Your search keyword '"Tripathi, Kuldeep"' showing total 13 results

1. Adventitious root formation confers waterlogging tolerance in cowpea (Vigna unguiculata (L.) Walp.).

Author

Basavaraj, P. S., Jangid, Krishna Kumar, Babar, Rohit, Gowdra, Vinay M. Gangana, Gangurde, Anuja, Shinde, Shweta, Tripathi, Kuldeep, Patil, Deepak, Boraiah, K. M., Rane, Jagadish, Harisha, C. B., Halli, Hanamant, Reddy, K. Sammi, and Prabhakar, M.

Subjects

WATERLOGGING (Soils), TOLERATION, COWPEA, ROOT formation, CHLOROPHYLL spectra, GERMPLASM

Abstract

Crop adaptation to waterlogging stress necessitates alterations in their morphophysiological and biochemical characteristics. Cowpeas, which serve as a dualpurpose legume crop (food and fodder), are sensitive to waterlogging stress, especially when exposed to extended periods of water stagnation during the early growth stage. In this study, we subjected five distinct and superior cowpea varieties to 10 days of waterlogging stress at the early seedling stage (V2, 15 days post emergence for 10 days) under controlled conditions. The aim was to comprehend the response of these varieties and identify the ideal trait for screening a large collection of cowpea genetic resources for waterlogging tolerance. We measured and analyzed changes in morpho-physiological and root parameters to gain a deeper understanding of the mechanism underlying waterlogging tolerance. The treatment (waterlogging and control), genotype, and their interactions had a significant impact on the most studied traits (p < 0.05). The results indicated a significant reduction in morpho-physiological parameters such as plant height, leaf area, leaf number, Normalized Difference Vegetation Index (NDVI), chlorophyll content, and chlorophyll fluorescence parameters under stress treatment than control conditions. However, root parameters like the number of adventitious roots (AR) and their length (ARL) significantly increased under waterlogging stress in tolerant cowpea varieties like DC15 and PL4. Correlation and PCA analyses further revealed a positive and significant association between cowpeas' waterlogging tolerance and AR formation and its AR length. Therefore, the current study reveals that swift development of AR and ARL may serve as potential traits conferring waterlogging tolerance in cowpeas. Using suitable mapping populations, these traits could reveal genomic regions associated with waterlogging tolerance in cowpeas. The tolerant varieties and key traits identified in this study could be beneficial in breeding programs aimed at enhancing waterlogging tolerance in cowpeas. [ABSTRACT FROM AUTHOR]

Published

2024

2. Gadmal: An endemic pulse crop from Betul district, Madhya Pradesh, India.

Author

Tripathi, Kuldeep, Gautam, R. K., Verma, Vijay K., Wankhede, D. P., Bhardwaja, Rakesh, Chaudhari, S. K., and Singh, G. P.

Subjects

LEGUMES, ENDEMIC plants, GERMPLASM, VIGNA, TRADITIONAL knowledge

Abstract

"Gadmal" is one of the important pulse crops of the local people living in the southern parts of Betul, Madhya Pradesh, India. An expedition was undertaken in December, 2022 to gather germplasm of gadmal from Betul, a district lying almost wholly on the Satpura plateau. From the results of a structured questionnaire administered to gadmal cultivating farmers in targeted villages, it seemed that gadmal is the pulse crop cultivated in this region by tribal farmers. Gadmal is being used as split pulse, chapati and vada preparations by the farmers. The food items and recipes prepared from the gadmal are traditionally offered to tribal Gods. However, the area under this crop is shrinking due to severe infestation of yellow mosaic disease. Indian Council of Agricultural Research-National Bureau of Plant Genetic Resources (ICAR-NBPGR) has collected and conserved a specimen in the National Herbarium of Cultivated Plants (Herbarium specimen, HS25749). On-spot evaluation of morphological traits was done across the locations. The study was undertaken for preliminary morphological, biochemical and molecular assessment. Based on preliminary evaluation, gadmal seems to be closer to blackgram than other cultivated Vigna species. However, detailed taxonomic studies are required to validate the identity using morpho-molecular tools. An exploratory note was presented with indigenous traditional knowledge along with cultural practices and economic uses. The work aimed to facilitate germplasm collection, detailed evaluation and systematic study of this valuable material with the prospects of crop diversification and value addition. The preliminary morphological, biochemical and molecular profiling of collected accessions being undertaken by us will provide avenues for better utilization and recognition of this crop. Efforts are being made to document the traditional knowledge and facilitate the tribal community for germplasm registration. [ABSTRACT FROM AUTHOR]

