Soil Carbon Changes in Cultivated and Excavated Land Converted to Grasses in East-Central Saskatchewan
F.Mensah, J.J.S.andS.S.M.
Biogeochemistry 63(1): 85-92
2003
ISSN/ISBN: 0168-2563 DOI: 10.2307/1469740
Accession: 068104302
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Related References
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Kilcher, M.R. 1958: Fertilizer effects on hay production of three cultivated grasses in Southern Saskatchewan Jour Range Management 11(5): 231-234
Apedaile, L.P.; Rapp, E. 1983: Areas affected by excess water on better quality cultivated land in East Central Alberta Agriculture and Forestry Bulletin, University of Alberta 6(4): 27-32
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ZhaoAiTao 2008: Farmers awareness, reaction and livelihood to the policy of returning cultivated land and grazing land to grasses in Ningxia, China Multifunctional Grasslands In A Changing World, Volume Ii: Xxi International Grassland Congress And Viii International Rangeland Congress, Hohhot, China, 29 E 5 Y: 18
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