Journal of the Korean Association of Geographic Information Studies (한국지리정보학회지)

The Korean Association of Geographic Information Studies (한국지리정보학회)
권호 표지
DOI QR코드

DOI QR Code

Home Range Analysis of a Pair of Gorals (Naemorhedus caudatus) Using GPS Collar According to the Elevation Change, in the North Gyeongbuk Province(Uljin) of Korea

경북북부지역(울진) 산양(Naemorhedus caudatus) 암·수 한 쌍의 행동권 및 고도변화에 따른 행동권 분석

  • Cho, Chea-Un (Species Restoration Technology Institute, Korea National Park Service) ;
  • Kim, Ki-Yoon (Species Restoration Technology Institute, Korea National Park Service) ;
  • Kim, Kyu-Cheol (Species Restoration Technology Institute, Korea National Park Service) ;
  • Kim, Hyun-Min (Daegu Regional Environmental Office, Ministry of Environment) ;
  • An, Jae-Yong (Association of Korean Goral Conservation) ;
  • Lee, Bae-Keun (Office of Animal Care, National Institute of Ecology) ;
  • Park, Jong-Gil (Species Restoration Technology Institute, Korea National Park Service)
  • 조재운 (국립공원관리공단 종복원기술원) ;
  • 김기윤 (국립공원관리공단 종복원기술원) ;
  • 김규철 (국립공원관리공단 종복원기술원) ;
  • 김현민 (대구지방환경청) ;
  • 안재용 ((사)한국산양보호협회) ;
  • 이배근 (국립생태원 동물관리처) ;
  • 박종길 (국립공원관리공단 종복원기술원)
  • Received : 2014.12.25
  • Accepted : 2015.03.11
  • Published : 2015.03.31
Download PDF
⟨ Previous Next ⟩

Abstract

This study was carried out to understand ecological characteristics of Korean goral such as home range, seasonal home range and habitat use and used for Korean goral restoration and conservation, through a pair of gorals in the north Gyeongbuk province of Korea. With data from GPS collars, we analyzed the behavioral characteristics of the endangered Korean gorals(n=2) in Uljin area from June 2013 to July 2014. As a result, their home range was $1.38{\pm}0.24km^2$ in MCP 95%, $0.81{\pm}0.09km^2$ in FK 95% and $0.15{\pm}0.16km^2$ in FK 50% (t=8.118, p>0.05). Seasonal home range for MCP 95% was $0.74{\pm}0.31km^2$ > (winter) > $0.71{\pm}0.27km^2$ (spring) > $0.61{\pm}0.06km^2$ (autumn) > $0.27{\pm}0.04km^2$ (summer) (F=2.135 p>0.05). It showed that home range in winter was the largest and that in summer was the smallest. Mean elevation of male for seasonal habitat use was $440.18{\pm}71.32m$ in summer and that of female was $727.25{\pm}99.98m$ in spring. The lowest altitude for male was $372.72{\pm}70.79$ and female was $664.60{\pm}139.71m$. It meant that there were seasonal change and thus annual and seasonal behavior characteristics for both sexes had different correlation according to elevation change. Although in this study the correlation with prey in habitat and the changes of habitat disturbance were not clearly investigated, We could understand goral home range and habitat use through research data.