Published

2024

3. Non-invasive measurements to identify mungbean genotypes for waterlogging tolerance.

Author

Basavaraj, P. S., Jangid, Krishna Kumar, Babar, Rohit, Rane, Jagadish, Boraiah, K. M., Harisha, C. B., Halli, Hanamanth, Pradhan, Aliza, Tripathi, Kuldeep, Reddy, K. Sammi, and Prabhakar, M.

Subjects

WATERLOGGING (Soils), MUNG bean, NORMALIZED difference vegetation index, CHLOROPHYLL spectra, GENOTYPES, CARBON sequestration

Abstract

As the best-fit leguminous crop for intercropping across time and space, mungbean promises to sustain soil health, carbon sequestration, and nutritional security across the globe. However, it is susceptible to waterlogging, a significant constraint that persists during heavy rains. Since the predicted climate change scenario features fewer but more intense rainy days. Hence, waterlogging tolerance in mungbean has been one of the major breeding objectives. The present experiment aimed to employ nondestructive tools to phenotype stress tolerance traits in mungbean genotypes exposed to waterlogging and estimate the association among the traits. A total of 12 mungbean genotypes were used in the present study to assess waterlogging tolerance at the seedling stage. Plant responses to stress were determined non-destructively using normalized difference vegetation index (NDVI) and chlorophyll fluorescence parameters at different time intervals. NDVI and grain yield were positively associated with control (r = 0.64) and stress (r = 0.59). Similarly, chlorophyll fluorescence (quantum yield of PS-II) also had a significant positive association with grain yield under both control (rD 0.52) and stress (rD0.66) conditions. Hence, it is suggested that NDVI and chlorophyll fluorescence promise to serve as traits for non-destructive phenotyping waterlogging tolerance in mungbean genotypes. With the methods proposed in our study, it is possible to phenotype hundreds of plants for waterlogging tolerance efficiently. [ABSTRACT FROM AUTHOR]

Published

2024

4. Khesari (Lathyrus sativus L.), an ancient legume for future gain: An expedition collection from parts of West Bengal state of Eastern India.

Author

Tripathi, Kuldeep, Sadhukhan, Raghunath, Das, Arpita, Jana, Kalyan, Semwal, D. P., Kumar, Ashok, Sarker, Ashutosh, and Ahlawat, Sudhir Pal

Subjects

LATHYRUS sativus, LEGUMES, GERMPLASM, LOCAL government

Abstract

Grasspea is one of the staple foods of the local people living in the eastern parts of India. An expedition was undertaken during March, 2020 to collect germplasm of grasspea in the lower-Gangetic riverine belt and coastal areas of West Bengal of eastern India lying between latitude 21.43-24.44°N and longitude 87.23-88.90°E. From the results of a structured questionnaire administered to grasspea farmers in 57 villages located in 96 local government areas, it appeared that grasspea is the primary winter pulse cultivated in this region. Large variability of germplasm exist, ranging from small to bold seed, early to late maturing types, moderate to the high biomass type of grasspea. Most of these landraces have been adopted over the years from neighbouring communities, but in a few instances, the varietal replacement was noted, which came either through the involvement of government departments or local seed dealers. The highest proportion of the accessions (52.38%) was collected from the Purba Medinipur district, and the lowest (19.05%) was from Paschim Medinipur. On-spot evaluation of morphological traits, variations was detected in the descriptor characteristics across the locations. A total of 21 accessions was collected and assessed on-spot for different characters, viz., the seed's size, shape, seed colour, taste and texture revealed significant variation. The implications of this survey results for grasspea improvement in India are discussed in the present study. [ABSTRACT FROM AUTHOR]

Published

2022

5. Agro-Morphological Characterization of Lentil Germplasm of Indian National Genebank and Development of a Core Set for Efficient Utilization in Lentil Improvement Programs.

