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Muneshwar Singh Awadhesh K. Tripathi Kotha S. Reddy Kamalesh N. Singh 《植物养料与土壤学杂志》2001,164(6):691-696
Repeated application of phosphorus (P) as superphosphate either alone or in conjunction with cattle manure and fertilizer N may affect the P balance and the forms and distribution of P in soil. During 7 years, we monitored 0.5 M NaHCO3 extractable P (Olsen‐P) and determined the changes in soil inorganic P (Pi) and organic P (Po) caused by a yearly dose of 52 kg P ha—1 as superphosphate and different levels of cattle manure and fertilizer N application in a soybean‐wheat system on Vertisol. In general, the contents of Olsen‐P increased with conjunctive use of cattle manure. However, increasing rate of fertilizer nitrogen (N) reduced the Olsen‐P due to larger P exploitation by crops. The average amount of fertilizer P required to increase Olsen‐P by 1 mg kg—1 was 10.5 kg ha—1 without manure and application of 8 t manure reduced it to 8.3 kg ha—1. Fertilizer P in excess of crop removal accumulated in labile (NaHCO3‐Pi and Po) and moderately labile (NaOH‐Pi and Po) fractions linearly and manure application enhanced accumulation of Po. The P recovered as sum of different fractions varied from 91.5 to 98.7% of total P (acid digested, Pt). Excess fertilizer P application in presence of manure led to increased levels of Olsen‐P in both topsoil and subsoil. In accordance, the recovery of Pt from the 0—15 cm layer was slightly less than the theoretical P (P added + change in soil P — P removed by crops) confirming that some of the topsoil P may have migrated to the subsoil. The P fractions were significantly correlated with apparent P balance and acted as sink for fertilizer P. 相似文献
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Sebastien A. Rider Simon J. Davies Awadhesh N. Jha Andrew A. Fisher Jan Knight John W. Sweetman 《Aquaculture (Amsterdam, Netherlands)》2009,295(3-4):282-291
Commercial salmonid diets are not typically supplemented with selenium (Se) as they naturally contain relatively high levels of this essential trace element; however supplementation may be necessary to meet requirements during physical stress. Adopting an integrated approach by simultaneously determining Se status, various health parameters and interactions with other trace elements, this study aimed to determine the role of supra-supplemented selenite and Se-yeast (Selplex®) on the growth and health of rainbow trout (Oncorhynchus mykiss), both under normal conditions and after exposure to chronic physical stress. Fish were fed one of seven diets; a basal un-supplemented diet (0.73 mg kg− 1 Se) or diets supplemented with Se-yeast or sodium selenite to provide 2, 4, or 8 mg kg− 1 Se for 10 weeks prior to subjection of daily handling and confinement stressors for seven days. Net whole body Se retention was significantly greater for Se-yeast than selenite at all levels. In normal conditions activities of hepatic glutathione peroxidase (GSH-Px) and thioredoxin reductase (Trx-R) indicate that Se requirements were met by the basal diet. Similarly, pre-stress supra-supplementation of selenite and Se-yeast did not affect oxidative status (total antioxidant capacity of serum and hepatic malondialdehyde), immuno-competence (respiratory burst activity, serum lysozyme, and leukocyte counts) or other haematological and growth parameters (nuclear abnormalities in erythrocytes, and specific growth rate). In contrast, the trend towards a higher GSH-Px post-stress in Se supplemented diets over the basal diet, particularly in Se-yeast fed fish, indicates that Se requirements may not be met by the un-supplemented practical diet in stressed fish. Seven days of chronic physical stress decreased whole body Se and increased GSH-Px activity signifying an increased Se utilisation. During stress Se status was more effectively maintained by Se-yeast than selenite. Increased hepatic lipid peroxidation in stressed fish fed 8 mg kg− 1 selenite indicates a possible pro-oxidant effect of selenite. A positive interaction was observed between dietary selenite and whole body copper, but no such interaction was observed with Se-yeast. This study concludes that physical stressors can result in an elevated Se utilisation and consequently supplementation of commercial diets may be necessary such that Se reserves are available as a contingency for stress. 相似文献
