Comparing radio-tracking and visual detection methods to quantify group size measures
DOI:
https://doi.org/10.1515/eje-2015-0011Keywords:
Mule Deer, Odocoileus hemiounus, groups size measures, crowding, typical group size, radio trackingAbstract
1. Average values of animal group sizes are prone to be overestimated in traditional field studies because small groups and singletons are easier to overlook than large ones. This kind of bias also applies for the method of locating groups by tracking previously radio-collared individuals in the wild. If the researcher randomly chooses a collared animal to locate a group to visit, a large group has higher probability to be selected than a small one, simply because it has more members.
2. The question arises whether location of groups by means of finding collared animals has smaller or greater bias than searching for groups by visual observation. If the bias is smaller or same, this method can be recommended for finding groups. However, such a comparison cannot be made by speculation, only by empirical investigation.
3. The present study compares the two methods empirically, by statistically comparing group size measures (mean, median, quantiles, frequency distribution, and ‘typical group size’) between two data sets. These data sets comprise of Rocky Mountain mule deer group size values collected in the same area during the same period of time, referring either to groups located by the traditional ‘search and observe method’ or located by tracking formerly collared individuals.
4. All group size measures are statistically similar in the two samples, thus we conclude that the two methods yielded similar biases. Although the true group size measures are not known, we presume that both methods have overestimated them. We propose that these results do not necessary apply to other species, thus cannot be generalized. The reason for this is that bias may depend on factors specific to the species: bias of visual observation may depend on how well the species conceals itself in the existing habitat, and the bias associated with finding groups using collared animals is likely dependent on group size distribution and also on the proportion of collared animals in the population.
References
of sociality in mule deer. Alces, 37, 371-402.
Brennan A., Cross P.C. & Creel S. (2015) Managing more than the mean:
using quantile regression to identify factors related to large elk
groups. Journal of Applied Ecology, 52, 1656-1664.
Buuveibaatar, B., Fuller, T.K., Fine, A.E., Chimeddorj, B., Young, J.K. &
Berger, J. (2013) Changes in grouping patterns of saiga antelope
in relation to intrinsic and environmental factors in Mongolia.
Journal of Zoology, 291, 51-58.
Clutton-Brock, T.H., Guinness, F.E. & Albon, S.D. (1982) Red deer: behavior
and ecology of two sexes. University of Chicago Press,
Chicago, USA.
Dar, T.A., Habib, B. & Khan, J.A. (2012) Group size, habitat use and overlap
analysis of four sympatric ungulate species in Shivalik Ecosystem,
Uttarakhand, India. Mammalia, 76, 31-41.
Djaković, N., Holand, Ø., Hovland, A.L., Weladji, R.B., Røed, K.H. & Nieminen,
M. (2015) Effects of males’ presence on female behaviour
during the rut. Ethology Ecology & Evolution, 27, 148-160.
Gerard, J-F., & Loisel, P. (1995) Spontaneous emergence of a relationship
between habitat openness and mean group size and its possible
evolutionary consequences in large herbivores. Journal of
Theoretical Biology, 176, 511-522.
Gueron, S. & Levin, S.A. (1995) The dynamics of group formation. Mathematical
Biosciences, 128, 243-264.
Hirth, D.H. (1977) Social behavior of white-tailed deer in relation to
habitat. Wildlife Monographs, 53, 3-55.
Jarman, P.J. (1974) The social organization of antelope in relation to
their ecology. Behaviour, 48, 215-268.
Krause, J. & Ruxton, G.D. (2002) Living in groups. Oxford University
Press, Oxford, UK.
Lingle, S. (2003) Group composition and cohesion in sympatric whitetailed
deer and mule deer. Canadian Journal of Zoology, 81,
1119-1130.
Mejía Salazar, M.F., Waldner, C., Stookey, J. & Bollinger, T.K. (2016) Infectious
disease and grouping patterns of mule deer - submitted.
Monteith, K.L., Sexton, C.L., Jenks, J.A. & Bowyer, R.T. (2007) Evaluation
of techniques for categorizing group membership of whitetailed
deer. Journal of Wildlife Management, 71, 1712-1716.
Ramesh, T., Sankar, K., Qureshi, Q. & Kalle, R. (2011) Group size, sex and
age composition of chital (Axis axis) and sambar (Rusa unicolor)
in a deciduous habitat of Western Ghats. Mammalian Biology,
77, 53-59.
Reiczigel, J. & Rózsa, L. (2008) Flocker 1.1. Budapest, Hungary. Available:
http://www.zoologia.hu/flocker/
Reiczigel, J., Lang, Z., Rózsa, L. & Tóthmérész, B. (2008) Measures of
sociality: two different views of group size. Animal Behaviour,
75, 715-721.
Reiczigel, J., Rózsa, L. & Reiczigel, A. (2013) Quantitative Parasitology
(QPweb). Available: http://www2.univet.hu/qpweb
Semeñiuk, M.B. & Merino, M.L. 2015. Pampas deer (Ozotoceros bezoarticus)
social organization in semiarid grasslands of San Luis,
Argentina. Mammalia, 79, 131-138.
Silbernagel, E.R., N.K. Skelton, C.L. Waldner, and T.K. Bollinger. (2011)
Interaction among deer in a chronic wasting disease endemic
zone. Journal of Wildlife Management, 75, 1453-1461.
Sinclair, A.R. (1977) The African buffalo: A study of resource limitation
of populations. University of Chicago Press, Chicago, USA.
Wronski, T., Apio, A., Plath, M. & Averbeck, C. (2009) Do ecotypes of
bushbuck differ in grouping patterns? Acta Ethologica, 12, 71-78.
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Copyright (c) 2015 Jenő Reiczigel, María Fernanda mejia Salazar, Trent K Bollinger, Lajos Rózsa
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