Author

Tripathi, Kuldeep, Kumari, Jyoti, Gore, Padmavati G., Mishra, Dwijesh C., Singh, Amit Kumar, Mishra, Gyan P., Gayacharan, C., Dikshit, H. K., Singh, Neeta, Semwal, D. P., Mehra, Reena, Bhardwaj, Rakesh, Bansal, Ruchi, Rana, J. C., Kumar, Ashok, Gupta, Veena, Singh, Kuldeep, and Sarker, Ashutosh

Subjects

PLANT germplasm, GERMPLASM, LENTILS, LEGUMES, PHENOTYPIC plasticity

Abstract

Lentil (Lens culinaris Medik.) is one of the major cool-season pulse crops worldwide. Its increasing demand as a staple pulse has led to the unlocking of diverse germplasm collections conserved in the genebanks to develop its superior varieties. The Indian National Genebank, housed at the Indian Council of Agricultural Research (ICAR)-National Bureau of Plant Genetic Resources, New Delhi, India, currently has 2,324 accessions comprising 1,796 indigenous and 528 exotic collections. This study was conducted to unveil the potential of lentil germplasm by assessing its agro-morphological characteristics and diversity, identifying trait-specific germplasm, and developing a core set. The complete germplasm set was characterized for two years, i.e., 2017–2018 and 2018–2019, and data were recorded on 26 agro-morphological traits. High phenotypic variability was observed for nine quantitative and 17 qualitative traits. A core set comprising 170 accessions (137 Indian and 33 exotic) was derived based on the characterization data as well as geographical origin using a heuristic method and PowerCore software. This core set was found to be sufficiently diverse and representative of the entire collection based on the comparison made using Shannon–Weaver diversity indices and χ2 test. These results were further validated by summary statistics. The core set displayed high genetic diversity as evident from a higher coefficient of variance in comparison to the entire set for individual traits and overall Shannon–Weaver diversity indices (entire: 1.054; core: 1.361). In addition, the total variation explained by the first three principal components was higher in the core set (70.69%) than in the entire collection (68.03%). Further, the conservation of pairwise correlation values among descriptors in the entire and core set reflected the maintenance of the structure of the whole set. Based on the results, this core set is believed to represent the entire collection, completely. Therefore, it constitutes a potential set of germplasm that can be used in the genetic enhancement of lentils. [ABSTRACT FROM AUTHOR]

Published

2022

6. Insights into the genetic diversity of an underutilized Indian legume, Vigna stipulacea (Lam.) Kuntz., using morphological traits and microsatellite markers.

Author

Gore, Padmavati G., Gupta, Veena, Singh, Rakesh, Tripathi, Kuldeep, Kumar, Ramesh, Kumari, Gita, Madhavan, Latha, Dikshit, Harsh Kumar, Venkateswaran, Kamala, Pandey, Anjula, Singh, Neeta, Bhat, Kangila V., Nair, Ramakrishnan M., and Pratap, Aditya

Subjects

MICROSATELLITE repeats, GENETIC variation, LEGUMES, VIGNA, FOOD crops, EUCLIDEAN distance, FLOWERING time

