한국환경복원기술학회지 (Journal of the Korean Society of Environmental Restoration Technology)

  • 제25권6호
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  • Pages.35-50
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  • 2022
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  • 1229-3032(pISSN)
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  • 2733-5011(eISSN)
한국환경복원기술학회 (The Korea Society of Environmental Restoration Technology)
권호 표지
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산림토양의 수원함양기능 잠재력 평가를 위한 주요 인자별 토양 조공극률 분석

Analysis of soil coarse pore fraction by major factors for evaluation of water conservation function potential in forest soil

  • 이기문 (국립산림과학원 산림환경보전연구부) ;
  • 임홍근 (국립산림과학원 산림환경보전연구부) ;
  • 문혜원 (국립산림과학원 산림환경보전연구부) ;
  • 남수연 (국립산림과학원 산림환경보전연구부) ;
  • 김재훈 (국립산림과학원 산림환경보전연구부) ;
  • 최형태 (국립산림과학원 산림환경보전연구부)
  • Li, Qiwen (Forest Environment and Conservation Department, National Institute of Forest Science) ;
  • Lim, Hong-Geun (Forest Environment and Conservation Department, National Institute of Forest Science) ;
  • Moon, Hae-Won (Forest Environment and Conservation Department, National Institute of Forest Science) ;
  • Nam, Soo-Youn (Forest Environment and Conservation Department, National Institute of Forest Science) ;
  • Kim, Jae-Hoon (Forest Environment and Conservation Department, National Institute of Forest Science) ;
  • Choi, Hyung-Tae (Forest Environment and Conservation Department, National Institute of Forest Science)
  • 투고 : 2022.11.02
  • 심사 : 2022.12.11
  • 발행 : 2022.12.30
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초록

As the water shortage has become a noticeable issue due to climate change, forests play an importance role as the provider of water supply service. There is, however, little information about the relationships between the factors used in the estimation of water supply service and coarse pore fraction of forest soil which determines the potential of water supply. To find out whether there would be an amelioration in the scoring system of water supply service estimation, we examined all factors except meteorological one and additionally, analyzed 4 extra factors that might be related with coarse pore fraction of soil. A total of 2,214 soil samples were collected throughout South Korea to measure coarse pore fractions from 2015 to 2020. First, the result of average coarse pore fraction of all samples showed 32.98±6.59% which was consistent with previous studies. And the results of non-parametric analysis of variance indicated that only two of eleven factors that was used in the scoring system matched the results of coarse pore fraction of forest soils. Tree canopy coverage showed no difference among categories, and slope also showed no significance at level of 0.05 in the linear regression analysis. Additionally, the applicability of 4 extra factors were confirmed, as the result of coarse pore fractions of soil samples were different for various categories of each factor. Therefore, the scoring system of water supply service of forest should be revised to improve accuracy.

