Research Topic

Mechanisms of abiotic stress responses and tolerance in plants: physiological, biochemical and molecular interventions

  • Submission closed.

About this Research Topic

Abiotic stresses such as drought (water deficit), excessive watering (water-logging/flooding), extreme temperatures (cold, frost and heat), salinity (sodicity) and mineral (metal and metalloid) toxicity negatively impact growth, development, yield and seed quality of crop and other plants. Similarly, large ...

Abiotic stresses such as drought (water deficit), excessive watering (water-logging/flooding), extreme temperatures (cold, frost and heat), salinity (sodicity) and mineral (metal and metalloid) toxicity negatively impact growth, development, yield and seed quality of crop and other plants. Similarly, large losses of grain yields in plants occur as a result of pathogen attack, in particular during vulnerable stages of grain development and germination. In addition, the predicted scarcity of fresh water implies that the intensity of abiotic stresses will increase. Hence, there is an urgency to develop crop varieties that are resilient to abiotic stresses to ensure food security and safety for many years to come. Progress acquired via breeding to develop abiotic stress-tolerant crops is slow due to multigene origins of plant adaptive responses and involvement of complex genetic mechanisms. For plants to survive under stress conditions, they have evolved complex mechanisms to perceive external signals that allow plants to respond to changing environmental conditions. These mechanisms include stress perception, signal transduction, transcriptional activation of stress-responsive target genes, and synthesis of stress-related proteins and other molecules, which assist plants to cope with adverse environmental conditions through biochemical and physiological manifestations.

Importantly, understanding the connection between a plant initial stress response and downstream events to adjust to altered conditions is one of the grand challenges in plant biology. Intensive research over the last decade has gradually unravelled the mechanisms that underlie how plants cope with abiotic stresses, but many aspects remain unresolved. The complete understanding of physiological, biochemical and molecular responses and tolerance mechanisms, and identification of potential unknown stress-responsive pathways and genes in abiotic plant stress tolerance will contribute to better understanding of underlying molecular mechanisms. Discoveries of novel genes and pathways, analyses of expression patterns and the determination of function of genes during abiotic stress adaptation will provide the basis for effective engineering strategies with the aim to enhance abiotic stress tolerance of crop plants. The new knowledge acquired through this research will help in the application of stress responsive determinants and in engineering of plants with enhanced tolerance to abiotic stresses.

In this Research Topic, we intend to incorporate the contributions from leading plant scientists focusing on a variety of abiotic stress tolerance mechanisms using physiological, biochemical, molecular, structural and systems biology approaches. Authors are invited to submit original research, reviews/mini reviews, methods and opinion articles related to, but not exclusively limited to, for the following topics:
o Responses of plants to abiotic stresses from gene to a whole plant level
o Mechanisms of abiotic stress responses and tolerance
o Contributions of novel pathways and genes in modulating abiotic stress tolerance
o Physiological, biochemical and molecular studies of plant responses to abiotic stresses
o Stress perception mechanisms and stress downstream gene activation
o Comparisons of stress conditions revealing general and stress-specific mechanisms
o Descriptions and roles of stress-responsive genes, proteins and transcription factors
o Transcriptional regulons at the plant level in response to abiotic stresses
o Marker assisted selection towards generating abiotic stress-tolerant crop plants
o Genetic engineering and genome editing for abiotic stress tolerance
o Biotechnological approaches to study abiotic stress


Important Note: All contributions to this Research Topic must be in line with the scope of the specialty and field to which they are submitted, as defined in their mission statements. Manuscripts discovered during any stage of peer review to be outside of the scope may be transferred to a suitable section or field, or withdrawn from review.

Recent Articles

Loading..

About Frontiers Research Topics

With their unique mixes of varied contributions from Original Research to Review Articles, Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author.

Topic Editors

Loading..

Submission Deadlines

Submission closed.

Participating Journals

Loading..

Topic Editors

Loading..

Submission Deadlines

Submission closed.

Participating Journals

Loading..
Loading..
Yearly

total views article views article downloads topic views

 
Top countries
Top referring sites
Loading..

Comments

Loading..

Add a comment

Add comment
Back to top