The impact of agri-environmental policy and infrastructure on wildlife and land prices

Koemle, Dieter

30 October 2018

No description available.

630

habitat loss

habitat fragmentation

agri-environmental policy

Natura 2000

dynamic panel data

latent class analysis

ungulates

agricultural land rent

generalized propensity score

zero-inflated beta model

Land- und Forstwirtschaft (PPN621302791)

Desafios para conservação de elefantes na África / Challenges to the conservation of african elephants

Zacarias, Daniel Augusta

15 December 2017

Submitted by Luciana Ferreira (lucgeral@gmail.com) on 2018-01-16T10:46:45Z No. of bitstreams: 2 Tese - Daniel Augusta Zacarias - 2017 (1).pdf: 10564997 bytes, checksum: 3beb8a6a9c5b45ffef1c47b91fb5ee3c (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2018-01-16T10:47:18Z (GMT) No. of bitstreams: 2 Tese - Daniel Augusta Zacarias - 2017 (1).pdf: 10564997 bytes, checksum: 3beb8a6a9c5b45ffef1c47b91fb5ee3c (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Made available in DSpace on 2018-01-16T10:47:18Z (GMT). No. of bitstreams: 2 Tese - Daniel Augusta Zacarias - 2017 (1).pdf: 10564997 bytes, checksum: 3beb8a6a9c5b45ffef1c47b91fb5ee3c (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Previous issue date: 2017-12-15 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Biodiversity conservation is in crisis and urgent responses are needed to reverse the extinction of species, the proliferation of invasive species and the fragmentation of habitats. Among several approaches being implemented, the protection of species with great dispersal capacity and that play important ecological role has been advocated as a solution, since the protection of their habitat in parallel contributes to the protection of other species and habitats. The elephant, a megagardener of forests and savannahs, represents this type of species in the sense that it inhabits vast areas, has a high dispersal capacity and guarantees the dispersion and growth of plant species in extensive areas. Unfortunately, the current situation of the elephant is not positive and international efforts have been developed to reverse the current scenarios of reduction of its abundance and the protection of its habitat. This thesis focuses on African elephant species (Loxodonta africana and Loxodonta cyclotis) and aims to contribute to the knowledge of the main challenges that must be embraced for their protection, using an interdisciplinary approach involving scientometric analysis, climate niche modelling, multi-scale modelling of habitat connectivity, quasi-linear regression models and structural equations and knowledge syntheses. Chapter I presents a systematic review of conservation genetics studies of the African savannah elephant and discusses the main research areas, the elephant populations involved and the main lines of research addressed. Chapter 2 presents the modelling of the climatic niche response to multi-temporal climate change and determines the potential for connectivity between remaining elephant habitats and chapter 3 presents the interaction between environmental, socioeconomic and governance indicators to explain abundance of elephants in Africa, based on the most recent IUCN estimates. The fourth chapter discusses the main challenges associated with the introduction of African elephants as a strategy for the recovery of lost ecological functions with the extinction of megafauna in the Pleistocene, and the fifth chapter, which concludes, presents the synthesis of challenges and opportunities for the conservation of African elephants. / A conservação da biodiversade está em crise e são necessárias respostas urgentes para reverter a extinção de espécies, a proliferação de espécies invasoras e a fragmentação de habitats. Dentre as várias abordagens sendo implementadas, a proteção de espécies com grande capacidade de dispersão e que desempenham papel ecológico importante tem sido advogada como solução, na medida em que a proteção de seu habitat paralelamente contribui para a proteção de outras espécies e habitats. O elefante, megajardineiro das florestas e savanas, representa este tipo de espécies, no sentido em que habita vastas áreas, tem elevada capacidade de dispersão e garante a dispersão e crescimento de espécies vegetais por vastas áreas. Infelizmente a situação actual do elefante não é positiva e esforços internacionais têm sido desenvolvidos no sentido de reverter os atuais cenários de redução de sua abundancia e a proteção do seu habitat. Esta tese debruça-se sobre as espécies de elefante africano (Loxodonta africana e Loxodonta cyclotis) e procura contribuir para o conhecimento dos principais desafios que devem ser abraçados para a sua proteção, servindo-se de uma abordagem interdisciplinar envolvendo análise cienciométrica, modelagem de nicho climático, modelagem multi-escala de conectividade de habitats, modelos de regressão quasi-linear e de equações estruturais e sínteses de conhecimento. O capítulo 1 apresenta faz a revisão sistemática dos estudos de genética de conservação do elefante africano de savana e discute os principais eixos de pesquisa, as populações de elefantes envolvidas e as principais linhas de pesquisa abordadas. O capítulo 2 apresenta a modelagem da resposta do nicho climático em função de alterações climáticas multi-temporais e determina o potencial de conectividade entre os habitats remanescentes de elefantes e o capítulo 3 apresenta a interação entre indicadores ambientais, socioeconômicos e de governança para explicar a abundância de elefantes em África, tomando como base nas mais recentes estimativas da IUCN. O quarto capítulo discute os principais desafios associados à introdução de elefantes africanos como estratégia para a recuperação de funções ecológicas perdidas com a extinção da megafauna no Pleistoceno e o quinto capítulo, que faz de conclusão, apresenta a síntese dos desafios e oportunidades para a conservação dos elefantes africanos.

