Eman M. Elghareeb
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Differential Physiological Responses of Zea mays and Sorghum bicolor to Drought Stress: Insights into the Ameliorative Role of Humic Acid at the Reproductive and Yield Stages Open
Drought severely threatens the growth and productivity of cereals, including maize and sorghum. Despite their genetic relatedness, sorghum exhibits better drought tolerance than maize, and the physiological basis behind such differential r…
Halophytic resilience in extreme environments: adaptive strategies of Suaeda schimperi in the Red Sea's hyper-arid salt marshes Open
Suaeda schimperi, a halophyte native to the Red Sea's hyper-arid salt marshes, thrives in its extreme conditions (high salinity, minimal rainfall, and elevated temperatures). However, its adaptive tolerance mechanisms to these harsh condit…
Monitoring dynamics in ear-leaf physiology during maize grain filling: genotype and nitrogen impact on source–sink relations and yield Open
During maize grain filling, effective coordination between a high source capacity and a robust sink significantly enhances yield. These source–sink relationships are primarily influenced by genotype and nitrogen availability, and achieving…
Enhancing salinity tolerance in cultivated rice through introgression of African rice genes and application of moringa leaf extract Open
Background Salinity is a major threat to rice growth and productivity. Utilizing wild rice-derived genes and biostimulants with high growth promoting- and stress-alleviating potential can significantly improve salinity tolerance in cultiva…
Erratum to “The synergistic effects of organic composts and microelements co-application in enhancing potato productivity in saline soils” [Heliyon 10(12), 30 June 2024, Article e32694] Open
[This corrects the article DOI: 10.1016/j.heliyon.2024.e32694.].
Metabolic Responses to Contrasting Levels of N Fertilization during Ear Leaf Transition from Assimilation to Remobilization at Grain Filling in Maize Open
M AIZE grain yield is shaped by source-sink relationships during grain filling.Such relations are driven by complex metabolic changes, responsive to N availability and are not fully understood.Here, the impact of limited and sufficient N f…
Growth and physiological responses of maize inbreds and their related hybrids under sufficient and deficient soil nitrogen Open
In this study, the effects of sufficient and deficient soil N on the growth and physiology performance of maize inbreds (B73, Mo17, Sids7 and Sids63) and hybrids (B73 × Mo17 and Sids7 × Sids63) were simultaneously monitored.This was done a…
Assessment of natural variability in leaf morphological and physiological traits in maize inbreds and their related hybrids during early vegetative growth Open
The superior growth of maize hybrids and some inbreds may be linked to key leaf growth features and critical components in carbon and nitrogen metabolism. Here, we performed simultaneous growth, physiological and heterosis analyses of morp…