Evaluating the genetic diversity in maize hybrids under drought conditions using drought indices, SSR markers, and thermal imaging

Emam, Mohammed Abd El-gawad; Sabry, Samah Said; Ghanem, O.M.; EL-Mageed, Amal Abd

doi:10.21608/svuijas.2023.190521.1269

Cited by 2 publications

(1 citation statement)

References 37 publications

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“…Moreover, several studies have reported the successful utilization of SSR markers to identify critical agronomic characteristics in various crops, including rice (Khan et al, 2022), soybean (Li et al, 2010), wheat (Haque et al, 2021) and maize (Belalia et al, 2019). Similarly, SSR markers have been used in genetic diversity studies of maize under drought conditions (Emam et al, 2023), identification of QTLs in oil palms (Bhagya et al, 2020), assessing the genetic purity of rice (Kumar et al, 2021) and evaluating the salt tolerance of wheat (EI-Hendawy et al, 2019). Further, photosynthetic traits in a population of rice deletion mutants (Mubarak et al, 2013), physiological and genetic evaluation in a wheat-doubled haploid population (Mubarak et al, 2008) and the presence of drought tolerance genes in maize (Sedhom et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

Exploring Genetic Diversity of Maize (<em>Zea mays</em> L.) Accessions in Sri Lanka by Employing SSR Markers on Photosynthetic, Canopy Architectural and Grain Yield Traits

Nashath,

Mubarak,

Kumara

2024

J Agric Sciences

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Purpose: The favorable alleles identified in maize landraces are treasurable resources to enhance the genetic base of crop breeding efforts. Therefore, our pioneering research aimed to explore SSR markers related to maize canopy architectural, photosynthetic and yield traits and hence to study the genetic diversity of 19 local maize accessions compared with high-performing maize cultivar Bhadra, as standard variety. Research Method: Genomic DNA extraction was done from young leaves of maize seedlings using standard protocols. The SSR markers employed were phi065, phi116, umc1065, umc1066, umc1222, umc1231, umc1545, bnlg155, bnlg249 and bnlg1805. Data analysis was performed using GenAlex and DARwin software. Findings: Four of the used markers (umc1066, bnlg1805, phi116, and phi065) had PIC values higher than that of the overall mean (0.692), showing their potential in this genetic diversity study. These markers are mainly associated with leaf area index, plant height, leaf chlorophyll content and quantum efficiency of photosystem II. The highest genetic diversity measures were observed in SEU2, SEU17, SEU18 and SEU23, compared to Bhadra while the lowest were in SEU3. The level of inbreeding was higher in SEU8. Cluster analysis identified three major genetic groups and the landraces collected from various areas did not exhibit any geographical association. Research Limitations: Large number of SSR markers are need to explore biomass and grain yield traits. Original/Value: These results will explore the potential uses of Sri Lankan maize accessions to identify best genetic clusters of germplasm with enhanced plant canopy architectural, photosynthesis and grain yield to be utilized in maize breeding programs.

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Section: Introductionmentioning

confidence: 99%

Exploring Genetic Diversity of Maize (<em>Zea mays</em> L.) Accessions in Sri Lanka by Employing SSR Markers on Photosynthetic, Canopy Architectural and Grain Yield Traits

Nashath,

Mubarak,

Kumara

2024

J Agric Sciences

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Growth regulation in bread wheat via novel bioinoculant formulation

Jabran,

Ali,

Acet

et al. 2024

BMC Plant Biol

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Wheat ( Triticum aestivum L.) is one of the most significant crops and the backbone of food security worldwide. However, low wheat production remains a substantial concern in global agricultural systems. It can be attributed to several factors, including adverse climatic conditions, plant disease and poor soil quality. Recent efforts have explored bioinoculant applications as a promising approach to enhance wheat yield, trying to mitigate constraints essential for future wheat production and global food security. This study tested talc powder, wheat biochar, sugarcane bagasse biochar, and farmyard manure as carriers with two endophytic bacterial strains, Burkholderia phytofirmans PsJN and Bacillus spp. MN54 was applied to three wheat varieties (Ujala-16, Zincol-16, and Fathejang-16). The data was recorded at the seedling and maturity growth stages of plants. A pot experiment revealed significant improvements in plant growth following bioinoculant application compared to controls. Notably, the combination of sugarcane bagasse biochar with Bacillus sp. MN54 exhibited the most pronounced effects, promoting internodal length, spike length, tiller number per plant, grain yield per plant, and spikelets per spike. Additionally, talc powder with Bacillus sp. MN54 increased peduncle length, tiller number per plant, and spike length in Fathejang-16. These findings offer valuable insights into optimizing bioinoculant formulations for improved agricultural practices, adapting to climate change, and contributing to ensuring global food security.

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Evaluating the genetic diversity in maize hybrids under drought conditions using drought indices, SSR markers, and thermal imaging

Cited by 2 publications

References 37 publications

Exploring Genetic Diversity of Maize (<em>Zea mays</em> L.) Accessions in Sri Lanka by Employing SSR Markers on Photosynthetic, Canopy Architectural and Grain Yield Traits

Exploring Genetic Diversity of Maize (<em>Zea mays</em> L.) Accessions in Sri Lanka by Employing SSR Markers on Photosynthetic, Canopy Architectural and Grain Yield Traits

Growth regulation in bread wheat via novel bioinoculant formulation

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