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Muneshwar Singh Samaresh Kundu Ashis K. Biswas Jayanta K. Saha Awadhesh K. Tripathi Chuni L. Acharya 《植物养料与土壤学杂志》2004,167(5):577-583
A computational exercise was undertaken to quantify the percent N derived from atmosphere %Ndfa) in soybean and consequent N benefit from biological N2‐fixation process annually accrued to the soil by the soybean crop using average annual N‐input/‐output balance sheet from a 7 yr old soybean‐wheat continuous rotational experiment on a Typic Haplustert. The experiment was conducted with 16 treatments comprised of combinations of four annual rates of farmyard manure (FYM ? 0, 4, 8, and 16 t ha–1) and four annual rates of fertilizer N (? 0, 72.5, 145, and 230 kg N ha–1) applications. The estimated N contributed through residual biomass of soybean (RBNS) consisting of leaf fall, root, nodules, and rhizodeposition varied in the ranges of 7.02–16.94, 11.65–28.83, 3.31–8.91, and 11.3–23.8 kg N ha–1 yr–1, respectively. A linear relationship was observed between RBNS and harvested biomass N (HBNS) of soybean in the form of RBNS = 0.461 × HBNS – 20.67 (r = 0.989, P < 0.01), indicating that for each 100 kg N assimilated by the harvested biomass of soybean, 25.4 kg N was added to the soil through residual biomass. The Ndfa values ranged between 13% and 81% depending upon the annual rates of application of fertilizer N and FYM. As per the main effects, the %Ndfa declined from 76.4 to 26.0 with the increase in annual fertilizer‐N application from 0 to 230 kg N ha–1, whereas %Ndfa increased from 40.8 to 65.8 with the increase in FYM rates from 0 to 16 t ha–1, respectively. The N benefit from biological N2 fixation accrued to the soil through residual biomass of soybean ranged from 7.6 to 53.7 kg N ha–1 yr–1. The treatments having %Ndfa values higher than 78 showed considerable annual contribution of N from N2 fixation to the soil which were sufficient enough to offset the quantity of N removed from the soil (i.e., native soil N / FYM‐N / fertilizer‐N) with harvested biomass of soybean. 相似文献
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Thimmasamudram Raghavareddy Rupa Awadhesh Kumar Tripathi Cherukumalli Srinivasa Rao Kamlesh Narain Singh Annangi Subba Rao 《植物养料与土壤学杂志》2001,164(4):451-456
The effects of copper (Cu) application on the Cu distribution in various pools were investigated in laboratory and pot culture experiments with two Alfisols. The total soil Cu was fractionated into water‐soluble plus exchangeable (CA‐Cu), inorganically‐bound (AAC‐Cu), organically‐bound (PYR‐Cu), oxide‐bound (OX‐Cu), and residual (RES‐Cu) forms. The relative contribution of these fractions to Cu uptake by wheat was calculated through path coefficient analysis, a statistical technique that differentiates between correlation and causation. Copper fertilizer was applied at rates of 0, 5, and 10 mg (kg soil)—1 and FYM at rates of 0 and 10 t ha—1. Results indicated that the amounts of Cu present in CA‐Cu were very small. The CA‐Cu, AAC‐Cu, PYR‐Cu, and OX‐Cu fractions were increased and RES‐Cu was not significantly affected by the Cu application. No significant variation (P ≤ 0.01) was observed between Cu application with and without FYM on the distribution of different fractions of soil Cu except PYR‐Cu in Patancheru soil. Among the levels, application of 10 mg Cu (kg soil)—1 showed the maximum increase in different fractions of soil Cu. The per cent increase in Cu concentration in different fractions followed the order CA‐Cu > AAC‐Cu > PYR‐Cu > OX‐Cu > RES‐Cu. The path analysis showed that the PYR‐Cu and AAC‐Cu are the most important fractions for maintaining the available Cu pool in soils. 相似文献
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Sujata Misra Awadhesh Kumar Srivastava Sushma Verma Sudhakar Pandey Surendra Singh Bargali Tikam Singh Rana K. Narayanan Nair 《Genetic Resources and Crop Evolution》2017,64(5):995-1010
