Studies on the Effect of Water Stress on Root Traits in Green Gram Cultivars

Geetha, Angelina

doi:10.18805/lr-4630

Cited by 5 publications

(4 citation statements)

References 21 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Under moisture stress, TCGS-1694 showed the highest Pn (24.56 µ mol CO 2 m -2 sec -1 ), gs (0.40 mole H 2 ‚ O m²/sec), Ci (198.54 µmole CO 2 ‚ mole -1 ) and E (4.42 m. mole H 2 ‚ O m²/sec ) values, in contrast to Kadiri-6 (15.50 µ mol CO 2 m -2 sec -1 , 0.09 mole H 2 ‚ O m²/ sec, 125.63 µmole CO 2 ‚ mole -1 , 1.22 m. mole H 2 ‚ O m²/sec respectively), in which the minimum were recorded. This effect has also been reported for drought stressed cotton (EL Sabagh et al, 2020), green gram (Amarapalli, 2022) and sugarcane (Misra et al, 2020).…”

Section: Photosynthetic Parameterssupporting

confidence: 78%

Effect of Moisture Stress on Dry Matter Production, Dry Matter Partitioning and yield in Groundnut (Arachis hypogea L.) Genotypes

Latha¹,

Anitha²,

Swethasree³

et al. 2023

View full text Add to dashboard Cite

Background: Drought is a leading abiotic factor limiting groundnut production globally. Therefore, the screening and development of moisture stress tolerant groundnut genotypes is a key issue towards sustainable agriculture. Methods: An experiment was laid in a split plot design taking two conditions, control (T1) and moisture stress (T2) as main treatments and 7 genotypes of groundnut as sub treatments. Several morpho-physiological traits like dry matter production, dry matter partitioning, photosynthetic traits, relative water content, were measured after 10 days of stress imposition. Yield and yield attributes were also recorded at harvest along with drought tolerance index and principal component analysis. Result: Results showed significant differences among the genotypes at moisture stress and control conditions. Significant decrease was observed in chlorophyll content, total dry matter production, dry matter partitioning efficiency, relative water content, photosynthetic traits, except specific leaf area among all the genotypes. TCGS-1694 have been identified as moisture stress-tolerant genotypes in principal component analysis with higher efficiency interms of total dry matter production, photosynthetic rate, dry matter partitioning to pods, stress tolerance index, yield and yield attributes while Kadiri-6 has been identified as susceptible genotype.

show abstract

Section: Photosynthetic Parameterssupporting

confidence: 78%

Effect of Moisture Stress on Dry Matter Production, Dry Matter Partitioning and yield in Groundnut (Arachis hypogea L.) Genotypes

Latha¹,

Anitha²,

Swethasree³

et al. 2023

View full text Add to dashboard Cite

show abstract

“…Therefore, Balaka district would benefit from improved bean varieties tolerant to low soil fertility and drought. Similarly, Patel et al (202 2) and Amarapalli (2022) identified genotypes adaptable to drought stress in Cluster bean and Green gram varieties respectively.…”

Section: Bean Cropping Season and Systemmentioning

confidence: 95%

Farmers’ Perceptions on Drought, Low Soil Fertility, Coping Strategies and Preferred Traits of Beans (Phaseolus vulgaris L.) in Balaka District of Malawi

Kachiguma¹,

Ifie²,

Maliro³

et al. 2022

ASD

View full text Add to dashboard Cite

Background: Bean is an important nutritious food and cash crop. Bean productivity is low mostly due to various abiotic, biotic and socio-economic constraints. The aims of this study were to assess constraints to high bean seed yield productivity, determine farmers’ perceptions on drought and low soil fertility, strategies farmers are practicing to adapt to the constraints and preferred bean traits. Methods: A Participatory rural appraisal approach was applied by administering a questionnaire to 139 household representatives from Bazale, Phalula and Utale areas in 2017. Result: Farmers (68.4%) cultivated beans under irrigation in winter (dry) season and most of them practiced sole cropping. Constraints to high bean seed yield productivity include drought and low soil fertility (31.7%) and deforestation (81.3%) contributed a lot. Farmers (44.6%) implemented afforestation, 32.4% grew early maturing bean varieties, while 20.9% practiced conservation agriculture. Farmers were not involved in variety development as indicated by 91.4% of the respondents. However, farmers preferred determinate plant type (95.7%), creamy taste (61.2%) and high number of pods per plant (47.4%). These farmers’ preferred traits need to be considered in the ongoing bean improvement program(s) to increase adoption rate of improved varieties.

show abstract

“…For the selection of drought tolerant genotypes, study on root traits related to below plant parts is essential. Among these traits, root traits (Root length density (RLD), Root dry weight (RDW), root surface area, average root diameter, root volume,) were found to be the major contributors to drought tolerance (avoidance) under rainfed condition (Uga et al, 2013, Geetha, 2022. In drought prone Southern Telangana Zone of Telangana, where recurrent droughts in July-November, 2019 is ever present restraint on maximum production of Pigeonpea, the genotypes with better root characteristics is a major research priority in order to recommend to the farmers.…”

Section: Introductionmentioning

confidence: 99%

Studies on the Effect of Water Stress on Root Traits in Redgram Genotypes

Amarapalli

2024

IJBSM

View full text Add to dashboard Cite

The experiment was conducted during July–November, 2019 at Regional Agriculture Research Station, Professor Jayashankar Telangana State Agricultural University, Palem, Nagarkurnool district, Telangana State, India. The main treatments had five red gram genotypes and water stress levels were taken as sub-treatment in 3 replications in factorial RBD using specialized root structure made with cement bricks. There was great variability in the yield performance of different Redgram genotypes under drought conditions. The experiment was conducted to select genotypes with efficient root architecture and associated traits under drought stress. Root studies were performed with the Delta T automatic root scanner. The SPAD chlorophyll meter was used to measure the SCMR value. The present study results revealed that genotype, Maruti showed significant superiority for character plant height and SCMR under non-stress, mild stress and severe stress conditions. The same genotype showed superior values for main root length under control and mild stress. Whereas, Laxmi recorded the highest plant height under severe stress and the same genotype also showed significant superiority for total plant dry weight, root dry weight and root area under severe stress. The genotype Laxmi showed significant character, root area and diameter superiority under mild stress. ICPL-20176 recorded significant superiority for main root length under severe stress and root tip for mild stress. The identified genotypes can be used as the parents in future drought-proof breeding useful for cultivating in water stress conditions.

show abstract

Studies on the Effect of Water Stress on Root Traits in Green Gram Cultivars

Cited by 5 publications

References 21 publications

Effect of Moisture Stress on Dry Matter Production, Dry Matter Partitioning and yield in Groundnut (Arachis hypogea L.) Genotypes

Effect of Moisture Stress on Dry Matter Production, Dry Matter Partitioning and yield in Groundnut (Arachis hypogea L.) Genotypes

Farmers’ Perceptions on Drought, Low Soil Fertility, Coping Strategies and Preferred Traits of Beans (Phaseolus vulgaris L.) in Balaka District of Malawi

Studies on the Effect of Water Stress on Root Traits in Redgram Genotypes

Contact Info

Product

Resources

About