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한강 수변구역 복원지의 표토 특성 및 유기탄소 저장량 추정

The Topsoil Characteristics, and Estimation of Topsoil Organic Carbon Storage at Restoration Areas in Riparian Zones of the Han River

  • 이종문 (공주대학교 대학원 조경.환경계획학과) ;
  • 조용현 (공주대학교 조경학과) ;
  • 김윤호 (공주대학교 대학원 조경학과) ;
  • 박성우 (공주대학교 대학원 조경학과)
  • Lee, Jong-Mun (Dept. of Landscape Architecture.Environmental Planning, Graduate School of Kongju National University) ;
  • Cho, Yong-Hyeon (Dept. of Landscape Architecture, Kongju National University) ;
  • Kim, Yoon-Ho (Dept. of Landscape Architecture, Graduate School of Kongju National University) ;
  • Park, Sung-Woo (Dept. of Landscape Architecture, Graduate School of Kongju National University)
  • 투고 : 2019.05.09
  • 심사 : 2019.07.10
  • 발행 : 2019.08.31

초록

본 연구는 한강 수변구역에 복원지를 대상으로 환경 특성에 대하여 현황조사 및 분석을 실시하고, 표토 유기탄소 저장량을 정량화하였다. 조사 대상지 21개소를 조사 분석한 결과, 대상지에 식재한 수종 수는 총 17개 수종이었으며, 대상지별로 평균 $2.86{\pm}0.13$종으로서 최소 1개 수종에서 최대 7개 수종이 식재된 것으로 나타났다. 흉고직경은 평균 $9.1{\pm}0.6cm$, 수고는 평균 $6.2{\pm}0.3m$, 뿌리량은 평균 $0.13{\pm}0.18g/cm^3$이었다. 토양특성을 조사 분석한 결과, 총 21개 항목 중 6개 항목인 용적밀도, 고상률, 석력비, 경도, 모래 함량, pH는 층위가 깊어질수록 증가하는 것으로 나타났고, 나머지 입단율, 함수율, 유기물, 전질소 등 15개 항목은 층위가 깊어질수록 감소하는 것으로 나타났다. 층위별 표토 유기탄소 저장량은 0~10cm에서 $11.54{\pm}1.08ton/ha$, 10~20cm는 $8.69{\pm}0.81ton/ha$, 20~30cm가 $7.97{\pm}0.79ton/ha$로서 0~30cm까지의 총 표토 유기탄소 저장량은 $28.21{\pm}7.31ton/ha$로 분석되었다. 과거 토지이용별 표토 유기탄소 저장량은 농경지였던 복원지가 $35.17{\pm}5.31ton/ha$로 가장 높았고, 주거지역 $28.16{\pm}8.31ton/ha$, 상업지역 $21.87{\pm}9.05ton/ha$, 공업지역 $19.23{\pm}12.48ton/ha$, 나지 $17.07{\pm}11.33ton/ha$ 순으로 나타났다. 조성연도별 표토 유기탄소 저장량은 2006년 조성된 복원지역이 $38.46{\pm}3.14ton/ha$로 가장 높았고, 2016년 복원지역 $28.57{\pm}7.84ton/ha$, 2011년 복원지역 $16.78{\pm}6.06ton/ha$ 순으로 분석되었다. 본 연구결과는 향후 수변구역 복원지의 탄소저감 효과 증진을 위한 기초자료 제공 및 평가기준이 될 것으로 기대된다.

