Abstract
The role of forest stand density in controlling soil erosion was investigated in Ehime Prefecture, Japan. The main objective was to compare soil erosion under different forest conditions including forest type, species composition, and stand density as influenced by thinning operations. Relative yield index (Ry) was used as an indicator of stand density to reflect the degree of management operations in the watershed. Eleven treatments were established based on the above forest conditions. Soil loss was collected in each of the 11 treatments after each rainfall event for a period of 1 year. The paper presents summary data on soil loss as affected by forest conditions and rainfall patterns. Findings showed that an appropriate forest management operation, which can be insured by stand density control, is needed to reduce soil loss. The present study plays an important role in clarifying technical processes related to soil erosion, while it helps linking these elements to current Japanese forestry issues and bringing new inputs to reducing sediment-related disasters in Japan.
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References
Akenaga, H., & Shibamoto, T. (1933). Effect of soil elements in cypress forest plantations in the Owase region. Journal Japan Forestry Society, 15, 19–26, In Japanese.
Ando, T. (1982). Forest stands density control (126 pp.). Agriculture and Forestry Publ (In Japanese).
Brady, N. C. (2001). The nature and properties of soils (13 edn., 521 pp.). Upper Saddle River: Prentice Hall.
Brandt, J. (1989). The size distribution of throughfall drops under vegetation canopies. Catena, 16, 507–524. doi:10.1016/0341-8162(89)90032-5.
Chapman, G. (1948). Size of raindrops and their striking force at the soil surface in a red pine plantation. Eos, Transactions, American Geophysical Union, 29, 664–670.
Ehime Prefectural Government (2004). Final report on the condition of damages brought by Typhoon Number 21. Division of Disaster Countermeasures, Japan, 8 pp. (In Japanese, reference translated into English by the author).
Ehime Prefectural Government (2006). Report on the Symposium “Memory of the 2004 disaster”—Lessons and Future Countermeasures. Ehime Prefecture Civil Engineering Association; (2nd edn., pp. 50). (In Japanese, reference translated into English by the author).
Ehime University Forest (2002). Bulletin of the Ehime University, The University Forest, College of Agriculture, Ehime University, 60p.
Fisher, R., & Binkley, D. (2000). Ecology and management of forest soils (3rd edn., pp. 78). Hoboken: Wiley.
Forest Soil Division (1976). Classification of forest soil in Japan (1975). Bulletin of the Government Forest Experiment Station. 280, 1–28. (In Japanese with English summary).
Franzluebbers, A. J. (2002). Water infiltration and soil structure related to organic matter and its stratification with depth. Soil & Tillage Research, 66, 197–205. doi:10.1016/S0167-1987(02)00027-2.
Fujisawa, H. (2004). The forest planning system in relation to the forest resource and forestry policies. Journal of Forest Research, 9, 1–5. doi:10.1007/s10310-003-0062-y.
Gee, G. W., & Bauder, J. W. (1986). Particle-size analysis. In A. Klute (Ed.), Methods of soil analysis. Part 1. Agron. Monogr. 9 (2nd edn. pp. 383–411). Madison: ASA and SSSA.
Handa, R. (1988). Forest policy in Japan. Nippon Ringyou Chousakai, Tokyo Japan, 457 p.
Hattori, S., Abe, T., Kobayashi, C., & Tamai, K. (1992). Effect of forest floor coverage on reduction of soil erosion in Hinoki plantations. Bulletin of the Forestry and Forest Products Research Institute, 362, 1–34. (In Japanese with English summary).
Ichikawa, T., Takahashi, T., & Asano, Y. (2003). Comparison of nutrient dynamics along a slope between artificial Japanese cedar (Cryptomeria japonica) and Japanese cypress (Chamaecyparis obtusa) forests. Journal Japan Forestry Society, 85, 222–233. (In Japanese with abstract in English).
Imaizumi, Y. (2001a). Data and information collection for sustainable forest management in Japan. Japan’s Country Report for the International Expert Meeting on MAR-SFM, Yokohama, Japan. Forestry Agency, Japan, 5 pp.
Imaizumi, Y. (2001b). History of Japan’s forest policy and the present forest planning system. Forestry Agency, 14 pp.
