Determining Drivers for Wildebeest (Connochaetes taurinus) Distribution in the Masai Mara National Reserve and Surrounding Group Ranches

Sheehan, Meghan Marie

12 January 2016

No description available.

Geography

Geographic Information Science

Biographies

Animal Sciences

Ecology

Statistics

GIS

Species distribution modeling

MaxEnt

Bioclim

Biogeography

wildebeest migration

Masai Mara National Reserve

wildlife conservation

ArcGIS

East Africa

animal distribution

SDM

Spatial characterization of Western Interior Seaway paleoceanography using foraminifera, fuzzy sets and Dempster-Shafer theory

Lockshin, Sam

15 July 2016

No description available.

Geographic Information Science

Earth

Geography

Geology

Marine Geology

Oceanography

Paleoecology

Paleontology

Statistics

paleontology

GIS

foraminifera

species distribution modeling

fuzzy sets

Dempster-Shafer theory

paleoceanography

Western Interior Seaway

Cenomanian

Turonian

spatial modeling

Bayesian statistics

Oceanic Anoxic Event

uncertainty modeling

ArcGIS

A Bayesian approach to habitat suitability prediction

Lockett, Daniel Edwin IV

27 March 2012

For the west coast of North America, from northern California to southern Washington, a habitat suitability prediction framework was developed to support wave energy device siting. Concern that wave energy devices may impact the seafloor and benthos has renewed research interest in the distribution of marine benthic invertebrates and factors influencing their distribution. A Bayesian belief network approach was employed for learning species-habitat associations for Rhabdus rectius, a tusk-shaped marine infaunal Mollusk. Environmental variables describing surficial geology and water depth were found to be most influential to the distribution of R. rectius. Water property variables, such as temperature and salinity, were less influential as distribution predictors. Species-habitat associations were used to predict habitat suitability probabilities for R. rectius, which were then mapped over an area of interest along the south-central Oregon coast. Habitat suitability prediction models tested well against data withheld for crossvalidation supporting our conclusion that Bayesian learning extracts useful information available in very small, incomplete data sets and identifies which variables drive habitat suitability for R. rectius. Additionally, Bayesian belief networks are easily updated with new information, quantitative or qualitative, which provides a flexible mechanism for multiple scenario analyses. The prediction framework presented here is a practical tool informing marine spatial planning assessment through visualization of habitat suitability. / Graduation date: 2012

Habitat suitability

Bayesian

Species Distribution Modeling

GIS

Marine spatial planning

wave energy

renewable energy

Belief network

benthic invertebrates

machine learning

predictive modeling

ecological modeling

probabilistic modeling

Sea floor mapping

Habitat classification

Maximum likelihood

Influence multi-échelle des facteurs environnementaux dans la répartition du Desman des Pyrénées (Galemys pyrenaicus) en France / Multi-scale influence of environmental factors in the distribution of the Pyrenean desman (Galemys pyrenaicus) in France

Charbonnel, Anaïs

04 June 2015

L’écologie du Desman des Pyrénées (Galemys pyrenaicus), mammifère semi-aquatique endémique de la péninsule ibérique et des Pyrénées, demeure encore très peu connue. Les objectifs de cette thèse, dans le cadre d’un Plan National d’Actions, ont été d’identifier les variables environnementales agissant sur la répartition de l’espèce à différentes échelles spatiales, en considérant sa détectabilité imparfaite (i.e. fausses absences et fausses présences). Une probabilité de détection élevée, mais spatialement hétérogène à l’échelle des Pyrénées françaises, a été mise en évidence. La distribution du Desman des Pyrénées s’est également révélée spatialement structurée et majoritairement influencée par des facteurs propres aux milieux aquatiques, mais en forte régression depuis les années 80. Ces résultats ont permis de proposer des mesures de conservation pour cette espèce menacée. / The ecology of the Pyrenean desman (Galemys pyrenaicus), a small semi-aquatic mammal endemic to the Iberian Peninsula and the Pyrenees, remains still largely unknown. The aim of this PhD thesis conducted within the framework of a National Action Plan was to identify the environmental variables influencing the Desman distribution at various spatial scales, by accounting for its imperfect detection (i.e. false absences and false presences). A high, but spatially heterogeneous at the French Pyrenees extent, probability of detection was highlighted. The distribution of the Pyrenean Desman was also emphasized to be spatially structured and mainly influenced by aquatic factors, but severely contracting for the last 25 years. These results enabled to suggest conservation measures for this endangered species.

Biologie de la conservation

Galemys pyrenaicus

Pyrénées françaises

Suivi

Modèles de distribution d’espèces

Modèles d’occupation de sites

Détection

Réplicas spatiaux

Echelle spatiale

Hydrologie

Favorabilité d’habitat

Changements globaux

Conservation biology

Galemys pyrenaicus

French Pyrenees

Monitoring

Species distribution modeling

Site occupancy modeling

Detection

Spatial replicates

Spatial scale

Hydrology

Habitat suitability

Global change