Ecologically viable population sizes: Determining factors

Sellman, Stefan

January 2010

The minimum ecologically viable population size (MEVP) of a species describes the minimum size at which the species itself or another species in the same ecosystem goes extinct as a result of the loss of inter-specific interactions. The MEVP shows a good potential for use as a tool for exploring the mechanisms behind species extinctions, but presently only a small amount of research has been done that takes advantage of this. In this study the MEVP is used to investigate what properties of species can be used as good indicators of ecological importance. 100 large computer generated food webs were created with an assembly model and the reduction in density that was necessary to induce an extinction event in the web was subsequently determined for each species within the webs. This change in density was then correlated with 28 different properties, measured for each species. The results show that properties that measure how well connected a species is, as well as measures of the species role as a prey item in the web are the ones with the greatest potential to find species with high MEVP. Further, the results put emphasis on the importance of regarding the web as a whole when working with species extinctions, while also highlighting the usefulness of the MEVP concept.

assembly model

ecologically effective populations

extinction

keystone species

MEVP

MVP

species interactions

Terrestrisk, limnisk och marin ekologi

People and Fish in Fiji: an ethnobiological study of a coral reef ecosystem

Gordon, Andrew Ross

Unknown Date

No description available.

ethnobiology

Kadavu fish names

cultural keystone species

coral reef fish categories

Kadavu sea cucumber names

Astrolabe Reef

People and Fish in Fiji: an ethnobiological study of a coral reef ecosystem

Gordon, Andrew Ross

11 1900

People are active participants in coral reef ecosystems. This ethnobiology study considers and contrasts folkbiological knowledge of people living in two groups of artisanal fishing villages in Kadavu Province, Fiji. The high level of biological diversity on the Astrolabe Reef provides insights into folk categorization and classification methods that include colour, shape, size, physical features, and habits of certain reef fish and marine animals. Surveying large numbers of experts and novices on defined groups of creatures yields more depth and range of responses allowing higher confidence levels in response accuracy. A comparison of the data with Berlins (1992) proposed principles yields mixed results. Sea cucumbers have high ecological salience and their identification requires attention to the affect of two centuries of trade on Fijian society. Effective ethnobiological research provides productive options to contribute to coral reef sustainability programs with long term benefits for local people and marine life. Key words: Kadavu, naming and classification of fish, coral reef ethnobiology.

ethnobiology

Kadavu fish names

cultural keystone species

coral reef fish categories

Kadavu sea cucumber names

Astrolabe Reef

Predatory and Mutualistic Interactions between Freshwater Minnows and their Predators