Genetic variations and relationships among cultivated and wild genotypes of five taxa of Indian Luffa were examined using inter simple sequence repeats (ISSR), directed amplification of minisatellite DNA (DAMD) markers and morphological characterization. Morphometric evaluation of 21 discrete characters in 51 representative accessions segregated the five taxa of Luffa in three main clusters: the two wild species (L. echinata, L. graveolens) in the first, and the cultivated L. aegyptiaca (smooth gourd) and L. acutangula (ridged gourd)/L. hermaphrodita (Hermaphrodite luffa) in the second and third clusters, respectively. Cumulative data analysis of 15 ISSR and seven DAMD markers revealed high percentage polymorphism (97.67 %), moderate genetic distance (0.06–0.72, avg. 0.51), and low heterozygosity and Shannon index values (H = 0.15; I = 0.22) across all the 76 genotypes assayed. A UPGMA dendrogram, based on the combined marker data, resolved the five taxa in two main clusters with high bootstrap support. The morphological and molecular trees showed incongruence in the number of main clusters resolved and in the disposition of the wild and cultivated taxa in different sub-clusters. The cluster analyses and PCoA plots revealed a nested grouping of the hermaphrodite luffa within the ridge gourd group. The Bayesian STRUCTURE analysis identified three genetic clusters for the five assumed taxa. Outcrossing test revealed a mixed mating system in Indian Luffa. This is the first ever report on the mating system in Luffa using molecular markers. The study also demonstrates the utility of using more than one DNA marker in the assessment of molecular diversity in a widely cultivated crop genus like Luffa with a narrow genetic base. 相似文献
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Chidambaranathan Parameswaran Balasubramaniasai Cayalvizhi Behura Niranjana Purty Mohini Samantaray Sanghamitra Subudhi Hatanath Ngangkham Umakanta Devanna B. N. Katara Jawahar Lal Kumar Awadhesh Behera Lambodar 《Genetic Resources and Crop Evolution》2021,68(5):1923-1935
Genetic Resources and Crop Evolution - Rice varieties are generally bred for higher yield but may possess genomic regions conferring tolerance to abiotic stresses. Climate change driven heat stress... 相似文献
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Amrit Kumar Nayak Anilkumar C Sasmita Behera Rameswar Prasad Sah Gera Roopa Lavanya Awadhesh Kumar Lambodar Behera Muhammed Azharudheen Tp 《水稻科学》2022,29(5):462-472
Grain size plays a significant role in rice, starting from affecting yield to consumer preference, which is the driving force for deep investigation and improvement of grain size characters. Quantitative inheritance makes these traits complex to breed on account of several alleles contributing to the complete trait expression. We employed genome-wide association study in an association panel of 88 rice genotypes using 142 new candidate gene based SSR (cgSSR) markers, derived from yield-related candidate genes, with the efficient mixed-model association coupled mixed linear model for dissecting complete genetic control of grain size traits. A total of 10 significant associations were identified for four grain size-related characters (grain weight, grain length, grain width, and length-width ratio). Among the identified associations, seven marker trait associations explain more than 10% of the phenotypic variation, indicating major putative QTLs for respective traits. The allelic variations at genes OsBC1L4, SHO1 and OsD2 showed association between 1000-grain weight and grain width, 1000-grain weight and grain length, and grain width and length-width ratio, respectively. The cgSSR markers, associated with corresponding traits, can be utilized for direct allelic selection, while other significantly associated cgSSRs may be utilized for allelic accumulation in the breeding programs or grain size improvement. The new cgSSR markers associated with grain size related characters have a significant impact on practical plant breeding to increase the number of causative alleles for these traits through marker aided rice breeding programs. 相似文献
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