Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Wildlife Research Wildlife Research Society
Ecology, management and conservation in natural and modified habitats
RESEARCH ARTICLE

Does nest-site selection influence bobwhite nesting success in south Florida?

Aditya Singh A D E , Tommy C. Hines B , H. Franklin Percival C and Madan K. Oli A
+ Author Affiliations
- Author Affiliations

A Department of Wildlife Ecology and Conservation, 110 Newins–Ziegler Hall, University of Florida, Gainesville, FL 32611, USA.

B Small Game Program, Florida Fish and Wildlife Conservation Commission (retired), 1314 SW 186th Street, Newberry, FL 32669, USA.

C US Geological Survey, Florida Cooperative Fish & Wildlife Research Unit, Department of Wildlife Ecology & Conservation, University of Florida Building 810, Gainesville, FL 32611, USA.

D Present address: Department of Forest and Wildlife Ecology, University of Wisconsin – Madison, 226 Russell Labs, 1630 Linden Drive, Madison, WI 53706, USA.

E Corresponding author. Email: singh22@wisc.edu

Wildlife Research 37(6) 489-496 https://doi.org/10.1071/WR09181
Submitted: 30 December 2009  Accepted: 5 September 2010   Published: 18 October 2010

Abstract

Context.: Nest-site selection can influence nesting success, and thus population dynamics, of many species of ground-nesting birds. Despite the economic importance as a game species, populations of northern bobwhites have been declining throughout the southern United States. This paper reports the nesting ecology of northern bobwhites (Colinus virginianus) on Babcock-Webb Wildlife Management Area, Florida, USA, and illustrates the influence of landscape composition and structure on bobwhite nest-site selection and nest fate.

Aim.: To investigate nest-site selection by bobwhites, to evaluate the influence of landscape composition and structure on nest-site selection, and to identify factors influencing nesting success.

Methods.: We used distance-based habitat-selection methods and logistic regression to test for nest-site selection and to investigate the influence of landscape characteristics on nesting success.

Key results.: Bobwhites preferred to establish nests closer to food plots and farther away from water bodies than expected; other habitats were neither preferred nor avoided. Nesting success did not vary across years, differ among habitats or among burn treatments, and none of the habitat and landscape variables we measured significantly influenced the probability that a nest would be successful.

Conclusions.: Bobwhites preferred to place nests closer to food plots. However, habitat features of nest sites did not influence bobwhite nesting success. These results may indicate that random nest predation by meso-mammalian predators may currently determine fates of bobwhite nests in south Florida, or that population density is low enough that only suitable nesting sites are occupied.

Implications.: Our results suggest that increasing the density of linear food plots, and maintaining a structurally diverse pine–palmetto and dry prairie habitat that provides adequate nesting cover could contribute to augmenting bobwhite nesting habitat.

Additional keywords: bobwhite reproductive biology, Colinus virginianus, Florida, nesting habitat, nesting success, nest-site selection, northern bobwhites.


References

Aebischer, N. J., Robertson, P. A., and Kenward, R. E. (1993). Compositional analysis of habitat use from animal radio-tracking data. Ecology 74, 1313–1325.
Compositional analysis of habitat use from animal radio-tracking data.Crossref | GoogleScholarGoogle Scholar |

Applegate, R. D., Williams, C. K., and Lutz, R. S. (2002). The effect of flooding on northern bobwhites. Western North American Naturalist 62, 227–229.

Askins, R. A. (1993). Population trends in grassland, shrubland, and forest birds in eastern North America. Current Ornithology 11, 1–34.