Brooks, Samantha Grace

09 August 2024

Keystone species are widely distributed across aquatic and terrestrial ecosystems and are fundamental in preserving the structure, diversity, and stability of an ecological community due to its disproportionately large impact on its community relative to its biomass. As biodiversity of ecosystems becomes more threatened with urbanization and habitat destruction, it is imperative to understand a keystone species' role in maintaining ecosystem function. One of the ways to do so is by examining their significance and connection to the ecosystem food web. Within North American freshwater ecosystems is the pebble nest-building minnow, the bluehead chub (Nocomis leptocephalus; "chub"). Chubs provide spawning habitat for not only themselves, but for other minnows, collectively called "nest associates". In this work, I observe the predatory and potential mutualistic interactions between chubs, nest associates, and their predators. In Chapter 1, I observe spawning nests to identify the predators of adult chubs, nest associates, and embryos. I further investigate how nest visibility covariates including minnow activity, minnow abundance, nest size (area), and nest growth affect predator encounter rate to spawning nests. I found a total of 23 diverse taxa to prey on the adult minnows and minnow embryos on chub spawning nests, 14 predators of which had not been reported in literature. One of these predators was the common snapping turtle (Chelydra serpentina; "turtle"). Additionally, I found that activity, abundance, nest size (area), and nest growth had a significant effect on predator encounter rate, attracting predators to seek spawning nests for prey. In Chapter 2, I investigate the effect of ambient temperature on turtle epizoic coverage during the spawning season and provide preliminary evidence of a potential cleaning symbiotic mutualism between the turtle and minnows. I found that epizoic coverage decreases during the duration of a minnow spawning season after an initial increase with early summer warming, and my results also present unique and shared bacterial communities across three sources, the ambient environment, gut contents of minnows, and turtles. The results additionally revealed there to be bacterial communities unique between minnows and turtles that were not identified in the ambient environment. Overall, this study is first to systematically document predators of chub spawning nests and first to provide preliminary evidence of a cleaning symbiotic mutualism between a freshwater turtle and minnow species (or freshwater turtles and fish in general), which, thus far, has not been explored in freshwater ecosystems. This work demonstrates that chub spawning nests are a crucial entity of the freshwater food web structure across Nocomis' distribution range and reveals that chub spawning nests create an interconnection between a diversity of fauna in a freshwater ecosystem. / Master of Science / Ecological communities often include species that are essential in ensuring the overall stability and biodiversity of an ecosystem. These species, otherwise called keystone species, play a crucial role in facilitating interconnections within the ecosystem's food web. The bluehead chub (Nocomis leptocephalus; "chub") is an example of a keystone minnow found in North American freshwater streams. This minnow engages in a complex, distinguished act when it reproduces, making mounded, pebble nests using only its mouth. Chubs are not the only minnow species interested in this engineering complexity. Various minnow species called "nest associates" reproduce on the nests as well, providing an appearance of a mutualism: all species involved benefit from the interaction. While this interaction has been observed, there is limited research identifying predators of chub nests and if there are potential mutualisms with any of these predators. In this work, I identify predatory and mutualistic interactions between chubs, nest associates, and their predators. In Chapter 1, I identify predators of chub nests and observe variables that attract these predators to the nests. In Chapter 2, I explore a potential, mutualistic interaction between these minnows and an identified predator from this research, the common snapping turtle (Chelydra serpentina; "turtle"), whereby minnows feed on potentially harmful growth of algae and bacteria on turtles, while turtles benefit from the cleaning. For Chapter 1, my results revealed that a chub nest is a hotspot for predator diversity, showing 23 diverse taxa as predators, in which 14 of the identified taxa are novel for ecological literature. Additionally, variables that were observed to attract predators to chub nests were minnow activity, minnow abundance, nest size (area), and nest growth. Results for Chapter 2 demonstrated that there are unique bacterial communities between turtles and minnows that are not found in the stream environment, therefore providing preliminary evidence of mutualistic interaction between the coexisting species. Overall, this study is the first to systematically document predators of chub nests. This study is also first to investigate a mutualistic interaction between minnows and turtles in a freshwater ecosystem, an area that has not been previously explored, unlike similar interactions in marine ecosystems. Cohesively, the keystone species, the chub, and their reproductive nests, are important for the aquatic food web structure and the interconnectedness to their overall ecosystem function. This research further stewards scientific knowledge about how important Nocomis are to natural freshwater ecosystems.

Bacteria

cleaning symbiosis

Chelydra serpentina

epizoic organisms

food webs

keystone species

Nocomis leptocephalus

16S rRNA amplicon sequencing

Frugivoria de Ficus (Moraceae) por aves em paisagens com diferentes níveis de fragmentação florestal no Estado de São Paulo / Frugivory of Ficus (Moraceae) by birds in areas with different levels of forest fragmentation in São Paulo State

