B. Rupesh Kumar Reddy scite author profile

Background: Among the constraints for low yield of mungbean, drought stress and heat stress are prominent. Water deficits and high temperature occur together in many environments and both stresses can interact to reduce yields. Thus, combination of water use efficiency and high temperature tolerance traits are relevant rather than a single trait used as selection criteria for screening appropriate plant ideotype. The present study is contemplated to identify superior parents for yield, yield attributes, water use efficiency and thermo tolerance related traits through combining ability analysis. Methods: Twenty one F1 crosses were generated by crossing seven diverse mungbean genotypes viz., ML 267, LGG 528, MGG 390, WGG 42, AKM 9904, LM 95 and EC 362096 in a 7 x 7 diallel fashion without reciprocals. Further, 21 F1 crosses along with seven parents were evaluated to study the the mean performance of the seven parents and their 21 F1 crosses and combining ability of the parents and crosses and gene action for yield, yield components and water use efficiency related traits. Result: The present investigations confirmed that some of the parents with significant positive gca effects for seed yield per plant and showed significant positive gca effects for one or more yield, WUE and heat stress tolerance contributing traits. Combination of mean performance and gca effects would result in the selection of potential parents with good reservoir of superior genes. The parents which exhibited high per se performance also displayed good general combining ability effects. Hence, per se performance may be used effectively for the selection of parents. In the present study, MGG 390, ML 267 and EC 362096 were adjudged as the best parents based on both mean and gca effects.

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Transgressive Segregants in F2 Populations of Three Superior Crosses viz., ML 267×LGG 528, MGG 390×LM 95, LM 95×EC 362096 in Mungbean

Reddy¹,

Reddy²,

Reddy³

et al. 2021

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Background: Among several reasons for low productivity in mungbean, various biotic and abiotic factors play a major role. Although intensive research work has been done on genetic architecture of yield and yield attributes of mungbean but limited work was done on yield attributes along with water use efficiency (WUE) and heat stress tolerance related traits. The present study is aimed to identify the genetic potential of mungbean genotypes with high yield and drought and heat stress tolerance. Methods: The F2 seed was harvested from selfed F1 population during 2017-18 from three superior crosses viz., ML 267×LGG 528, MGG 390×LM 95 and LM 95×EC 362096. These crosses were selected based on their per se performance of yield, yield attributes and WUE related traits. Genetic analysis was carried out in F2 populations of three crosses for fourteen quantitative characters to identify the number of transgressive segregants in desirable direction. Result: A good number of transgressive segregants in desirable direction were observed for plant height, number of pods per cluster, harvest index, SLA, SLW and relative injury in the cross ML 267×LGG 528: for plant height, number of branches per plant, SCMR, SLA, SLW and relative injury in the cross MGG 390×LM 95 and for plant height, number of pods per cluster, number of pods per plant SCMR, SLA, SLW, relative injury and seed yield in the cross LM 95×EC 362096.

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Sugarcane for Diversified Uses

Priya¹,

Reddy²,

Kumar³

et al. 2016

Electron. Journ. of Plan. Breed.

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