Acknowledgement
본 연구는 산림청(한국임업진흥원)의 재원으로 산림과학기술 연구개발사업(2021358B10-2223-BD01)의 지원을 받아 수행되었습니다. 또한, 이 연구 논문을 위해 현장조사 및 데이터 분석에 도움을 준 동아대학교 문다휘, 조종훈, 이혜지 연구원에게 감사드립니다.
References
- Cho, M. S., Kwon, B. R., Kim, W. G., Jeong, D. H., 2020, Research on the development of afforestation technology for major hardwood species, Research report No. 20-03, National Institute of Forest Science(NIFoS), Seoul, Korea.
- Choi, J. K., 2011, Development of Allometry and individual basal area growth model for major species in korea, Journal of forest and environmental science, 27(1), 47-54. https://doi.org/10.7747/JFS.2011.27.1.6
- Choi, J. K., Yoo, B. O., 2006, Diameter frowth characteristics of Quercus mongolica and Quercus variabilis in natural deciduous forests, J. Korean Soc. For. Sci., 95(1), 131-138.
- Choi, K. M., Kim, M. I., Lee, W. K., Chung, D. J., Yun, B. H., Kim, C. H., 2014, Estimating the radial growth response of Quercus mongolica using climatic and topographic condition in south korea, KSFMI-P5, Korean Forest Society, 2014(2014), 185.
- Choi, W. K., 2007, An Dadohaehaesang national park evergreen broad-leaved forest restoration work monitoring, Master's thesis, Honam University, Gwangju, Korea.
- Gockel, H. A., 1995, Die Trupp-Pflanzung, Ein neues Pflanzschema zur Begrundung von Eichenbestanden. Forst und Holz, 50, 570-575.
- Han, S. H., Kim, J. H., Kang, W. S., Hwang, J. H., Park, K. H., Kim, C. B., 2019, Monitoring soil characteristics and growth of Pinus densiflora five years after restoration in the Baekdudaegan ridge, Korean J. Environ. Ecol., 33(4), 453-461. https://doi.org/10.13047/KJEE.2019.33.4.453
- Han, Y. H., 2022, A Study on the effectiveness of modular community planting for natural forest restoration, Ph. D. Dissertation, Sunchon National University, Sunchon, Korea.
- Han, Y. H., Park, S. G., 2022, Experimental study on modular community planting for natural forest restoration, Korean J. Environ. Ecol., 36(3), 338-349. https://doi.org/10.13047/KJEE.2022.36.3.338
- Jeon, E. J., 2008, A Study on the estimation of growth rates and amounts of volume stocks by forest type and species in korea, Master's thesis, Kookmin University, Seoul, Korea.
- Jeon, G. S., 2018, A Study on the secular change analysis of monitoring plant for revegetation of ecological restoration on the unused road, Jour. Korea Soc. For. Eng., 16(3), 165-182.
- Kang, H. K., Bang, K. J., 2001, Restoration model of Quercus mongolica community in the case of korean national capital region, Korean Institute of Landscape Architecture, 28(6), 1-15.
- Kang, H. M., 2014, A study for restoration effects through monitoring of forest ecosystem restoration types, Ph. D. Dissertation, Pusan National University, Miryang, Korea.
- Kang, H. M., Choi, S. H., Kim, D. H., Song, J. T., 2017, A Study on the restoration effects of vegetation restoration types, Korean J. Environ. Ecol., 31(2), 174-187. https://doi.org/10.13047/KJEE.2017.31.2.174
- Kang, H. M., Kim, D. H., Park, S. G., 2020, Characteristics of Quercus mongolica dominant community on the ridge of the Nakdong-Jeongmaek -Focusing on the Baekbyeongsan, Chilbosan, Baegamsan, Unjusan, Goheonsan, Gudeoksan-, Korean J. Environ. Ecol., 34(4), 318-333. https://doi.org/10.13047/KJEE.2020.34.4.318
- Kang, J. T., Son, Y. M., Yim, J. S., Lee, K. S., Lee, S. J., Ko, C. W., 2018, Development of dynamic growth models for major forest tree species, Research report No. 18-15, National Institute of Forest Science (NIFoS), Seoul, Korea.
- KFRI, 2003, Development of forest accumulation growth rate application method, Final report No. TRKO 201300009028, Korea Forest Research Institute, Seoul, Korea.
