Biotechnological interventions for production and plantation of improved quality of Jatropha
Environmental sustainability: “Development that meets the needs of the present without compromising the ability of future generations to meet their own needs”. World Commission on Environment and Development, 1987
One of the most pressing and complex challenges facing our generation is to develop a workable synergy between economic and environmental realities. PCRA Report
Energy Consumption India – second largest commercial energy consumer in Non-OECD East Asia. 19% of the region’s total primary energy consumption Energy consumption in absolute terms increased 2.5 fold during last two decades. Expected to triple upto 2020
Petroleum products: Some Statistics Consumption in India increased from 4 MMT in 1950 to 130 MMT in Expected demand for : 175 MMT Present indigenous production about 50% of annual requirement Current recoverable crude oil reserves : 739 MMT Source: PCRA Report
Biofuels: An Alternative Efficient Environment friendly Cost Effective 100% natural energy replacement for petroleum fuel Liquid and Gaseous fuels Bioethanol Biodiesel
An environmentally friendly replacement for petroleum based fuel Production by transesterification of oil Non-edible oils are a rich source and economically viable Jatropha curcas identified as most potential source Biodiesel
Jatropha system promotes four main aspects of development, which combine to help assure a sustainable way of life for village farmers and the land that supports them: Erosion control and soil improvement Employment Poverty reduction Renewable energy Jatropha curcas
Reported yields from different trials are comparatively low No systematic study conducted so far on screening and selection Grows widely, however no selection based on yield and oil content Multiplication through seed leads to variability Yield is governed by a GxE interaction, agroclimatic based field trials essential
Improved Production and Productivity Systematic selection of desirable superior genotypes % oil; 3-5 tonnes/ha yield Essential to screen Jatropha genotypes and associate molecular markers with oil content Genetic diversity estimation using molecular tools Micro and Macroprorogation for mass multiplication of desired genotype
Micromission on production and demonstration of quality planting material Objectives: Selection of superior material based on established criteria- Oil content 30-40%; yield 3-5 tonnes/ha. Production of superior quality material – Micro and macropropagation Nursery establishment at centers Standardizing agro technology packages Demonstration in identified areas at agroclimatic locations
Expected Outcome Collection of superior material from different locations Oil estimation and characterization Germplasm collection Nursery establishment Demonstration of the quality material to evaluate the performance at different agroclimatic locations Serve as superior stock material for other nurseries/centers for production of quality plants Approximately 500ha to be covered, nurseries
Status Nearly 300 accessions collected from across the Country Over 256 accessions characterized, 50% reported to have over 35% oil content Approximately 7 lakhs plants produced. 300 ha. covered Quality germplasm being maintained
Nursery establishment of quality material of Jatropha at Biotech Park, Lucknow
Agencies / Institute Involved National Oil Seeds and Vegetable Oil Board, Gurgaon Jaipur University, Jaipur National Botanical Research Institute/ Biotech Park Lucknow Madurai Kamraj University, Madurai H.N.B Garhwal University, Garhwal, Uttaranchal M.S Swaminathan Research Foundation, Chennai
Jai Narayan Vyas University, Jodhpur Punjab Rao Deshmukh Krishi Vidhyapeeth (PDKV), Akola, Maharastra Haryana Science and Technology Council, Haryana National Chemical Laboratory, Pune Kerala Agriculture University, Thrissur West Bengal Council Of Science and Technology, Calcutta The Energy Resources Institute, New Delhi
Future Strategy Utilize 175 m ha of waste land Organized Jatropha plantation Only superior material to be multiplied SHG, Cooperatives, Farmers network to be involved Proper linkage to ensure end to end approach. Seed collection to be linked with extraction, processing and refining units Oil companies to be major players
To Conclude…. In the words of Dr. M.S. Swaminathan “In building a paradigm of sustainable development, it is necessary to link concepts and procedures at the macro level with field-level practices to arrive at a way of translating a conceptual response into a reality.”