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RESEARCH ARTICLE
Contents Vol 36(4)

Using simulation to improve wildlife surveys: wintering mallards in Mississippi, USA

Aaron T. Pearse A C , Kenneth J. Reinecke B , Stephen J. Dinsmore A and Richard M. Kaminski A
+ Author Affiliations
- Author Affiliations

A Department of Wildlife and Fisheries, Box 9690, Mississippi State University, Mississippi State, MS 39762, USA.

B United States Geological Survey, Patuxent Wildlife Research Center, 2524 South Frontage Road, Suite C, Vicksburg, MS 39180, USA.

C Corresponding author. Email: apearse@usgs.gov

Wildlife Research 36(4) 279-288 https://doi.org/10.1071/WR08082
Submitted: 28 May 2008  Accepted: 23 December 2008   Published: 1 June 2009

Abstract

Wildlife conservation plans generally require reliable data about population abundance and density. Aerial surveys often can provide these data; however, associated costs necessitate designing and conducting surveys efficiently. We developed methods to simulate population distributions of mallards (Anas platyrhynchos) wintering in western Mississippi, USA, by combining bird observations from three previous strip-transect surveys and habitat data from three sets of satellite images representing conditions when surveys were conducted. For each simulated population distribution, we compared 12 primary survey designs and two secondary design options by using coefficients of variation (CV) of population indices as the primary criterion for assessing survey performance. In all, 3 of the 12 primary designs provided the best precision (CV ≤ 11.7%) and performed equally well (WR08082_E1d.gifdiff ≤ 0.6%). Features of the designs that provided the largest gains in precision were optimal allocation of sample effort among strata and configuring the study area into five rather than four strata, to more precisely estimate mallard indices in areas of consistently high density. Of the two secondary design options, we found including a second observer to double the size of strip transects increased precision or decreased costs, whereas ratio estimation using auxiliary habitat data from satellite images did not increase precision appreciably. We recommend future surveys of mallard populations in our study area use the strata we developed, optimally allocate samples among strata, employ PPS or EPS sampling, and include two observers when qualified staff are available. More generally, the methods we developed to simulate population distributions from prior survey data provide a cost-effective method to assess performance of alternative wildlife surveys critical to informing management decisions, and could be extended to account for effects of detectability on estimates of true abundance.


Acknowledgements

The Mississippi Department of Wildlife, Fisheries and Parks was our primary sponsor and provided funding from the state’s migratory bird stamp program. Other sponsors providing financial and logistical support included the Anderson-Tully Co.; Delta Wildlife; Forest and Wildlife Research Center, Mississippi State University; Ducks Unlimited, Inc., Southern Regional Office; Jack H. Berryman Institute; Mississippi Cooperative Fish and Wildlife Research Unit (Research Work Order 74); USA Department of Agriculture, Animal and Plant Health Inspection Service – Wildlife Services – National Wildlife Research Center; and the Science Support Program, jointly administered by the USA Fish and Wildlife Service and USA Geological Survey. We thank A. Nygren for expert pilot services and S. C. Barras, L. W. Burger, J. S. Hatfield, B. D. Leopold, A. Taylor, K. A. Wilkins, and two anonymous referees for valuable comments on previous versions of this manuscript, which was approved for publication as Mississippi State University – Forest and Wildlife Research Center Journal Article WF-272.


References

Alisauskas R. T. (1997). Spatial interpolation for poststratification of aerial survey data. In ‘Proceedings of the Eleventh Annual Symposium on Geographic Information Systems’. pp. 383–387. (GIS World: Washington, DC.)

Bart, J. (2005). Monitoring the abundance of bird populations. The Auk 122, 15–25.
Crossref | GoogleScholarGoogle Scholar | Carpenter A. (2004). ‘Carpenter’s Complete Guide to the SAS Macro Language.’ 2nd edn. (SAS Institute: Cary, NC.)

Caughley G. (1977 a). ‘Analysis of Vertebrate Populations.’ (John Wiley & Sons: New York.)

Caughley, G. (1977b). Sampling in aerial survey. Journal of Wildlife Management 41, 605–615.
Crossref | GoogleScholarGoogle Scholar | Cochran W. G. (1977). ‘Sampling Techniques.’ 3rd edn. (John Wiley & Sons: New York.)

Conroy, M. J. , Goldsberry, J. R. , Hines, J. E. , and Stotts, D. B. (1988). Evaluation of aerial transect surveys for wintering American black ducks. Journal of Wildlife Management 52, 694–703.
Crossref | GoogleScholarGoogle Scholar | Fretwell S. D. (1972). ‘Populations in a Seasonal Environment.’ (Princeton University Press: Princeton, NJ.)

Greer, D. M. , Dugger, B. D. , Reinecke, K. J. , and Petrie, M. J. (2009). Depletion of rice as food of waterfowl wintering in the Mississippi Alluvial Valley. Journal of Wildlife Management 73,in press.
Krebs C. J. (1999). ‘Ecological Methodology.’ 2nd edn. (Benjamin/Cummings: New York.)

Lancia R. A. , Kendall W. L. , Pollock K. H. , and Nichols J. D. (2005). Estimating the number of animals in wildlife populations. In ‘Techniques for Wildlife Investigations and Management’. 6th edn. (Ed. C. E. Braun.) pp. 106–146. (The Wildlife Society: Bethesda, MD.)

Lohr S. L. (1999). ‘Sampling: Design and Analysis.’ (Brooks/Cole Publishing: Pacific Grove, CA.)

