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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
391

Predatoriska fåglars effekt på populationsdynamiken hos amfibier

Melander, Lovisa January 2021 (has links)
The global amphibian population is rapidly declining. Although many threats that affect amphibians are known, there are many contributing factors which are not fully understood. For adult amphibians, the largest part of the mortality comes from predation. We know of many predators which prey upon amphibians, but to what extent they affect the populations has not been subject to much investigation. Neither has the effects of specific taxa or species of predators. Birds are reputed amphibian-eaters, and they often occur in the same habitats. Both birds and amphibians often select for wetlands and other water bodies with high biodiversity, that often support a high diversity and/or density of birds as well as amphibians. The fact that a prey might flourish in an area that one of its strongest predators also inhabits might seem controversial. Especially when taking into account that it is often the density of predators that best explains the population growth of prey species. In this review, I investigate what effects large amounts of birds might have on amphibian populations as a result of their predation on adults. I consider how the effects might differ with high vs low densities of both prey and predator, and whether an eventual effect might impact the survival of a metapopulation differently depending on its size and spatial distribution. As an example of a habitat where both bird and amphibian species occur in large numbers, I use Trönninge ängar - a bird conservation area just outside the city of Halmstad, where populations of both amphibians and birds have been increasing over the last years. My results show that high densities of predatory birds in such communities could potentially cause declines in amphibian populations, but that this impact is softened when the population is more widely distributed in the area. There are also possibilities that birds do not only affect amphibians by predation, but also might facilitate their distribution by reducing other predators. Thus, bird predation in itself might not be a sufficient predictor for their effect on amphibian populations, as the relationship might be more complex than simple predator-prey interactions.
392

New home, new life: The effect of shifts in the habitat choice of salamander larvae on population performance and their effect on pond invertebrate communities

Reinhardt, Timm 23 October 2014 (has links)
Changes of habitats are amongst the main drivers of evolutionary processes. Corresponding shifts in the behaviour and life history traits of species might in turn also alter ecosystem attributes. The reproduction of Western European fire salamanders (Salamandra salamandra), in small pond habitats instead of first order streams, is one example of a recent local adaptation. Since fire salamander larvae are important top-predators in these fish free habitats, their presence likely changes various aspects of ecosystem functioning. Here, it was analysed how the ecological performance of salamander larvae in ponds in the Kottenforst in Western Germany changed in comparison to sympatric stream populations. Further, it was analysed how their presence in ponds influenced key ecosystem attributes such as prey density and diversity and aquatic-terrestrial linkage. To assess the impact of the life cycle shifts in salamanders on the pond functioning, detailed investigations of salamander larvae population dynamics, phenology, and macroinvertebrate community development in ponds were combined with experimental manipulations of the salamander presence. In the first part of this study, the impact of pond presence of fire salamanders in terms of ecosystem functioning focussing on aquatic terrestrial subsidy transfer was calculated. The study could show, that the adaptation of fire salamanders to breed in pools led to strong increases of animal-mediated import of terrestrial matter into the aquatic habitats. The hypothesis about the impact on macroinvertebrate communities derived from these calculations was then tested experimentally. It was shown, that presence of salamander larvae could influence some taxa of macroinvertebrates but they had only limited effects on the food web structure in their aquatic habitats. Yet, a high relevance of the subsidy exchange from aquatic to terrestrial and its high relevance for the predator persistence in the system could again be confirmed. Moreover, it was demonstrated, that the larval behaviour and performance could have a high inter-annual variability as a reaction to contrasting ecosystem constraints in comparison to the stream habitats. A fact that integrally separates the pond ecotype from stream ecotype conspecifics.
393

Maintaining biodiversity with a mosaic of wetlands: factors affecting amphibian species richness among small isolated wetlands in central Florida.