Abstract

Vigna stipulacea (Lam.) Kuntz., commonly known as Minni payaru is an underutilized legume species and has a great potential to be utilized as food crop. To evaluate and select the best germplasm to be harnessed in the breeding programme, we assessed the genetic diversity of V. stipulacea (94 accessions) conserved in the Indian National Genebank, based on morphological traits and microsatellite markers. Significant variation was recorded for the morphological traits studied. Euclidean distance using UPGMA method grouped all accessions into two major clusters. Accessions were identified for key agronomic traits such as, early flowering (IC331436, IC251436, IC331437); long peduncle length (IC553518, IC550531, IC553557, IC553540, IC550532, IC553564); and more number of seeds per pod (IC553529, IC622865, IC622867, IC553528). To analyse the genetic diversity among the germplasm 33 SSR primers were used anda total of 116 alleles were detected. The number of alleles varied from two to seven, with an average of 3.52 per loci. The polymorphic information content values varied from 0.20 to 0.74, with a mean of 0.40. The high number of alleles per locus and the allelic diversity in the studied germplasm indicated a relatively wider genetic base of V. stipulacea. Phylogenetic analysis clustered accessions into seven clades. Population structure analysis grouped them into five genetic groups, which were partly supported by PCoA and phylogenetic tree. Besides, PCoA and AMOVA also decoded high genetic diversity among the V. stipulacea accessions. Thus, morphological and microsatellite markers distinguished V. stipulacea accessions and assessed their genetic diversity efficiently. The identified promising accessions can be utilized in Vigna improvement programme through introgression breeding and/or can be used for domestication and enhanced utilization of V. stipulacea. [ABSTRACT FROM AUTHOR]

Published

2022

7. Understanding G × E Interaction for Nutritional and Antinutritional Factors in a Diverse Panel of Vigna stipulacea (Lam.) Kuntz Germplasm Tested Over the Locations.

Author

Gore, Padmavati G., Das, Arpita, Bhardwaj, Rakesh, Tripathi, Kuldeep, Pratap, Aditya, Dikshit, Harsh K., Bhattacharya, Sudip, Nair, Ramakrishnan M., and Gupta, Veena

Subjects

VIGNA, GERMPLASM, SUSTAINABLE agriculture, PHYTIC acid, GENOTYPES, MUNG bean, LEGUMES, BLACK gram

Abstract

Micronutrient malnutrition or hidden hunger is a serious challenge toward societal well-being. Vigna stipulacea (Lam.) Kuntz (known locally as Minni payaru), is an underutilized legume that has the potential to be a global food legume due to its rich nutrient profile. In the present study, 99 accessions of V. stipulacea were tested for iron (Fe), zinc (Zn), calcium (Ca), protein, and phytate concentrations over two locations for appraisal of stable nutrient-rich sources. Analysis of variance revealed significant effects of genotype for all the traits over both locations. Fe concentration ranged from 29.35–130.96 mg kg–1 whereas Zn concentration ranged from 19.44 to 74.20 mg kg–1 across both locations. The highest grain Ca concentration was 251.50 mg kg–1 whereas the highest grain protein concentration was recorded as 25.73%. In the case of grain phytate concentration, a genotype with the lowest value is desirable. IC622867 (G-99) was the lowest phytate containing accession at both locations. All the studied traits revealed highly significant genotypic variances and highly significant genotype × location interaction though less in magnitude than the genotypic variance. GGE Biplot analysis detected that, for grain Fe, Zn, and Ca concentration the 'ideal' genotypes were IC331457 (G-75), IC331610 (G-76), and IC553564 (G-60), respectively, whereas for grain protein concentration IC553521 (G-27) was the most "ideal type." For phytate concentration, IC351407 (G-95) and IC550523 (G-99) were considered as 'ideal' and 'desirable,' respectively. Based on the desirability index, Location 1 (Kanpur) was identified as ideal for Fe, Zn, Ca, and phytate, and for grain protein concentration, Location 2 (New Delhi) was the ideal type. A significant positive correlation was detected between grain Fe as well as grain Zn and protein concentration considering the pooled analysis over both the locations where as a significant negative association was observed between phytate and protein concentration over the locations. This study has identified useful donors and enhanced our knowledge toward the development of biofortified Vigna cultivars. Promoting domestication of this nutrient-rich semi-domesticated, underutilized species will boost sustainable agriculture and will contribute toward alleviating hidden hunger. [ABSTRACT FROM AUTHOR]

Published

2021

8. Minni Payaru [Vigna stipulacea (Lam.) Kuntz.]: an underutilized ancient legume of India.

Author

Gore, Padmavati G., Tripathi, Kuldeep, H. A., Bhargavi, Rajpoot, Sudhir Kumar, Singh, Neeta, and Gupta, Veena