Barea, L. P. (2008). Nest-site selection by the painted honeyeater (Grantiella picta), a mistletoe specialist. Emu 108, 213–220.
Nest-site selection by the painted honeyeater (Grantiella picta), a mistletoe specialist.Crossref | GoogleScholarGoogle Scholar |

Bingham, R. L., and Brennan, L. A. (2004). Comparison of Type I error rates for statistical analyses of resource selection. Journal of Wildlife Management 68, 206–212.
Comparison of Type I error rates for statistical analyses of resource selection.Crossref | GoogleScholarGoogle Scholar |

Brennan, L. A. (1991). How can we reverse the northern bobwhite population decline. Wildlife Society Bulletin 19, 544–555.

Brennan, L. A., and Kuvlesky, W. P. (2005). North American grassland birds: an unfolding conservation crisis? Journal of Wildlife Management 69, 1–13.
North American grassland birds: an unfolding conservation crisis?Crossref | GoogleScholarGoogle Scholar |

Burger, L. W., Ryan, M. R., Dailey, T. V., and Kurzweski, E. W. (1995). Reproductive strategies, success, and mating systems of northern bobwhites in Missouri. Journal of Wildlife Management 59, 417–426.
Reproductive strategies, success, and mating systems of northern bobwhites in Missouri.Crossref | GoogleScholarGoogle Scholar |

Chalfoun, A. D., and Martin, T. E. (2007). Assessments of habitat preferences and quality depend on spatial scale and metrics of fitness. Journal of Applied Ecology 44, 983–992.
Assessments of habitat preferences and quality depend on spatial scale and metrics of fitness.Crossref | GoogleScholarGoogle Scholar |

Conner, L. M., Smith, M. D., and Burger, L. W. (2003). A comparison of distance-based and classification-based analyses of habitat use. Ecology 84, 526–531.
A comparison of distance-based and classification-based analyses of habitat use.Crossref | GoogleScholarGoogle Scholar |

Conner, L. M., Smith, M. D., and Burger, L. W. (2005). A comparison of distance-based and classification-based analyses of habitat use. Ecology 86, 3125–3129.
A comparison of distance-based and classification-based analyses of habitat use.Crossref | GoogleScholarGoogle Scholar |

Cox, S. A., Guthery, F. S., Lusk, J. J., Peoples, A. D., DeMaso, S. J., and Sams, M. (2005). Reproduction by northern bobwhites in western Oklahoma. Journal of Wildlife Management 69, 133–139.
Reproduction by northern bobwhites in western Oklahoma.Crossref | GoogleScholarGoogle Scholar |

Crabtree, R. L., Broome, L. S., and Wolfe, M. L. (1989). Effects of habitat characteristics on gadwall nest predation and nest-site selection. Journal of Wildlife Management 53, 129–137.
Effects of habitat characteristics on gadwall nest predation and nest-site selection.Crossref | GoogleScholarGoogle Scholar |

Dimmick, R. W. (1974). Populations and reproductive effort among bobwhites in Western Tennessee. Proceedings of the Annual Conference of the Southeast Association of Fish and Wildlife Agencies 28, 594–602.

Dimmick, R. W., Gudlin, M. J., and McKenzie, D. F. (2002). The northern bobwhite conservation initiative. Miscellaneous publication of the Southeastern Association of Fish and Wildlife Agencies, Columbia, SC.

Elfström, M., Swenson, J. E., and Ball, J. P. (2008). Selection of denning habitats by Scandinavian brown bears Ursus arctos. Wildlife Biology 14, 176–187.
Selection of denning habitats by Scandinavian brown bears Ursus arctos.Crossref | GoogleScholarGoogle Scholar |

Fenske-Crawford, T. J., and Niemi, G. J. (1997). Predation of artificial ground nests at two types of edges in a forest-dominated landscape. The Condor 99, 14–24.
Predation of artificial ground nests at two types of edges in a forest-dominated landscape.Crossref | GoogleScholarGoogle Scholar |

FFWCU (1994). 1993/1994 Florida land cover. In ‘Florida Gap Analysis Project. Vol. 2009’. (Florida Fish and Wildlife Cooperative Unit: Gainesville, FL, USA.)