경북북부지역 산양 암 수 한 쌍(n=2)의 연구를 통해 한국 산양의 복원 및 보전을 위한 생태적 특징을 파악하고자 실시하였으며, 산양 한 쌍의 행동권, 계절별 행동권, 서식지 이용특성 등을 분석하기 위하여, 2013년 6월부터 2014년 7월까지 울진 지역에서 GPS collar 발신기를 이용하여 1년간 수행하였다. 분석결과, 산양 한 쌍의 행동권은 MCP 95% $1.38{\pm}0.24km^2$, FK 95% $0.81{\pm}0.09km^2$, FK 50% $0.15{\pm}0.16km^2$로 분석되었다(t=8.118, p>0.05). 계절별 행동권은 MCP 95%에서 겨울 $0.74{\pm}0.31km^2$ > 봄 $0.71{\pm}0.27km^2$ > 가을 $0.61{\pm}0.06km^2$ > 여름 $0.27{\pm}0.04km^2$ (F=2.135 p>0.05)로 분석되어, 겨울의 행동권이 가장 크고, 여름이 가장 작았다. 서식지 이용특성 중 계절별 이용 평균고도는 수컷은 여름($440.18{\pm}71.32m$), 암컷은 봄($727.25{\pm}99.98m$), 가장 낮은 고도는 수컷은 봄($372.72{\pm}70.79$), 암컷은 가을($664.60{\pm}139.71m$)로 분석되어 계절별 차이를 나타내어, 암 수 모두 고도변화에 따른 연간 및 계절별 행동특성의 상관성의 차이를 알 수 있었다. 본 연구에서 서식지 내 먹이와의 상관관계, 서식지 교란의 변화 양상 등에 대해서는 명확하게 밝혀내지는 못했지만, 연구 자료를 기반으로 경북북부지역 산양의 행동권 및 서식지 이용 등을 파악 할 수 있었다.