This study was carried out to investigate and analyze the environmental characteristics of restoration areas in the riparian zones of the Han River, and to quantify the amount of topsoil organic carbon storage. As a result of investigation and analysis of 21 survey sites, the total number of species planted was found to be 17, and the mean number of species was $2.86{\pm}0.13$ species per site. At least one species and a maximum of 7 species were planted at each site. The mean diameter at breast height was $9.1{\pm}0.6cm$, the mean height was $6.2{\pm}0.3m$ and the root content in soil was $0.13{\pm}0.18g/cm^2$. As a result of the analysis of the soil characteristics, 6 out of 21 items, such as the bulk density, solid ratio, gravel ratio, soil hardness, sand content, and pH increased as the soil layer deepened. The topsoil organic carbon storage by layer was $11.54{\pm}1.08ton/ha$ at 0-10cm, $8.69{\pm}0.81ton/ha$ at 10-20cm, $7.97{\pm}0.79ton/ha$ at 20-30cm, and the total from 0 to 30cm was $28.21{\pm}7.31ton/ha$. The highest amount of topsoil organic carbon storage by land use in the past was $35.17{\pm}5.31ton/ha$ in agricultural lands, followed by $28.16{\pm}8.31ton/ha$ in residential areas, $21.87{\pm}9.05ton/ha$ in commercial areas, $19.23{\pm}12.48ton/ha$ in industrial areas, and $17.07{\pm}11.33ton/ha$ in the barren areas. The highest amount of topsoil organic carbon storage in the restored areas was $38.46{\pm}3.14ton/ha$ in 2006, followed by $28.57{\pm}7.84ton/ha$ in 2016, and $16.78{\pm}6.06ton/ha$ in 2011. The results of this study are expected to provide a basic database and evaluation criteria for enhancing the carbon abatement effects of the restoration sites in riparian zones in the future.

키워드

참고문헌

  1. Armson, K. A.(1977) Forest Soils: Properties and Processes. University of Toronto Press 1-163.
  2. Bae, J. and Y. Ryu(2015) Land use and land cover changes explain spatial and temporal variations of the soil organic carbon stocks in a constructed urban park. Landscape and Urban Planning 136: 57-67. https://doi.org/10.1016/j.landurbplan.2014.11.015
  3. Bird, S. B., J. E. Herrick, M. M. Wander and S. F. Wright(2002) Spatial heterogeneity of aggregate stability and soil carbon in semi-arid rangeland. Environmental Pollution 116: 445-455. https://doi.org/10.1016/S0269-7491(01)00222-6
  4. Boix-Fayos, C., J. de Vente, J. Albaladejo and M. Martinez-Mena(2009) Soil carbon erosion and stock as affected by land use changes at the catchment scale in Mediterranean ecosystems. Agriculture Ecosystems & Environment Environ 133: 75-85. https://doi.org/10.1016/j.agee.2009.05.013
  5. Center for Aquatic Ecosystem Restoration(2014) Development of Technology to Establish Riparian Greenspace and Eco-belt. Ministry of Environment.
  6. Cho, H. S., M. C. Seo, J. H. Kim, W. G. Sang, P. Shin and G. H. Lee(2016) Effect of application rate of oil cake fertilizer on soil carbon in upland soil. Proceedings of Korean Society of Soil Sciences and Fertilizer p. 134.
  7. Cho, H. S., M. C. Seo, T. S. Park, J. H. Kim, W. G. Sang, P. Shin and G. H. Lee(2015) Influence on the variation of soil carbon according to amount of livestock manure compost in upland soil. Proceedings of Korean Society of Soil Sciences and Fertilizer 81-82.
  8. Cho, Y. H., J. M. Lee, W. T. Kim, Y. H. Yoon, H. K. Kang, B. J. Park, T. S. Yoon, K. E. Jang, K. J. Shin, Y. J. Eo, M. Y. Kwak and H. S. Song(2013) A study on the actual condition of topsoil management at river restoration projects. Journal of the Korean Institute of Landscape Architecture 41(1): 34-43. https://doi.org/10.9715/KILA.2013.41.1.034
  9. Don, A., J. Schumacher and A. Freibauer(2011) Impact of tropical land-use change on soil organic carbon stocks: A meta-analysis. Global Change Biology 17: 1658-1670. https://doi.org/10.1111/j.1365-2486.2010.02336.x
  10. Edmondson, J. L., Z. G. Davies, S. A. Mccormack, K. J. Gaston and J. R. Leake(2011) Are soils in urban ecosystems compacted? A citywide analysis. Biology Letters 7(5): 771-774. https://doi.org/10.1098/rsbl.2011.0260
  11. Franzluebbers, A. J.(2008) Linking soil and water quality in conservation agricultural systems. Electronic Journal of Integrative Biosciences 6(1): 15-29.
