RÉSUMÉ
Aims: The aim of this study was popularize the developed high yielding, dual purpose, potential sorghum variety and its acceptability by the farming community.Study of Design: Randomized Block Design.Place and Duration of Study: The Present study was conducted at Regional Agricultural Research Station, Palem, Nagarkurnool and evaluated across fifteen AICRP centers at national level from 2010 to 2019.Methodology: A high yielding, dual purpose sorghum variety was derived from a cross between SPV-86 x ICSR-89064 through Pedigree method of breeding and subsequently it was evaluated at station level from 2013 – 2015 and also at AICRP system from fifteen centers during 2016 – 2018 for its grain and fodder yield and resistance to pests and diseases and showed superior performance over the three nation checks.Results: Sorghum culture SPV 2437 recorded highest grain and fodder yield of 3179.8 kg ha-1 and15900.2 kg ha-1and yielded +39.25%, +3.86% and +14.88% higher grain yield and +92.48, +13.59, and +8.46 higher fodder yield superiority than checks CSV 17, CSV 20 and CSV-27 and shown 3.67 mean field grade and 4.37 mean threshed grade showing resistant reaction to grain mold disease.Conclusion: The sorghum variety SPV 2437 with higher grain and fodder yield, resistance to pest and disease and good cooking quality as compared to the check varieties was released through central varietal release committee during 2020 for Zone I (Andhra Pradesh, Telangana, Tamil Nadu, Rajasthan and Gujarat states) on the name of Telangana Jonna 1/CSV 41 and gaining its importance across the states for its high potential yield.
RÉSUMÉ
Rice contaminated with fungal species during storage is not only of poor quality and low economic value, but may also have harmful effects on human and animal health. The predominant fungal species isolated from rice grains during storage belong to the genera Aspergillus and Penicillium. Some of these fungal species produce mycotoxins; they are responsible for adverse health effects in humans and animals, particularly Aspergillus flavus, which produces the extremely carcinogenic aflatoxins. Not surprisingly, there have been numerous attempts to devise safety procedure for the control of such harmful fungi and production of mycotoxins, including aflatoxins. This review provides information about fungal and mycotoxin contamination of stored rice grains, and microbe-based (biological) strategies to control grain fungi and mycotoxins. The latter will include information regarding attempts undertaken for mycotoxin (especially aflatoxin) bio-detoxification and microbial interference with the aflatoxin-biosynthetic pathway in the toxin-producing fungi.