Extinção de espécies

Conservação da biodiversidade

Fragmentação de habitats

Governança

Nicho climático

Rewilding

Elefantes africanos

Habitat fragmentation

Governance

Climate niche

Rewilding

African elephants

Connectivity

Conectividade

Species extinction

Biodiversity conservation

CIENCIAS BIOLOGICAS::ECOLOGIA

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

Spatio-temporal dynamics in land use and habit fragmentation in Sandveld, South Africa

Magidi, James Takawira

January 2010

Magister Scientiae (Biodiversity and Conservation Biology) - MSc (Biodiv and Cons Biol) / This research assessed landuse changes and trends in vegetation cover in the Sandveld, using remote sensing images. Landsat TM satellite images of 1990, 2004 and 2007 were classified using the maximum likelihood classifier into seven landuse classes, namely water, agriculture, fire patches, natural vegetation, wetlands, disturbed veld, and open sands. Change detection using remote sensing algorithms and landscape metrics was performed on these multi-temporal landuse maps using the Land Change Modeller and Patch Analyst respectively. Markov stochastic modelling techniques were used to predict future scenarios in landuse change based on the classified images and their transitional probabilities. MODIS NDVI multi-temporal datasets with a 16day temporal resolution were used to assess seasonal and annual trends in vegetation cover using time series analysis (PCA and time profiling).Results indicated that natural vegetation decreased from 46% to 31% of the total landscape between 1990 and 2007 and these biodiversity losses were attributed to an increasing agriculture footprint. Predicted future scenario based on transitional probabilities revealed a continual loss in natural habitat and increase in the agricultural footprint. Time series analysis results (principal components and temporal profiles) suggested that the landscape has a high degree of overall dynamic change with pronounced inter and intra-annual changes and there was an overall increase in greenness associated with increase in agricultural activity. The study concluded that without future conservation interventions natural habitats would continue to disappear, a condition that will impact heavily on biodiversity and significant waterdependent ecosystems such as wetlands. This has significant implications for the long-term provision of water from ground water reserves and for the overall sustainability of current agricultural practices. / South Africa

Change detection

Habitat Fragmentation

Landsat

Markov Models

Cell Automated Markov Analysis

Principal Component Analysis (PCA)

Remote sensing

Time Series Analysis

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. / Science, Faculty of / Botany, Department of / Graduate

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

Spatia-temporal dynamics in land use and habitat fragmentation in the Sandveld, South Africa