Madsen, J. (1998). Experimental refuges for migratory waterfowl in Danish wetlands. II. Tests of hunting disturbance effects. Journal of Applied Ecology 35, 398–417.
Crossref | GoogleScholarGoogle Scholar | Manley B. F. J. , McDonald L. L. , and Thomas D. L. (1993). ‘Resource Selection by Animals: Statistical Methods and Analysis for Field Studies.’ (Chapman and Hall: London.)

McWilliams, S. R. , Dunn, J. P. , and Raveling, D. G. (1994). Predator–prey interactions between eagles and cackling Canada and Ross’ geese during winter in California. Wilson Bulletin 106, 272–288.
National Agricultural Statistics Service (2002–2004). ‘Cropland Data Layer.’ Available at: http://www.nass.usda.gov/research/Cropland/SARS1a.htm [Accessed 24 Jan 2008].

Nichols, J. D. , and Williams, B. K. (2006). Monitoring for conservation. Trends in Ecology & Evolution 21, 668–673.
Crossref | GoogleScholarGoogle Scholar | Norton-Griffiths M. (1975). ‘Counting Animals.’ (Serengeti Ecological Monitoring Programme, African Wildlife Leadership Foundation: Nairobi, Kenya.)

Pearse A. T. (2007). Design, evaluation, and applications of an aerial survey to estimate abundance of wintering waterfowl in Mississippi. Ph.D. Dissertation, Mississippi State University, MS, USA.

Pearse, A. T. , Dorr, B. S. , Dinsmore, S. J. , and Kaminski, R. M. (2007). Comparison of sampling strategies to estimate abundance of double-crested cormorants in western Mississippi. Human–Wildlife Conflicts 1, 27–34.
Pospahala R. S. , Anderson D. R. , and Henny C. J. (1974). ‘Population Ecology of the Mallard. II. Breeding Habitat Conditions, Size of the Breeding Populations, and Production Indices.’ U.S. Fish and Wildlife Service Resource Publication 115. (US Department of the Interior: Washington, DC.)

Poysa, H. (1987). Costs and benefits of group foraging in the teal (Anas crecca). Behaviour 103, 123–140.
Crossref | GoogleScholarGoogle Scholar | Reinecke K. J. , Kaminski R. M. , Moorhead D. J. , Hodges J. D. , and Nassar J. R. (1989). Mississippi Alluvial Valley. In ‘Habitat Management for Migrating and Wintering Waterfowl in North America’. (Eds L. M. Smith, R. L. Pederson and R. M. Kaminski.) pp. 203–247. (Texas Tech University Press: Lubbock, TX.)

Reinecke, K. J. , Brown, M. W. , and Nassar, J. R. (1992). Evaluation of aerial transects for counting wintering mallards. Journal of Wildlife Management 56, 515–525.
Crossref | GoogleScholarGoogle Scholar | SAS Institute (2003). ‘SAS OnlineDoc® 9.1.’ (SAS Institute: Cary, NC.)

Saucier R. T. (1994). ‘Geomorphology and Quaternary Geologic History of the Lower Mississippi Valley. Vol. 1.’ (US Army Corps of Engineers: Vicksburg, MS.)

Scheaffer R. L. , Mendenhall W. , and Ott L. (1986). ‘Elementary Survey Sampling.’ 3rd edn. (PWS-KENT Publishing: Boston, MA.)

Scott J. M. , Heglund P. J. , Morrison M. L. , Haufler J. B. , Raphael M. G. , Wall W. A. , and Samson F. B. (Eds) (2002). ‘Predicting Species Occurrences: Issues of Accuracy and Scale.’ (Island Press: Washington, DC.)

Smith G. W. (1995). A critical review of the aerial and ground surveys of breeding waterfowl in North America. National Biological Service Biological Science Report 5. US Department of the Interior, Washington, DC.

Smith, S. J. , and Gavaris, S. (1993). Improving the precision of abundance estimates of eastern Scotian Shelf Atlantic cod from bottom trawl surveys. North American Journal of Fisheries Management 13, 35–47.
Crossref | GoogleScholarGoogle Scholar | Uihlein W. B. (2000). Extent and distribution of waterfowl habitat managed on private lands in the Mississippi Alluvial Valley. Ph.D. Dissertation, Mississippi State University, MS, USA.

Verma, V. , Scott, C. , and O’Muircheartaigh, C. (1980). Sample designs and sampling errors for the world fertility survey. Journal of the Royal Statistical Society. Series A (General) 143, 431–473.
Crossref | GoogleScholarGoogle Scholar | Walters C. (1986). ‘Adaptive Management of Renewable Resources.’ (Macmillan: New York, NY.)

Ward, D. H. , Reed, A. , Sedinger, J. S. , Black, J. M. , Derksen, D. V. , and Castelli, P. M. (2005). North American brant: effects of changes in habitat and climate on population dynamics. Global Change Biology 11, 869–880.
Crossref | GoogleScholarGoogle Scholar |

Wielgus, R. B. (2002). Minimum viable population and reserve sizes for naturally regulated grizzly bears in British Columbia. Biological Conservation 106, 381–388.
Crossref | GoogleScholarGoogle Scholar |

Williams, B. K. , Koneff, M. D. , and Smith, D. A. (1999). Evaluation of waterfowl conservation under the North American waterfowl management plan. Journal of Wildlife Management 63, 417–440.
Crossref | GoogleScholarGoogle Scholar |

Zielinski, W. J. , and Stauffer, H. B. (1996). Monitoring Martes populations in California: survey design and power analysis. Ecological Applications 6, 1254–1267.
Crossref | GoogleScholarGoogle Scholar |