  12. Garcia-Oliva, F. and O. R. Masera(2004) Carbon sequestration in land-use, land-use change and forestry (Lulucf) projects under the Kyoto Protocol. Clim. Change 64: 347-364. https://doi.org/10.1023/B:CLIM.0000038211.84327.d9
  13. Guo, L. B. and R. M. Gifford(2002) Soil carbon stocks and land use change: A meta analysis. Global Change Biology 8(4): 345-360. https://doi.org/10.1046/j.1354-1013.2002.00486.x
  14. Han Gang Watershed Management Committee and Korea Environment Corporation(2007) General Plan of Riparian Buffer Zone Management in Han River Water System ('08-'13).
  15. Han Gang Watershed Management Committee and Korea Environmental Preservation Association(2016) A Comprehensive Report on the Design of Riparian Ecosystem Belt in the Han River Watershed in 2016.
  16. Han, K. H., Y. S. Zhang, K. H. Jung, H. R. Cho and Y. K. Sonn(2014a) Evaluating germination of lettuce and soluble organic carbon leachability in upland sandy loam soil applied with rice husk and food waste biochar. Korean Journal of Agricultural Science 41(4): 369-377. https://doi.org/10.7744/cnujas.2014.41.4.369
  17. Han, M. K., K. J. Kim and K. C. Yang(2014b) Comparison of carbon storages, annual carbon uptake and soil respiration to planting types in urban park: The case study of Dujeong Park in Cheonan City. Korean Journal of Environment and Ecology 28(2): 142-149. https://doi.org/10.13047/KJEE.2014.28.2.142
  18. Hur, T. C., S. H. Joo and H. J. Cho(2009) A comparison of the soil physicochemical properties of the forest stands in the Young-il Erosion Control District. Journal of Korean Forest Society 98(4): 444-450.
  19. IPCC(2001) Climate Change 2001: The Scientific Basis. Cambridge University Press.
  20. Jeong, J. H., W. G. Lee and C. S. Kim(1998) Estimation of carbon content in forest soil by region and forest. Proceedings of the Korean Journal of Ecology.
  21. Jeong, J. H., C. S. Kim, K. S. Goo, C. H. Lee, H. G. Won and J. G. Byun(2003) Physico-chemical properties of Korean forest soils by parent rocks. Journal of Korean Forest Society 92(3): 254-262.
  22. Jo, H. K. and E. G. McPherson(1995) Carbon storage and flux in urban residential greenspace. Journal of Environmental Management 45(2): 109-133. https://doi.org/10.1006/jema.1995.0062
  23. Jo, H. K. and G. S. Han(1999) Comparison of soil characteristics and carbon storage between urban and natural lands: Case of Chunchon. Journal of Forest Science 15: 71-76.
  24. Jo, H. K. and H. M, Park(2015) Effects and improvement of carbon reduction by greenspace establishment in riparian zones. Journal of the Korean Institute of Landscape Architecture 43(6): 16-24. https://doi.org/10.9715/KILA.2015.43.6.016
  25. Jo, H. K. and T. W. Ahn(2013) Evaluation of $CO_2$ storage and uptake by forest landscapes in the middle region of Korea evaluation of $CO_2$ storage and uptake by forest landscapes in the middle region of Korea. J. Environ. Sci. Int. 22(2): 139-149. https://doi.org/10.5322/JESI.2013.22.2.139
  26. Jo, H. K.(1999) Carbon uptake and emissions in urban landscape, and the role of urban greenspace for several cities in Kangwon province. Journal of the Korean Institute of Landscape Architecture 27(1): 39-53.
