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Bihar Agricultural University, Sabour

Bihar Agricultural University, Sabour established on 5th August, 2010 is a basic and strategic institution supporting more than 500 researchers and educationist towards imparting education at graduate and post graduate level, conducting basic, strategic, applied and adaptive research activities, ensuring effective transfer of technologies and capacity building of farmers and extension personnel. The university has 6 colleges (5 Agriculture and 1 Horticulture) and 12 research stations spread in 3 agro-ecological zones of Bihar. The University also has 21 KVKS established in 20 of the 25 districts falling under the jurisdiction of the University. The degree programmes of the university and its colleges have been accredited by ICAR in 2015-16. The university is also an ISO 9000:2008 certified organisation with International standard operating protocols for maintaining highest standards in teaching, research, extension and training.VisionThe Bihar Agricultural University was established with the objective of improving quality of life of people of state especially famers constituting more than two third of the population. Having set ultimate goal of benefitting society at large, the university intends to achieve it by imparting word-class need based agricultural education, research, extension and public service.

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  • ArticleItemOpen Access
    Effect of canopy and nutrient management on senile orchards of Indian gooseberry (Emblica officinalis) cv Francis
    (2015-03) Tiwari, D.
    A study was conducted on 15 years old senile orchard of Indian gooseberry (Emblica officinalis G.) cv Francis to convert into productive through canopy and nutrient management. The results revealed that 50% pruning of previous season growth (P2) was statistically superior which resulted in maximum duration of flowering, fruit set and retention, yield, physical and chemical qualities of fruit and leaf as well as soil nutrient status. Further, nutrient management revealed that application of 40 kg FYM (M1) resulted maximum fruit set, retention, yield and phosphorus content in leaves and NPK in soil and minimum fruit drop, days taken to maturity and fibre content. Similarly 100 per cent RDF (N2) resulted in maximum fruit set (64.90 %), retention (20.51 %), yield (118 kg/tree), nitrogen and phosphorus content in leaves (2.46 and 0.44 %) as well as in soil (238.6 and 17.75 kg/ha). A critical observation of the results showed that interactions had been most effective to improve yield and quality parameters of fruits and nutrient status in leaves of aonla as well as soil than the individual application of different levels of pruning, organic manure and nutrient. Among flowering, fruiting and yield parameters, maximum duration of flowering (29 days), fruit set (74.61 %), retention (28.33 %) and yield (145 kg/tree) and minimum fruit drop (71.67 %) and days taken to fruit maturity (216 days) was found under P2M2N2 followed by P2M2N1. Interaction P2M2N2 has been noticed statistically superior to enhance physical and chemical characteristics of fruit followed by P2M2N1. This treatment has not only enhanced bearing and quality parameters in aonla but also increased the leaf nutrient status as well as soil fertility status. A significant increased yield of Indian gooseberry with application of pruning intensity, organic and inorganic nutrients was found due to vigorous vegetative growth and increased chlorophyll content, which together accelerated the photosynthesis that increased the supply of carbohydrates to plants. There is a positive correlation among nutrient doses with leaf nutrient content yield and quality of fruits. The supplemented organic manures have improved the physical, chemical and biological activities of soil which helped in better nutrient absorption by plants, resulting higher yield.
  • ArticleItemOpen Access
    Nitric oxide reduces pericarp browning and preserves bioactiveantioxidants in litchi
    (Elsevier, 2014) Barman, K.; Siddiqui, W.; Patel, V.B.; Prasad, M.
    Pericarp browning is the most important postharvest problem in litchi (Litchi chinensis Sonn.), which reduces the commercial acceptability and shelf life of fruit. In the present study, effect of nitric oxide (NO) on pericarp browning, bioactive antioxidants, and shelf life of fruit was investigated. Fruits were treated with the NO donor, sodium nitroprusside (SNP; 0.5 mM, 1.0 mM or 2.0 mM) by the immersion method, and stored at ambient condition for 8 days. SNP treatments, at all concentrations, significantly reduced pericarp browning in which the most remarkable effect was obtained with 2.0 mM SNP showing 30% lower pericarp browning and 42% higher anthocyanin content than control. The levels of total phenolics and antioxidant capacity of treated fruits were 50% and 31% higher respectively in relation to untreated ones. Throughout the storage, SNP treatment was highly effective in reducing weight loss, malondialdehyde (MDA) content, as well as delaying loss of total soluble solids, titra table acidity, and ascorbic acid in fruits with minimum decay (10%) giving an extended shelf life up to 8 days. Pericarp browning was negatively correlated with anthocyanin content, total phenolics content, antioxidant capacity and shelf life whereas it was positively correlated with weight loss, MDA content and decay percentage. These findings confirm that 2.0 mM SNP could be used as a treatment to reduce pericarp browning of litchi before storage.