Magidi, James Takawira

January 2010

>Magister Scientiae - MSc / The Cape Floristic Region (CFR) in South Africa, is one of the world's five Mediterranean hotspots, and is also one of the 34 global biodiversity hotspots. It has rich biological diversity, high level of species endemism in flora and fauna and an unusual high level of human induced threats. The Sandveld forms part of the CFR and is also highly threatened by intensive agriculture (potato, rooibos and wheat farming), proliferation of tourism facilities, coastal development, and alien invasions. These biodiversity threats have led to habitat loss and are threatening the long-term security of surface and ground water resources. In order to understand trends in such biodiversity loss and improve in the management of these ecosystems, earth-orbiting observation satellite data were used. This research assessed landuse changes and trends in vegetation cover in the Sandveld, using remote sensing images. Landsat TM satellite images of 1990, 2004 and 2007 were classified using the maximum likelihood classifier into seven landuse classes, namely water, agriculture, fire patches, natural vegetation, wetlands, disturbed veld, and open sands. Change detection using remote sensing algorithms and landscape metrics was performed on these multi-temporal landuse maps using the Land Change ModelIer and Patch Analyst respectively. Markov stochastic modelling techniques were used to predict future scenarios in landuse change based on the classified images and their transitional probabilities. MODIS NDVI multi-temporal datasets with a 16day temporal resolution were used to assess seasonal and annual trends in vegetation cover using time series analysis (PCA and time profiling).Results indicated that natural vegetation decreased from 46% to 31% of the total landscape between 1990 and 2007 and these biodiversity losses were attributed to an increasing agriculture footprint. Predicted future scenario based on transitional probabilities revealed a continual loss in natural habitat and increase in the agricultural footprint. Time series analysis results (principal components and temporal profiles) suggested that the landscape has a high degree of overall dynamic change with pronounced inter and intra-annual changes and there was an overall increase in greenness associated with increase in agricultural activity. The study concluded that without future conservation interventions natural habitats would continue to disappear, a condition that will impact heavily on biodiversity and significant water dependent ecosystems such as wetlands. This has significant implications for the long-term provision of water from ground water reserves and for the overall sustainability of current agricultural practices.

Change detection

Habitat Fragmentation

Landsat

Markov Models

Cell Automated Markov Analysis

Principal Component Analysis (PCA)

Remote sensing

Time Series Analysis

Auswirkungen anthropogener Landnutzung auf die Siedlungsstruktur, Raum- und Habitatnutzung des Europäischen Dachses (Meles meles L., 1758) auf der Insel Rügen

Walliser, Gerlinde

21 April 2004

Auf der Ostseeinsel Rügen wurde eine 3-jährige Untersuchung zur Siedlungsstruktur, Raum- und Habitatnutzung des Dachses (Meles meles L., 1758) unter besonderer Berücksichtigung der Landschaftszerschneidung und des Landnutzungsmusters durchgeführt. Über 70 % der Inselfläche ist landwirtschaftlich, überwiegend ackerbaulich, genutzt und nur knapp ein Fünftel wird von Wald bedeckt. Während die Zersiedelung und Zerschneidung der Landschaft durch Siedlungs- und Verkehrsfläche im bundesdeutschen Vergleich als sehr gering einzustufen war, ist nach der ?Wende? eine stete Verdichtung des Straßennetzes zu beobachten, die von einem enormen Anstieg der Verkehrsdichte begleitet wird. Die Auswirkungen dieser Rahmenbedingungen wurden anhand von Nahrungsanalysen, eines inselweiten Baukatasters, Fang und Telemetrie einiger Dachse sowie einer Erfassung verkehrstoter Dachse untersucht. Die erfassten Totfunde dienten einer Abschätzung des Gefährdungspotentials unterschiedlicher Straßentypen (Bundesstraße, Landesstraße usw.). Zusätzlich wurde auf Grundlage des Baukatasters, des Totfundkatasters und von Verkehrszählungen der Zusammenhang zwischen Verkehrslast, Siedlungsdichte (des Dachses) und Verkehrsmortalität des Dachses mit Hilfe eines einfachen Modells ermittelt. / On the baltic island of Rügen investigations had been carried for 3 years with regard to distribution, space use and habitat utilization of the European badger (Meles meles L., 1758). Special attention was focused on landscape fragmentation and patterns of land use. More than 70 % of the island is agricultural, almost arable land and just under a fifth is woodland. Before 1990, fragmentation and dessection of the landscape due to housing and roads was low compared with the german average, but after the political "turn" the road system has increased constantly combined with an enormous increase in traffic density. The effect of these conditions on badgers was investigated studying diet composition, surveying and registrating badger setts all over the island, badger-watching and trapping, radio-tracking some badgers and collecting all reported badgers fallen victim to traffic accidents. Relating the road-killed badgers to the length and traffic density of the different road categories, potential danger to be killed by car was estimated. Relating the density of traffic, the density of the badger's local population and its road-mortality was done by simply using data of the sett survey, the road-killed badgers and traffic census.