Lapate, Mariana Esther

27 November 2009

Ficus (Moraceae) é o gênero mais importante para animais frugívoros nas florestas tropicais, considerado um recurso-chave durante períodos de escassez de frutos. Esses animais dispersam suas sementes e contribuem para a manutenção das populações de figueiras. A perda de hábitat e a fragmentação da paisagem podem afetar a sobrevivência de populações e a composição de comunidades e suas interações. Os objetivos deste trabalho foram (1) comparar a frugivoria e a dispersão de sementes por aves frugívoras entre espécies de Ficus encontradas em remanescentes de Floresta Estacional Semidecidual e (2) testar se a perda de hábitat influencia a frugivoria e dispersão de sementes dessas árvores. Estudamos três áreas de reservas florestais no Estado de São Paulo, sudeste do Brasil, com diferentes áreas e nível de fragmentação da paisagem: Parque Estadual do Morro do Diabo (33.845 ha), Estação Ecológica dos Caetetus (2.176 ha) e Estação Ecológica de Ribeirão Preto (180 ha). Ao longo de 443 h de observação árvore-focal, registramos todas as espécies de aves frugívoras se alimentando de figos e estimamos a taxa de remoção de figos e sementes. Como nossos dados não se adequaram a métodos estatísticos tradicionais, utilizamos a reamostragem por bootstrap para estimar os intervalos de confiança das taxas de remoção e dispersão de sementes e testar as diferenças entre as espécies de figueira e as áreas de estudo. Trinta e duas espécies de aves foram observadas consumindo figos de seis espécies de Ficus. As figueiras que apresentam figos verdes, de tamanho médio ou grande, foram consumidas por uma boa variedade de espécies, mas apenas uma das aves de cada assembléia foi responsável pela remoção da maior parte dos figos. Ficus luschnathiana, com figos pequenos e vermelhos quando maduros, foi consumida de forma mais equitativa pelos seus visitantes, e apresentou taxa de dispersão de sementes significativamente maior que as demais espécies. A fragmentação reduziu a remoção de figos e sementes de F. citrifolia. Ficus eximia não demonstrou nenhum padrão claro, uma vez que só teve um consumo expressivo em um microhábitat específico, não incluído na análise da fragmentação. No fragmento menor, aves de grande porte, consideradas bons dispersores de sementes, não foram encontradas e as aves menores e generalistas não compensaram a perda do serviço de dispersão de sementes. Essas espécies de Ficus, no entanto, devem depender mais de morcegos e macacos-prego que das aves no processo de dispersão, e devem inclusive ser beneficiadas pelo aumento na extensão de bordas. Mesmo que essa comunidade de figueiras no fragmento menor não estabeleça uma interação forte com a avifauna, ainda é relevante testar se a baixa densidade de indivíduos de F. luschnathiana é consequencia da ausência de bons dispersores de sementes. / Ficus (Moraceae) is the most important plant genus for tropical frugivores and is considered a keystone resource during periods of general fruit scarcity. Frugivorous animals disperse their seeds and contribute for the maintenance of fig trees populations. Habitat loss and landscape fragmentation can affect species survival as well as community composition and their interactions. The goals of this study were (1) to compare the frugivory and seed dispersal by frugivorous birds among Ficus species found in Semideciduous Seasonal Forest remnants and (2) to assess whether habitat loss influences frugivory and seed dispersal of these trees. We studied three natural reserves in São Paulo State, southeastern Brazil, which differ in area and landscape fragmentation: Morro do Diabo State Park (33.845 ha), Caetetus Ecological Station (2.176 ha) and Ribeirão Preto Ecological Station (180 ha). During 443 h focal tree observation, we registered all frugivorous birds eating figs and estimated their fruit removal and seed dispersal. As traditional statistical methods were not suitable for our data, we used bootstrap data resampling to estimate confidence limits of fruit removal and seed dispersal and test for differences between fig trees and forest fragments. A total of 32 bird species were observed consuming figs of six Ficus species. Fig trees bearing green-fruited and medium or large figs were consumed by a great diversity of birds, but showed a dominance of only one species over the others on the fruit removal. Ficus luschnathiana, whose figs are small and red when ripe, was more equally consumed by all visitors and had significantly more seeds dispersed per hour than the other species. Fragmentation reduced fruit removal and seed dispersal of F. citrifolia. Ficus eximia did not show a clear pattern, once it was only highly consumed by birds in a specific microhabitat not included on the fragmentation analysis. The effect upon other Ficus species remains to be tested. In the smallest forest remnant, large-bodied birds, considered high quality seed dispersers, cannot be found anymore and small and generalist birds are not able to compensate for this loss on seed dispersal service. These Ficus species, however, may depend more upon bats and capuchin monkeys than on birds for seed dispersal, and may even benefit from the increase in extension of forest edges. Even if this Ficus community as a whole does not seem to interact with birds, it remains relevant, though, to test whether F. luschnathiana\'s low density in the smallest fragment is due to the absence of good seed dispersers.

Animal-plant interaction

Dispersão de sementes

Espécie-chave

Floresta Estacional Semidecidual

Forest fragments

Fragmentos florestais

Interação animal-planta

Keystone species

Seed dispersal

Semideciduous Seasonal Forest

Historický výskyt zubra evropského na českém území a jeho význam pro okolní krajinu / Historical Existence of European Bison in the Czech Geographical Region, and its Significance to the Surrounding Landscape

Řezáč, Tomáš

January 2018

The subject of this diploma thesis is an analysis of the historical existence of European bison in the Czech geographical region and an evaluation of the significance of its presence to the surrounding landscape. The goal of the thesis is to depict bison population changes in the Czech territory over time and the meaning of efforts to reintroduce the bison into its natural habitat. An important part of the work then will be the preparation, realization and evaluation of two excursions during which students go for European bison directly into the field.

