Effects of Biochar and Lime on Soil Physicochemical Properties and Tobacco Seedling Growth in Red Soil

ZHU Pan, YING Jie-guan, PENG Shu-ang, JIANG Cun-cang
2015 Journal of Agricultural Resources and Environment  
Red soil, mainly found in the southern China, is developed in a warm, moist climate. The main property of the soils is strong acidity, aluminum toxicity, and low available nutrients. In this study, different effects of biochar and lime on soil physicochemical properties and tobacco growth were determined in red soil, so as to provide a scientific foundation for soil improvement tobacco field. A pot experiment was designed and conducted at four biochar levels(0, 0.5%, 1%, 2%) and normal lime
more » ... l (0.3%) to study effects of two different soil amendments on red soil pH, exchangeable aluminum(Exc-Al) and exchangeable manganese(Exc-Mn), available nutrients and organic carbon (SOC). Meanwhile, agronomic traits, biomass and leaves elements of tobacco were also tested. Results showed that the agronomic characters and biomass of tobacco seedling had changed effectively after biochar or lime was added. Under 0.5%, 1% biochar treatment, the content of nitrogen(N), phosphorus(P), potassium(K), calcium(Ca ) and magnesium(Mg) in tobacco leaves substantially raised. However, when 2% biochar was applied, leaves N content declined by 9.3%. Compared with the control, leaves N, P and Ca content increased observably in the lime treatment. However, its K and Mg content decreased by 9.0% and 13.3% respectively. Alkaline nitrogen(SAN), available phosphorus (SAP), available potassium (SAK), and exchangeable calcium (Exc-Ca) and exchangeable magnesium (Exc-Mg) were improved obviously in soil applied with biochar. Only the content of Exc-Ca was significantly increased in lime treatment. In addition, it was beneficial to improve soil pH and reduce soil Exc-Al when biochar or lime had been used. Thus, both biochar and lime are propitious to increase soil pH value, lessen soil Exc-Al content, and improve the growth of tobacco seedling. Furthermore, biochar application also can raise the content of available nutrient and SOC in red soil.
doi:10.13254/j.jare.2015.0152 doaj:11f171183b874740ae4e24d16152fb1c fatcat:2ojq6dj4njdrbh5vyzisvlhhpi