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Jatropha curcas Biodiesel, Challenges and Opportunities: Is it a Panacea for Energy Crisis, Ecosystem Service and Rural Livelihoods?

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Title Jatropha curcas Biodiesel, Challenges and Opportunities: Is it a Panacea for Energy Crisis, Ecosystem Service and Rural Livelihoods?
 
Creator Wani, Suhas
 
Contributor Chander, Girish
 
Subject plant
 
Description In context of energy crisis and global warming, Jatropha curcas offers a great potential to combat fuel shortage and minimize carbon
emissions. J. curcas is a potential candidate for biofuel as it is drought tolerant, has high seed oil content and is not browsed by
animals. The tested advantage of blended biodiesel lies in its use in vehicles without any engine modification. A lot of hype was
created earlier for Jatropha as a “wonder shrub”, but much of it was without supporting data and the outcomes raised questions on its
large scale cultivation. Our research showed great variability in germplasm for agronomic parameters, oil content, male: female flower
ratio. Agronomic practices experiments showed response to fertility management, spacing, pruning, growth hormones and mycorrhizae
application. Jatropha can survive under low water availability, but needs sufficient water for higher yields. Currently available plant
material productivity is low (1–2 t ha−1) with variations among years due to rainfall variability. Low or high rainfall in waterlogging prone
soils reduces yields significantly (0.1 t ha−1 during 2010 in black soils). In block plantations, insect pests and diseases are potential
threats. The years 2009 and 2010 witnessed a large number of plant loss in Andhra Pradesh, Assam, Chattisgarh and Madhya Pradesh
due to black rot disease caused by Botryosphaeria dothidea. In spite of the challenges, Jatropha has the potential of greening degraded
lands by converting nonproductive
evaporation into productive transpiration. During gestation period (4–5 years) of Jatropha plantation,
yields of one ton or more can be obtained from intercropping
with sorghum, pearl millet, chickpea and soybean based on soil fertility.
In addition to biodiesel, the seed cake which is a byproduct
is a good source of N (∼5 %) and other nutrients for use in plantation and
crop production. Jatropha fixes and adds to soil per annum around 1,500 kg C ha−1 through deoiled cake, leaf fall plus pruned loppings
and builds organic carbon content of degraded lands. Biofuel replacement of 250 kg C equivalent ha−1 in the fossil fuel and more than
5,000 kg C ha−1 sequestered in live plant biomass renders ecosystem service. Jatropha plant cover also reduces soil loss. Along with
numerous benefits, being in domain of unprivileged, biodiesel plantation activities generates employment opportunities and social
mainstreaming of the weaker sections. Current findings with available material show that with increased labour costs and low
productivity, it is not a viable option for biodiesel. But, in remote areas, nonedible
vegetable oil as a source of energy produced on
degraded lands in decentralized manner is a viable option to meet energy demand in rural areas. In view of the current problems, there
is a need to apply science to develop high yielding cultivars tolerant to pests, increase female: male flower ratios and address the
problem of synchronized flowering to reduce harvesting costs.
 
Date 2012-11-30
2017-01-05T19:41:49Z
2017-01-05T19:41:49Z
 
Type Book Chapter
 
Identifier http://oar.icrisat.org/id/eprint/6802
https://mel.cgiar.org/reporting/download/hash/BGSgDQmm
Suhas Wani, Girish Chander. (30/11/2012). Jatropha curcas Biodiesel, Challenges and Opportunities: Is it a Panacea for Energy Crisis, Ecosystem Service and Rural Livelihoods, in "In: Jatropha, Challenges for a New Energy Crop: Volume 1: Farming, Economics and Biofuel. ". New York, United States: Springer Verlag (Germany).
https://hdl.handle.net/20.500.11766/5254
Limited access
 
Language en
 
Rights CC-BY-NC-4.0
 
Format PDF
 
Publisher Springer Verlag (Germany)