Plant Biotic and Abiotic Stresses Volume II
Plants under natural conditions often face multiple stresses, including drought, salinity, temperature extremes, submergence stress, bacteria, viruses, fungi, insects, etc. These biotic and abiotic stresses negatively influence plant growth and productivity. Various approaches have recently been use...
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Format: | Electronic Book Chapter |
Language: | English |
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MDPI - Multidisciplinary Digital Publishing Institute
2023
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Online Access: | DOAB: download the publication DOAB: description of the publication |
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700 | 1 | |a Zaman, Wajid |4 oth | |
245 | 1 | 0 | |a Plant Biotic and Abiotic Stresses |b Volume II |
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520 | |a Plants under natural conditions often face multiple stresses, including drought, salinity, temperature extremes, submergence stress, bacteria, viruses, fungi, insects, etc. These biotic and abiotic stresses negatively influence plant growth and productivity. Various approaches have recently been used to overcome stresses in plants. It is necessary to evaluate and explore how diverse molecular techniques can be applied to different biological studies to improve biotic and abiotic stress tolerance in plants. This will help reduce production losses and increase crop tolerance to various stresses. It is now the time to make a difference by developing plants that can withstand biotic and abiotic stresses. | ||
540 | |a Creative Commons |f https://creativecommons.org/licenses/by/4.0/ |2 cc |4 https://creativecommons.org/licenses/by/4.0/ | ||
546 | |a English | ||
650 | 7 | |a Research & information: general |2 bicssc | |
650 | 7 | |a Biology, life sciences |2 bicssc | |
653 | |a antioxidants | ||
653 | |a drought | ||
653 | |a oxidative stress | ||
653 | |a pearl millet | ||
653 | |a redox implications | ||
653 | |a ROS | ||
653 | |a chlorophyll fluorescence efficiency | ||
653 | |a photosynthetic responses | ||
653 | |a enzyme activity | ||
653 | |a sugarcane | ||
653 | |a smut | ||
653 | |a circadian clock | ||
653 | |a reactive oxygen species | ||
653 | |a Al-induced PCD | ||
653 | |a photoperiodism | ||
653 | |a peanut | ||
653 | |a phylogenetic | ||
653 | |a virus-induced gene silencing | ||
653 | |a transgenic lines | ||
653 | |a physiological and biochemical analysis | ||
653 | |a Glycine max L. | ||
653 | |a PR proteins | ||
653 | |a chitinase | ||
653 | |a genome-wide | ||
653 | |a plant stresses | ||
653 | |a crop residues | ||
653 | |a profitability | ||
653 | |a soil fertility | ||
653 | |a soil biology | ||
653 | |a allelopathy | ||
653 | |a heat shock protein 20 | ||
653 | |a maize | ||
653 | |a abiotic stress | ||
653 | |a yeast-one-hybrid | ||
653 | |a abiotic stresses | ||
653 | |a cotton | ||
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653 | |a signaling pathway | ||
653 | |a WRKY | ||
653 | |a papaya (Carica papaya) | ||
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653 | |a milk thistle | ||
653 | |a secondary metabolites | ||
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653 | |a growth attributes | ||
653 | |a biotic stress | ||
653 | |a phenolic compounds | ||
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653 | |a lipase | ||
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653 | |a gene family | ||
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653 | |a ionic homeostasis | ||
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653 | |a vermicompost | ||
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653 | |a PKS5 | ||
653 | |a stomatal aperture | ||
653 | |a microbiota | ||
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653 | |a physical factors | ||
653 | |a physiological changes | ||
653 | |a signal transduction and stressed conditions | ||
653 | |a Rhizobium leguminosarum | ||
653 | |a PGPR | ||
653 | |a Triticum aestivum L. | ||
