Changes of soil physical properties during the conversion of  cropland to agroforestry system

doi:10.13287/j.1001-9332.201701.027

Abstract

Abstract: To provide theoretical basis for modeling and managing agroforestry systems, the influence of conversion of cropland to agroforestry system on soil physical properties was investigated via a walnut (Juglans regia)-wheat (Triticum aestivum) intercropping system, a wide spreading local agroforestry model in northern Weihe River of loess area, with the walnut and wheat monoculture systems as the control. The results showed that the improvement of the intercropping system on soil physical properties mainly appeared in the 0-40 cm soil layer. The intercropping system could prevent soil bulk density rising in the surface soil (0-20 cm), and the plow pan in the 20-40 cm soil layer could be significantly alleviated. The intercropping system had conti-nuous improvement on soil field capacity in each soil layer with the planting age increase, and the soil field capacity was higher than that of each monoculture system in each soil layer (except 20-40 cm soil layer) since the 5th year after planting. The intercropping system had continuous improvement on soil porosity in each soil layer, but mainly in the 0-20 and 20-40 cm soil layer, and the ratio of capillary porosity was also improved. The soil bulk density, field capacity and soil porosity obtained continuous improvement during the conversion of cropland to agroforestry system, and the improvement on soil physical properties was stronger in shallow soil layer than in deep soil.

WANG Lai, GAO Peng-xiang, LIU Bin, ZHONG Chong-gao, HOU Lin, ZHANG Shuo-xin. Changes of soil physical properties during the conversion of cropland to agroforestry system[J]. Chinese Journal of Applied Ecology, 2017, 28(1): 96-104.