Japan Color Research Institute (2002). Revised standard soil color charts, New Edition (13 p.).
Japanese Forestry Agency (2004). Forestry White Paper, 222 p.
Japanese Forestry Agency (2006). Annual report on trends in forests and forestry fiscal year 2006, summary. The Ministry of Agriculture, Forestry and Fisheries of Japan. http://www.rinya.maff.go.jp/new/hakusyoeigo/english18/index.html.
Kawaguchi, T., & Takiguchi, K. (1957). Studies of soil erosion on mountain areas (3): Experiments on erosion control function of ground cover. Bulletin of the Government Forest Experiment Station, 95, 91–120. (In Japanese with English summary).
Kitahara, H., Okura, Y., Sammori, T., & Kawanami, A. (2000). Application of Universal Soil Loss Equation (USLE) to mountainous forests in Japan. Journal of Forest Research, 5, 231–236. doi:10.1007/BF02767115.
Kiyono, Y. (1990). Dynamics and control of understories in Chamaecyparis obtusa plantations. Bulletin of the Forestry and Forest Products Research Institute, 359, 1–122. (In Japanese with English summary).
Kurahashi, T., Yajima, Y., & Sasaki, Y. (2008). Landslide disasters and hazard maps along national highways in Japan. In: The 2nd East Asia Landslides Symposium, Seoul, Korea, May 22–23, 2008, 14 pp.
Kuroda, K. (2003). Recent degradation of conifer plantations in the Kansai District of Japan. Bulletin of FFPRI, 2, No. 4 (No. 389), 247–254.
Lee, K. E., & Foster, R. C. (1991). Soil fauna and soil structure. Australian Journal of Soil Research, 29, 745–775. doi:10.1071/SR9910745.
Magarisawa, O., Ogasiwa, K., & Kawashima, Y. (1992). Understory vegetation in Chamaecyparis obtusa plantations in Gunma prefecture. Transactions of the Japanese Forestry Society, 103, 371–372. (In Japanese with English summary).
Marshall, J. S., & Palmer, W. M. (1948). The distribution of raindrops with size. Journal of Meteorology, 5, 165–166.
Mihara, Y. (1951). Raindrop and soil erosion. Bulletin of the National Institute of Agricultural Science, 1, 1–59. (In Japanese with English summary).
Misson, L., Tang, J., Xu, M., McKay, M., & Goldstein, A. H. (2005). Influences of recovery from clear-cut, climate variability, and thinning on the carbon balance of a young ponderosa pine plantation. Agricultural and Forest Meteorology, 130, 207–222. doi:10.1016/j.agrformet.2005.04.001.
Miura, S. (1995). Rainfall properties affecting soil erosion at mountain forests in Shikoku district: Analysis of AMeDAS data. In Trans. 4th Meet. Kansai Jpn For Soc, pp. 59–62 (In Japanese).
Miura, S. (2000). Proposal for a new definition to evaluate the status of forest floor cover and floor cover percentage (FCP) from the viewpoint of the protection against raindrop splash. Journal Japan Forestry Society, 82, 132–140, in Japanese with English summary.
Miura, S., Yoshinaga, S., & Yamada, T. (2003). Protective effect of floor cover against soil erosion on steep slopes forested with Chamaecyparis obtusa (hinoki) and other species. Journal of Forest Research, 8, 27–35. doi:10.1007/s103100300003.
Mosley, M. P. (1982). The effect of a New-Zealand beech forest canopy on the kinetic energy of water drops and on surface erosion. Earth Surface Processes and Landforms, 7, 103–107. doi:10.1002/esp.3290070204.
Murai, H., & Iwasaki, Y. (1975). Studies on function of water and soil conservation based on forest land (I). Influence of difference in forest conditions upon water run-off, infiltration and soil erosion. Bulletin of the Government Forest Experiment Station, 274, 81–84. (In Japanese with English summary).
Murashima, Y. (1997). Management of private forests and sustainable forestry in Japan. In: Proceedings of IUFRO symposium in Kyoto, sustainable management of small scale forestry. Kyoto University, pp. 12–17.