Flaspohler, D. J., Temple, S. A., and Rosenfield, R. N. (2001). Species-specific edge effects on nest success and breeding bird density in a forested landscape. Ecological Applications 11, 32–46.
Species-specific edge effects on nest success and breeding bird density in a forested landscape.Crossref | GoogleScholarGoogle Scholar |

Frye, O. E. J. (1954). Charlotte County quail investigation. No. Project Florida W-11-R.

Gavashelishvili, A., and McGrady, M. J. (2006). Breeding site selection by bearded vulture (Gypaetus barbatus) and Eurasian griffon (Gyps fulvus) in the Caucasus. Animal Conservation 9, 159–170.
Breeding site selection by bearded vulture (Gypaetus barbatus) and Eurasian griffon (Gyps fulvus) in the Caucasus.Crossref | GoogleScholarGoogle Scholar |

Genovesi, P., Besa, M., and Toso, S. (1999). Habitat selection by breeding pheasants Phasianus colchicus in an agricultural area of northern Italy. Wildlife Biology 5, 193–201.

Gesch, D., Evans, G., Mauck, J., Hutchinson, J., and Carswell, W. J., Jr (2009). The National Map – Elevation. U.S. Geological Survey Fact Sheet. (USGS.)

Guthery, F. S. (1997). A philosophy of habitat management for northern bobwhites. Journal of Wildlife Management 61, 291–301.
A philosophy of habitat management for northern bobwhites.Crossref | GoogleScholarGoogle Scholar |

Heppell, S. S., Caswell, H., and Crowder, L. B. (2000). Life histories and elasticity patterns: perturbation analysis for species with minimal demographic data. Ecology 81, 654–665.
Life histories and elasticity patterns: perturbation analysis for species with minimal demographic data.Crossref | GoogleScholarGoogle Scholar |

Herkert, J. R. (1995). An analysis of midwestern breeding bird population trends: 1966–1993. American Midland Naturalist 134, 41–50.
An analysis of midwestern breeding bird population trends: 1966–1993.Crossref | GoogleScholarGoogle Scholar |

Hernández, F., Arredondo, J. A., Bryant, F. C., Brennan, L. A., and Bingham, R. L. (2005). Influence of precipitation on demographics of northern bobwhites in southern Texas. Wildlife Society Bulletin 33, 1071–1079.
Influence of precipitation on demographics of northern bobwhites in southern Texas.Crossref | GoogleScholarGoogle Scholar |

Hooge, P. N., and Eichenlaub, B. (2000). Animal movement extension to Arcview. ver. 2.0. Alaska Science Center – Biological Science Office, U.S. Geological Survey, Anchorage, AK, USA.

Hosmer, D. W., and Lemeshow, S. (1989). ‘Applied Logistic Regression.’ (John Wiley & Sons: New York.)

Lusk, J. J., Smith, S. G., Fuhlendorf, S. D., and Guthery, F. S. (2006). Factors influencing northern bobwhite nest-site selection and fate. Journal of Wildlife Management 70, 564–571.
Factors influencing northern bobwhite nest-site selection and fate.Crossref | GoogleScholarGoogle Scholar |

Madison, L. A., Robel, R. J., and Jones, D. P. (2002). Hunting mortality and overwinter survival of northern bobwhites relative to food plots in Kansas. Wildlife Society Bulletin 30, 1120–1127.

Martin, T. E. (1993a). Nest predation among vegetation layers and habitat types – revising the dogmas. American Naturalist 141, 897–913.
Nest predation among vegetation layers and habitat types – revising the dogmas.Crossref | GoogleScholarGoogle Scholar | 19425994PubMed |

Martin, T. E. (1993b). Nest predation and nest sites. Bioscience 43, 523–532.
Nest predation and nest sites.Crossref | GoogleScholarGoogle Scholar |

Martin, T. E. (1995). Avian life-history evolution in relation to nest sites, nest predation, and food. Ecological Monographs 65, 101–127.
Avian life-history evolution in relation to nest sites, nest predation, and food.Crossref | GoogleScholarGoogle Scholar |

McGarigal, K. S. A., Cushman, M. C. N., and Ene, E. (2002). FRAGSTATS: spatial pattern analysis program for categorical maps. University of Massachusetts, MA, USA. Available at www.umass.edu/landeco/research/fragstats/fragstats.html

NASA (2008). ‘Landsat Imagery.’ (USGS/NASA: College Park, MD, USA.)

