e. fragmentation). Understanding the relative effects of such processes is critical in designing effective management strategies to limit pollination and pollinator decline. I reviewed existing published work from 1989 to 2009 and found that only six of 303 studies separated the effects of habitat loss from fragmentation. I provide a synthesis of the current landscape, behavioral, and pollination ecology literature in order to present preliminary multiple working hypotheses to explain how these two landscape processes might independently influence pollination dynamics (Chapter 2). Despite the potential importance of independent effects of habitat fragmentation, effects on pollination remain largely untested. Studies designed to disentangle the independent effects of habitat loss and fragmentation are essential for gaining insight into landscape-mediated pollination declines. I also found that the field of landscape pollination ecology could benefit from quantification of the matrix, landscape functional connectivity, and pollinator movement behavior. To test the hypothesis that pollinator movement can be influenced by landscape configuration, I translocated radio-tagged hummingbirds across agricultural and forested landscapes near Las Cruces, Costa Rica (Chapter 3). I found return paths were on average more direct in forested than in agricultural landscapes. In addition, movement paths chosen in agricultural landscapes were more forested than the most direct route suggesting that hummingbirds avoided crossing open areas when possible. To determine if differences in pollinator movement translated to differences in plant reproduction, I tested the relative importance of landscape composition versus configuration on the reproductive success of Heliconia tortuosa, a hummingbird-pollinated forest herb (Chapter 4). I used a stratified random sampling design to select sites across orthogonal gradients in patch size, amount of forest, and elevation. I tested four landscape change hypotheses (i.e., local, landscape composition, landscape fragmentation, and fragmentation threshold). I found that Heliconia reproduction supported both the local site and landscape fragmentation hypotheses. Seed set increased with increasing forest patch size independent of amount of forest in the surrounding landscape. I also found that increasing patch size positively influenced the relative abundance of pollinators. The observed differences in seed set likely resulted from differences in hummingbird movements (Chapter 3) and/or abundance under different landscape configurations. / Graduation date: 2013

Pollination

Habitat loss

Habitat fragmentation

Animal movement

Landscape ecology

Tropical forest

Hummingbirds

Heliconia

Heliconia -- Pollination -- Costa Rica

Heliconia -- Habitat -- Costa Rica

Phaethornis -- Habitat -- Costa Rica

Rain forest ecology -- Costa Rica

Fragmented landscapes -- Costa Rica

Pollination by animals -- Costa Rica

Management Practices for Dealing with Uncertainty and Change : Social-Ecological Systems in Tanzania and Madagascar

Tengö, Maria

January 2004

The development of human societies rests on functioning ecosystems. This thesis builds on integrated theories of linked social-ecological systems and complex adaptive systems to increase the understanding of how to strengthen the capacity of ecosystems to generate services that sustain human well-being. In this work, I analyze such capacity in human-dominated production ecosystems in Tanzania and Madagascar, and how this capacity is related to local management practices. Resilience of social-ecological systems refers to the capacity to buffer change, to re-organize following disruption, and for adaptation and learning. In Papers I and II, qualitative interview methods are used for mapping and analyses of management practices in the agroecosystem of the Mbulu highlands, Northern Tanzania. Practices such as soil and water conservation, maintenance of habitats for pollinators and predators of pests, intercropping, and landscape diversification, act to buffer food production in a variable environment and sustain underlying ecological processes. The practices are embedded in a decentralized but nested system of institutions, such as communal land rights and social networks, that can buffer for localized disturbances such as temporary droughts. Paper II compares these findings with practices in a farming system in Sweden, and suggests that similar mechanisms for dealing with uncertainty and change can exist in spite of different biophysical conditions. In Papers III and IV, interviews are combined with GIS tools and vegetation sampling to study characteristics and dynamics of the dry forests of Androy, southern Madagascar. Paper III reports on a previously underestimated capacity of the dry forest of southern Madagascar to regenerate, showing areas of regeneration roughly equal areas of degenerated forest (18 700 ha). The pattern of forest regeneration, degradation, and stable cover during the period 1986-2000 was related to the enforcement of customary property rights (Paper III). Paper IV reports on a network of locally protected forest patches in Androy that is embedded in a landscape managed for agricultural or livestock production and contributes to the generation of ecosystem services and ecosystem resilience at a landscape scale. Forest protection is secured by local taboos that provide a well-functioning and legitimate sanctioning system related to religious beliefs. In Paper V, two spatial modeling tools are used to assess the generation of two services, crop pollination and seed dispersal, by the protected forest patches in southern Androy. The functioning of these services is dependent on the spatial configuration of protected patches in the fragmented landscape and can be highly vulnerable to even small changes in landscape forest cover. In conclusion, many of the identified practices are found to make ecological sense in the context of complex systems and contribute to the resilience of social-ecological systems. The thesis illustrates that the capacity of human-dominated production ecosystems to sustain a flow of desired ecosystem services is strongly associated with local management practices and the governance system that they are embedded in, and that, contrary to what is often assumed, local management can and does add resilience for desired ecosystem services. These findings have substantial policy implications, as insufficient recognition of the dynamics of social-ecological interactions is likely to lead to failure of schemes for human development and biodiversity conservation.