Subjects

VIGNA, LEGUMES, ANIMAL feeds, GREEN manure crops, INDIGENOUS crops

Abstract

Minni Payaru [Vigna stipulacea (Lam.) Kuntz] is an underutilized traditional legume species mainly used for food, animal fodder and green manure, particularly in Southern India. In the era of global climate change, this indigenous crop has the ability to survive under harsh environment and also has resistance against various biotic and abiotic stresses. Based on acquired knowledge about this crop, farmers prefer Minni Payaru compared to other commercial kharif pulses. Though Minni Payaru has huge potential to be used as main legume crop, it has not gained popularity in India. Currently, the cultivation of Minni Payaru is restricted to the Southern regions of India. The present review summarises the budding role of Minni Payaru in human nutrition, animal fodder and green manure. [ABSTRACT FROM AUTHOR]

Published

2021

9. Diversity in Phytochemical Composition, Antioxidant Capacities, and Nutrient Contents Among Mungbean and Lentil Microgreens When Grown at Plain-Altitude Region (Delhi) and High-Altitude Region (Leh-Ladakh), India.

Author

Priti, Mishra, Gyan P., Dikshit, Harsh K., T., Vinutha, Tontang, M. Tomuilim, Stobdan, Tsering, Sangwan, Seema, Aski, Muraleedhar, Singh, Ajeet, Kumar, Ranjeet R., Tripathi, Kuldeep, Kumar, Shiv, Nair, Ramakrishnan M., and Praveen, Shelly

Subjects

MUNG bean, LENTILS, OXIDANT status, LEGUMES, VITAMIN C, GENOTYPES, MICRONUTRIENTS

Abstract

Mungbeans and lentils are relatively easily grown and cheaper sources of microgreens, but their phytonutrient diversity is not yet deeply explored. In this study, 20 diverse genotypes each of mungbean and lentil were grown as microgreens under plain-altitude (Delhi) and high-altitude (Leh) conditions, which showed significant genotypic variations for ascorbic acid, tocopherol, carotenoids, flavonoid, total phenolics, DPPH (1, 1-diphenyl-2-picrylhydrazyl), FRAP (ferric-reducing antioxidant power), peroxide activity, proteins, enzymes (peroxidase and catalase), micronutrients, and macronutrients contents. The lentil and mungbean genotypes L830 and MH810, respectively, were found superior for most of the studied parameters over other studied genotypes. Interestingly, for most of the studied parameters, Leh-grown microgreens were found superior to the Delhi-grown microgreens, which could be due to unique environmental conditions of Leh, especially wide temperature amplitude, photosynthetically active radiation (PAR), and UV-B content. In mungbean microgreens, total phenolics content (TPC) was found positively correlated with FRAP and DPPH, while in lentil microgreens, total flavonoid content (TFC) was found positively correlated with DPPH. The most abundant elements recorded were in the order of K, P, and Ca in mungbean microgreens; and K, Ca, and P in the lentil microgreens. In addition, these Fabaceae microgreens may help in the nutritional security of the population residing in the high-altitude regions of Ladakh, especially during winter months when this region remains landlocked due to heavy snowfall. [ABSTRACT FROM AUTHOR]

Published

2021

10. Understanding genetic variability in the mungbean (Vigna radiata L.) genepool.

Author

Gayacharan, Tripathi, Kuldeep, Meena, Surendra Kumar, Panwar, Bhopal Singh, Lal, Hanuman, Rana, Jai Chand, and Singh, Kuldeep

Subjects

*MUNG bean, *LEGUMES, *HIERARCHICAL clustering (Cluster analysis), *CLUSTER analysis (Statistics), *PRINCIPAL components analysis, *CROP improvement

