Per Fauchald scite author profile

How animals change their movement patterns in relation to the environment is a central topic in a wide area of ecology, including foraging ecology, habitat selection, and spatial population ecology. To understand the underlying behavioral mechanisms involved, there is a need for methods to measure changes in movement patterns along a pathway through the landscape. We used simulated pathways and satellite tracking of a long‐ranging seabird to explore the properties of first‐passage time as a measure of search effort along a path. The first‐passage time is defined as the time required for an animal to cross a circle with a given radius. It is a measure of how much time an animal uses within a given area. First‐passage time is scale dependent, and a plot of variance in first‐passage time vs. spatial scale reveals the spatial scale at which the animal concentrates its search effort. By averaging the first‐passage time on a geographical grid, it is possible to relate first‐passage time to environmental variables and the search pattern of other individuals. Corresponding Editor: G. M. Henebry

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Effect of fluvastatin on cardiac outcomes in renal transplant recipients: a multicentre, randomised, placebo-controlled trial

Holdaas

et al. 2003

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Skin cancer in kidney and heart transplant recipients and different long-term immunosuppressive therapy regimens

Jensen

Hansen

Møller

et al. 1999

Journal of the American Academy of Dermatology

778

408

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Techniques for cetaceanhabitat modeling

Redfern¹,

Ferguson²,

Becker³

et al. 2006

Mar. Ecol. Prog. Ser.

375

338

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Cetacean-habitat modeling, although still in the early stages of development, represents a potentially powerful tool for predicting cetacean distributions and understanding the ecological processes determining these distributions. Marine ecosystems vary temporally on diel to decadal scales and spatially on scales from several meters to 1000s of kilometers. Many cetacean species are wideranging and respond to this variability by changes in distribution patterns. Cetacean-habitat models have already been used to incorporate this variability into management applications, including improvement of abundance estimates, development of marine protected areas, and understanding cetacean-fisheries interactions. We present a review of the development of cetacean-habitat models, organized according to the primary steps involved in the modeling process. Topics covered include purposes for which cetacean-habitat models are developed, scale issues in marine ecosystems, cetacean and habitat data collection, descriptive and statistical modeling techniques, model selection, and model evaluation. To date, descriptive statistical techniques have been used to explore cetacean-habitat relationships for selected species in specific areas; the numbers of species and geographic areas examined using computationally intensive statistic modeling techniques are considerably less, and the development of models to test specific hypotheses about the ecological processes determining cetacean distributions has just begun. Future directions in cetacean-habitat modeling span a wide range of possibilities, from development of basic modeling techniques to addressing important ecological questions.

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Per Fauchald

Using First-Passage Time in the Analysis of Area-Restricted Search and Habitat Selection

Effect of fluvastatin on cardiac outcomes in renal transplant recipients: a multicentre, randomised, placebo-controlled trial

Skin cancer in kidney and heart transplant recipients and different long-term immunosuppressive therapy regimens

Techniques for cetaceanhabitat modeling

Contact Info

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Resources

About

Per Fauchald

Using First-Passage Time in the Analysis of Area-Restricted Search and Habitat Selection

Effect of fluvastatin on cardiac outcomes in renal transplant recipients: a multicentre, randomised, placebo-controlled trial

Skin cancer in kidney and heart transplant recipients and different long-term immunosuppressive therapy regimens

Techniques for cetaceanhabitat modeling

Contact Info

Product

Resources

About

Techniques for cetaceanhabitat modeling