info:eu-repo/classification/ddc/590

ddc:590

Biological conservation: mathematical models from an ecological and socio-economic systems perspective

Vortkamp, Irina

01 October 2021

Conservation in the EU and all over the world aims at reducing biodiversity loss which has become a great issue in the last decades. However, despite existing efforts, Earth is assumed to face a sixth mass extinction. One major challenge for conservation is to reconcile the targets with conflicting interests, e.g. for food production in intensively used agricultural landscapes. Agriculture is an example of a coupled human-environment system that is approached in this thesis with the help of mathematical models from two directions. Firstly, the ecological subsystem is considered to find processes relevant for the effect of habitat connectivity on population abundances. Modelling theory predicts that the species-specific growth parameters (intrinsic growth rate and carrying capacity) indicate whether dispersal has a positive or negative effect on the total population size at equilibrium (r-K relationship). We use laboratory experiments in combination with a system of ordinary differential equations and deliver the first empirical evidence for a negative effect of dispersal on the population size in line with this theory. The result is of particular relevance for the design of dispersal corridors or stepping stones which are meant to increase connectivity between habitats. These measures might not be effective for biological conservation. A second population model, consisting of two coupled Ricker maps with a mate-finding Allee effect, is analyzed in order to examine the effect of bistability due to the Allee effect in combination with overcompensation in a spatial system. The interplay can cause complex population dynamics including multiple coexisting attractors, long transients and sudden population collapses. Essential extinction teaches us that not only small populations are prone to extinction but chaotic dynamics can drive a population extinct in a short period of time as well. By a comprehensive model analysis, we find that dispersal can prevent essential extinction of a population. In the context of conservation that is: habitat connectivity can promote rescue effects to save a population that exhibits an Allee effect. The two findings of the first part of this thesis have contrasting implications for conservation which shows that universal recommendations regarding habitat connectivity are impossible without knowledge of the specific system. Secondly, a model for the socio-economic subsystem is presented. Agri-environment schemes (AES) are payments that compensate farmers for forgone profits on the condition that they improve the ecological state of the agricultural system. However, classical economic models that describe the cost-effectiveness of AES often do not take the social network of farmers into account. Numerical simulations of the socio-economic model presented in this thesis suggest that social norms can hinder farmers from scheme participation. Moreover, social norms lead to multistability in farmers’ land-use decision behaviour. Informational campaigns potentially decrease the threshold towards more long-term scheme participation and might be a good tool to complement compensation payments if social norms affect land-use decisions. Finally, a coupled human-environment system is analyzed. An integrated economicecological model is studied to investigate the cost-effectiveness of AES if the species of concern exhibits an Allee effect. A numerical model analysis indicates large trade-offs between agricultural production and persistence probability. Moreover, conservation success strongly depends on the initial population size, meaning that conservation is well advised to start before the species is threatened. Spatial aggregation of habitat can promote rescue effects, suggesting land-sparing solutions for conservation. In that case,agglomeration bonuses may serve to increase the effectiveness of AES. Possible causes for population declines are diverse and can be a combination of human influences, e.g. due to habitat degradation and inherent ecosystem properties. That complicates the task of conservation. The models presented in this thesis simplify complex systems in order to extract processes relevant for biological conservation. The analysis of spatial effects and dynamical model complexity, e.g. due to Allee effects or a nonlinear utility function, allows us improve the understanding of coupled human-environment systems.

