Carbon sequestration and land rehabilitation through Jatropha curcas (L.) plantation in degraded lands

► Jatropha biodiesel plant can be successfully grown to rehabilitate degraded lands. ► A 3–5-year Jatropha added to soil 1450kgCha−1year−1 and in fuel 230kgCha−1year−1. ► Added biomass each year recycled 85.5kg N, 7.67kg P, 43.9kg K and other nutrients. ► A 4-year plantation sequestered 2500kgCha−1...

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Bibliographic Details
Published in:Agriculture, ecosystems & environment ecosystems & environment, 2012-10, Vol.161, p.112-120
Main Authors: Wani, Suhas P., Chander, Girish, Sahrawat, K.L., Srinivasa Rao, Ch, Raghvendra, G., Susanna, P., Pavani, M.
Format: Article
Language:English
Subjects:
Agronomy. Soil science and plant productions
belowground biomass
biodiesel
Biofuel
Biological and medical sciences
boron
carbon
Carbon sequestration
Degraded lands
ecosystem services
fossil fuels
Fundamental and applied biological sciences. Psychology
General agroecology
General agroecology. Agricultural and farming systems. Agricultural development. Rural area planning. Landscaping
General agronomy. Plant production
Generalities. Agricultural and farming systems. Agricultural development
Jatropha
Jatropha curcas
Land rehabilitation
land restoration
leaves
microbial biomass
nitrogen
Nutrient recycling
nutrients
oilseed cakes
phosphorus
plantations
population growth
potassium
roots
soil surface layers
soil water potential
sulfur
Use of agricultural and forest wastes. Biomass use, bioconversion
water holding capacity
zinc
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Summary:► Jatropha biodiesel plant can be successfully grown to rehabilitate degraded lands. ► A 3–5-year Jatropha added to soil 1450kgCha−1year−1 and in fuel 230kgCha−1year−1. ► Added biomass each year recycled 85.5kg N, 7.67kg P, 43.9kg K and other nutrients. ► A 4-year plantation sequestered 2500kgCha−1 in soil and 5100kgCha−1 in biomass. ► Jatropha improved microbial activity, available nutrients and water holding in soil. The effects of growing Jatropha in on-farm and on-station degraded lands were evaluated on carbon (C) sequestration and soil properties. Jatropha accumulated and added to soil significant amounts of C (305kgha−1year−1) from the year one itself. Overall, a 3–5-year old plantation added per year around 4000kg plant biomass equivalent to 1450kgCha−1 – 800kg C through leaves, 150kg C through pruned twigs, and 495kg C as deoiled Jatropha cake. Biodiesel C replacement in the fossil fuel was 230kgha−1. Besides adding biomass to the soil, and C replacement in fossil fuel; the standing Jatropha rendered ecosystem service by fixing 5100–6100kgha−1C as the aboveground plus belowground biomass. Carbon additions by Jatropha during 4 years increased C content in the degraded surface soil layer by 19%, resulting in about 2500kgha−1C sequestered. Huge C additions and live root activity under Jatropha increased microbial population, respiration rate and microbial biomass C and N in soil. Along with C additions, 4000kgha−1year−1 plant biomass recycled into the soil 85.5kg nitrogen, 7.67kg phosphorus, 43.9kg potassium, 5.20kg sulphur, 0.11kg boron, 0.12kg zinc and other nutrients. The C additions improved water holding capacity of the soil under Jatropha as compared with the adjacent control soil which increased by 35% at 30kPa and 21% at 1500kPa soil water potential.
ISSN:0167-8809
1873-2305
DOI:10.1016/j.agee.2012.07.028