resilience

ecosystem services

local ecological knowledge

traditional ecological knowledge

ecosystem management

agroecosystems

dry tropical forest

social institutions

forest regeneration

sacred forests

taboos

community conservation

Southern Madagascar

Androy

Iraqw

management practices

habitat loss

small reserves

human-dominated ecosystems

social-ecological systems

Terrestisk, limnisk och marin ekologi

Plant-herbivore interactions across an alpine meadow gradient

Illerbrun, Kurt K

Unknown Date

No description available.

Plant-herbivore interactions

Population ecology

Alpine ecology

Parnassius smintheus

Butterfly

Habitat quality

Host plant

Climate change

Alpine treeline

Rising treeline

Species-area relationship

Alpine meadow

Lepidoptera

Kananaskis

Host finding

Host orientation

Oviposition

Herbivore

Herbivory

Conservation

Sedum lanceolatum

Crassulaceae

Adult resources

Larval resources

Adult-larva dichotomy

Habitat fragmentation

Habitat loss

Ecology

Understanding geographies of threat: Impacts of habitat destruction and hunting on large mammals in the Chaco

Romero-Muñoz, Alfredo

23 September 2021

Die Hauptursachen für die derzeitige weltweite Krise der biologischen Vielfalt sind Lebensraumzerstörung und Übernutzung. Wir wissen jedoch nicht, wie sich diese beiden Faktoren einzeln und zusammen auf die verschiedenen Aspekte biologischer Vielfalt auswirken und wie sie sich im Laufe der Zeit verändern. Da beide Bedrohungen weit verbreitet sind, verhindern dies die Entwicklung wirksamer Schutzstrategien. Das übergeordnete Ziel dieser Arbeit war räumliche und zeitliche Veränderungsmuster der Auswirkungen von Lebensraumzerstörung und Übernutzung auf die biologische Vielfalt zu verstehen. Ich habe diese Bedrohungsgeographien mit hoher räumlicher Auflösung und über drei Jahrzehnte hinweg für verschiedene Aspekte biologischer Vielfalt untersucht: Arten, Lebensgemeinschaften und taxonomische, phylogenetische und funktionale Facetten biologischer Vielfalt. Ich konzentrierte mich auf den 1,1 Millionen km² großen Gran Chaco, den größten tropischen Trockenwald der Welt und einen globalen Entwaldungs-Hotspot. Meine Ergebnisse zeigen, dass sich im Laufe von 30 Jahren die räumlichen Auswirkungen der einzelnen Bedrohungen auf größere Gebiete ausdehnten als nur auf die abgeholzte Fläche. Dies führte zu einem Verlust an hochwertigen und sicheren Gebieten für den Jaguar, die gesamte Großsäugergemeinschaft und alle Facetten der Säugetiervielfalt. Beide Bedrohungen trugen wesentlich zum Rückgang biologischer Vielfalt bei, ihre relative Bedeutung variierte jedoch je nach Art und Facette der biologischen Vielfalt. Zudem haben die Gebiete, in denen beide Bedrohungen zusammenwirken, im Laufe der Zeit zugenommen, was den Verlust der biologischen Vielfalt wahrscheinlich noch verschlimmert hat. Diese Arbeit unterstreicht, wie wichtig es ist, die Auswirkungen mehrerer Bedrohungen im Laufe der Zeit gemeinsam zu bewerten, um den menschlichen Einfluss auf die biologische Vielfalt besser verstehen zu können und wirksame Schutzstrategien zu finden. / The main drivers of the current global biodiversity crisis are habitat destruction and overexploitation. Yet, we lack understanding of their individual and combined spatial impact on different aspects of biodiversity, and how they change over time. Because both threats are common, these knowledge gaps preclude building more effective conservation strategies. The overarching goal of this thesis was to understand how the impacts of habitat destruction and overexploitation on biodiversity change in space and over time. I assessed these geographies of threat at high spatial resolutions and over three decades for different biodiversity aspects: species, communities, and the taxonomic, phylogenetic, and functional facets of biodiversity. I focused on the 1.1 million km² Gran Chaco, the largest tropical dry forest globally, and a global deforestation hotspot. Results reveal that over 30 years, the spatial impacts of each threat expanded over larger areas than the area deforested. This resulted in widespread losses of high-quality and safe areas for the jaguar, the entire larger mammal community and for all facets of the mammalian diversity. Such declines suggest a generalized biotic impoverishment that includes the loss of species, evolutionary history, and