- Korea Forest Service (KFS), 2020, Ministry of Government Legislation(MOLEG), https://www.law.go.kr/Administrative rules/Sustainable forest resources management guidelines/(1454,20200615).
- Ki, K. S., Kim, J. Y., 2012, Monitoring of plant community structure change for four years (2007~2010) after riparian ecological restoration, Nakdonggang(River), Korean J. Environ. Ecol., 26(5), 707-718.
- Kim, S. Y., Seol, A. R., Chung, J. S., 2011, Development of diameter growth and mortality prediction models of Pinus Koraiensis based on periodic annual increment, J. Korean Soc. For. Sci, 100(1), 1-7.
- Lee, K. J., Choi, S. H., Kang, H. K., 1994, Natural vegetation restoration and management plan by ecological approach, Korean J. Environ. Ecol., 8(1), 58-67.
- Lee, M. J., Song, H. K., 2011, Vegetation structure and ecological restoration model of Quercus mongolica community, J. Korean Env. Res. Tec., 14(1), 57-65.
- Lee, S. H., 2009, Estimation of diameter and height growth equations using environmental variables, J. Korean Soc. For. Sci., 98(3), 351-356.
- Lee, S. J., Yim, J. S., Kang, J. T., 2019, Standard carbon uptake of major forest species, NIFoS Forest Policy Issue No. 129, National Institute of Forest Science (NIFoS), Seoul, Korea.
- Miyawaki, A., 1999, Creative ecology: Restoration of native forests by native trees, Plant Biotrchnology, 16(1), 15-25 https://doi.org/10.5511/plantbiotechnology.16.15
- Moon, G. H., Moon, N. H., Yim, J. S., Kang, J. T., 2020, Methodological consideration for estimating growing stock of young forests based on early growth characteristics of standing trees in korea, J. Korean Soc. For. Sci., 109(3), 300-312.
- National Institute of Ecology, 2015, Natural environment conservation project design guidelines, National Institute of Ecology, Seocheon, Korea.
- Park, B. J., Cheon, K. I., Kim, J. J., Joo, S. H., Byeon, J. G., 2018, Stand structure of long term monitoring sites for Quercus mongolica in Mt. Myeonbong, Journal of Agriculture & Life Science, 52(3), 133-144.
- Park, B. J., Byeon, J. G., Huwanbin, Butoto, I. W. R., Cheon, K. I., 2019, Study for change of woody vegetation in Quercus mongolica forest, Mt. Myeonbong, Journal of Agriculture & Life Science, 53(2), 173-189. https://doi.org/10.14397/jals.2019.53.2.173
- Park, J. H., 2002, Growth characteristics of Quercus accutissima seedlings planted in strip clear-cutting area of Pinus rigida stands, Master's thesis, Chonnam National University, Gwangju, Korea.
- Park, J. H., Oh, K. I., An, K. W., Kim, C. S., 2004, Growth characteristics of Quercus accutissma seedlings planted in various levels of strip clear-cutting of Pinus rigida plantations, J. Korean For. Soc., 93(5), 360-371.
- Park, J. H., Jung, S. Y., Yoo, B. O., Ju, N. G., Lee, K. S., Park, Y. B., Kim, H. H., 2015, Comparison of height and DBH growth characteristics for Quercus acuta and Quercus serrata in southern korea, Journal of Agriculture & Life Science, 49(6), 19-26.
- Park, J. H., Chung, S. H., Kim, S. H., Lee, S. T., 2020, Estimation of site index curve for 6 Oak species in Korea, Journal of Agriculture & Life Science, 54(3), 27-33.
- Saha, S., Kuehne, C., Bauhus, J., 2017, Lessons learned from oak cluster planting trials in central Europe. Canadian Journal of Forest Research, 47(2), 139-148. https://doi.org/10.1139/cjfr-2016-0265
- Son, Y. M., Lee, K. H., Chung, Y. G., 1997, Stand growth estimation using nonlinear growth equations, Jour. Korean For Soc, 86(2), 135-145.
- Son, Y. M., Lee, K. H., Chung, Y. G., Kwon, S. D., 2003, Growth characteristics and model development in four major Quercus spp., Management.economy. measurement sectors, Korean Forest Society, 2003(2003), 71-73.
- Szymanski, S., 1986, Die Begrundung von Eichenbestanden in "Nest-Kulturen", Forst-und Holzwirt, 41(2), 3-7.