Using Natural Pelt Patterns to Estimate Population Abundance with Mark–Resight Models
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DOI: 10.1002/wsb.1133
Abstract: Author(s): Teton, Ben Scott | Advisor(s): Young, Hillary S | Abstract: Estimating population abundance through time is an essential component of wildlife conservation and management. However, accurate population monitoring can be difficult and expensive for… read more here.
Keywords: population; population abundance; mark resight; using natural ... See more keywords
Population abundance of two-patch competitive systems with asymmetric dispersal
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DOI: 10.1007/s00285-020-01511-z
Abstract: This paper considers two-species competitive systems with two patches, in which one of the species can move between the patches. One patch is a source where each species can persist alone, but the other is… read more here.
Keywords: competitive systems; patch; population abundance; dispersal ... See more keywords
Estimating Population Abundance of Burying Beetles Using Photo-Identification and Mark-Recapture Methods
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DOI: 10.1093/ee/nvaa139
Abstract: Abstract Successful conservation and management of protected wildlife populations require reliable population abundance data. Traditional capture-mark-recapture methods can be costly, time-consuming, and invasive. Photographic mark-recapture (PMR) is a cost-effective, minimally invasive way to study population… read more here.
Keywords: mark recapture; population abundance; population; mark ... See more keywords
On population abundance and niche structure
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DOI: 10.1111/ecog.04442
Abstract: Recent published evidence indicates a negative correlation between density of populations and the distance of their environments to a suitably defined ‘niche centroid’. This empirical observation lacks theoretical grounds. We provide a theoretical underpinning for… read more here.
Keywords: abundance niche; population abundance; population; structure ... See more keywords
Estimating fish population abundance by integrating quantitative data on environmental DNA and hydrodynamic modelling
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DOI: 10.1111/mec.15530
Abstract: Molecular analysis of DNA left in the environment, known as environmental DNA (eDNA), has proven to be a powerful and cost‐effective approach to infer occurrence of species. Nonetheless, relating measurements of eDNA concentration to population… read more here.
Keywords: environmental dna; population abundance; abundance; edna ... See more keywords