Guzy, Jackie 30 June 2010 (has links)
The biodiversity value of a wetland is linked not only to its position in the landscape relative to other wetlands, but also to its habitat characteristics. I monitored amphibian species richness among 12 small, isolated, and undisturbed wetlands (which occur on lands permitted for phosphate mining) in central Florida during the 2005 and 2006 breeding seasons. I used seven habitat and landscape variables to characterize the environments of the wetlands and generalized linear models to determine which of these variables had the greatest influence on the occurrence of seven amphibian species (Anaxyrus terrestris, Gastrophryne carolinensis, Hyla gratiosa, Lithobates capito, L. catesbeianus, L. grylio, and Pseudacris nigrita verrucosa). Significant models for each species incorporated six of the seven habitat and landscape variables: distance to permanent water (2 spp.), distance to nearest wetland (3 spp.), vegetation heterogeneity (2 spp.), hydroperiod (2 spp.), presence/absence of fish (1 sp.), and distance to canopy cover (1 sp.). I suggest that source/sink metapopulation and patchy population dynamics in a given year are affected in part by environmental variables of ephemeral wetlands as they affect individual amphibian species. I suggest that a diversity of environmental conditions among wetlands produces the greatest amphibian biodiversity in this system, and that conservation and restoration efforts should emphasize environmental heterogeneity.
394

Improving Amphibian Barrier-ecopassages: Evaluating Fence-end Treatments to Mitigate the Fence-end Effect using Behavior Analysis

Harman, Kristine Elisa 23 May 2022 (has links)
No description available.
395

Importance of Habitat Structure for Pond-Breeding Amphibians in Multiple Life Stages

Purrenhage, Jennifer Lyn 29 April 2009 (has links)
No description available.
396

Spatial Analysis of Amphibians and Reptiles in the Oak Openings Preserve

Martin, Amanda K. 24 July 2015 (has links)
No description available.
397

The Effects of Glyphosate-based Herbicides on the Development of Wood Frogs, Lithobates sylvaticus

Lanctôt, Chantal 19 September 2012 (has links)
Amphibians develop in aquatic environments where they are very susceptible to the effects of pesticides and other environmental contaminants. Glyphosate-based herbicides are widely used and have been shown to affect survival and development of tadpoles under laboratory conditions. The goal my thesis is to determine if agriculturally relevant exposure to Roundup WeatherMax®, a herbicide formulation containing the potassium salt of glyphosate and an undisclosed surfactant, influences the survival and development of wood frogs tadpoles (Lithobates sylvaticus) under both laboratory and field conditions. In the field, experimental wetlands were divided in half using an impermeable curtain so that each wetland contained a treatment and control side. Tadpoles were exposed to two pulses of this herbicide at environmentally realistic concentration (ERC, 0.21 mg acid equivalent (a.e.)/L) and predicted environmental concentrations (PEC, 2.89 mg a.e./L), after which survival, growth, development, and expression of genes involved in metamorphosis were measured. Results indicate that exposure to the PEC is extremely toxic to tadpoles under laboratory conditions but not under field conditions. Results from both experimental conditions show sublethal effects on growth and development, and demonstrate that ERC of glyphosate-based herbicides have the potential to alter hormonal responses during metamorphosis. My secondary objectives were to compare the effects of Roundup WeatherMax® to the well-studied Vision® formulation (containing the isopropylamine (IPA) salt of glyphosate and POEA), and to determine which ingredient(s) are responsible for the sublethal effects on development. Survival, growth and gene expression results indicate that Roundup WeatherMax® has greater toxicity than Vision® formulation. Contrary to my prediction, results suggest that, under realistic exposure scenarios, POEA is not the sole ingredient responsible for the observed developmental effects. However, my results demonstrate that chronic exposure to the POEA surfactant at the PEC (1.43 mg/L) is extremely toxic to wood frog tadpoles in laboratory. As part of the Long-term Experimental Wetlands Area (LEWA) project, this research contributes to overall knowledge of the impacts of glyphosate-based herbicides on aquatic communities.
398