Frugivoria de Ficus (Moraceae) por aves em paisagens com diferentes níveis de fragmentação florestal no Estado de São Paulo / Frugivory of Ficus (Moraceae) by birds in areas with different levels of forest fragmentation in São Paulo State

Mariana Esther Lapate

27 November 2009

Ficus (Moraceae) é o gênero mais importante para animais frugívoros nas florestas tropicais, considerado um recurso-chave durante períodos de escassez de frutos. Esses animais dispersam suas sementes e contribuem para a manutenção das populações de figueiras. A perda de hábitat e a fragmentação da paisagem podem afetar a sobrevivência de populações e a composição de comunidades e suas interações. Os objetivos deste trabalho foram (1) comparar a frugivoria e a dispersão de sementes por aves frugívoras entre espécies de Ficus encontradas em remanescentes de Floresta Estacional Semidecidual e (2) testar se a perda de hábitat influencia a frugivoria e dispersão de sementes dessas árvores. Estudamos três áreas de reservas florestais no Estado de São Paulo, sudeste do Brasil, com diferentes áreas e nível de fragmentação da paisagem: Parque Estadual do Morro do Diabo (33.845 ha), Estação Ecológica dos Caetetus (2.176 ha) e Estação Ecológica de Ribeirão Preto (180 ha). Ao longo de 443 h de observação árvore-focal, registramos todas as espécies de aves frugívoras se alimentando de figos e estimamos a taxa de remoção de figos e sementes. Como nossos dados não se adequaram a métodos estatísticos tradicionais, utilizamos a reamostragem por bootstrap para estimar os intervalos de confiança das taxas de remoção e dispersão de sementes e testar as diferenças entre as espécies de figueira e as áreas de estudo. Trinta e duas espécies de aves foram observadas consumindo figos de seis espécies de Ficus. As figueiras que apresentam figos verdes, de tamanho médio ou grande, foram consumidas por uma boa variedade de espécies, mas apenas uma das aves de cada assembléia foi responsável pela remoção da maior parte dos figos. Ficus luschnathiana, com figos pequenos e vermelhos quando maduros, foi consumida de forma mais equitativa pelos seus visitantes, e apresentou taxa de dispersão de sementes significativamente maior que as demais espécies. A fragmentação reduziu a remoção de figos e sementes de F. citrifolia. Ficus eximia não demonstrou nenhum padrão claro, uma vez que só teve um consumo expressivo em um microhábitat específico, não incluído na análise da fragmentação. No fragmento menor, aves de grande porte, consideradas bons dispersores de sementes, não foram encontradas e as aves menores e generalistas não compensaram a perda do serviço de dispersão de sementes. Essas espécies de Ficus, no entanto, devem depender mais de morcegos e macacos-prego que das aves no processo de dispersão, e devem inclusive ser beneficiadas pelo aumento na extensão de bordas. Mesmo que essa comunidade de figueiras no fragmento menor não estabeleça uma interação forte com a avifauna, ainda é relevante testar se a baixa densidade de indivíduos de F. luschnathiana é consequencia da ausência de bons dispersores de sementes. / Ficus (Moraceae) is the most important plant genus for tropical frugivores and is considered a keystone resource during periods of general fruit scarcity. Frugivorous animals disperse their seeds and contribute for the maintenance of fig trees populations. Habitat loss and landscape fragmentation can affect species survival as well as community composition and their interactions. The goals of this study were (1) to compare the frugivory and seed dispersal by frugivorous birds among Ficus species found in Semideciduous Seasonal Forest remnants and (2) to assess whether habitat loss influences frugivory and seed dispersal of these trees. We studied three natural reserves in São Paulo State, southeastern Brazil, which differ in area and landscape fragmentation: Morro do Diabo State Park (33.845 ha), Caetetus Ecological Station (2.176 ha) and Ribeirão Preto Ecological Station (180 ha). During 443 h focal tree observation, we registered all frugivorous birds eating figs and estimated their fruit removal and seed dispersal. As traditional statistical methods were not suitable for our data, we used bootstrap data resampling to estimate confidence limits of fruit removal and seed dispersal and test for differences between fig trees and forest fragments. A total of 32 bird species were observed consuming figs of six Ficus species. Fig trees bearing green-fruited and medium or large figs were consumed by a great diversity of birds, but showed a dominance of only one species over the others on the fruit removal. Ficus luschnathiana, whose figs are small and red when ripe, was more equally consumed by all visitors and had significantly more seeds dispersed per hour than the other species. Fragmentation reduced fruit removal and seed dispersal of F. citrifolia. Ficus eximia did not show a clear pattern, once it was only highly consumed by birds in a specific microhabitat not included on the fragmentation analysis. The effect upon other Ficus species remains to be tested. In the smallest forest remnant, large-bodied birds, considered high quality seed dispersers, cannot be found anymore and small and generalist birds are not able to compensate for this loss on seed dispersal service. These Ficus species, however, may depend more upon bats and capuchin monkeys than on birds for seed dispersal, and may even benefit from the increase in extension of forest edges. Even if this Ficus community as a whole does not seem to interact with birds, it remains relevant, though, to test whether F. luschnathiana\'s low density in the smallest fragment is due to the absence of good seed dispersers.

