A5076794793- Plant Stress Responses and Tolerance
- Plant Molecular Biology Research
- Heavy metals in environment
- Plant Parasitism and Resistance
- Aluminum toxicity and tolerance in plants and animals
- Heavy Metals in Plants
- Photosynthetic Processes and Mechanisms
- Agricultural Science and Fertilization
- Nanoparticles: synthesis and applications
- Plant responses to elevated CO2
- Plant tissue culture and regeneration
- Allelopathy and phytotoxic interactions
- Plant responses to water stress
- Plant biochemistry and biosynthesis
- Plant Micronutrient Interactions and Effects
- Rice Cultivation and Yield Improvement
- CRISPR and Genetic Engineering
- Plant nutrient uptake and metabolism
- Plant Growth Enhancement Techniques
- Nitrogen and Sulfur Effects on Brassica
- Insect-Plant Interactions and Control
- Insect symbiosis and bacterial influences
- Crop Yield and Soil Fertility
- Plant Ecology and Taxonomy Studies
- Magnetic and Electromagnetic Effects
China National Rice Research Institute
2022-2025
Chinese Academy of Agricultural Sciences
2022-2025
University of Agriculture Faisalabad
2020-2021
Global climate variations induce extreme temperatures and significantly decrease crop production, leading to food insecurity worldwide. Temperature extremes (mainly cold stress (CS): chilling 0–15 °C freezing <0 temperatures) limit plant growth development severely affect physiology biochemical molecular processes. Subsequently, plants execute numerous endogenous mechanisms, including phytohormone biosynthesis (i.e., abscisic acid, cytokinins, jasmonic salicylic gibberellic brassinosteroids,...
Abstract Salinity and drought stress substantially decrease crop yield superiority, directly threatening the food supply needed to meet rising needs of growing total population. Nanotechnology is a step towards improving agricultural output tolerance by efficacy inputs in agriculture via targeted delivery, controlled release, enhanced solubility adhesion while also reducing significant damage. The direct application nanoparticles (NPs)/nanomaterials can boost performance effectiveness...
Trehalose (Tre) is a non-reducing disaccharide found in many species, including bacteria, fungi, invertebrates, yeast, and even plants, where it acts as an osmoprotectant, energy source, or protein/membrane protector. Despite relatively small amounts Tre concentrations increase following exposure to abiotic stressors. Trehalose-6-phosphate, precursor of Tre, has regulatory functions sugar metabolism, crop production, stress tolerance. Among the various stresses, temperature extremes (heat...
Abstract The adverse effects of mounting environmental challenges, including extreme temperatures, threaten the global food supply due to their impact on plant growth and productivity. Temperature extremes disrupt genetics, leading significant issues eventually damaging phenotypes. Plants have developed complex signaling networks respond tolerate temperature stimuli, genetic, physiological, biochemical, molecular adaptations. In recent decades, omics tools other strategies rapidly advanced,...
The escalating challenges posed by metal(loid) toxicity in agricultural ecosystems, exacerbated rapid climate change and anthropogenic pressures, demand urgent attention. Soil contamination is a critical issue because it significantly impacts crop productivity. widespread threat of can jeopardize global food security due to contaminated supplies pose environmental risks, contributing soil water pollution thus impacting the whole ecosystem. In this context, plants have evolved complex...
Due to anthropogenic activities, environmental pollution of heavy metals/metalloids (HMs) has increased and received growing attention in recent decades. Plants HM-contaminated soils have slower growth development, resulting lower agricultural yield. Exposure HMs leads the generation free radicals (oxidative stress), which alters plant morpho-physiological biochemical pathways at cellular tissue levels. evolved complex defense mechanisms avoid or tolerate toxic effects HMs, including...