Amphibian diversity conservation in a changing world : a view from Mexico

Ochoa Ochoa, Leticia Margarita January 2012 (has links)
Amphibians are the most abundant terrestrial vertebrates on Earth. They are crucial in maintaining the transfer of energy and matter from freshwater to terrestrial systems and are also indicators of ecosystem health. Mexico hosts great amphibian diversity with high levels of endemism. Nevertheless, the knowledge of amphibian ecology in the country is at an early stage. This thesis aspires to contribute to the knowledge of Mexican amphibian ecology and to the understanding of the processes underlying amphibian responses to environmental changes. To do so the thesis includes: 1) analyses from fine scales (at landscape level) based on data from two consecutive rainy seasons of fieldwork (nocturnal sampling), in two protected areas in southern Mexico, La Pera and Nahá; 2) at regional scales, analyses based on spatial databases of conservation instruments (i.e. environmental services, governmental, private, and community protected areas, etc.) generated specifically for Mexico; 3) to coarse scales (the whole country), analyses based on ecological niche modelling using the most complete database for Mexican amphibian records and climate layers developed purposely for the country. Thus, the thesis involves different time-scale processes, from ecological to biogeographical. In addition this thesis contains an analysis of the media representation of amphibian biodiversity threats and issues, specifically climate change, based on literature research. I was involved in the process of generating most of the databases used in this thesis. Whilst the main theme of this thesis is amphibian conservation, it also encompasses a wide range of specific subjects. Firstly, foundational knowledge about amphibian conservation is established in Chapter I. Also, the region, Chiapas in southern Mexico, where the fieldwork was carried out for two consecutive years (2009-2010) is described within a historical context and a glossary of terms is presented. In Chapter II, based on one year of fieldwork in two fragmented protected areas (PAs) of different management category, one state and one biosphere reserve, I examine how community structure is related to key features of the environment. The possible effects of governance issues in protected areas and their relationship with the drivers of amphibian metacommunities are also explored. A total of 144 transects were sampled from 33 patches in La Pera and 140 transects from 36 patches in Nahá. In each transect environmental variables were recorded. Partial Canonical Correspondence Analyses (partial CCA) indicated that the drivers of metacommunity patterns vary between the sampled landscapes. Habitat structure explained more of the community variation than either space or weather conditions: > 50% for La Pera and 30% Nahá; but the relationship to geographical space and local climate varied greatly. The differences in relationships among the environmental variables and between them and the amphibian metacommunities finds expression also in the pattern of human exploitation of these areas, which has latterly at least also found expression through differing governance. In Chapter III, the effects of environmental variation on metacommunities structure are explored. Metacommunity theory assumes that emergent properties can be determined that characterise a set of linked communities within a landscape. It follows that change in environmental conditions should generate changes in the metacommunity structure. In La Pera a total of 30 patches were sampled, with a total of 120 transects in 2009, and 133 transects in 2010. In Nahá 31 patches were sampled, with a total of 111 transects in 2009 and 122 transects in 2010. In the analyses of this chapter only transects sampled in both years are included. The total number of individuals increased greatly from 2009 to 2010, but the most abundant species between surveyed years varied slightly, in both areas. In La Pera metacommunity the structure changed from quasi-Clementsian to quasi-Gleasonian, while in Nahá it changed from Clementsian to Gleasonian. CCA show that the variance explained between years was similar. Re-arrangements in the metacommunity structures linked to environmental changes are observed. Results show that amphibian metacommunity structure can change with short environmental changes or disturbances, mainly weather variations from one year to another. This would suggest that metacommunity structures are a dynamic property in fluctuating systems. The aim of Chapter IV is to assess patterns of beta diversity for Mexican terrestrial vertebrates, and explore their relationships with environmental heterogeneity metrics at different spatial scales, identifying