Journal of Ecology and Environment

The Ecological Society of Korea (한국생태학회)
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Growth environment characteristics of the habitat of Epilobium hirsutum L., a class II endangered wildlife species

  • Received : 2023.10.25
  • Accepted : 2023.11.17
  • Published : 2023.12.31
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Abstract

Background: As wildlife habitats are being destroyed and growth environments are changing, the survival of animals and plants is under threat. Epilobium hirsutum L., a species that inhabits wetlands, has held legally protected status since 2012. However, no specific measures are currently in place to protect its habitat, leading to a decline in remaining populations as a result of land use change and human activities. Results: The growth environment (including location, climate, land use, soil, and vegetation) of the five habitat sites (Samcheok, Taebaek1, Taebaek2, Cheongsong, Ulleung) of E. hirsutum L. was investigated and analyzed. These habitats were predominantly situated in flat areas with gentle south-facing slopes, at an average altitude of 452.7 m (8-726 m) above sea level in Gangwon-do and Gyeongsangbuk-do. The average annual temperature ranged 11.5℃ (9.2℃-12.9℃), whereas the average annual precipitation ranged 1,304.5 mm (1,062.7-1,590.7 mm). The surrounding land use status was mainly characterized by mountainous areas, and human interference, such as agricultural land and roads, was commonly found in proximity to these natural habitats. Soil physicochemical analysis revealed that the soil was predominantly sandy loam with a slightly high sand content. The average pH measured 7.64, indicating an alkaline environment, and electrical conductivity (EC) averaged 0.33 dS/m. Organic matter (OM) content averaged 66.44 g/kg, available phosphoric acid (P2O5) content averaged 115.73 mg/kg, and cation exchange capacity (CEC) averaged 23.43 cmolc/kg. The exchangeable cations ranged 0.09-0.43 cmol+/kg for potassium (K), 10.23-16.21 cmol+/kg for calcium (Ca), 0.67-4.94 cmol+/kg for magnesium (Mg), and 0.05-0.74 cmol+/kg for sodium (Na). The vegetation type was categorized as E. hirsutum community with high numbers of E. hirsutum L., Persicaria thunbergii (Siebold & Zucc.) H. Gross, Phragmites japonica Steud., Humulus japonicus (Siebold & Zucc.), and Bidens frondosa L.. An ecological flora analysis, including the proportion of lianas, naturalized plants, and annual herbaceous plants, revealed that the native habitat of E. hirsutum L. was ecologically unstable. Conclusions: Analysis of the habitat of E. hirsutum L., a class II endangered wildlife species, provided essential data for local conservation and restoration efforts.

Keywords

Acknowledgement

This research was supported by a grant from the National Institute of Ecology (NIE-A-2022-20).