Keywords

References

  1. Abbas. I.F. 2012. Status of Himalayan grey goral with reference to Pakistan. The 1st "Goral and Serow Day" and International Symposium for Conservation of Goral and Serow. 43pp.
  2. Ager, A.A., B.K. Johnson, J.W. Kern and J.G. Kie. 2003. Daily and seasonal movements and habitat use by female Rocky mountain elk and mule deer. Journal of Mammalogy 84(3):1076-1088. https://doi.org/10.1644/BBa-020
  3. Aldridge, H.D. J.N and R.M. Brigham. 1988. Load carrying and maneuverability in an insectivorous bat: a test of the 5% "rule" of radio-telemetry. Journal of Mammalogy 69(2):379-382. https://doi.org/10.2307/1381393
  4. Anderson, D.P., J.D. Forester, M.G Turner, J.L Frair, E.H. Merrill, D. Fortin, J.S. Mao and M.S. Boyce. 2005. Factors influencing female home range size in elk(Cervus elaphus) in north american landscapes. Journal of Landscape Ecology 20:257-271. https://doi.org/10.1007/s10980-005-0062-8
  5. Berger, J. 1990. Persistence of differentsized population: an empirical assessment of rapid extinctions in bighorn sheep. Conservation Biology 4(1):91-98. https://doi.org/10.1111/j.1523-1739.1990.tb00271.x
  6. Brown, R., M. Lawerence and T. Pope. 1992. Animals Tracks, Trails and Signs. Hamlyn Guide. 320pp.
  7. Carvalho, P., A.J.A. Nogueira, A.M.V.M. Soares and C. Fonseca. 2008. Ranging behaviour of transiocated roe deer in a Mediterranean habitat: seasonal and altitudinal influences on home range size patterns of range use. Journal of Mammalia 72(2):89-94.
  8. Chaiyarat, R., W. Laohajinda and U. Kutintara. 1999. Ecology of the Goral (Naemorhedus goral) in Om Koi Wildlife Sanctuary, Thailand. The Journal of the Natural History Society of Siam 47:191-205.
  9. Cho, C.U. 2013. Systematic study on the long-tailed goral(Naemorhedus caudatus), with ecology and conservation plan. Ph.D. Thesis, Chungbuk National University, Cheongju, Korea. pp.72-119. (조재운. 2013. 산양(Naemorhedus caudatus raddeneus)의 계통분류와 생태 및 보전대책에 관한 연구. 충북대학교 대학원 박사학위논문. 72-119쪽).
  10. Cho, C.U., G.H. Gyun, J.J. Yang, S.J. Lim, A.N. Lee, H.B. Park and B.K. Lee. 2014. Home range and behavioral characteristics of the endangered Korea gorals(Naemorhedus caudatus) with GPS collar. Korean Journal of Environmental Ecology 28(1):1-9 (조재운, 권구희, 양정진, 임상진, 이안나, 박희복, 이배근. 2014. GPS Collar를 이용한 멸종위기 한국 산양(Naemorhedus caudatus)의 행동 특성. 한국환경생태학회지 28(1):1-9). https://doi.org/10.13047/KJEE.2014.28.1.1
  11. IUCN Red List of Threatened Species. 2014. Version 2014.3.
  12. Jass, C.N. and J.I. Mead. 2004. Mammalian Species. American Society of Mammalogists. NO.750, pp.1-10.
  13. Kernohan, B.J., R.A. Gitzen and J.J. Millspaugh. 2001. Analysis of animal space use and movements. Academic Press, San diego, USA. pp.125-166.
  14. Kim, E.M., J.O. Kwon, C.W. Kang, K.M. Song and D.W. Min. 2013. Home range size and habitat environment related to the parturition of roe deer at warmtemperate forest in Jeju Island using GPS-CDMA based wildlife tracking system. Journal of the Korean Association of Geographic Information Studies 16(2):65-74 (김은미, 권진오, 강창완, 송국만, 민동원. 2013. GPS와 CDMA를 이용한 난대림의 출산 전후 암노루 행동권 및 서식환경 조사. 한국지리정보학회지 16(2):65-74). https://doi.org/10.11108/kagis.2013.16.2.065
  15. Kim, N.S and G.S. Kim. 2013. A study on changes of the spatio-temporal distribution of temperature in Korea peninsular during the past 40 years. Journal of the Korean Association of Geographic Information Studies 16(4): 29-38 (김남신, 김경순. 2013. 지난 40년간 한반도 기온의 시.공간적 분포 변화에 관한 연구. 한국지리정보학회지 16(4):29-38). https://doi.org/10.11108/kagis.2013.16.4.029
  16. Kufeld, R.C., D.C. Bowden and D.L. Schrupp. 1988. Habitat selection and activity patterns of female mule deer in the front range, Colorado. Journal of Range Management 41(6):515-522. https://doi.org/10.2307/3899529
  17. Lee, B.K., Y.U. Lee, C.U. Cho, Y.M. Kim, C.H. Bae, G.H. Gyun and A.N. Lee. 2011. Analysis for behavioral characteristics of Common Goral(Naemorhedus caudatus) in the Woraksan national park. Proceeding of Korean Society of Environment and Ecology 21(1):69-71 (이배근, 이용욱, 조재운, 김영민, 배창환, 권구희, 이안나. 2011. 월악산 멸종위기 산양(Naemorhedus caudatus)의 행동 특성에 관한 연구. 한국환경생태학회 학술대회논문집 21(1):69-71).