References

[1] Li Q (李强), Xu M-X (许明祥), Qi Z-J (齐治军), et al. Effects of long-term chemical fertilization on soil physical properties of slope lands in the loess hilly region. Plant Nutrition and Fertilizer Science (植物营养与肥料学报), 2011, 17(1): 103-109 (in Chinese)
[2] Alegre JC, Cassel DK. Dynamics of soil physical properties under alternative systems to slash-and-burn. Agriculture, Ecosystems & Environment, 1996, 58: 39-48
[3] Li J-Q (黎建强), Zhang H-J (张洪江), Cheng J-H (程金花), et al. Soil physical properties of different hedgerow systems in upper reaches of Yangtze River. Chinese Journal of Applied Ecology (应用生态学报), 2011, 22(2): 418-424 (in Chinese)
[4] Li C-H (李潮海), Wang Q (王群), Hao S-P (郝四平). Advances of studies on the effect of soil physical properties on soil biological activity and crop growth. Journal of Henan Agricultural University (河南农业大学学报), 2002, 36(1): 32-37 (in Chinese)
[5] Grimaldi M, Schroth G, Teixeira WG. Soil structure// Schroth G, Sinclair FL, eds. Tree, Crops and Soil Fertility: Concepts and Research Methods. Wallingford: CAB International, 2003: 191-208
[6] Wang H, Huang Y, Huang H. Soil properties under young Chinese fir based agroforestry system in midsubtropical China. Agroforestry Systems, 2005, 64: 131-141
[7] Wang G-L (王改兰), Duan J-N (段建南), Jia N-F (贾宁凤), et al. Effects of long-term fertilization on soil physical and chemical property in loess hilly area. Journal of Soil and Water Conservation (水土保持学报), 2006, 20(4): 82-89 (in Chinese)
[8] Li Z (李志), Liu W-Z (刘文兆), Wang Q-X (王秋贤). Effects of land use type and slope position on soil physical properties in loess tableland area. Chinese Journal of Applied Ecology (应用生态学报), 2008, 19(6): 1303-1308 (in Chinese)
[9] Li W-H (李文华), Lai S-D (赖世登). Agroforestry in China. Beijing: Science Press, 1994 (in Chinese)
[10] Li H-S (黎华寿), Luo S-M (骆世明). Effect of diffe-rent typical slope land used patterns on soil physical & chemical properties. Journal of South China Agricultural University (华南农业大学学报), 2001, 22(2): 1-4 (in Chinese)
[11] Jose S, Gillespie AR, Pallardy SG. Interspecific interactions in temperate agroforestry. Agroforestry Systems, 2004, 61: 237-255
[12] Udawatta RP, Kremer RJ, Adamson BW. Variations in soil aggregate stability and enzyme activities in a tempe-rate agroforestry practice. Applied Soil Ecology, 2008, 39: 153-160
[13] Udawatta RP, Kremer RJ, Garrett HE. Soil enzyme activities and physical properties in a watershed managed under agroforestry and row-crop systems. Agriculture, Ecosystems & Environment, 2009, 131: 98-104
[14] Li T-Y (李天阳), He B-H (何丙辉), Tian J-L (田家乐), et al. Correlation analysis of soil physical and chemical properties under different planting patterns of blood orange garden in hilly areas of Chongqing City. Chinese Journal of Eco-Agriculture (中国生态农业学报), 2013, 21(11): 1395-1402 (in Chinese)
[15] Jia S-H (贾树海), Li M (李明), Xing Z-K (邢兆凯), et al. Effect of different agroforestry patterns on soil physico-chemical properties and enzyme activities. Chinese Journal of Soil Science (土壤通报), 2014, 45(3): 648-653 (in Chinese)
[16] Chen C-F (陈春峰), Wu J-E (吴骏恩), Liu J-Q (刘佳庆), et al. The improvement of soil aggregates by building rubber-based agroforestry ecosystems in Xishuangbanna, Southwest China. Journal of Yunnan University (Natural Sciences) (云南大学学报:自然科学版), 2016, 38(2): 326-334 (in Chinese)
[17] Jiang P-F (江培福), Lei T-W (雷廷武), Liu X-H (刘晓辉), et al. Principles and experimental verification of capillary suction method for fast measurement of field capacity. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2006, 22(7): 1-5 (in Chinese)
[18] Lin D-Y (林大仪). Soil Science. Beijing: China Fo-restry Press, 2002 (in Chinese)
[19] Li Z-H (李志洪), Wang S-H (王淑华). Effects of soil bulk density on soil physical properties and wheat growth. Chinese Journal of Soil Science (土壤通报), 2000, 31(2): 55-57 (in Chinese)
[20] Xu Y-X (徐友信), Liu J-T (刘金铜), Li Z-Z (李宗珍), et al. Spatial variability of bulk density under different land use types in the slope of low-land in Taihang Mountain. Chinese Agricultural Science Bulletin (中国农学通报), 2009, 25(3): 218-221 (in Chinese)
[21] Hua W-D (花伟东), Guo Y-F (郭亚芬), Zhang Z-X (张忠学). Influence of plough pan on broke partially slope farmland to moisture content infiltration. Journal of Soil and Water Conservation (水土保持学报), 2008, 22(5): 213-216 (in Chinese)
[22] Ahmed A. Effects of plow sole on soil infiltration rate and crop yield in irrigated soil. Agricultural Mechanization in Asia, Africa and Latin America, 1990, 21: 24-26
[23] Ping X-Y (平晓燕), Wang T-M (王铁梅), Lu X-S (卢欣石). Review of advances in carbon sequestration potential of agroforestry. Chinese Journal of Plant Ecology (植物生态学报), 2013, 37(1): 80-92 (in Chinese)
[24] Xie T-T (解婷婷), Su P-X (苏培玺), Zhou Z-J (周紫鹃), et al. Research progress on carbon sink function of agroforestry system under climate change. Chinese Journal of Applied Ecology (应用生态学报), 2014, 25(10): 3039-3046 (in Chinese)
[25] Bronick CJ, Lal R. Soil structure and management: A review. Geoderma, 2005, 124: 3-22
[26] Zhou C-J (周彩景), Liu J (刘军), Wang Y-Q (王益权), et al. Effect of organic compounds content and types on soil water retention capacity. Journal of Northwest A&F University (Natural Science) (西北农林科技大学学报:自然科学版), 2008, 36(12): 115-120 (in Chinese)
[27] Li C-R (李传荣), Liu J-W (刘金文), Chen Y-J (陈永杰), et al. Dynamics of soil water contents and its physical features under fruit trees. Research of Soil and Water Conservation (水土保持研究), 2001, 8(3): 131-134 (in Chinese)
[28] Abid M, Lal R. Tillage and drainage impact on soil quality. I. Aggregate stability, carbon and nitrogen pools. Soil and Tillage Research, 2008, 100: 89-98
[29] Li Z (李卓), Wu P-T (吴普特), Feng H (冯浩), et al. Simulated experiment on effects of soil bulk density on soil water holding capacity. Acta Pedologica Sinica (土壤学报), 2010, 47(4): 611-620 (in Chinese)
[30] Xu H-S (许华森), Yun L (云雷), Bi H-X (毕华兴), et al. Fine root distribution and underground competition in walnut soybean intercropping system. Chinese Journal of Ecology (生态学杂志), 2012, 31(7): 1612-1616 (in Chinese)
[31] Carlos GT, Frank MH, Sam EF, et al. Agroforest system effects on soil characteristics of the Sarapiqui region of Costa Rica. Agriculture, Ecosystems & Environment, 1999, 73: 19-28
[32] Marques M, Paulo H, Gama R, et al. Soil carbon stocks and origin under different cacao agroforestry systems in Southern Bahia, Brazil. Agriculture, Ecosystems & Environment, 2016, 221: 99-108
[33] Gao C-X (高朝侠), Xu X-X (徐学选), Yu M-Z (宇苗子), et al. Impact of land use types on soil macropores in the loess region. Chinese Journal of Applied Ecology (应用生态学报), 2014, 25(6): 1578-1584 (in Chinese)

Changes of soil physical properties during the conversion of cropland to agroforestry system

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 0

Recommended Articles

Metrics

Comments