Abstract
The theory of conventional line transect surveys is based on an essential assumption that 100% detection of animals right on the transect lines can be achieved. When this assumption fails, independent observer line transect surveys are used. This paper proposes a general approach, based on a conditional likelihood, which can be carried out either parametrically or nonparametrically, to estimate the abundance of non-clustered biological populations using data collected from independent observer line transect surveys. A nonparametric estimator is specifically proposed which combines the conditional likelihood and the kernel smoothing method. It has the advantage that it allows the data themselves to dictate the form of the detection function, free of any subjective choice. The bias and the variance of the nonparametric estimator are given. Its asymptotic normality is established which enables construction of confidence intervals. A simulation study shows that the proposed estimator has good empirical performance, and the confidence intervals have good coverage accuracy.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Alpizar-Jara, R. and Pollock, K.H. (1996) A combination line transect and capture-recapture sampling models for multiple observers in aerial surveys. Environmental and Ecological Statistics 3, 311-27.
Borchers, D.L., Buckland, S.T., Goedhart, P.W., Clark, E.D., and Cumerworth, S.L. (1998) Horvitz-Thompson estimators for double-platform line transect surveys. Biometrics, 54, 1221-37.
Borchers, D.L., Zucchini, W., and Fewster, R. (1998) Mark-recapture models for line transect surveys. Biometrics, 54, 1207-1220.
Buckland, S.T., Anderson, D.R., Burnham, K.P., and Laake, J.L. (1993) Distance Sampling, Chapman and Hall, London.
Butterworth, D.S. and Borchers (1988) Estimation of g(0) for Minke schools from results of independent observer experiments on the 1985/86 and 1986/87 IWC/IDCR Antarctic assessment cruise, 1978/79. Report of the International Whaling Commission, 38, 301-13.
Chen, S.X. (1996a) Kernel estimates for density of a biological population using line transect sampling. Journal of Royal Statistical Society, Series C, 45, 135-50.
Chen, S.X. (1996b) Studying school size effects in line transect sampling using the kernel method. Biometrics, 52, 1283-94.
Chen, S.X. (1999) Estimation in independent observer line transect surveys for clustered populations. Biometrics, 55, 754-59.
Laake, J.L. (1978) Line transect estimators robust to animal movement, MS thesis, Utah State University, Logan, UT, USA, 55pp.
Lehmann, E.L. (1951) Consistency and unbiasedness of certain nonparametric tests. The Annals of Mathematics Statistics, 22, 165-79.
Mack, Y.P. and Quang, P.X. (1998) Kernel methods in line and point transect sampling. Biometrics, 54, 606-19.
Press, W.H., Flannery, B.F., Teukolsky, S.A., and Vetterling, W.T. (1989) Numerical Recipes: the Art of Scientific Computing, Cambridge, Cambridge University Press.
Quang, P.X. (1993) Nonparametric estimators for variable circular plot survey. Biometrics, 49, 837-52.
Seber, G.A.F. (1982) The Estimation of Animal Abundance, 2nd edn. Griffin, London.
Schweder, T. (1990) Independent observer experiments to estimate the detection function in line transect surveys of whales. Report of the International Whaling Commission, 40, 349-55.
Silverman, B.W. (1986) Density Estimation, Chapman and Hall, London.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Chen, S.X. Animal abundance estimation in independent observer line transect surveys. Environmental and Ecological Statistics 7, 285–299 (2000). https://doi.org/10.1023/A:1009623301208
Issue Date:
DOI: https://doi.org/10.1023/A:1009623301208