Plant Biotic and Abiotic Stresses

© 2022 by the authors; CC BY-NC-ND license

antioxidants; drought; oxidative stress; pearl millet; redox implications; ROS; chlorophyll fluorescence efficiency; photosynthetic responses; enzyme activity; sugarcane; smut; circadian clock; reactive oxygen species; Al-induced PCD; photoperiodism; peanut; phylogenetic; virus-induced gene silencing; transgenic lines; physiological and biochemical analysis; Glycine max L.; PR proteins; chitinase; genome-wide; plant stresses; crop residues; profitability; soil fertility; soil biology; allelopathy; heat shock protein 20; maize; abiotic stress; yeast-one-hybrid; abiotic stresses; cotton; hormones; signaling pathway; WRKY; papaya (Carica papaya); brassicales; late embryogenesis abundant protein; orthogroup; abiotic stress; expression profile; artificial light; auxins; chicory; callus cells; inulin; plant growth regulators; milk thistle; secondary metabolites; ecotypes; salinity; growth attributes; abiotic stress; biotic stress; phenolic compounds; seaweed; Dendrobium catenatum; lipase; multi-omics; expression pattern; gene family; bio-fertilizer; ionic homeostasis; organic amendments; salinity; vermicompost; cold stress; PKS5; stomatal aperture; microbiota; natural farming; physical factors; physiological changes; signal transduction and stressed conditions; Rhizobium leguminosarum; PGPR; Triticum aestivum L.; cadmium stress; tolerance; ascorbate; glutathione; malondialdehyde; chlorophylls; disease gradient; disease outbreak; Puccinia; wheat stripe rust; plant epidemic; dispersal ecology; alternative plant vitrification solution; ammonium-free medium; cytotoxicity; droplet-vitrification; endangered species; liquid overlay; regrowth medium; within-plant phenotypic plasticity; combined stresses; additive; antagonistic and synergic effects; VOCs; potassium; soybean; water logging; yield; non-thermal plasma; plant defense; glucosinolates; nitriles; RNA sequencing; Arabidopsis thaliana; Bt toxins; Cry1Ah1 transgenic poplar; ecology; environment; rhizosphere; abiotic stress; candidate genes; drought tolerance; crop improvement; climate change; adaptation; Chenopodium quinoa Willd.; genotypes; salinity; Sahara; Algeria; chitosan; pathogen; sustainable; plant protection; abiotic stress; drought; tomato; reactive oxygen species; oxidative stress; melatonin; photosynthesis; climate changes; antioxidant system; Malus seedlings; NaCl treatments; enzyme activity; membrane damage; osmotic regulation; archives; botanical collection; Greece; landscape; pre-rebellion period; wheat; priming; Aspergillus niger; qRT-PCR; wilting; TLP; chitinase; β-1,3-glucanase; biostimulants; biofertilizers; rhizosphere; soil microorganisms; phytostimulator; jewel sweet potato; shoot tip; axillary bud; different MS salts concentration; plant growth regulators; artificial light; micropropagation; plant performance; C₄ species; heterozygosity; transient soil salinity; soil layers; desertification; arid regoins; total flavonoid; phenolics; antioxidant activity; centella; Na⁺ content; molecular markers; MAS; oilseeds; abiotic stress; SSRs; molecular breeding; climate change; abiotic stress; dehydration-responsive element binding (DREB) transcription factors; gene expression; mosses; stress tolerance; common centaury; salinity stress; oxidative stress; antioxidative protection; sodium nitroprusside; proteomic analysis; drought stress; maize; sorghum; drought tolerance; ROS; RNS; RSS; signaling; post-translational modification; stress tolerance; microorganisms; stressful conditions; sustainability; abiotic stresses; nutrition; Brassicaceae; Cicer arietinum L.; chlorophyll a fluorescence transient; physiological and biochemical traits; high temperature; chocolate spot disease; Botrytis fabae; faba bean; antioxidant enzymes; protein banding and anatomy; actinobacteria; Streptomyces tuirus; chilli fruit rot; Colletotrichum scovillei; Colletotrichum truncatum; Fusarium oxysporum; liquid bio-formulation; antioxidant enzymes; chlorophylls; corn smut; fungus infection; maize; MDA; proline; quality; salinity; halophytes; Tripolium pannonicum; proline; hydrogen peroxide; antioxidant enzymes; cell wall extensibility; cell wall polysaccharide; coleoptile; growth inhibition; lead (Pb); rice; Bactrocera oleae; spinosad; kaolin; organic oliviculture; abiotic stress; chlorophyll fluorescence; drought tolerance; leaf gas exchange; physiological traits; BAG (Bcl-2-associated anthanogene) family proteins; abiotic stress; molecular chaperone; metabolomics; tolerance; metabolic responses; biotic stress; abiotic stress; metabolites variation; surveillance; Candidatus Liberibacter asiaticus; comprehensive control; distribution; screen house; Copper hyperaccumulation; stress mitigation; EDTA and IAA; sunflower; Fusarium wilt; conventional breeding; molecular makers; QTLs; genomics; transcriptomics; metabolomics and proteomics; bread wheat; AMF; zinc; drought; growth parameters; osmolyte; osmoprotector; ionic attributes; PGPBs; abiotic stresses; growth-promoting fungi; crop productivity; plant tolerance; arbuscular mycorrhizal fungi; aerobic rice; soil enzymes; phosphorus utilization; P-deficient; plant growth promotion; chickpea; drought stress; selection indices; drought tolerant genotypes; abiotic and biotic stress; CRISPR; mega nucleases; TALEN; ZFN