ICAR RESEARCH DATA REPOSITORY FOR KNOWLEDGE MANAGEMENT
(An Institutional Publication and Data Inventory Repository)
High Zn bioavailability in peanut (Arachis hypogaea L.) cultivars: an implication of phytic acid and mineral interactions in seeds See
Insights into the physiological and molecular responses of plants to iron and zinc deficiency See
An expedient ion chromatography based method for high‐ throughput analysis of phytic acid in groundnut kernels See
Processing techniques alter resistant starch content, sugar profile and relative bioavailability of iron in groundnut (Arachis hypogaea L.) kernels See
Delineating genetic inheritance and nonallelic genic interactions for grain iron and zinc concentration, yield and its attributes by generation mean analysis in pearl millet [Pennisetum glaucum (L.) R. Br.]. See
Cultivation, breeding and nutritional uses of groundnut See
Delineating G × E interactions by AMMI method for root attributes in ashwagandha [Withania somnifera (L.) Dunal]. See
Speed breeding: a potential tool for mitigating abiotic stresses See
Genetic Resources of Groundnut See
High Zn bioavailability in peanut (Arachis hypogaea L.) cultivars: An implication of phytic acid and mineral interactions in seeds See
Evaluation and identification of promising advanced breeding lines for quality and yield traits in groundnut (Arachis hypogaea L.). See
Inheritance of oleic acid trait and high throughput non-destructive phenotyping for nutritional traits in groundnut kernels See
EMS Induced Variability for Pod Yield in Groundnut (Arachis hypogaea L.) See
MULTIYEAR EVALUATION OF FRESH SEED DORMANCY AND POD YIELD IN GROUNDNUT (ARACHIS HYPOGEA L.) See
INFLUENCES OF GENOTYPE AND LOCATION INTERACTIONS ON AGRONOMICAL AND BIOCHEMICAL TRAITS OF GROUNDNUT See
Evaluation of released cultivars for blanchability and sugar content in groundnut (Arachis hypogaea L.). See
Development and validation of IPM modules against major sucking insect-pests of groundnut See
Evaluation of Genotype? Environment Interaction and Yield Stability Analysis in Peanut Under Phosphorus Stress Condition Using Stability Parameters of AMMI Model. Agricultural Research, 1-10. See
Genome editing without the hassles of tissue culture: Hope for editing plants recalcitrant to in vitro manipulations See
Metabolic profiling for dissection of late leaf spot disease resistance mechanism in groundnut See
R-AMMI-LM: Linear-fit Robust-AMMI model to analyze genotype-by environment interactions See
PBS 29079 B- a novel advanced breeding line with large seed size in groundnut (Arachis hypogaea L.)” See
Applied Plant Biotechnology See
बायोफोर्टिफिकेशन से बढ़ाएं सूक्ष्म पोषक तत्वों की मात्रा See
Biofortification Improving nutrition for combating micronutrients deficiencies See
- 5 Response of different peanut geno...
- 4 Assessment of nematicidal propert...
- 4 Biofertilizers for enhancing grou...
- 4 Comparative response of Groundnut...
- 4 Photosynthetic efficiency among I...
- 3 Application of Arbuscular Mycorrh...
- 3 Association and characterization ...
- 3 Comparative efficacy of storage b...
- 3 Draft Genome Sequence of an Extre...
- 3 Evaluation of the wild type and T...
- 3 Genetic variations in photosynthe...
- 3 Genotypic variability and inherit...
- 3 Influence of Soil and Plant Types...
- 3 Phenotyping and Molecular Marker ...
- 3 Photosynthetic characteristics of...
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