Nakane, K. (1995). Soil carbon cycling in a Japanese cedar (Cryptomeria japonica) plantation. Forest Ecology and Management, 72, 185–197. doi:10.1016/0378-1127(94)03465-9.
Nanko, K., Hotta, N., & Suzuki, M. (2004). Assessing raindrop impact energy at the forest floor in a mature Japanese cypress plantation using continuous raindrop-sizing instruments. Journal of Forest Research, 9, 157–164. doi:10.1007/s10310-003-0067-6.
Ohta, T. (2006). Sediment-related disasters and new forest management. Japanese Forestry Society, 47, 33–38. (In Japanese with English Abstract).
Okura, Y., Sammori, T., Kitahara, H. (1996). Sediment yield from bared surface by forest operation. In Trans. 107th Meet. Jpn. For. Soc, pp. 361–362 (In Japanese).
Persson, M. (2005). Estimating surface soil moisture from soil color using image analysis. Vadose Zone Journal USA, 4, 1119–1122. doi:10.2136/vzj2005.0023.
Razafindrabe, B. H. N. (2004). Study of the relationship between forest conditions and soil physical characteristics in a small watershed. Master thesis, Ehime University, 73p.
Razafindrabe, B. H. N., Inoue, S., & Ezaki, T. (2006a). Effects of different forest conditions on soil macroporosity and soil hardness: Case of a small watershed in Japan. The Journal of Biological Sciences, 6(2), 353–359.
Razafindrabe, B. H. N., Ultra, V. U., Kobayashi, O., Fujiwara, M., Inoue, S., & Ezaki, T. (2006b). Thinning improves surface-soil physical properties of coniferous forest plantations. Journal of Rainwater Catchment Systems, 11(2), 17–24.
Razafindrabe, B. H. N., Kakihara, T., Shuichi, K., Masafumi, F., Kobayashi, N., Ezaki, T. (2006c). Stand density affects soil infiltration rate in Coniferous forests. Journal of the Japanese Society of Coastal Forest, 6, 1–5.
Sakai, M., & Inoue, K. (1988). Effect of raindrops on the breakdown of cypress litter into small pieces. Transactions of Japanese Forestry Society Kansai Branch Conference, 39, 43–46. (In Japanese).
Sasse, J. (1998). The forests of Japan (75 p.). Tokyo: Japan Forest Technical Association.
Sato, S. (2007). Relationships between insect and disease pest damages and thinning practice in plantations of Japanese red cedar and Hinoki cypress in Japan. Bulletin of FFPRI, 6(3) (No. 404), 135–143.
Schultz, J., & Cruse, R. (1993). Effectiveness of vegetative filter strips. Leopold Center for Sustainable Agriculture. Competitive Grant Report, 90-09; 2:17–20.
Shiozaki, M. (1977). Study of humus layer decomposition (II) - Effect of thinning and fertilizer supply on the humus layer decomposition of Yezo Spruce (Picea jezoensis) stand. Bulletin of the Government Forest Experiment Station, 290, 15–33. (In Japanese with English summary).
Tanaka, W., & Otsuka, M. (1997). Forestry in Japan (I): Resource, Management and Planning. Sustainable management of small scale forestry. In Proceedings of IUFRO symposium in Kyoto September 8–13, Graduate School of Agriculture, Kyoto University, pp. 245–251.
Tang, J., Qi, Y., Xu, M., Misson, L., & Goldstein, A. (2005). Forest thinning and soil respiration in a ponderosa pine plantation in the Sierra Nevada. Tree Physiology, 25, 57–66.
Tsukamoto, J. (1991). Downhill movement of litter and its implication for ecological studies in three types of forest in Japan. Ecological Research, 9, 333–345. doi:10.1007/BF02347132.
Tsukamoto, Y. (1966). Raindrops under forest canopies and splash erosion. Bulletin of Experimental Forest of Tokyo University of Agriculture and Technology, 5, 65–77, in Japanese with English summary.
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Razafindrabe, B.H.N., He, B., Inoue, S. et al. The role of forest stand density in controlling soil erosion: implications to sediment-related disasters in Japan. Environ Monit Assess 160, 337–354 (2010). https://doi.org/10.1007/s10661-008-0699-2
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DOI: https://doi.org/10.1007/s10661-008-0699-2