Counting is not always a simple exercise. Specimens can be misidentified or not detected when they are present, giving rise to unidentified sources of error. Deer pellet group counts are a common method to monitor abundance, density, and population trend. Yet, detection errors and observer bias could introduce error into sometimes very large (spatially, temporally) datasets. For example, in Scandinavia, moose (Alces alces) pellet group counts are conducted by volunteer hunters and students, but it is unknown how much uncertainty observer error introduces into these datasets. Our objectives were to 1) estimate the detection probability of moose pellet groups; 2) identify the primary variables leading to detection errors including prior obser...
Long-term and wide-ranging citizen science programs provide a unique opportunity to monitor wildlife...
Abstract Hunter populations can provide a tremendous workforce of citizen scientists afield when que...
Counts of faecal pellet groups have been widely used to estimate population densities and trends of ...
Counting is not always a simple exercise. Specimens can be misidentified or not detected when they a...
Moose (Alces alces) are widely distributed across >100,000 km2 of Montana yet occur at low densit...
InNorway, Sweden and Finland moose Alces alces hunting teams areoften employed tosurvey occupied bea...
Across the northern hemisphere, land use changes and, possibly, warmer winters are leading to more a...
The state of Washington was historically considered to be unoccupied by moose (Alces alces) with ini...
1.Steinhorst&Samuel(1989)showedhowlogistic-regressionmodels,fit to detection data collected from rad...
Following the rapid decline of deer (Odocoileus virginianus) across northern New Brunswick in the la...
We need to monitor wildlife populations to determine whether management goals are achieved and to im...
This study provides hitherto unavailable methodology for reliably and precisely estimating deer dens...
Measurement error and missing data are two common problems in wildlife population surveys. These dat...
Long-term and wide-ranging citizen science programs provide a unique opportunity to monitor wildlife...
Abstract Hunter populations can provide a tremendous workforce of citizen scientists afield when que...
Counts of faecal pellet groups have been widely used to estimate population densities and trends of ...
Counting is not always a simple exercise. Specimens can be misidentified or not detected when they a...
Moose (Alces alces) are widely distributed across >100,000 km2 of Montana yet occur at low densit...
InNorway, Sweden and Finland moose Alces alces hunting teams areoften employed tosurvey occupied bea...
Across the northern hemisphere, land use changes and, possibly, warmer winters are leading to more a...
The state of Washington was historically considered to be unoccupied by moose (Alces alces) with ini...
1.Steinhorst&Samuel(1989)showedhowlogistic-regressionmodels,fit to detection data collected from rad...
Following the rapid decline of deer (Odocoileus virginianus) across northern New Brunswick in the la...
We need to monitor wildlife populations to determine whether management goals are achieved and to im...
This study provides hitherto unavailable methodology for reliably and precisely estimating deer dens...
Measurement error and missing data are two common problems in wildlife population surveys. These dat...
Long-term and wide-ranging citizen science programs provide a unique opportunity to monitor wildlife...
Abstract Hunter populations can provide a tremendous workforce of citizen scientists afield when que...
Counts of faecal pellet groups have been widely used to estimate population densities and trends of ...