바로가기메뉴

본문 바로가기 주메뉴 바로가기

logo

  • KOREAN
  • P-ISSN2287-8327
  • E-ISSN2288-1220
  • SCOPUS, KCI

Movement patterns and home range of captive-bred Amur ratsnake (Elaphe schrenckii) juveniles in the natural habitat

Journal of Ecology and Environment / Journal of Ecology and Environment, (P)2287-8327; (E)2288-1220
2012, v.35 no.1, pp.41-50





Abstract

To determine the movement patterns, home range, and use of structural features of captive-bred one- or two-year-old Amur ratsnake (Elaphe schrenckii) juveniles in the natural habitat, we radio-tracked a total of 11 juvenile snakes in a mountain valley in Chiaksan National Park, South Korea, between August 21 and September 20, 2010 and between June 13 and July 13, 2011. During the first week of the release, most juveniles moved short distances, daily, but they increased their distances after the first week. The body weight of the juveniles was negatively related with the movement rate (dividing the number of movements by the number of relocations), which was positively related with the mean daily distances moved and the size of both a kernel 50% and 95% home range. During the study period, the juveniles moved daily, approximately 17 m, and the size of the minimum convex polygon and the 50% and 95% kernel home ranges were 1.8 ha, 0.4ha, and 3.0 ha, respectively. The released captive-bred juveniles were more frequently confirmed underground or on the ground rather than on rocks or on trees. Our results suggest that the body condition of released individuals, the seasonal time of the release, and the existence of available prey and shelters in the habitat should be carefully considered when releasing captive-bred Amur ratsnake juveniles for the rehabilitation of field populations.

keywords
Amur ratsnake, captive breeding, Elaphe schrenckii, radio telemetry, rehabilitation

Reference

1.

An J, Kim MJ, Park D, Lee J, Krukov V, Kim KS, Lee H, Min MS. 2010. Development of 10 microsatellite loci from the Korean ratsnake (Elaphe schrenckii) and its application across Elaphe species from South Korea, Russia, and China. Genes Genomics 32: 401-405.

2.

Armstrong DP, Seddon PJ. 2008. Directions in reintroduction biology. Trends Ecol Evol 23: 20-25.

3.

Blouin-Demers G, Bjorgan LPG, Weatherhead PJ. 2007. Changes in habitat use and movement patterns with body size in black ratsnakes (Elaphe obsoleta). Herpetologica 63: 421-429.

4.

Gibbons JW, Scout DE, Ryan TJ, Buhlmann KA, Tuberville TD, Metts BS, Greene JL, Mills T, Leiden Y, Popy S, Winne CT. 2000. The global decline of reptiles, deja vu amphibians. BioScience 50: 653-666.

5.

Griffith B, Scott JM, Carpenter JW, Reed C. 1989. Translocation as a species conservation tool: status and strategy. Science 245: 477-480.

6.

Griffiths RA, Pavajeau L. 2008. Captive breeding, reintroduction, and the conservation of amphibian. Conserv Biol 22: 852-861.

7.

Haenel GJ, Smith LC, John-Alder HB. 2003. Home-range analysis in Sceloporus undulatus (Eastern fence lizard). I. Spacing patterns and the context of territorial behavior. Copeia 2003: 99-112.

8.

Huey RB, Peterson CR, Arnold SJ, Porter WP. 1989. Hot rocks and not-so-hot rocks: retreat-site selection by garter snakes and its thermal consequences. Ecology 70: 931-944.

9.

International Union for Conservation of Nature and Natural Resources. 2011. IUCN red list of threatened species. Ver. 2011.2. http://www.iucnredlist.org. Accessed 21 December 2011.

10.

Kang YS, Yoon IB. 1975. Illustrated Encyclopedia of Fauna and Flora of Korea. Vol. 17. Amphibia, Reptilia. Samwha Publishing Co., Seoul.

11.

Kim DI. 2012. Movement pattern and home range of the captive-bred juvenile of Amur ratsnakes (Elaphe schrenckii) in natural habitat. MS Thesis. Kangwon National University, Chuncheon, Korea.

12.

King R, Berg C, Hay B. 2004. A repatriation study of the Eastern massasauga (Sistrurus catenatus catenatus) in Wisconsin. Herpetologica 60: 429-437.

13.

Lee HJ, Lee JH, Park D. 2011. Habitat use and movement patterns of the viviparous aquatic snake, Oocatochus rufodorsatus, from Northeast Asia. Zool Sci 28: 593-599.

14.

Lee JH. 2011. Taxonomic status, habitat use and suitability modeling of the Amur ratsnake (Elaphe schrenckii). PhD Dissertation. Kangwon National University, Chuncheon, Korea.

15.

Lee JH, Park D. 2011. Spatial ecology of translocated and resident Amur ratsnakes (Elaphe schrenckii) in two mountain valleys of South Korea. Asian Herpetol Res 2: 223-229.

16.

Mullin SJ, Seigel RA. 2009. Snakes: Ecology and Conservation. Cornell University Press, New York.

17.

Paik NK. 1979. Ecological study of Elaphe schrenckii in Korea. Nat Conserv 27: 1-4. (in Korean)

18.

Roe JH, Frank MR, Gibson SE, Attum O, Kingsbury BA. 2010. No place like home: an experimental comparison of reintroduction strategies using snakes. J Appl Ecol 47: 1253-1261.

19.

Schulz KD. 1996. A Monograph of the Colubrid Snakes of the Genus Elaphe Fitzinger. Koeltz Scientific Books, Wurselen.

20.

Seddon PJ, Armstrong DP, Maloney RF. 2007. Developing the science of reintroduction biology. Conserv Biol 21: 303-312.

21.

Todd BD, Willson JD, Gibbons JW. 2010. The global status of reptiles and causes of their decline. In: Ecotoxicology of Amphibians and Reptiles (Sparling DW, Linder G, Bishop CA, Krest S, eds). 2nd ed. CRC Press, Pensacola, FL, pp 47-67.

22.

Tozetti AM, Martins M. 2007. A technique for external radio-transmitter attachment and the use of thread-bobbins for studying snake movements. South Am J Herpetol 2: 184-190.

23.

Worton BJ. 1989. Kernel methods for estimating the utilization distribution in home-range studies. Ecology 70: 164-168.

24.

Wylie GD, Smith JJ, Amarello M, Casazza ML. 2011. A taping method for external transmitter attachment on aquatic snakes. Herpetol Rev 42: 187-191.

25.

Zhou ZY. 2005. Elaphe schrenckii and E. anomala, two related species or with subspecific relation. Sichuan J Zool 24: 283-286.

26.

Zhou ZY, Zhou YF. 2004. Preliminary observations on ecology of Elaphe schrenckii (Strauch). Sichuan J Zool 23: 188-190.

Journal of Ecology and Environment