Palmer, W. E., Puckett, K. M., Anderson, J. R., and Bromley, P. T. (1998). Effects of foliar insecticides on survival of northern bobwhite quail chicks. Journal of Wildlife Management 62, 1565–1573.
Effects of foliar insecticides on survival of northern bobwhite quail chicks.Crossref | GoogleScholarGoogle Scholar |

Parra, G. J. (2006). Resource partitioning in sympatric delphinids: space use and habitat preferences of Australian snubfin and Indo-Pacific humpback dolphins. Journal of Animal Ecology 75, 862–874.
Resource partitioning in sympatric delphinids: space use and habitat preferences of Australian snubfin and Indo-Pacific humpback dolphins.Crossref | GoogleScholarGoogle Scholar | 17009750PubMed |

Perkins, M. W., and Conner, L. M. (2004). Habitat use of fox squirrels in southwestern Georgia. Journal of Wildlife Management 68, 509–513.
Habitat use of fox squirrels in southwestern Georgia.Crossref | GoogleScholarGoogle Scholar |

Peterjohn, B. G., and Sauer, J. R. (1999). Population status of North American grassland birds from the North American Breeding Bird Survey 1966–1996. Studies in Avian Biology 19, 27–44.

Rader, M. J., Brennan, L. A., Hernandez, F., Silvy, N. J., and Wu, B. (2007). Nest-site selection and nest survival of northern bobwhite in southern Texas. Wilson Journal of Ornithology 119, 392–399.
Nest-site selection and nest survival of northern bobwhite in southern Texas.Crossref | GoogleScholarGoogle Scholar |

Ransom, D., Lopez, R. R., Schulz, G. G., and Wagner, J. S. (2008). Northern bobwhite habitat selection in relation to brush management in the Rolling Plains of Texas. Western North American Naturalist 68, 186–193.
Northern bobwhite habitat selection in relation to brush management in the Rolling Plains of Texas.Crossref | GoogleScholarGoogle Scholar |

Riedle, J. D., Averill-Murray, R. C., Lutz, C. L., and Bolen, D. K. (2008). Habitat use by desert tortoises (Gopherus agassizii) on alluvial fans in the Sonoran Desert, south-central Arizona. Copeia , 414–420.
Habitat use by desert tortoises (Gopherus agassizii) on alluvial fans in the Sonoran Desert, south-central Arizona.Crossref | GoogleScholarGoogle Scholar |

Roseberry, J. L., and Sudkamp, S. D. (1998). Assessing the suitability of landscapes for northern bobwhite. Journal of Wildlife Management 62, 895–902.
Assessing the suitability of landscapes for northern bobwhite.Crossref | GoogleScholarGoogle Scholar |

Saether, B. E., and Bakke, O. (2000). Avian life history variation and contribution of demographic traits to the population growth rate. Ecology 81, 642–653.

Sauer, J. R., Hines, J. E., Thomas, I., Fallon, J., and Gouch, G. (2004). The North American breeding bird survey, results, and analysis, 1966–1999. United States Geological Service, Version 98.1. Laurel, MD.

Singh, A. (2009). Space use, habitat and nest-site selection by northern bobwhites in south Florida. University of Florida, Gainesville, FL.

Singh, A., Hines, T. C., Hostetler, J. A., Percival, H. F., and Oli, M. K. (in press). Patterns of space and habitat use by northern bobwhites in South Florida, USA. European Journal of Wildlife Research , .

