Journal of Biosystems Engineering

  • 제34권6호
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  • Pages.397-403
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  • 2009
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  • 1738-1266(pISSN)
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  • 2234-1862(eISSN)
한국농업기계학회 (Korean Society for Agricultural Machinery)
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자주식 심토환경 개선기 개발(1) - 과수원의 토양 다짐 특성 및 심토 관리 실태 -

Development of Self-propelled Explosive Subsoiler (1) - Present Status of Soil Compaction and Subsoil Management in Orchard -

  • 발행 : 2009.12.25
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초록

This study was carried out to investigate the present status of subsoil compaction, and subsoil compaction management in orchard as a basic study for developing a self-propelled explosive subsoiler. Subsoil compaction was evaluated using the soil penetration resistance. Soil cone index was measured using the DIK 5520 type cone penetrometer in several fruit farms such as apple, pear, peach and grapes during growing seasons of these fruit in Jecheon, Gamgok, Choongju, Cheonan and Hwasung areas. Most of the subsoil managing machinery were either explosive type or digging type attached to the tractor or power tiller and turning radius of this machine was more than 3-5 m. Many of the farmers wanted to use the subsoiler which can put lime into soil and rupture soil at the same time. For most of the orchard fields, soil penetration resistance in vehicle traffic area was increased quickly and reached about 1.0 MPa in 5 cm soil depth. As the soil depth increased to 15-20 cm, cone penetration resistance reached about 2.0-2.5 MPa which restricted root growth seriously. Thus it was concluded that one of the main reason for increasing the soil compaction in orchard fields is agricultural vehicle traffic. In the vicinity of fruit trees, compaction is not so serious compared to that of the vehicle traffic area, but as the soil depth increased to 20-25 cm, in most of the orchard fields soil penetration resistance reached about 2.0-2.5 MPa which is the root growth-limiting value. Considering the rooting depth of fruit trees which ranged 30-60 cm for apple, pear and peach, and 20-30 cm for grape, it is necessary to loosen the subosoil and improve the subsoil conditions using subsoiler.

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참고문헌

  1. Barley, K. P. 1963. Influences of soil strength on growth of roots. Soil Science 96:175-180 https://doi.org/10.1097/00010694-196309000-00004
  2. Cho, H. J, L. Y. Kim, H. S. Lee and K S. Lee. 2005. Effect of soil compactions to soil physical properties at the orchard field. The 7th ESAFS International Conference. Quezon City, Philippines
  3. Cho, I. S., J. N. Im, J. D. So, S. Y. Lee and D. U. Choi. 1983. The effects of soil physical improvement on rice yields at fine textured fluvio-marine paddy field. Journal of Korean Society of Soil Science and Fertilizer 16(2):92-97
  4. Cho, H. J., L. Y. Kim, H. S. Lee and K. S. Lee. 2003. Effects od soil compaction to soil physical properties at the orchard field. 2003 Resreach of Agricultural Environment. pp. 232-244. RDA, Suwon, Korea
  5. Ehlers, W., V. Popke, F. Hesse and W. Bohm. 1983. Penetration resistance and root growth of oats in tilled and untilled loam soil. Soil and Tillage Research 3:261-275 https://doi.org/10.1016/0167-1987(83)90027-2
  6. Gill, W. R. and G. E. Vanden Berg. 1967. Soil Dynamics in Tillage and Traction. Handbook 316. Agricultural Reserch Service, U. S. Dept. Agriculture, Washington D. C., USA
  7. Gorucu, S., A. Khalilian, Y. J. Han, R. B. Dodd and B. R. Smith. 2006. An algorithm to detennine the optimurn tillage depth from soil penetrometer data in coastal plain soils. American Society of Agricultural and Biological Engineers 22(5):625-631
  8. Kim, J. C., K.C. Ko and K. R. Kim. 2004. An Outline of Pomology. pp. 182-183. Hyangrnunsa publishing Co., Seoul, Korea
  9. Ko, G. C., S. G. Kim, Y. S. Yu. 1999. Temperate-zone Pomology : Physiology and Culture. pp. 126-128. Seowon publishing Co., Seoul, Korea
  10. Park, W. H. 1997. Break Even Plan of Applying SS Machines in Apple Orchard Farms. Report of Gyeonsanbuk-Do Agricultural Research & Extension Services
  11. Raghavan, G. S., V. E. Mckyes, F. Taylor, P. Richard and A. Watson. 1979. The relationship between machinery traffic and com yield reductions in successive years. Transaction of the ASAE 22(4):1256-1259 https://doi.org/10.13031/2013.35194
  12. Soil Servey Division Staff. 1993. Soil Servey Manual. Soil Conservation Service. U. S. Department of Agriculture Handbook 18
  13. Sojka, R. E., W. J. Busscher, D. T. Gooden and W. H. Morrison. 1990. Subsoiling for sunflower production in the southeast Coastal Plains. Soil Science of America Journal 54(4):1107-1112 https://doi.org/10.2136/sssaj1990.03615995005400040031x
  14. Taylor, H. M. and H. R. Gardner. 1963. Penetration of cotton seedling taproots as influenced by bulk density, moisture content and strength of soil. Soil Science 96(3): 153-156 https://doi.org/10.1097/00010694-196309000-00001