653 | |a cadmium stress | ||
653 | |a tolerance | ||
653 | |a ascorbate | ||
653 | |a glutathione | ||
653 | |a malondialdehyde | ||
653 | |a chlorophylls | ||
653 | |a disease gradient | ||
653 | |a disease outbreak | ||
653 | |a Puccinia | ||
653 | |a wheat stripe rust | ||
653 | |a plant epidemic | ||
653 | |a dispersal ecology | ||
653 | |a alternative plant vitrification solution | ||
653 | |a ammonium-free medium | ||
653 | |a cytotoxicity | ||
653 | |a droplet-vitrification | ||
653 | |a endangered species | ||
653 | |a liquid overlay | ||
653 | |a regrowth medium | ||
653 | |a within-plant phenotypic plasticity | ||
653 | |a combined stresses | ||
653 | |a additive | ||
653 | |a antagonistic and synergic effects | ||
653 | |a VOCs | ||
653 | |a potassium | ||
653 | |a soybean | ||
653 | |a water logging | ||
653 | |a yield | ||
653 | |a non-thermal plasma | ||
653 | |a plant defense | ||
653 | |a glucosinolates | ||
653 | |a nitriles | ||
653 | |a RNA sequencing | ||
653 | |a Arabidopsis thaliana | ||
653 | |a Bt toxins | ||
653 | |a Cry1Ah1 transgenic poplar | ||
653 | |a ecology | ||
653 | |a environment | ||
653 | |a rhizosphere | ||
653 | |a candidate genes | ||
653 | |a drought tolerance | ||
653 | |a crop improvement | ||
653 | |a climate change | ||
653 | |a adaptation | ||
653 | |a Chenopodium quinoa Willd. | ||
653 | |a genotypes | ||
653 | |a Sahara | ||
653 | |a Algeria | ||
653 | |a chitosan | ||
653 | |a pathogen | ||
653 | |a sustainable | ||
653 | |a plant protection | ||
653 | |a tomato | ||
653 | |a melatonin | ||
653 | |a photosynthesis | ||
653 | |a climate changes | ||
653 | |a antioxidant system | ||
653 | |a Malus seedlings | ||
653 | |a NaCl treatments | ||
653 | |a membrane damage | ||
653 | |a osmotic regulation | ||
653 | |a archives | ||
653 | |a botanical collection | ||
653 | |a Greece | ||
653 | |a landscape | ||
653 | |a pre-rebellion period | ||
653 | |a wheat | ||
653 | |a priming | ||
653 | |a Aspergillus niger | ||
653 | |a qRT-PCR | ||
653 | |a wilting | ||
653 | |a TLP | ||
653 | |a β-1,3-glucanase | ||
653 | |a biostimulants | ||
653 | |a biofertilizers | ||
653 | |a soil microorganisms | ||
653 | |a phytostimulator | ||
653 | |a jewel sweet potato | ||
653 | |a shoot tip | ||
653 | |a axillary bud | ||
653 | |a different MS salts concentration | ||
653 | |a micropropagation | ||
653 | |a plant performance | ||
653 | |a C4 species | ||
653 | |a heterozygosity | ||
653 | |a transient soil salinity | ||
653 | |a soil layers | ||
653 | |a desertification | ||
653 | |a arid regoins | ||
653 | |a total flavonoid | ||
653 | |a phenolics | ||
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653 | |a sodium nitroprusside | ||
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653 | |a leaf gas exchange | ||
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653 | |a metabolomics | ||
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653 | |a surveillance | ||
653 | |a Candidatus Liberibacter asiaticus | ||
653 | |a comprehensive control | ||
653 | |a distribution | ||
653 | |a screen house | ||
653 | |a Copper hyperaccumulation | ||
653 | |a stress mitigation | ||
653 | |a EDTA and IAA | ||
653 | |a sunflower | ||
653 | |a Fusarium wilt | ||
653 | |a conventional breeding | ||
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653 | |a genomics | ||
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653 | |a metabolomics and proteomics | ||
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653 | |a AMF | ||
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653 | |a osmoprotector | ||
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653 | |a drought tolerant genotypes | ||
653 | |a abiotic and biotic stress | ||
653 | |a CRISPR | ||
653 | |a mega nucleases | ||
653 | |a TALEN | ||
653 | |a ZFN | ||
856 | 4 | 0 | |a www.oapen.org |u https://mdpi.com/books/pdfview/book/7758 |7 0 |z DOAB: download the publication |
856 | 4 | 0 | |a www.oapen.org |u https://directory.doabooks.org/handle/20.500.12854/113915 |7 0 |z DOAB: description of the publication |