Dispersão de sementes

Espécie-chave

Floresta Estacional Semidecidual

Fragmentos florestais

Interação animal-planta

Animal-plant interaction

Forest fragments

Keystone species

Seed dispersal

Semideciduous Seasonal Forest

Species And Habitat Interactions Of The Gopher Tortoise: A Keystone Species?

Catano, Christopher

01 January 2012

Species-species and species-habitat interactions have been demonstrated to be important in influencing diversity across a variety of ecosystems. Despite generalities in the importance of these interactions, appropriate mechanisms to explain them are absent in many systems. In sandhill systems of the southeast U.S., gopher tortoises have been hypothesized to be a crucial species in the maintenance of diversity and function. However, the mechanisms and magnitude in which they influence their communities and habitats have rarely been empirically quantified. I examined how habitat structure influences tortoise abandonment of burrows and how tortoise densities influence nonvolant vertebrate community diversity. Tortoise burrow abandonment is directly influenced by canopy closure, with each percent increase in canopy cover relating to a ~2% increase in the probability of burrow abandonment. In addition, tortoise burrow density was positively correlated with diversity and evenness, but not species richness. This influence was directly proportional to burrow density, supporting a dominance role for this species and rejecting the commonly asserted keystone species mechanism. I also quantified the influence of tortoises in influencing diversity relative to other environmental and habitat variables. Through this research, I have demonstrated that disturbance and habitat structure are important, but diversity responds most to density of burrows in the habitat. These findings demonstrate the intricate relationships interacting to maintaining diversity in sandhill systems. In particular, habitat change leading to declines of gopher tortoises may have drastic negative impacts on vertebrate species diversity.

Gopher tortoise

biodiversity

management

species species interactions

species habitat interactions

sandhill habitat

florida

spatial scale

lidar

keystone species

ecosystem engineer

prescribed fire

habitat heterogeneity

Biology

Putting the Wild Back into Wilderness: GIS Analysis of the Daniel Boone National Forest for Potential Red Wolf Reintroduction

Jacobs, Teri A.

January 2009

No description available.

Animals

Ecology

Environmental Science

Geography

red wolf (Canis rufus)

keystone species

habitat suitability model

kernel density estimation

geographic information systems (GIS)

Daniel Boone National Forest

Experimental study of an avian cavity-nesting community: nest webs, nesting ecology, and interspecific interactions

Blanc, Lori A.

04 September 2007

Cavity-nesting communities are structured by the creation of and competition for cavities as nest-sites. Viewing these communities as interconnected webs can help identify species interactions that influence community structure. This study examines cavity-nesting bird community interactions within the fire-maintained longleaf pine (Pinus palustris) ecosystem at Eglin Air Force Base, Florida. In chapter 1, I provide a background review of the ecology of my study system. In chapter 2, I use nest webs to depict the flow of cavity-creation and use at Eglin. I identified 2 webs into which most species could be placed. One web contained 6 species associated with pines. The second web contained 5 species associated with hardwoods. Red-cockaded woodpeckers (Picoides borealis) and northern flickers (Colaptes auratus) created most cavities used by other species within this community. In chapter 3, I describe snag densities and nest-site selection of the cavity-nesting bird community at Eglin. Large, mature pine snags were abundant, exceeding other reported densities for southern pine forests. Pine snags were heavily-used, despite the abundance of available red-cockaded woodpecker cavities in living pine. Hardwood snags accounted for 10% of nests found, and were used by 12 of 14 species. Diameters of nest-trees and available snags were below the range of optimal nest-snag diameters reported in other studies, indicating the need for site-specific snag management guidelines. In chapter 4, I combine a study of basic ecological principles with endangered species management to examine interactions within the cavity-nesting bird community at Eglin. I used a nest web to identify a potential indirect interaction between the red-cockaded woodpecker and large secondary cavity-nesters, mediated by the northern flicker. I used structural equation modeling to test a path model of this interaction. By experimentally manipulating cavity availability, I blocked links described in the model, confirming cavity creation and enlargement as mechanisms that influence this indirect relationship. I demonstrated that a red-cockaded woodpecker cavity-management technique could disrupt this indirect relationship by affecting northern flicker behavior, and provided an empirical example of how, in interactive ecological communities, single-species management can have indirect effects on non-target species. / Ph. D.

cavity-nester

ecosystem engineer

snag

structural equation modeling

red-cockaded woodpecker

Colaptes auratus

nest web

Picoides borealis

longleaf pine

northern flicker

endangered species management

indirect interaction

keystone species