An Evaluation of Survey Methods for Estimating Northern Bobwhite Abundance in Southern Texas

Distance sampling has been identified as a reliable and well-suited method for estimating northern bobwhite (Colinus virginianus) density. However, distance sampling using walked transects requires intense sampling to obtain precise estimates, thus making the technique impractical for large acreages...

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Bibliographic Details
Published in:The Journal of wildlife management 2007-06, Vol.71 (4), p.1336-1343
Main Authors: RUSK, JOSHUA P, HERNÁNDEZ, FIDEL, ARREDONDO, JUAN A, HERNÁNDEZ, FROYLAN, BRYANT, FRED C, HEWITT, DAVID G, REDEKER, ERIC J, BRENNAN, LEONARD A, BINGHAM, RALPH L
Format: Article
Language:English
Subjects:
Aerial surveys
Animal populations
Birds
Bobwhites
Colinus virginianus
Comparative studies
Cost estimates
Data collection
Density estimation
Design
distance sampling
Estimate reliability
Estimation methods
helicopter survey
Helicopters
line transect
Methods
morning covey-call counts
northern bobwhite
Polls & surveys
Population
Population estimates
population estimation
Probability
Research methods
Survey design
Survey methods
Techniques and Technology
Techniques and Technology Articles
Wildlife management
Wildlife population estimation
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Summary:Distance sampling has been identified as a reliable and well-suited method for estimating northern bobwhite (Colinus virginianus) density. However, distance sampling using walked transects requires intense sampling to obtain precise estimates, thus making the technique impractical for large acreages. Researchers have addressed this limitation by either resorting to the use of indices (e.g., morning covey-call surveys) or incorporating the use of aerial surveys with distance sampling. Both approaches remain relatively untested. Our objectives were to 1) compare density estimates among morning covey-call surveys, helicopter transects, and walked transects; 2) test a critical assumption of distance sampling pertinent to helicopter surveys (i.e., all objects on line are detected); and 3) evaluate the underlying premise of morning covey-call surveys (i.e., that the no. of calling coveys correlates with bobwhite density). Our study was conducted on 3 study sites in Brooks County, Texas, USA, during October to December, 2001 to 2005. Comparisons between walked transects and morning covey-call surveys involved the entire 5-year data set, whereas helicopter transects involved only the latter 2 years. Density estimates obtained from helicopter transects were similar to walked transect estimates for both years. We documented a detection probability on the helicopter transect line of 70 ± 10.2% (% ± SE; n = 20 coveys). Morning covey-call surveys yielded similar density estimates to walked transect estimates during only 2 of 5 years, when walked transect estimates were the least accurate and precise. We detected a positive relationship (R2 = 0.51; 95% CI for slope: 29.5–53.1; n = 63 observations) between covey density and number of coveys heard calling. We conclude that helicopter transects appear to be a viable alternative to walked transects for estimating density of bobwhites. Morning covey-call surveys appear to be a poor method to estimate absolute abundance and to depict general population trajectories.
ISSN:0022-541X
1937-2817
DOI:10.2193/2006-071