Nanotechnology and Plant Signaling: Enhancing Crop Resilience to Abiotic Stress

The interaction between plant signaling molecules and nanotechnology is advancing new avenues in crop enhancement and stress resilience. In recent years, the agricultural sector has faced significant challenges due to abiotic stresses such as drought, salinity, and extreme temperatures, which adversely affect crop productivity. Traditional methods of mitigating these stresses have shown limited success, prompting the need for innovative solutions. Recent studies have demonstrated that nanomaterials, when combined with plant compounds and signaling molecules, can significantly enhance plant biochemical and physiological responses to these stresses. However, the integration of these elements remains underexplored, and there is a pressing need for comprehensive research to fully understand their synergistic potential and practical applications in sustainable agriculture.

This research topic aims to provide a comprehensive understanding of how nanomaterials, in conjunction with plant compounds and signaling molecules, can substantially augment plant biochemical and physiological responses to abiotic stress and enhance crop productivity. By highlighting interdisciplinary research that integrates these elements, we underscore the synergistic potential of plant compounds, signaling molecules, and nanomaterials in fostering crop resilience and productivity. This issue offers insights into innovative strategies for sustainable agriculture, inspiring further innovation and practical applications at this critical intersection.

To gather further insights into the integration of nanotechnology with plant compounds for enhancing abiotic stress resilience and crop improvement, we welcome articles addressing, but not limited to, the following themes:

- Role of plant compounds in stress resilience: Detailed studies on antioxidants, phytohormones, and secondary metabolites that play critical roles in mitigating oxidative stress and enhancing plant defense mechanisms.
- Signaling molecules in plant stress responses: Exploration of key signaling molecules such as abscisic acid, salicylic acid, jasmonic acid, and ethylene, and their roles in orchestrating plant responses to abiotic stresses.
- Nanoparticle-mediated nutrient delivery: Research illustrating how nanoparticles facilitate the targeted delivery of essential nutrients and signaling molecules, thereby improving plant growth and abiotic stress resilience.
- Nanomaterials in modulating hormonal signaling pathways: Insights into how nanomaterials influence hormonal balances and signaling pathways, enhancing the plant's ability to respond to abiotic stress.
- Synergistic effects of nanoparticles and plant compounds: Examination of the synergistic effects when nanomaterials are combined with plant compounds, leading to enhanced abiotic stress tolerance and crop yields.