Korean Journal of Soil Science and Fertilizer (한국토양비료학회지)

Korean Society of Soil Science and Fertilizer (한국토양비료학회)
권호 표지

Effects of Rainfall Events on Soil in Orchard Field under Herbicide Treatment. 1. Temporal Characteristics in Soil Physical and Chemical Properties

제초제 처리 과수원 포장에서 강우 사상의 효과. 1. 토양 물리성과 화학성의 변화

  • Chung, Doug-Young (Department of Bioenvironmental Chemistry College of Agriculture and Life Science Chungnam National Univ.) ;
  • Kim, Pil-Joo (Division of Applied Life Science (BK21), Graduate School, Gyeongsang National University) ;
  • Park, Mi-Suk (Department of Bioenvironmental Chemistry College of Agriculture and Life Science Chungnam National Univ.)
  • 정덕영 (충남대학교 농업생명과학대학 생물환경화학과) ;
  • 김필주 (경상대학교 응용생명과학부 (BK21)) ;
  • 박미숙 (충남대학교 농업생명과학대학 생물환경화학과)
  • Received : 2010.01.20
  • Accepted : 2010.02.11
  • Published : 2010.02.28
Download PDF
⟨ Previous Next ⟩

Abstract

The periodic application effects of two different herbicides on soil physical properties were observed in a slightly hilly orchard of pear tree located on the southestern flank of the Palbong Mountain in Gongju Chungnam : (1) bare surface vegetation; (2) glyphosate-treated plot; (3) paraquat-treated plot. The slope of experimental plots ranged from 5.5%to 10.2%at an altitude of 125 mand 896 $m^2$ ($28m{\times}32m$) in area. The total respective rainfall events were 47, 52, 52 times during experimental period from 2006 to 2008, while approximately 65 percent of daily rainfall intensity from2006 to 2008 was less than 20 mm a day. The organic matter contents on the surface 15 cm soil ranging from1.23%to 1.84%in 2006 were changed into from1.35 %to 2.28%in 2008 in the order of control > glyphosate > paraquat > bare plot in 2008, indicating that the herbicide treatment influenced the accumulation organic matter in soil. The changes in soil particle contents showed that the loss of soil particles in top 5 cm soil depth was greater in a bare soil than in other treatments such as control, glyphosate, and paraquat-treated plot. The net changes in the bulk densities showed that there were little variations between May of 2006 and Nov. of 2008 even though there were some losses of the soil particles. The soil strength of the glyphosate-treated bare plots was much greater than those of other plots such as control, glyphosate, and paraquat plots. However the soil strengths in control plots were lower than those in the plots of glyphosate and paraquat treated ones.

약간 경사가 있고 침식 가능성이 높은 배나무 과수원 포장에서 2가지 종류의 제초제를 처리하여 유거수와 토양침식의 변화를 관찰하였다 : (1)발아 전 처리 제초제 - Glyphosate; (2)발아 후 처리 제초제 - Paraquat. 조사지 포자의 고도는 125 m 경사도는 5.5% ~ 10.2%의 분포를 보였다. 한편 조사기간인 2006년 6월과 2008년 11월 사이의 강우 횟수는 각각 47, 52, 52회로 조사되었다. 정상적인 침투율은 보통 잡초가 모두 제거된 맨땅에서 증가하지만 제초제가 처리된 땅에서는 감소했다. 대조구에서 유거수는 항상 제초제를 처리한 땅과 맨땅에서 보다 더 적었다. 같은 강우강도에서 유거수는 대조구, glyphosate 그리고 paraquat 순으로 증가하였다. 강우의 강도가 센 경우에 유거수 차이는 조사 첫해에 약간 더 높았다. 토양 유실은 연구기간 3년 동안 약간씩 다르나 조립질 토양보다 미세질토양에서 유실이 더 많았다. 하지만 토양유실은 총강우량과 유거수와는 밀접한 연관이 없는 것으로 조사되었다. 동일 강우강도에서 토양침식률은 대조구, glyphosate, paraquat 그리고 glyphosate가 처리된 맨땅 순으로 증가하였다. 상대적으로 30 mm $day^{-1}$보다 낮은 강우량에서 제초제 처리와 상관없이 토양유실에 미치는 영향은 차이가 없었다. 결과적으로 토양침식에서 중요한 요인은 강우강도이다.

Keywords

References

  1. Harrison R. B, A. B. Adams, C. Licata, B. Flaming, G. L. Wagoner, E. Carpenter, and E. D. Vance. 2003. Quantifying deep-soil and coarse-soil fractions: avoiding sampling bias. Soil Science Society of America Journal 67, 1602-1606. https://doi.org/10.2136/sssaj2003.1602
  2. Haynes, R. J. 1981. Soil pH decrease in the herbicide strip of grasses-down orchard. Soil Sci. 132.4. 274-278 https://doi.org/10.1097/00010694-198110000-00004
  3. Nyssen J., M. Halle, J. Poesen, J. Deckers, and J. Moeyersons. 2001. Removal of rock fragments and its effects on soil loss and crop yield, Tigray, Ethiopia. Soil Use and Management 17, 179-187. doi: 10.1079/SUM200173
  4. Oliveira, M.T., and I. A. Merwin. 2001. Soil physical conditions in a New York orchard after eight years under different groundcover management systems. Plant and Soil 234(2): 233-237. https://doi.org/10.1023/A:1017992810626
  5. Poesen J, and H. Lavee. 1994. Rock fragments in topsoils: significance and processes. CATENA 23, 1-28. doi: 10.1016/0341-8162(94)90050-7
  6. Salako, F. K., P. O. Dada, C. O. Adejuyigbe, M. O. Adedire, O. Martins, C. A. Akwuebu, and O. E. Williams. 2007. Soil strength and maize yield after topsoil removal and application of nutrient amendments on a gravelly Alfisol toposequence. Soil and Tillage Research 94, 21-35. doi: 10.1016/j.still.2006.06.005
  7. Salako, F. K., G. Tian, and B. T. Kang. 2002. Indices of root and canopy growth of leguminous cover crops in the savanna zone of Nigeria. Tropical Grasslands 36, 33-46.
  8. Salako, F. K., G. Tian, G. Kirchhof, and G. E. Akinbola. 2006. Soil particles in agricultural landscapes of a derived savanna in southwestern Nigeria and implications for selected soil properties. Geoderma 137, 90-99. doi: 10.1016/j.geoderma.2006.06.017
  9. Sands, R, E. L. Greacen, and C. J. Gerard. 1979. Compaction of sand soils in radiata pine forests. I. A penetrometer study. Australian Journal of Soil Research 17, 101-113. doi: 10.1071/ SR9790101
  10. Soil Survey Staff. 1993. 'Soil survey manual. Soil Conservation Service.' US Department of Agriculture Handbook 18. (USDA: Washington, DC)