modelling

human-environment system

population dynamics

mathematical model

metapopulation

habitat fragmentation

Escherichia coli

dispersal

chaotic attractor

long transient

dynamical system

Allee effect

agri-environment scheme

social norm

agricultural landscapes

biological conservation

theoretical ecology

mathematical biology

ddc:510

Grasshopper bioindicators of effective large-scale ecological networks

Bazelet, Corinna Sarah

03 1900

Thesis (PhD)--University of Stellenbosch, 2011. / ENGLISH ABSTRACT: Land use change is leading to rapid biodiversity loss in terrestrial ecosystems worldwide. Ecological networks (ENs) are systems of remnant natural habitat which remain intact in a transformed matrix, and have been suggested as a means to mitigate the effects of habitat loss and transformation and the resulting loss of biodiversity. Conceptually, ENs are similar to habitat corridors but are larger in scale and more heterogeneous in their design and management. Like corridors, the efficacy of ENs for biodiversity conservation has been called into question and requires empirical investigation. South Africa boasts a unique system of extensive ENs associated with exotic timber plantations, mostly within the highly endangered grassland biome and Indian Ocean Coastal Belt in KwaZulu-Natal Province, South Africa. In these regions, grasshoppers respond sensitively to management practices such as grazing, mowing and burning, justifying their a priori selection as an ecological indicator. In this study, I utilize grasshopper assemblages to determine the efficacy of ENs for biodiversity conservation and suggest guidelines for EN optimization. Specifically, I assess grasshopper assemblage sensitivity and robustness to habitat quality within ENs, congruence of grasshoppers with butterflies, and I identify indicator species which can be utilized by managers for EN assessment in future. I also perform a case study of isolated fragment utilization by a highly mobile generalist species, the bird locust, Ornithacris cyanea (Stoll, 1813) (Acrididae: Cyrtacanthacridinae). Grasshopper assemblages were sampled within ENs in two geographic regions (Zululand and the KwaZulu-Natal Midlands) and in two years (2007 and 2008) during the peak season of grasshopper abundance, late summer (February-April). Local-scale environmental variables relating to management practices and landscape-scale environmental variables relating to design of the ENs were quantified. Management practices explained, on average, two-thirds of the variability in grasshopper assemblages that could be explained, while design variables explained one-third. Grass height and the time since the last fire event were most consistently influential, while area, context, isolation, proportion of bare ground and proportion of forbs at a site, proved influential in some analyses but not others. This response was robust over time and among geographic regions. Grasshopper species richness and abundance were highly congruent with that of butterflies and did not differ among isolated fragments, connected corridors and reference sites, although they did differ among geographic regions. Not all grasshopper species responded similarly to ENs. There was a strong phylogenetic signal in species response to environmental variables, with the distribution of highly mobile families varying more among years. Linear, heavily disturbed power line servitudes had higher grasshopper abundance, and generalist species consistent with early successional assemblages. Reference sites had more graminivorous species and those with intermediate mobility. Three species of grasshopper were identified with IndVal and validated on an independently collected dataset as indicators of high habitat quality. A case study of the bird locust showed that populations of this highly mobile species were effectively isolated and undergoing anthrovicariance even at short distances. These results indicated that heterogeneous ENs supported diverse grasshopper assemblages, although movement among isolated fragments may have been limited. A grasshopper bioindication method for South Africa’s ENs is suggested and has great potential for assessment of a crucial and sensitive trophic layer within the ENs. This method should be field-tested and revised over time as grasshopper relative abundances and species compositions may change. Increased heterogeneity, simulation of multiple successional stages, and increased connectivity are expected to positively impact biodiversity, particularly of insect