Dissection of Maize Drought Tolerance at the Flowering Stage Using Ge-Nome-Wide Association Study

Khan, Siffat Ullah; Zheng, Yaming; Chachar, Zaid; Zhang, Xuhuan; Zhou, Guyi; Zong, Na; Leng, Pengfei; Zhao, Jun

doi:10.21203/rs.3.rs-1187674/v1

Cited by 2 publications

(1 citation statement)

References 26 publications

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“…Wang et al (2022) identified and reported the overexpression of a transcription factor, ZmERF21, is tightly associated with drought tolerance in maize seedlings, expressed by significantly increased chlorophyll content and activities of antioxidant enzymes under drought conditions. Another GWAS study (Khan et al, 2022) identified candidate genes and their key variations that will contribute to an understanding of the genetic basis of drought tolerance, especially for the female inflorescence, and will be important in facilitating drought-tolerant maize breeding.…”

Section: Application Of Genomic Mapping Toolsmentioning

confidence: 99%

Improving drought tolerance in maize: Tools and techniques

McMillen

Mahama²,

Sibiya³

et al. 2022

Front. Genet.

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Drought is an important constraint to agricultural productivity worldwide and is expected to worsen with climate change. To assist farmers, especially in sub-Saharan Africa (SSA), to adapt to climate change, continuous generation of stress-tolerant and farmer-preferred crop varieties, and their adoption by farmers, is critical to curb food insecurity. Maize is the most widely grown staple crop in SSA and plays a significant role in food security. The aim of this review is to present an overview of a broad range of tools and techniques used to improve drought tolerance in maize. We also present a summary of progress in breeding for maize drought tolerance, while incorporating research findings from disciplines such as physiology, molecular biology, and systems modeling. The review is expected to complement existing knowledge about breeding maize for climate resilience. Collaborative maize drought tolerance breeding projects in SSA emphasize the value of public-private partnerships in increasing access to genomic techniques and useful transgenes. To sustain the impact of maize drought tolerance projects in SSA, there must be complementary efforts to train the next generation of plant breeders and crop scientists.

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Section: Application Of Genomic Mapping Toolsmentioning

confidence: 99%

Improving drought tolerance in maize: Tools and techniques

McMillen

Mahama²,

Sibiya³

et al. 2022

Front. Genet.

View full text Add to dashboard Cite

show abstract

Screening for drought tolerance in cowpea at the flowering stage

Ajayi

2022

International Journal of Science Letters

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Drought is one of the major threats to cowpea productivity in tropical countries, and understanding its impacts is germane in ensuring food security in a global context. The present study was established to screen some accessions of cowpea for drought tolerance at the flowering stage in pots under the controlled conditions of a screen house. High significant differences were observed among accessions for wilting and recovery traits, stomatal conductance, relative water content (RWC), terminal leaflet length (TLL) and width (TLW), stem girth, and yield parameters under drought stress. In addition, drought stress caused a significant reduction in morphological traits and RWC between the initial and the final values. Based on cluster and Principal Component Analysis (PCA), accessions were separated into different classes of tolerance. Direct selection for wilting traits, stomatal conductance, morphological traits, and recovery parameters showing high heritability (≥ 60%), GAM (≥ 20%), and PCA (≥ 0.4) will be effective. Hence, four major classes of tolerance were determined: AC03, AC08, and AC10 were highly susceptible. AC01 and AC04 were moderately susceptible. AC06, AC07, and AC09 were moderately tolerant, while AC02 and AC05 were the highly tolerant accessions. The moderately tolerant and the highly tolerant accessions showed a combination of superior resistance to wilting, superior recovery rates, and superior yield attributes. They also showed lower stomatal conductance, higher RWC, and low reduction of RWC, TLW, and stem girth under drought stress compared to the susceptible ones.

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Dissection of Maize Drought Tolerance at the Flowering Stage Using Ge-Nome-Wide Association Study

Cited by 2 publications

References 26 publications

Improving drought tolerance in maize: Tools and techniques

Improving drought tolerance in maize: Tools and techniques

Screening for drought tolerance in cowpea at the flowering stage

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