  27. Jobbagy, E. G. and R. B. Jackson(2000) The vertical distribution of soil organic carbon and its relation to climate and vegetation. Ecological Applications 10(2): 423-436. https://doi.org/10.1890/1051-0761(2000)010[0423:TVDOSO]2.0.CO;2
  28. Ju, N. G., K. S. Lee, Y. H. Son, R. H. Kim, Y. M. Son and C. S. Kim(2015) Belowground carbon storage by stand age classes and regions of red pine (Pinus densiflora) and cork oak (Quercus variabilis) stands in western Gyeongnam province. Journal of Agriculture & Life Science 49(1): 29-39. https://doi.org/10.14397/jals.2015.49.1.29
  29. Jung, J. S., J. S. Yi, J. H. Lee, K. M. Shim and J. S. Lee(2018) Characteristics of accumulated soil carbon and soil respiration on vegetation in Namhangang basin. Korean Journal of Environmental Biology 32(4): 363-370. https://doi.org/10.11626/KJEB.2014.32.4.363
  30. Jung, S. J., G. S. Hyeon, Y. T. Moon and Y. K. Jo(1994) Characteristic, genesis and classification of soils derived from coarse grain granitic materials. Korean Journal of Soil Science and Fertilizer 27(1): 3-9.
  31. Kim, K. M., B. J. Lee and Y. S. Cho(2012) Differences of soil carbon by green manure crops in rotated cropping system. Korean Journal of Soil Science and Fertilizer 45(6): 1027-1031. https://doi.org/10.7745/KJSSF.2012.45.6.1027
  32. Kim, S. K.(2008) Soil Science. Green Tomato Publisher. p. 134.
  33. Kim, W. S.(2015) A Study on Forest Soil Carbon Storage Using the 5th Korea National Forest Inventory Data. Master Dissertation, University of Korea. Ahnam.
  34. Kim, W. T., Y. H. Cho, J. M. Lee, Y. H. Yoon, H. K. Kang, B. J. Park, T. S. Yoon, K. E. Jang, K. J. Shin, Y. J. Eo, M. Y. Kwak and H. S. Song(2014) A study on actual condition of topsoil management at forest development projects. Journal of the Korea Society of Environmental Restoration Technology 17(1): 13-25. https://doi.org/10.13087/kosert.2014.17.1.013
  35. Korea Forest Research Institute(2007) Survey Manual for Forest Biomass and Soil Carbon. p. 44.
  36. Korea Forest Research Institute(2010) Carbon Emission Coefficients of Major Tree Species to Inventory Greenhouse Gases from Forests. Research Report.
  37. Korean Institute of Landscape Architecture(2007) Landscape Design Standards.
  38. Lackner, K. S.(2003) A guide to $CO_2$ seguestration. Science 300: 1677-1678. https://doi.org/10.1126/science.1079033
  39. Lal, R.(2002) Soil carbon dynamics in cropland and rangeland. Environmental Pollution 116(3): 353-362. https://doi.org/10.1016/S0269-7491(01)00211-1
  40. Lal, R.(2004b) Soil carbon sequestration to mitigate climate change. Geoderma 123: 1-22. https://doi.org/10.1016/j.geoderma.2004.01.032
  41. Lal, R.(2004a) Carbon sequestration in dryland ecosystems. Environ. Manage 33: 528-544. https://doi.org/10.1007/s00267-003-9110-9
  42. Lal, R.(2005) Forest soils and carbon sequestration. Forest Ecology and Management 220(1-3): 242-258. https://doi.org/10.1016/j.foreco.2005.08.015
  43. Le Quere, C.(2009) Closing the global budget for $CO_2$. Global Change 74: 28-31.
  44. Lee J. M., Y. H. Cho, Y. H. Kim and S. W. Park(2019) A study on the correlation factors of soil organic carbon storage in the riparian zones. Proceeding of J. Korean Env. Res. Tech. pp. 36-37.
  45. Lee, A. R., N. J. Noh, T. K. Yoon, S. K. Lee, K. W. Seo, W. K. Lee, Y. S. Cho and Y. H. Son(2009) Estimation of forest soil carbon stocks with tasso using a dendrochronological approach. Journal of Korean Society of Forest Science 98(6): 791-798.