Abstract

Mungbean or green gram (Vigna radiata L. Wilczek) is a major pulse crop of Southeast Asia. This is the most liked pulse in India because of its good palatability, nutritional quality and easy digestibility. It is mainly grown in subsistence farming systems in India. The crop species has evolved in a diverse range of agroclimatic conditions and therefore the local germplasm has rich genetic diversity. However, this diversity has not been explored to identify useful traits and germplasm to utilise in crop improvement programmes. Therefore, a study was performed on 1,232 mungbean accessions using 8 quantitative, 18 qualitative traits and 4 seed morphometric traits to understand genetic diversity of the crop and identify trait‐specific germplasm. Wide range of variation was observed for days to flowering, days to maturity, pod length, number of seeds/pod and 100‐seed weight. Relative high phenotypic coefficient of variation (PCV) and genotypic coefficient of variation (GCV) was observed for 100‐seed weight, flowering period, seed length and seed breadth. Broad sense heritability (h2) analysis indicated that days to 50% flowering, flowering period, days to 80% maturity, 100‐seed weight and seed‐dimension‐related traits are highly suitable for mungbean breeding programmes. Agglomerative hierarchical clustering analysis based on morphological quantitative traits indicates that the diversity in the mungbean germplasm has no significant relationship with respect to their geographical origin. Principal component analysis (PCA) revealed that the first five principal components (PCs) explained 91.4% of total variation. The maximum variance was explained by PC1 (44.61%) followed by PC2 (21.15%). Plotting of observations in two‐dimensional space corresponding to PC1 and PC2 revealed wide distribution of accessions, and certain accessions were found associated with variables. The agromorphological variability and its genetic nature revealed from this study may prove very useful in ongoing and future breeding programmes. [ABSTRACT FROM AUTHOR]

Published

2020

11. Identification of novel resistant sources for ascochyta blight (Ascochyta rabiei) in chickpea.

Author

Gayacharan, Rani, Upasana, Singh, Sarvjeet, Basandrai, Ashwani K., Rathee, Virender K., Tripathi, Kuldeep, Singh, Neeta, Dixit, Girish P., Rana, Jai C., Pandey, Sushil, Kumar, Ashok, and Singh, Kuldeep

Subjects

CHICKPEA, LEGUMES, PLANT diseases, DISEASE resistance of plants, GERMPLASM, IDENTIFICATION

Abstract

Chickpea (Cicer arietinum L.) is the second largest pulse crop grown worldwide and ascochyta blight caused by Ascochyta rabiei (Pass.) Labr. is the most devastating disease of the crop in all chickpea growing areas across the continents. The pathogen A. rabiei is highly variable. The resistant sources available are not sufficient and new sources needs to be identified from time to time as resistance breakdown in existing chickpea varieties is very frequent due to fast evolution of new pathotypes of the pathogen. Therefore, this work was undertaken to evaluate the existing chickpea germplasm diversity conserved in Indian National Genebank against the disease under artificial epiphytotic conditions. An artificial standard inoculation procedure was followed for uniform spread of the pathogen. During the last five winter seasons from 2014–15 to 2018–19, a total of 1,970 accessions have been screened against the disease and promising accessions were identified and validated. Screening has resulted in identification of some promising chickpea accessions such as IC275447, IC117744, EC267301, IC248147 and EC220109 which have shown the disease resistance (disease severity score ≤3) in multiple seasons and locations. Promising accessions can serve as the potential donors in chickpea improvement programs. The frequency of resistant and moderately resistant type accessions was comparatively higher in accessions originated from Southwest Asian countries particularly Iran and Syria than the accessions originated from Indian sub-continent. Further large scale screening of chickpea germplasm originated from Southwest Asia may result in identifying new resistant sources for the disease. [ABSTRACT FROM AUTHOR]

Published

2020

12. Development, Characterization, and Cross Species/Genera Transferability of Novel EST-SSR Markers in Lentil, with Their Molecular Applications.