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참고문헌

  1. Arimatsu K. Araki M. Miyakawa M. Kobayashi S and Kato M. 1995. Water holding capacities estimated by soil pore capacities of Takaragawa Experiment Station : Comparison of No.1 and No.2 experimental watersheds. Jpn. J. For. Environ. 37 : 49-58. (in Japanese with English Summary)
  2. Choi HT. 2011. Effect of Forest Growth and Thinning on the Long-term Water Balance in a Coniferous Forest. Korean Journal of Agricultural and Forest Meteorology 13(4) : 157-164. https://doi.org/10.5532/KJAFM.2010.13.4.157
  3. Choi HA. Lee WK. Song C. Lee JY. Jeon SW and Kim JS. 2014. Applicability Analysis of Water Provisioning Services Quantification Models of Forest Ecosystem. J. Korean Env. Res. Tech. 17(4), 1-15. (in Korean with English Summary)
  4. Isamoto N. 2002. Estimation of the water holding capacity of forest stands using soil pore distribution and an analysis of the related factors. Jpn. J. For. Environ. 44 : 31-36. (in Japanese with English Summary
  5. Jeong Y. Park JH. Kim KH and Lee B. 1999. Influence of Forest Management on the Facility of Purifying Water Quality in Abies holophylla and Pinus koraiensis Watershed(I). J. Korean For. Soc. 88 : 364 -373. (in Korean with English Summary)
  6. Jeong Y. Park JH. Kim KH and Youn HJ. 2001a. Analysis of the Factors Influencing the Mesopore Ratio on the Soil Surface to Investigate the Site Factors in a Forest Stand(I) - With a Special Reference to Coniferous Stands -. J. Korean For. Soc. 90 : 314-323. (in Korean with English Summary)
  7. Jeong Y. Park JH. Kim KH and Youn HJ. 2001b. Analysis of the Factors Influencing the Mesopore Ratio on the Soil Surface to Investigate the Site Factors in a Forest Stand(II) - With a Special Reference to Deciduous Stands -. J. Korean For. Soc. 90 : 450-457. (in Korean with English Summary)
  8. Jun JH. Jeong YH. Choi HT and Yoo JY. 2008. Effect of Forest Practices on the Changes of Characteristics of Forest Stand, Mesopore Ratio and Soil Water Contents in Pinus koraiensis Stands. J. Korean Soc. Env. Res. Tech. 11 : 20-27. (in Korean with English Summary)
  9. Jung YG. Lee KH. Choi HT and Lee HH. 2020. Changes in Hydrological Characteristics of a Forested Watershed of Mt. Palgong. J. Korean Soc. For. Sci. 109 : 429-437. (in Korean with English Summary) https://doi.org/10.14578/JKFS.2020.109.4.429
  10. Kim H. Chung J and Kim J. 2003. Analyzing The Relative Importance of Major Forest Environment Factors in Evaluating The Potential of Forest lands for Forest Functions. J. Korean For. Soc. 92 : 333- 339. (in Korean with English Summary)
  11. Kim HH. Chong SK and Chung JS. 2006. Development of a GIS Application Model for Evaluating Forest Functions. Journal of the Korean Association of Geographic Information Studies 9(4) : 1-11. (in Korean with English Summary)
  12. Kim HH. Park YK. Roh HJ. Jeon JH. Hwang JY. Kang HD and Park JH. 2011. A Case Study for Evaluating Forest Functions by Watershed Unit: Gyeongsangnam-do. Journal of the Korean Association of Geographic Information Studies 14(3) : 163-173. (in Korean with English Summary) https://doi.org/10.11108/KAGIS.2011.14.3.163
  13. Kim J. 2003. Water Storage Function Evaluation in Small Watershed of Mt. Palgong by Using Coarse Pores. MSc. dissertation, Yeungnam University. (in Korean with English Summary)
  14. Kim JH. Kim RH. Youn HJ. Lee SW. Choi HT. Kim JJ. Park CR and Kim KD. 2012. Valuation of Nonmarket Forest Resources. J. Korean Inst. For. Recreat. 16 : 9-18. (in Korean with English Summary)
  15. Kim JS. 1987. Forest Effects on the Flood Discharges and the Estimation of the Evapotranspiration in the Small Watersheds. Res. Rep. For. Inst. 35 : 69-78. (in Korean with English Summary)
  16. Kim KH. Lee CY and Lee WK. 1992. Effects of Site Condition on The Dry Season Storage of Reservoirs in Small Forested Watersheds. Res. Rep. For. Res. Inst. 44 : 75-86. (in Korean with English Summary)
  17. Kim M. 2014. A study on the method establishing protected areas for hydrological ecosystem services - Focused on the Jangheung dam watershed -. Seoul National University. (in Korean with English Summary)