the most important surrogates at each spatial scale. The analyses in this chapter are based on the most complete database of Mexican terrestrial vertebrates, comprising distribution maps of 2513 species: 883 resident birds, 344 mammals, 364 amphibians and 811 reptiles. Higher β-diversity values are found along mountain ranges for amphibians, reptiles and mammals, whereas for birds high values are also found on the Mexican Plateau. Results demonstrate that the relationships between β-diversity and the environmental heterogeneity surrogates vary in form and strength across scale and between vertebrate groups. In Chapter V, I set out to characterize at fine scale, alpha and beta diversity patterns for Mexican amphibians and analyze how these patterns might change under a moderate climate-change scenario, and to highlight the overall consequences for amphibian diversity at the country level. The analyses are performed with a climatic envelope modelling approach using MaxEnt and a set of climatic layers developed specifically for Mexico. Models of future scenarios for Mexican amphibian alpha and beta diversity for 2020, 2050, 2080, show that high levels of species extinctions follow if low dispersal capability and high presence thresholds are used, but the overall geographic pattern of beta diversity remains stable. Zones of high beta diversity are associated with topographic formations, whilst the values of beta diversity initially increase, then decline over time under a moderate climate scenario. Extinctions (complete loss of range within country boundaries) are particularly intense during the period 2020–2050. The results imply that heterogeneous zones associated with mountain ranges will remain particularly important for amphibian diversity and thus such areas should be targeted for continued conservation prioritization in the face of climate change scenario. There is an inevitable degree of uncertainty associated with future climate projections and the possible ecological and biogeographical responses. Nevertheless, the climate change projections are typically translated in the media as certain. Chapter VI illustrates the interplay of these competing communication goals, through a review of the representations of the golden toad (Incilius [Bufo] periglenes) in print media and in peer-reviewed literature. The concept of “distanciation”, which means placing a distance between two connected issues (cause and effect), is introduced in this chapter, along with the potential issues that this process may generate in the implementation of conservation strategies. Distanciation is a perception created in the members of the audience of the media, but does not imply a total separation regarding an issue. For example, the audience is interested in the news about climate change effects, but they feel distant because the effects of climate change might be evident within a large time period (i.e. 2050); and although the causes are occurring now, the audience does not see the urgent need to act. Chapter VII represents the first attempt to analyze the status of conservation of some microendemic amphibians in Latin America when some social initiatives (e.g. private and community reserves) are included in the assessment. The efficiency of the existing set of governmental protected areas (PA), and the contribution of social initiatives for land protection of amphibians are evaluated. The chapter shows how the role of land conservation, through social initiatives, is fast becoming a crucial element for the survival of a substantial number of species not protected by state-designated PA. Given the current speed of land use change, we cannot expect to save all species from extinction, and so it must be decided, rather quickly, how to focus the limited resources available to prevent the greatest number of extinctions. In Chapter VIII, a simple conservation triage method is proposed. Using this triage method, the threat status for 145 micro-endemic Mexican amphibian species is evaluated, alongside potential threat abatement responses derived from existing policy instruments and social initiatives. Both indicators are combined to provide broad-scale conservation strategies that would best suit amphibian micro-endemic buffered areas (AMBAs) in Mexico. Results show that almost 25% of the species analysed urgently need field-base verification to confirm their persistence; for the rest, a conservation strategy is developed based on existing conservation instruments. Monitoring populations is essential in order to understand temporal patterns of community change and to better comprehend the underlying processes that shape and maintain biodiversity. These aspects, along with a general discussion focused mainly on the distanciation problem are addressed in Chapter IX.
399