Author

Singh, Dharmendra, Singh, Chandan Kumar, Tribuvan, Kishor U, Tyagi, Punit, Taunk, Jyoti, Tomar, Ram Sewak Singh, Kumari, Shanti, Tripathi, Kuldeep, Kumar, Ashok, Gaikwad, Kishor, Yadav, Rajendra Kumar, and Pal, Madan

Subjects

LENTILS, SPECIES, GERMPLASM, PLANT metabolism, GENE mapping, LEGUMES

Abstract

Lentil is nutritionally important crop for human diet and enriched with quality protein, complex carbohydrates, fibers, essential minerals, and vitamins. However, genetic improvement of lentil is hampered largely due to unattributed and unexploited genetic and genomic resources. To administer genomic resources in lentil, we have identified 9949 EST-SSR loci from lentil RNA Seq data and validated 50 of them using 234 genotypes representing various Lens species and 34 accessions of 12 different legumes. Out of 50 EST-SSRs, 46 were polymorphic with polymorphic information content (PIC) ranging from 0.16–0.74. The transferability of these markers exhibited varied levels from 45.1 to 71.3% across the cultivated/wild species of lentil and from 10.8 to 54.3% across the twelve legume genera. On the basis of total identified EST-SSRs, mononucleotide (51%) repeat proportion was high followed by trinucleotide (30%) and dinucleotide (14%) repeat. Population structure and cluster analysis classified all the studied genotypes into 4 groups. However, principal coordinate analysis (PCA) was able to group genotypes based on their area of collection. Annotation of all the 46 polymorphic marker sequences revealed that most of the markers linked to genes involved in metabolism of plants. Further, polymorphic markers were also used for linkage mapping in F3 population where 4 markers were found to be linked with a map distance of 72.5 cM. The newly developed markers represent an impressive tool for characterization of germplasm, genetic linkage mapping, phylogenetic studies, as well as to determine disparity in taxonomic status of subspecies of the genus Lens. [ABSTRACT FROM AUTHOR]

Published

2020

13. Growth and Antioxidant Responses in Iron-Biofortified Lentil under Cadmium Stress.

Author

Bansal, Ruchi, Priya, Swati, Dikshit, Harsh Kumar, Jacob, Sherry Rachel, Rao, Mahesh, Bana, Ram Swaroop, Kumari, Jyoti, Tripathi, Kuldeep, Kumar, Ashok, Kumar, Shiv, and H. M. Siddique, Kadambot

Subjects

LENTILS, CADMIUM, ANTIOXIDANTS, GLUTATHIONE reductase, CADMIUM chloride, SUPEROXIDE dismutase, LEGUMES

Abstract

Cadmium (Cd) is a hazardous heavy metal, toxic to our ecosystem even at low concentrations. Cd stress negatively affects plant growth and development by triggering oxidative stress. Limited information is available on the role of iron (Fe) in ameliorating Cd stress tolerance in legumes. This study assessed the effect of Cd stress in two lentil (Lens culinaris Medik.) varieties differing in seed Fe concentration (L4717 (Fe-biofortified) and JL3) under controlled conditions. Six biochemical traits, five growth parameters, and Cd uptake were recorded at the seedling stage (21 days after sowing) in the studied genotypes grown under controlled conditions at two levels (100 μM and 200 μM) of cadmium chloride (CdCl2). The studied traits revealed significant genotype, treatment, and genotype × treatment interactions. Cd-induced oxidative damage led to the accumulation of hydrogen peroxide (H2O2) and malondialdehyde in both genotypes. JL3 accumulated 77.1% more H2O2 and 75% more lipid peroxidation products than L4717 at the high Cd level. Antioxidant enzyme activities increased in response to Cd stress, with significant genotype, treatment, and genotype × treatment interactions (p < 0.01). L4717 had remarkably higher catalase (40.5%), peroxidase (43.9%), superoxide dismutase (31.7%), and glutathione reductase (47.3%) activities than JL3 under high Cd conditions. In addition, L4717 sustained better growth in terms of fresh weight and dry weight than JL3 under stress. JL3 exhibited high Cd uptake (14.87 mg g−1 fresh weight) compared to L4717 (7.32 mg g−1 fresh weight). The study concluded that the Fe-biofortified lentil genotype L4717 exhibited Cd tolerance by inciting an efficient antioxidative response to Cd toxicity. Further studies are required to elucidate the possibility of seed Fe content as a surrogacy trait for Cd tolerance. [ABSTRACT FROM AUTHOR]

Published

2021