  18. Kim SJ. Lee D. Kim J and Kim S. 2007. Hydro-Biogeochemical Approaches to Understanding of Water and Carbon Cycling in the Gwangneung Forest Catchment. Korean J. Agric. For. Meteorol. 9 : 109-120. https://doi.org/10.5532/KJAFM.2007.9.2.109
  19. Kim YT and Kwon HH. 2020. Changes in rainfall patterns due to climate change and its implications of water management. J. Water Policy Econ. 34 : 31-49. (in Korean with English Summary)
  20. Ko K and Choi J. 2020. Analysis on the Area by Forest Function and the Reflection of Ecosystem Service Concepts in Korea's National Forest Management Plans. Journal of korean society of forest science 109(2) : 211-222. (in Korean with English Summary) https://doi.org/10.14578/JKFS.2020.109.2.211
  21. Kruskal WH and Wallis WA. 1952. Use of Ranks in One-Criterion Variance Analysis. J. Am. Stat. Assoc. 47 : 583-621. https://doi.org/10.1080/01621459.1952.10483441
  22. Lal R. 2020. Soil organic matter and water retention. Agronomy Journal, 112(5) : 3265-3277. https://doi.org/10.1002/agj2.20282
  23. Lim H. 2020. Experimental and modeling study on the soil water retention curves based on the water retention characteristics of forest soil. Ph.D dessertation, Kangwon National University. (in Korean with English Summary)
  24. Mashimo Y. 1960. Studies of the physical properties of forest soil and their relation to the growth of Sugi (Cryptomeria japonica) and hinoki (Chamae-cyparis obtusa). For. Soils Jpn. 11. (in Japanese)
  25. Nam Y and Park SK. 1997. Effect of change in forest environment on water storage capacity in soil and streamflow. J. Korea Soil Environ. Soc. 2 : 35-51. (in Korean with English Summary)
  26. Nam Y. Min ES and Jang IS. 2000. Soil Physical and Chemical Properties of Forest-Fired Area in Koseong, Kangwon. Korean J. Environ. Ecol. 14 : 38-45. (In Korean)
  27. National Institute of Forest Science. 2014. Division of national forest functions nationwide is also manufactured and economic forest fostering complex operation. (in Korean)
  28. Park JH. 2004. A study of Influence of Forest Management Practices on the Soil Physical Properties and Facility of Purifying Water Quality in Pinus rigida Stands(I). J. Korean For. Soc. 93 : 1-9. (in Korean with English Summary)
  29. Park JH. Jeong Y. Kim KH and Youn HJ. 2001. Analysis of the Factors Influencing the Mesopore Ratio on the Soil Surface to Investigate the Site Factors in a Forest Stand(III) - With a Special Reference to Mixed Stands -. J. Korean For. Soc. 90 : 683-691. (in Korean with English Summary)
  30. Park JH. 2007. Influence of Forest Practices on Soil Physical Properties and Facility of Purifying Water Quality in Pinus rigida Stands. J. Korean Env. Res. Reveg. Tech. 10 : 61-70. (in Korean with English Summary)
  31. Park Y. Kim H. Kim J. Jeon JH. Sung KC. Kwon SD. Chong SK and Chung J. 2005. Application of Spatial Analysis Modelling for Evaluating Forest Functions. KFRI. J. For. Sci., 68 : 23-33. (in Korean with English Summary)
  32. Plaster RW and Sherwood WC. 1971. Bedrock Weathering and Residual Soil Formation in Central Virginia. GSA Bulletin 82(10) : 2813-2826. https://doi.org/10.1130/0016-7606(1971)82[2813:BWARSF]2.0.CO;2
  33. Song C. Lee WK. Choi HA. Jeon SW. Kim JU. Kim JS and Kim JT. 2015. Application of InVEST Water Yield Model for Assessing Forest Water Provisioning Ecosystem Service. Journal of the Korean Association of Geographic Information Studies 18(1) : 120-134. (in Korean with English Summary) https://doi.org/10.11108/KAGIS.2015.18.1.120
  34. Takeshita K. 1985. Some considerations on the relation between forest soil and control function to river discharge. Jpn. J. For. Environ. 27 : 19-26. (in Japanese)
  35. Woo JC. Jang JY and Shin HJ. 2005. A Study to the Applicability of Forest Function Type by Criterias and Indicators for Sustainable Forest Management. J. For. Sci., Kangwon Nat'l Univ. 21(1) : 1-15. (in Korean with English Summary)
  36. Yang H. Yoo H. Lim H. Kim J and Choi HT. 2021. Impacts of Soil Properties, Topography, and Environmental Features on Soil Water Holding Capacities (SWHCs) and Their Interrelationships. Land 10 : 1290.