primary herbivores. Globally, ENs, if managed and designed appropriately, have potential to enhance biodiversity, particularly of smaller resident organisms which can utilize the ENs for movement and live within them. / AFRIKAANSE OPSOMMING: Veranderinge in grondgebruik lei tot ‘n vinnige verlies van biodiversiteit in terrestriële ekosysteme wêreldwyd. Ekologiese netwerke (ENs) is sisteme van oorblywende natuurlike habitat wat ongeskonde bly in getransformeerde matrikse, en is voorgestel as ‘n manier om die verlies aan biodiversiteit as gevolg van habitatverlies en transformasie te verminder. Konseptueel, is ENs soortgelyk aan habitat korridors, maar is groter in omvang en meer heterogeen in hulle ontwerp en bestuur. Soos korridors, is die effektiwiteit van ENs om biodiversiteit te bewaar bevraagteken, en vereis dit empiriese ondersoek. Suid-Afrika spog met ‘n unieke stelsel van uitgebreide ENs wat geassossieer is met uitheemse plantasies, meestal in die hoogs bedreigde grasveld bioom en Indiese Oseaan kusstrook in KwaZulu- Natal Provinsie, Suid Afrika. In hierdie streek reageer sprinkane sensitief op bestuurspraktyke soos beweiding, sny en brand. In hierdie studie het ek sprinkaan gemeenskappe gebruik om die effektiwiteit van ENs vir bewaring van biodiversiteit te bepaal en om riglyne te stel vir EN optimering. Spesifiek het ek sprinkaan gemeenskap sensitiwiteit en robustness tot habitat kwaliteit bepaal, oreenstemming tussen sprinkane en skoenlappers getoets, en het ek indikator species geïdentifiseer wat in die toekoms deur bestuurders gebruik kan word vir EN assessering. Ek het ook ‘n gevallestudie gedoen van geïsoleerde fragment benutting deur ‘n hoogs mobiele, algemene spesie, Ornithacris cyanea (Stoll, 1813) (Acrididae: Cyrtacanthacridinae). Sprinkaan gemeenskappe was versamel in twee geografiese gebiede (Zululand en die KwaZulu-Natal Midlands) en in twee jare (2007 en 2008) gedurende die seisoen van hoogste sprinkaan aktiwiteit, laat somer (Februarie – April). Plaaslike-skaal omgewingsveranderlikes met betrekking tot bestuurspraktyke en landskap-skaal omgewingsveranderlikes met betrekking tot die ontwerp van ENs is gekwantifiseer. Bestuurspraktyke verduidelik, gemiddeld, twee derdes van die variasie in die sprinkaan gemeenskappe, terwyl ontwerpveranderlikes een derde verduidelik. Grashoogte en tyd sedert die laaste brand was konsekwent invloedryk, terwyl area, konteks, isolasie, hoeveelheid kaal grond en hoeveelheid kruidagtige plantegroei invloedryk was in sekere analyses, maar in ander nie. Hierdie reaksie was konstant oor tyd en tussen geografiese gebiede. Sprinkaan spesies rykheid en hoeveelheid was hoogs kongruent met die van skoenlappers, en het nie verskil tussen geïsoleerde fragmente, verbinde korridors en verwysingsareas nie, maar hulle het verskil tussen geografiese streke. Nie alle sprinkaan spesies het soortgelyk gereageer tot ENs nie. Daar was ‘n sterk filogenetiese sein in spesies reaksies op die omgewingsveranderlikes, met meer variasie tussen jare in die verspeiding van hoogs mobiele families. Liniêre, hoogs versteurde kraglyn dienspaaie het hoer sprinkaan hoeveelhede gehad en algemene spesies wat geassosieer is met gemeenskappe in vroeë stadiums van suksessie. Verwysingsareas het meer graminivorous spesies gehad en spesies met intermediêre mobiliteit. Drie sprinkaan spesies is geïdentifiseer met IndVal en bevestig met ‘n onafhanklik versamelde dataset as indikators van hoë kwaliteit habitat. ‘n Gevallestudie op O. cyanea het aangedui dat populasies van hierdie hoogs mobiele spesie geïsoleerd is en dat hulle anthrovicariance ondergaan, selfs op kort afstande. Hierdie resultate dui aan dat heterogene ENs diverse sprinkaan gemeenskappe ondersteun, hoewel beweging tussen geïsoleerde fragmente dalk beperk is. Verhoogde heterogeneïteit, simulasie van verskeie suksessiewe fases en meer konnektiwiteit sal moontlik ‘n positiewe invloed op biodiversiteit hê, aangesien sprinkane verteenwoordigend was van insek primêre herbivore. Wêreldwyd, as ENs op ‘n gepaste manier bestuur en ontwerp word, het dit die potensiaal om biodiversiteit te bevorder. Dit is veral belangrik vir kleiner, plaaslike organisms wat ENs kan benut vir beweging en as leefhabitat. ‘n Sprinkaan bioindikasie metode vir Suid-Afrika se ENs is voorgestel en het groot potensiaal vir die assessering van ‘n belangrike en sensitiewe trofiese laag binne die ENs. Hierdie metode moet in die praktyk getoets word en hersien word oor tyd om veranderinge in sprinkaan relatiewe hoeveelhede en spesies komposisies in ag te neem.