Sisson, D. C., Stribling, H. L., and Speake, D. W. (2000). Effects of supplemental feeding on home range size and survival of northern bobwhites in south Georgia. In ‘Quail IV: Proceedings of the Fourth National Quail Symposium’. (Eds L. A. Brennan, W. E. Palmer, L. W. Burger Jr and T. L. Pruden.) pp. 128–131. (Tallahassee, FL.)

Stahl, J. T., and Oli, M. K. (2006). Relative importance of avian life-history variables to population growth rate. Ecological Modelling 198, 23–39.
Relative importance of avian life-history variables to population growth rate.Crossref | GoogleScholarGoogle Scholar |

Suchy, W. J., and Munkel, R. J. (1993). Breeding strategies of the northern bobwhite in marginal habitat. Proceedings of the National Quail Symposium 3, 69–73.

Taylor, J. S., Church, K. E., and Rusch, D. H. (1999a). Microhabitat selection by nesting and brood-rearing northern bobwhite in Kansas. Journal of Wildlife Management 63, 686–694.
Microhabitat selection by nesting and brood-rearing northern bobwhite in Kansas.Crossref | GoogleScholarGoogle Scholar |

Taylor, J. S., Church, K. E., Rusch, D. H., and Cary, J. R. (1999b). Macrohabitat effects on summer survival, movements, and clutch success of northern bobwhite in Kansas. Journal of Wildlife Management 63, 675–685.
Macrohabitat effects on summer survival, movements, and clutch success of northern bobwhite in Kansas.Crossref | GoogleScholarGoogle Scholar |

Terhune, T. M., Sisson, D. C., and Stribling, H. L. (2006). The efficacy of relocating wild northern bobwhites prior to breeding season. Journal of Wildlife Management 70, 914–921.
The efficacy of relocating wild northern bobwhites prior to breeding season.Crossref | GoogleScholarGoogle Scholar |

Townsend, D. E., Masters, R. E., Lochmiller, R. L., Leslie, D. M., Demaso, S. J., and Peoples, A. D. (2001). Characteristics of nest sites of northern bobwhites in western Oklahoma. Journal of Range Management 54, 260–264.
Characteristics of nest sites of northern bobwhites in western Oklahoma.Crossref | GoogleScholarGoogle Scholar |

White, C. G., Schweitzer, S. H., Moore, C. T., Parnell, I. B., and Lewis-Weis, L. A. (2005). Evaluation of the landscape surrounding northern bobwhite nest sites: a multiscale analysis. Journal of Wildlife Management 69, 1528–1537.
Evaluation of the landscape surrounding northern bobwhite nest sites: a multiscale analysis.Crossref | GoogleScholarGoogle Scholar |

Williams, C. K., Guthery, F. S., Applegate, R. D., and Peterson, M. J. (2004). The northern bobwhite decline: scaling our management for the twenty-first century. Wildlife Society Bulletin 32, 861–869.
The northern bobwhite decline: scaling our management for the twenty-first century.Crossref | GoogleScholarGoogle Scholar |

Worton, B. J. (1989). Kernel methods for estimating the utilization distribution in home-range studies. Ecology 70, 164–168.
Kernel methods for estimating the utilization distribution in home-range studies.Crossref | GoogleScholarGoogle Scholar |

Xu, J. L., Zhang, Z. W., Zheng, G. M., Zhang, X. H., Sun, Q. H., and McGowan, P. (2007). Home range and habitat use of Reeves’s pheasant Syrmaticus reevesii in the protected areas created from forest farms in the Dabie Mountains, central China. Bird Conservation International 17, 319–330.
Home range and habitat use of Reeves’s pheasant Syrmaticus reevesii in the protected areas created from forest farms in the Dabie Mountains, central China.Crossref | GoogleScholarGoogle Scholar |