A. Ashok Kumar

Bio-Fuel Crops Research for Energy Security and Rural Development in Developing Countries

Soaring prices of fossil fuels, geo-political issues and environmental pollution associated with fossil fuel use has led to worldwide interest in the production and use of bio-fuels. Both the developed and developing countries have developed a range of policies to encourage production of combustible fuels from plants that triggered public and private investments in bio-fuel crop research and development, and bio-fuels production. In this article, we discuss the potential benefits of bio-fuels in increasing the farmers’ incomes, reducing environment pollution, the crop options and research and development interventions required to generate feedstocks to produce bio-fuels to meet projected demand without compromising food/fodder security in developing countries.

Ex-ante Impact Assessment of ‘Stay-Green’ Drought Tolerant Sorghum Cultivar Under Future Climate Scenarios: Integrated Modeling Approach

An integrated modeling framework – IMPACT – which integrates partial equilibrium economic model, hydrology model, crop simulation model and climate model was used to examine the ex-ante economic impact of developing and disseminating a drought tolerant sorghum cultivar in target countries of Africa and Asia. The impact of drought tolerant sorghum technology on production, consumption, trade flow and prices of sorghum in target and non-target countries were analyzed. And also we estimated the returns to research investment for developing the promising new drought tolerant cultivars and dissemination in the target countries. The analysis indicates that the economic benefits of drought tolerant sorghum cultivar adoption in the target countries outweighs the cost of developing this new technology. The development and release of this new technology in the target countries of Asia and Africa would provide a net economic benefit of about 1,476.8 million US

Sweet Sorghum for Biofuel Industry

for the entire world under no climate change condition. Under climate change scenarios the net benefits derived from adoption of new drought tolerant sorghum cultivar is higher than the no climate change condition. This is due to higher production realized by sorghum under climate change scenarios. The results imply that substantial economic benefits can be achieved from the development of a drought tolerant sorghum cultivar. And also this technology will perform better than the existing cultivars in future climate change condition.

Characterization of Post-Rainy Season Grown Indigenous and Exotic Germplasm Lines of Sorghum for Morphological and Yield Traits

Renewable sources of energy can help mitigate the negative effects associated with the use of fossil fuels and represent a growing share of the energy portfolio. Biofuels are the only source of liquid transportation fuel that is both renewable and compatible with the existing fleet of vehicles. Sweet sorghum as a biofuel crop has many attractive features that make it an excellent source of renewable energy. The diversion of crop land for cultivation of sweet sorghum does not arise with as it meets food, fuel, and fodder requirement. Sweet sorghum–based ethanol-producing distilleries have been established in China, India, and elsewhere. Besides ethanol, acetone, butanol, lactic acid, butyric acid, hydrogen, and methane are other fermentation products that can be produced. Sweet sorghum also produces several potential native products such as cellulose for paper production, waxes, proteins, and allelopathic compounds such as sorgoleone. In general, complementation of sweet sorghum with sugarcane is possible in those areas of the world where sugarcane is produced, as sweet sorghum is compatible with the infrastructure and the managerial expertise available in the sugarcane industry.

Influence of keratin on the growth of some keratinophilic fungi

Sorghum is a major staple crop and vital for the marginal farmers in Asian and African countries. Landraces or germplasm lines adapted to biotic and abiotic stresses are the prime source of adaptive traits in the crop breeding programs. In order to assess the genetic variability, 141 exotic germplasm lines and 36 popular varieties were evaluated for eight agro-morphological traits. Wide range of values were observed for grain yield (6.6–124.4 g/plant), seed index (1.5–7.1 g/100 seeds), panicle length (8–44 cm) and panicle width (7.25 cm). High genotypic and phenotypic coefficient of variation was observed for grain yield per plant. The values of broad sense heritability in the sorghum core population ranged from 0.75 to 0.99. Seed weight, days to flowering, panicle width and leaf area were significantly correlated with grain yield (P ≤ 0.01). Seed weight was positively correlated with panicle width (correlation coefficient 0.31), while negatively correlated with panicle length (correlation coefficient −0.15). Cluster analysis resolved all the genotypes into four major clusters. Among germplasm lines, TSG-313 had high seed weight of 7.05 g/100 seeds, while TSG-325 had highest grain yield of 124.4 g/plant as against control variety. Germplasm lines with high heritability scores would help us to utilise them in recombination breeding.

Genetic Enhancement for Drought Tolerance in Sorghum

During our investigation, some fungal species were isolated which are keratinophilic in nature.They frequently occurred on hair, feather, nail, hoof, horn and skin Some of them are potentially pathogenic, causing so many skin diseases in human beings and animals. The considerable growth of these isolates on keratin like polymer is not at all possible without the hydrolysis to simpler fractions. The present finding corroborates the keratin digesting ability of these fungi.