References

  1. Bang SW, An SY. Development of red list categories and criteria for the protection of endangered species in Korea. Sejong: Korea Environment Institute; 2005. 
  2. Braun-Blanquet J. Plant sociology: the study of plant communities. London: Hafner; 1965. 
  3. Cho JS. Seed germination characteristics according to environmental condition and chemical treatment of two Onagraceae species. J Agricult Sci Res. 2019;35(2):139-45. 
  4. Forman RTT. Land Mosaics: the ecology of landscapes and regions. Cambridge: Cambridge University Press; 2001. 
  5. Jang HD, Leem H, Han S, So S. Floristic study of Juwangsan National Park in Korea. Korean J Plant Reour. 2019;32(4):379-406. https:// doi.org/10.7732/kjpr.2019.32.4.379 
  6. Jeong JH, Koo KS, Lee CH, Kim CS. Physico-chemical properties of Korean forest soils by regions. J Korean Soc For Sci. 2002;91(6): 694-700. 
  7. Kim JW, Lee YK. Classification and assessment of plant communities. Seoul: World Science; 2006. 
  8. Kim LK, Choi SD, Choo GC, Hwang BY, Gang GH, So LK, et al. Environmental characteristics and floristic study of endangered Pedicularis hallaisanensis habitats. J Agricult Life Sci. 2018;52(6):163-73. https://doi.org/10.14397/jals.2018.52.6.163 
  9. Kim MH, Cho KJ, Oh YJ, Yang D, Lee WJ, Park S, et al. Life form and naturalization characteristics of naturalized plants in upland fields of South Korea. Korean J Environ Biol. 2016;34(2):63-72. https://doi.org/10.11626/KJEB.2016.34.2.063 
  10. Kim MH, Nam HK, Eo J, Song YJ. Floristic features of orchards in South Korea. Korean J Environ Biol. 2019;37(4):447-66. https://doi.org/10.11626/KJEB.2019.37.4.447 
  11. Kim Y. A study on the creation of alternative habitats of endangered plant Epilobium hirsutum L. [master's thesis]. Daegu: Kyungpook National University; 2022. 
  12. Kim YC, Chae HH, Park YC, Lee SM. Floristic characteristics of vascular plants in the Goyangsan Mtn.(Jeongseon-gun) and Munraesan Mtn.(Jeongseon-gun) area. Korean J Environ Ecol. 2022;36(3):220-56. https://doi.org/10.13047/KJEE.2022.36.3.220 
  13. Korea Law Information Center. Wildlife protection and management act. In: Endangered wildlife. 2023. https://www.law.go.kr/%EB%B2%95%EB%A0%B9/%EC%95%BC%EC%83%9D%EC%83%9D%EB%AC%BC%EB%B3%B4%ED%98%B8%EB%B0%8F%EA%B4%80%EB%A6%AC%EC%97%90%EA%B4%80%ED%95%9C%EB%B2%95%EB%A5%A0. Accessed 11 Apr 2023. 
  14. Korea Meteorological Administration. Meteorological data (2003~2022). 2023. https://data.kma.go.kr/data/grnd/selectAsosRltmList.do?pgmNo=36. Accessed 24 Aug 2023. 
  15. Korea National Arboretum (KNA). The National Red List of vascular plant in Korea. Pocheon: KNA; 2021. 
  16. Ko RS. The research of policy on forest biodiversity conservation to the effect of climate change [master's thesis]. Seoul: Korea University; 2009. 
  17. Lee BS. The distribution of the fresh snowfall in South Korea. J Geogr Educ. 1979;9:224-35. https://kiss.kstudy.com/Detail/Ar?key=410195  10195
  18. Lee EP, Lee SI, Han YS, Lee SY, You YH, Cho YY. Effect of moisture and nutrient of soil on reproductive phenology and physiological response of Epilobium hirsutum L., an endangered plant. J Wetl Res. 2018;20(1):27-34. https://doi.org/10.17663/JWR.2018.20.1.027 
  19. Lee KM, Shin JH, Jeong HM, Kim HR, Kim JH, Shin DH, et al. Characteristics of vegetation structure and habitat of Mankyua chejuense(Ophioglssaceae), endangered plant in Korea. J Wetl Res. 2012; 14(1):35-45. https://doi.org/10.17663/JWR.2012.14.1.035 
  20. Lee WT. Lineamenta florae Koreae. Seoul: Academy Press; 1996. 
  21. Lee YM, Park SH, Jung SY, Oh SH, Yang JC. Study on the current status of naturalized plants in South Korea. Korean J Plant Taxon. 2011; 41(1):87-101. https://doi.org/10.11110/kjpt.2011.41.1.087 
  22. Ministry of Environment. Land cover map. 2023. https://egis.me.go.kr/map/map.do. Accessed 10 Aug 2023. 
  23. National Geographic Information Institute. Seamless digital topographic map (1:5,000). 2023. http://data.nsdi.go.kr/dataset/20190710ds00002. Accessed 10 Aug 2023. 
  24. National Institute of Biological Resources. National list of indigenous species of Korean peninsula. 2020. https://species.nibr.go.kr/home/mainHome.do?cont_link=010&subMenu=010003&contCd=010003007. Accessed 1 May 2020. 
  25. National Institute of Ecology (NIE). Intensive survey on the inland wetland ('22). Seocheon: NIE; 2022. 
  26. Numata M. Naturalized plants. Tokyo: Dai Nippon printing Co.; 1975. 
  27. Park JH. The relationships between vegetative succession and soil characteristics on the floodplain in large river ecosystem, and growth of Epilobium hirsutum L., Korean endangered hydrophyte in the closed smart farm [PhD dissertation]. Gongju: Kongju National University; 2020. 
  28. Rho P, Choung HL. Alternatives of the Korean nationwide survey on natural environments to promote biodiversity conservation. J Environ Policy. 2006;5(3):25-56. 
  29. Ryu TB, Kim JW, Lee SE. The exotic flora of Korea: actual list of neophytes and their ecological characteristics. Korean J Environ Ecol. 2017;31(4):365-80. https://doi.org/10.13047/KJEE.2017.31.4.365 
  30. Song J, Lee GY, Kim N, Yi JS. Vegetation structure and site environment of natural habitat of an endangered plant, Viola websteri. J Korean For Soc. 2010;99(3):267-76. 
  31. Song JM, Lee GY, Yi JS. Growth environment and vegetation structure of natural habitat of Polygonatum stenophyllum maxim. J For Sci. 2009;25(3):187-94. 
  32. Westhoff V, Van der Maarel E. The Braun-Blanquet approach. In: Whittaker RH, editor. Ordination and classification of plant communities. Hague.Boston.London: Dr. W. Junk; 1973. p.167-726. 
  33. Zhang YS, Sonn YG, Park CW, Hyun BK, Moon YH, Song KC. Soil physical and chemical characteristics of river-bed sediments in river basins. Korean J Soil Sci Fertil. 2011;44(6):963-9. https://doi.org/10.7745/KJSSF.2011.44.6.963