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Genetic enhancement for flowering period heat tolerance in peart millet (Pennisetum glaucum L. (R.) Br.)
Pearl millet, basically a rainfed crop worldwide, is increasingly being cultivated in summer season in north western parts of India where air temperatures during flowering time often exceed 42 degree Celsius.
Integrated ecosystems approach for sustainable intensification of community based silvopatoral systems in arid western Rajasthan, India: implications for upscaling
The common pastures in arid Rajasthan, India though are critically important for sustaining livestock dominant smallholder rural livelihoods and ecosystems services, but have been severely degraded due to several factors. ...
Quantification of the Terrestrial Phytomass and Carbon in the Mountainous Forest Ecosystem Using Remote Sensing and In-Situ Observations
The aim of this research was to develop an understanding of how mountainous forests function in relation to forest phytomass and
carbon accumulation in the terrestrial vegetation pools which will help develop options for ...
Impact of salinity on physiological and biochemical traits in pearl millet
Salinity is one of the most severe environmental factors limiting the productivity of agricultural crops in arid and semi-arid reg ions. Accumulation of excess salts in the rhizospheric environment results in disturbed ...
The Lentil Genome – from the sequencer to the field
Lentil (Lens culinaris ssp. culinaris; genome size 4.3 Gb) plays a significant role in supporting
sustainable agriculture worldwide. Its nutrition value has also been recognized as part of the solution to
combat global ...
Spatial big-data analytics for agricultural intensification and crop diversification in rice fallows
Supply-demand gap of agricultural commodities continues to rise while total arable land area is
not expected to increase significantly in India. Future increases in agricultural production will be
contingent upon agricultural ...
Walking on the wild side - expanding genetic diversity for future lentil breeding
Systematic use of genetic variability through judicious use of diverse germplasm maximizes genetic gain
per generation, and therefore, maximizes economic value of the crop. Sometime, however, the required
genetic variation ...