  18. Licoppe, A.M. and J. Lievens. 2001. The first tracking results from a female free-ranging red deer(Cervus elaphus L) fitted with GPS collar in Ardenne, Belgium. Tracing Animals with GPS. pp.25-27.
  19. Ministry of Environment. 2012. Protection and management measures of Goral at Uljin-Samcheok. Sejong, Korea. pp.26-30 (환경부. 2012. 울진삼척 산양 서식지 보호관리 방안. 26-30쪽).
  20. Mohr, C.O. 1947. Table of equivalent populations of North American small mammals. American Midland Naturalist. 37(1):233-249.
  21. Myslenkov, A.I. and V. Voloshina. 2012. Ecology and Behaviour of Amur Goral. Korean Studies Information Co., pp.194-195.
  22. Nicholson, M.C., R.T. Bowyer and J.G. Kie. 1997. Habitat selection and survival of mule deer: tradeoffs associated with migration. Journal of Wildlife Management 78(2):483-504.
  23. Park, J.K and M.G. Kim. 2011. Development of three dimensional animal habitat map by GIS. Journal of the Korean Association of Geographic Information Studies 14(4):54-62 (박준규, 김민규. 2011. GIS에 의한 3차원 동물 서식도 제작. 한국지리정보학회지 14(4):54-62). https://doi.org/10.11108/kagis.2011.14.4.054
  24. Pepin, D., C. Arados, G. Janeau, J. Joachim and C. Mann. 2008. Individual variation in migratory and exploratory movements and habitat use by adult red deer(Cervus elaphus L.) in a mountainous temperate forests. Journal of Ecological Research 23(6):1005-1013. https://doi.org/10.1007/s11284-008-0468-2
  25. Piao, R. 2013. The geographical distribution and population size of goral genus in China. 2013 International Symposium for Biodiversity Enhancement and Sustainable Development, 40pp.
  26. Powell, R.A and G. Proulx. 2003. Trapping and marking terrestrial mammals for research; integrating ethics, performance criteria, techniques, and common sense. ILAR Journal 44(4):259-276. https://doi.org/10.1093/ilar.44.4.259
  27. Rhee, H.W., A study on analyzing piled layers of Ulsan Bankudae petroglyphs. Master Thesis, University of Kyoungju, Gyeongbuk. Korea, pp.10-67 (이하우. 2004. 울산 반구대 암각화의 제작 층 분석 연구. 경주대학교 대학원 석사학위논문. 10-67쪽).
  28. Riley, S.J. and A.R. Dood. 1984. Summer movements, home range, habitat use, and behavior of mule deer fawns. Journal of Wildlife Management 48(4): 1302-1310. https://doi.org/10.2307/3801790
  29. Shaffer, M.L. 1981. Minimum population sizes for species conservation. Bio Science 31(2):131-134.
  30. Wilson, D.E. and D.M. Reeder. 2005. Mammal species of the world: a taxonomic and geographic reference (3rd ed.). The Johns Hopkins University Press. Baltimore. USA, pp.705-706.
  31. Won, P.H. 1967 The Illustrated Encyclopedia of Fauna and Flora of Korea(Publication of Volume 7). Minister of Education, Seoul, Korea, pp.59-65 (원병휘. 1967. 한국동식물도감 제7편(포유류). 문교부. 59-65쪽).
  32. Worton, B.J. 1989. Kernel methods for estimating the utilization distribution in home-range studies. Journal of Ecology 70(1):164-168. https://doi.org/10.2307/1938423
  33. Worton, B.J. 1995. Using monte carlo simulation to evaluate kernel based home-rang estimators. Journal of Wildlife Management 59(4):794-800. https://doi.org/10.2307/3801959
  34. Yang, B.K. 2002. Systematic, ecology and current population status of the Goral, Naemorhedus caudatus, in Korea. Ph. D Thesis, Chungbuk National University, Cheonju, Korea. pp.29-58 (양병국. 2002. 한국산 산양의 분류, 생태 및 개체군 현황. 충북대학교 대학원 박사학위논문. 29-58쪽).
  35. Yang, D.H., B.H. Kim, D.H. Jung, H.D. Jeong, W.J. Jeong and B.K. Lee. 2008. The studies on characteristics of home range size and habitat use of the asiatic black bear released in Jirisan. Journal of Korean Society of Environment and Ecology 22(4):427-434 (양두하, 김보현, 정대호, 정동혁, 정우진, 이배근. 2008. 지리산에 방사한 반달가슴곰의 행동권 크기 및 서식지 이용 특성 연구. 한국환경생태학회지 22(4):427-434).
  36. Zweufel-Schielly, B., M. Kreuzer, K.C. Ewald and W. Suter. 2009. Habitat selection by an alpine ungulate: the significance of forage characteristics varies with scale and season. Journal of Ecography 32(1):103-113. https://doi.org/10.1111/j.1600-0587.2008.05178.x

Cited by

  1. Geographical Relationships between Long-Tailed Goral (Naemorhedus caudatus) Populations Based on Gut Microbiome Analysis vol.9, pp.9, 2015, https://doi.org/10.3390/microorganisms9092002