ecological functions across much of the Chaco. Both threats contributed substantially to biodiversity declines, and their relative importance varied among species and biodiversity facets. Moreover, the areas where both threats synergize increased over time, likely exacerbating biodiversity losses. For each biodiversity aspect, I identified priority areas of safe and high-quality habitats, and hotspots of high threat impacts, which could guide more effective complementary proactive and reactive conservation strategies. This thesis highlights the importance of jointly assessing the impact of multiple threats over time to better understand the impact of humans on biodiversity and to identify effective ways to mitigate them. / Los principales factores de la actual crisis de la biodiversidad global son la destrucción del hábitat y la sobreexplotación. Sin embargo, desconocemos su impacto espacial, tanto individual como combinado, sobre los diferentes aspectos de la biodiversidad, y cómo cambian en el tiempo. Como ambas amenazas son comunes, estos vacíos de conocimiento impiden elaborar estrategias de conservación más eficaces. El objetivo general de esta tesis fue comprender cómo los impactos de la destrucción del hábitat y la sobreexplotación en la biodiversidad cambian en el espacio y en el tiempo. Evalué estas geografías de las amenazas a altas resoluciones espaciales y a lo largo de tres décadas para diferentes aspectos de la biodiversidad: especies, comunidades y las facetas taxonómica, filogenética y funcional de la biodiversidad. Me centré en el Gran Chaco, de 1,1 millones de km², el mayor bosque seco tropical del mundo y un foco global de deforestación. Los resultados revelan que, a lo largo de 30 años, los impactos espaciales de cada una de las amenazas se extendieron por areas mayores que la superficie deforestada. Esto dio lugar a pérdidas extendidas de áreas seguras y de alta calidad para el jaguar, la comunidad de mamíferos grandes y para todas las facetas de la diversidad de mamíferos. Estos declives sugieren un empobrecimiento biótico generalizado que incluye la pérdida de especies, historia evolutiva y funciones ecológicas en gran parte del Chaco. Ambas amenazas contribuyeron sustancialmente al declive de la biodiversidad, y su importancia relativa varió entre especies y facetas de la biodiversidad. Además, las áreas en las que ambas amenazas sinergizan aumentaron en el tiempo, probablemente exacerbando las pérdidas de biodiversidad. Para cada aspecto de la biodiversidad, identifiqué áreas prioritarias de hábitats seguros y de alta calidad, y focos de alto impacto de las amenazas, que podrían orientar estrategias de conservación complementarias más eficaces, tanto proactivas como reactivas. Esta tesis destaca la importancia de evaluar conjuntamente el impacto de múltiples amenazas a lo largo del tiempo para comprender mejor el impacto de los humanos en la biodiversidad e identificar vías eficaces para mitigarlas.

Facetten der biologischen Vielfalt

Naturschutzplanung

Entwaldung

Lebensraumverlust

Konflikte zwischen Mensch und Tier

Jaguar

Landnutzungsänderung

Säugetiere

Modelle zur Artenverteilung

biodiversity facets

conservation planning

defaunation

deforestation

habitat loss

human-wildlife conflicts

jaguar

land-use change

mammals

species distribution models

577 Ökologie

719 Naturlandschaften

RW 70513

RW 40513

ddc:577

ddc:639

ddc:719

Funktionelle Vielfalt von Hymenopteren entlang eines Gradienten agroforstlicher Nutzung in Indonesien / Functional diversity of Hymenoptera along a gradient of agroforestry management in Indonesia

Höhn, Patrick

15 November 2007

No description available.

500 Naturwissenschaften

YA 000

Agricultural Sciences

Agroforestry systems

Hymenoptera

land-use intensity

pest control

predator

pollination

native bees

wasps

pumpkin

functional diversity

species richness

species loss

Indonesia

seasonality

tropics

local diversity

regional diversity

complementarity

resource use

ecology

conservation

biodiversity

habitat loss

deforestation

trap nests

multidimensional scaling

additive partitioning

shade trees

cocoa

Theobroma cacao

canopy

understorey

stratification

ecosystem service

landscape

Sulawesi

Lore Lindu National Park

grassland

primary forest

Cucurbita moschata

antagonists

parasitism

STORMA

population dynamics

48.16