Orthoptera

Influence of spatial and temporal factors on plants, pollinators and plant-pollinator interactions in montane meadows of the western Cascades Range

Pfeiffer, Vera W.

01 June 2012

Montane meadows comprise less than 5% of the landscape of the western Cascades of Oregon, but they provide habitat for diverse species of plants and pollinators. Little is known about plant-pollinator network structure at these sites. This study quantified plant-pollinator interactions over the summer of 2011, based on six observations of 10 permanent subplots in 15 meadows, stratified by size and isolation. The study examined (1) relationships between richness and abundance of flowers, pollinators, and interactions; (2) distribution of abundance and richness of flowers, pollinators, and interactions with regards to surrounding meadow habitat; (3) change in flower and pollinator abundance over the season; (4) factors associated with the presence of various guilds of pollinators; and (5) the structure of plant-pollinator networks. The study showed that (1) richness of pollinators increased 2x faster than richness of flowers with increased abundance; (2) density of flowers and interactions was positively correlated with meadow size and diversity of pollinators and interactions were both correlated with surrounding habitat at two spatial scales; (3) peak flower abundance coincided with or preceded peaks in pollinator populations; (4) abundance of three guilds of bees exhibited different patterns of association to surrounding habitat and meadow soil moisture corresponding to various dispersal potential and phenology of guild species; and (5) the number of network pairings for plants and pollinators increased with increasing species richness of potential interaction partners and all networks were found to be significantly nested. Results of this study indicate that plant-pollinator networks are complex assemblages of species, in which spatial and temporal patterns of habitat affect species composition and network structure. In particular, flower and pollinator abundance and richness are depressed in small and isolated meadows. Significant nestedness emerged as a pattern of network level organization across the study meadows. / Graduation date: 2013

Montane meadows

western Cascades

Pollination networks

plant-pollinator interactions

phenology

bees

habitat fragmentation

H. J. Andrews LTER Forest

Meadow plants -- Cascade Range

Pollinators -- Cascade Range

Pollinators -- Habitat -- Cascade Range

Pollinators -- Ecology -- Cascade Range

Species diversity -- Cascade Range