  46. Lee, J. M., Y. H. Cho, K. D. Kim, M. W. Lee, J. K. Kim, J. K. Choi, W. T. Kim, C. W. Yun and H. K. Kang(2015) A study on damage factors and causes of natural forest in regional ecological network at Chungnam province. Journal of the Korea Society of Environmental Restoration Technology 18(6): 97-110. https://doi.org/10.13087/kosert.2015.18.6.97
  47. Lee, K. J. and H. T. Mun(2005) Organic carbon distribution in an oak forest. The Korean Journal of Ecology 28(5): 265-270. https://doi.org/10.5141/JEFB.2005.28.5.265
  48. Lee, S. I., J. S. Lee, G. Y. Kim, E. J. Choi, S. U. Suh and U. S. Na(2016) Effect of the application of carbonized biomass from residues on soil carbon pool in orchard. Proceeding of the Korean Society of Environmental Agriculture. p. 114.
  49. Lee, S. W.(1981) Studies on forest soils in Korea(II). Journal of Korean Forestry Society 54(1): 25-35. p. 28.
  50. Leifeld, J., S. Bassin and J. Fuhrer(2005) Carbon stocks in Swiss agricultural soils predicted by land-use, soil characteristics, and altitude. Agriculture, Ecosystems & Environment 105(1-2): 255-266. https://doi.org/10.1016/j.agee.2004.03.006
  51. Li, D., S. Niu and Y. Luo(2012) Global patterns of the dynamics of soil carbon and nitrogen stocks following afforestation: Ameta-analysis. New Phytologist 195(1): 172-181. https://doi.org/10.1111/j.1469-8137.2012.04150.x
  52. Li, P., Q. Wang, T. Endo, X. Zhao and Y. Kakubari(2010) Soil organic carbon stock is closely related to aboveground vegetation properties in cold-temperate mountainous forests. Geoderma 154: 407-415. https://doi.org/10.1016/j.geoderma.2009.11.023
  53. Liu, Y., J. Zhang, W. Yang, F. Wu, Z. Xu, B. Tan, L. Zhang, X. He and L. Guo(2018) Canopy gaps accelerate soil organic carbon retention by soil microbial biomass in the organic horizon in a subalpine fir forest. Applied Soil Ecology 125: 169-176. https://doi.org/10.1016/j.apsoil.2018.01.002
  54. Ministry of Environment and Han Gang Watershed Management Committee(2013) General Plan of Riparian Buffer Zone Management in Han River Water System('14-'18).
  55. Ministry of Environment and Han Gang Watershed Management Committee(2018) General Plan of Riparian Buffer Zone Management in Han River Water System('19-'23).
  56. Ministry of Environment and Korea Environment Industry & Technology Institute(2014) Development on Carbon Capturing Soil Materials for Enhancement of Ecosystem Services.
  57. Munoz-Rojas, M., A. Jordan, L. M. Zavala, D. De La Rosa, S. K. Abd-Elmabod and M. Anaya-Romero(2012) Organic carbon stocks in Mediterranean soil types under different land uses (Southern Spain). Solid Earth 3: 375-386. https://doi.org/10.5194/se-3-375-2012
  58. Nelson, D. and L. E. Sommers(1982) Total Carbon, Organic Carbon, and Organic Matter. Methods of Soil Analysis. Part 2. Chemical and Microbiological Properties. pp. 539-579.
  59. Palosuo, T., J. Heikkinen and K. Regina(2015) Method for estimating soil carbon stock changes in Finnish mineral cropland and grassland soils. Carbon Management 6(5-6): 207-220. https://doi.org/10.1080/17583004.2015.1131383
  60. Park, E. J. and K. Y. Kang(2010) Estimation of C storage and annual $CO_2$ uptake by street trees in Gyeonggi-do. Korean Journal of Environment Ecology 24(5): 591-600.
  61. Park, E. J., K. Y. Kang, S. R. Lee and S. H. JWA(2008b) The Status of Soil Exposure and Management Practices for Soil Conservation in Urban Watersheds. Gyeonggi Research Institute.