Återanslutning av s.k. korvsjöar till den ursprungliga flodfåran som en restaureringsåtgärd för ökad biodiversitet : -En litteraturstudie

Johansson, Andreas January 2017 (has links)
The aim with this review was to investigate whether a reconnection of an oxbow lake can contribute to higher biodiversity. However, oxbow lakes can be divided in three categories: Lentic- (connected with both ends to the river bed), semi-lentic- (connected with one end) and lotic oxbow lakes (Isolated from the riverbed). Aquatic organisms such as fish, aquatic invertebrates, amphibians and macrophytes has been studied. The result showed that hydrological connectivity determines both biodiversity and water quality in oxbow lakes. Lotic oxbow lakes consisted low biodiversity and it’s dominated by amphibians. Semi-lentic oxbow lakes contributes with highest biodiversity of macrophytes, fish and aquatic invertebrates. Lentic oxbow lakes consisted less biodiversity and was dominated by fish. In conclusion, reconnection of an oxbow lake can be used as a restoration project to improve biodiversity.
400

Combining paleontological and neontological data to assess the extinction risk of amphibians

Tietje, Melanie 12 February 2019 (has links)
Das Aussterberisiko einer Art ist nicht zufällig, sondern wird von mehreren Faktoren bestimmt, die geografische, ökologische und morphologische Merkmale umfassen. Einige dieser Merkmale sind Teil der Kriterien zur Einschätzung der Gefährdung einer Art, wie zum Beispiel in der Roten Liste der IUCN. Diese Beurteilungen sind ein wichtiges Werkzeug für den Artenschutz, da sie eine Verteilung der Maßnahmen auf die am stärksten gefährdeten Arten ermöglichen. Dies ist besonders wichtig für Amphibien, die Wirbeltiergruppe mit dem derzeit höchsten Anteil an bedrohten Arten. Bei einem großen Teil der Arten fehlt jedoch eine Einschätzung des Aussterberisikos. Weiter mangelt es auch an einer endgültigen Verifizierung des Einflusses der genutzten Merkmale auf das Aussterberisiko, da Aussterbeereignisse auf neontologischen Zeitskalen schwer zu erkennen sind. Der Fossilbericht stellt ein enormes Archiv an bereits geschehenen Aussterbeereignissen dar und bietet die Möglichkeit den Einfluss bestimmter Merkmale auf die Gefährdung zu testen. In der vorliegenden Arbeit untersuche ich Merkmale von Amphibienarten, die zum Aussterberisiko dieser zunehmend gefährdeten Gruppe beitragen und bestätige die Bedeutung der geographischen Reichweite für das Aussterberisiko. Die in dem sich aktuell entwickelnden Gebiet Conservation Paleobiology angesiedelte Arbeit konzentriert sich auf die Verbindung von paläontologischen und neontologischen Daten, und wie diese Kombination dazu beitragen kann das Wissen über Aussterberisiko-beeinflussende Faktoren zu erweitern. Dies wird durch die Analyse verschiedener im Fossilbericht überlieferter Artmerkmale und der Kombination der Erkenntnisse mit Ergebnissen der Roten Liste und Klimadaten erreicht. In meiner Arbeit zeige ich mögliche Anwendungen des Fossilberichts auf aktuellen Themen des Artenschutzes und wie eine Kombination beider Bereiche zum tieferen Verständnis von Gefährdungsfaktoren beitragen kann. / The extinction risk of a species is not random, but rather shaped by several factors comprising geographical, environmental and morphological traits. Some of these traits have been incorporated in assessment procedures for the classification of extant species' extinction risk, such as the International Union for Conservation of Nature (IUCN) Red List. These assessments are an important tool for conservation purposes, as they direct the available resources to species that are most reliant on support. This is especially important for amphibians, which are the the most endangered terrestrial vertebrate taxon today. However, a large number of species lack an assessment for extinction risk. Also, additional verification of the general influence of incorporated traits on extinction risk is needed, as real extinction events are difficult to detect on neontological time scales. The fossil record offers the opportunity to test the influence of certain traits on extinction risk as it provides an enormous archive of extinction events that already happened. In this thesis, I examine traits in amphibian species that contribute to the extinction risk of this increasingly endangered group and provide support for the importance of geographic range size on the extinction risk of species. Placed in the developing field of Conservation Paleobiology, the study concentrates on the connection between paleontological and neontological data and how this unique combination can add to the knowledge about traits that shaped the extinction risk of amphibian species. This is achieved by investigating species traits, conserved in the amphibian fossil record, and combining these findings with results from the IUCN Red List and climate data. The present dissertation shows possible applications of the fossil record to current questions in conservation biology and shows how a combination of both fields contributes to the understanding of factors that influence the extinction risk of species.

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