  62. Park, I. S., Y. W. Jang, K. W. Chung, G. W. Lee, J. S. Owen, W. T. Kwon and W. T. Yun(2014) In-depth review of IPCC 5th assessment report. Journal of Korean Society for Atmospheric Environment 30(2): 188-200. https://doi.org/10.5572/KOSAE.2014.30.2.188
  63. Park, K. D., C. H. Lee, K. Y. Jung, U. G. Kang, H. W. Kang and P. J. Kim(2008a) Effects of long-term compost fertilization on carbon storage in paddy soil. Proceeding of Korean Society of Soil Sciences and Fertilizer. p. 98.
  64. Qin, Y., Z. Xin, D. Wang and Y. Xiao(2017) Soil organic carbon storage and its influencing factors in the riparian woodlands of a Chinese karst area. Catena 153: 21-29. https://doi.org/10.1016/j.catena.2017.01.031
  65. Reeder, J. D. and G. E. Schuman(2002) Influence of livestock grazing on C sequestration in semi-arid mixed-grass and short-grass rangelands. Environmental Pollution 116(3): 457-463. https://doi.org/10.1016/S0269-7491(01)00223-8
  66. Rodriguez-Murillo, J. C.(2001) Organic carbon content under different types of land use and soil in peninsular Spain. Biology and Fertility of Soils 33(1): 53-61. p.55. https://doi.org/10.1007/s003740000289
  67. Rural Development Administration(2012) Research Analysis Standard.
  68. Rural Development Administration(2013) Technology Development for Enhanced Soil Carbon Stabilization and Storage Capacity under Different Land-use Types.
  69. Schlesinger, W. H.(1999) Carbon sequestration in soils. Science. 284(5423): 2095. https://doi.org/10.1126/science.284.5423.2095
  70. Seo, G. W.(2015) Estimation of Soil Carbon Storage by Urban Green Spaces. Ph. D. Dissertation, University of Korea, Ahnam.
  71. Seo, Y. O., S. C. Jung and Y. J. Lee(2016) Estimation of carbon storage for pinus rigida stands in Muju. Korean Journal of Environment and Ecology 30(3): 399-405. https://doi.org/10.13047/KJEE.2016.30.3.399
  72. Smith, P., D. Martino, Z. Cai, D. Gwary, H. Janzen, P. Kumar, B. McCarl, S. Ogle, F. O'Mara, C. Rice, B. Scholes, O. Sirotenko, M. Howden, T. McAllister, G. Pan, V. Romanenkov, U. Schneider, S. Towprayoon, M. Wattenbach and J. Smith(2008) Greenhouse gas mitigation in agriculture. Philos. Trans. R. Soc. Lond. B. Biol. Sci. 363(1492): 789-813. https://doi.org/10.1098/rstb.2007.2184
  73. Suh, S. U., Y. K. Min and J. S. Lee(2005) Seasonal variation of contribution of leaf-litter decomposition rate in soil respiration in temperate deciduous forest. Korean Journal of Agricultural and Forest Meteorlolgy. 7(1): 57-65.
  74. USDA-NRCS(1992) Soil survey laboratory methods manual, rep. 42. Washington, DC: Soil Conservation Service U.S., Department of Agriculture.
  75. Waring, R. H. and S. W. Running(2007) Forest Ecosystems: Analysis at Multiple Scales, ELSEVIER.
  76. Won, H. G., G. S. Goo, J. H. Jeong, C. Y. Lee, Y. Y. Lee and C. S. Kim(2002) Effects of forest disasters and land use changes on soil carbon stocks. Proceeding of Korean Society of Environmental Biology.
  77. Woo, S. H.(2013) Biochar for soil carbon sequestration. Clean Technolology. 19(30): 201-211. https://doi.org/10.7464/ksct.2013.19.3.201
  78. Yang, Y., J. Fang, Y. Tang, C. Ji, C. Zheng, J. He and B. Zhu(2008) Storage, patterns and controls of soil organic carbon in the Tibetan grasslands. Global Change Biology 14: 1592-1599. https://doi.org/10.1111/j.1365-2486.2008.01591.x
  79. Zhao, S., Y. Tang and A. Chen(2016) Carbon storage and sequestration of urban street trees in Beijing, China. Frontiers in Ecology and Evolution 4: 1-8.
  80. http://www.kma.go.kr