Explore
-
Show me...
- Free eBooks!
- Books in DOAB
- abiotic and biotic stress (3)
- abiotic stress (78)
- abiotic stresses (16)
- Actinobacteria (13)
- adaptation (130)
- Additive (9)
- aerobic rice (2)
- Al-induced PCD (2)
- Algeria (15)
- allelopathy (14)
- alternative plant vitrification solution (2)
- AMF (4)
- ammonium-free medium (2)
- antagonistic and synergic effects (2)
- antioxidant activity (184)
- antioxidant enzymes (37)
- antioxidant system (8)
- Antioxidants (177)
- antioxidative protection (2)
- Arabidopsis thaliana (27)
- arbuscular mycorrhizal fungi (15)
- Archives (46)
- arid regoins (2)
- Artificial Light (3)
- Ascorbate (12)
- Aspergillus niger (6)
- auxins (8)
- axillary bud (2)
- Bactrocera oleae (3)
- BAG (Bcl-2-associated anthanogene) family proteins (2)
- bio-fertilizer (3)
- biofertilizers (7)
- Biology, Life Sciences (2433)
- biostimulants (13)
- biotic stress (24)
- botanical collection (2)
- Botrytis fabae (3)
- Brassicaceae (10)
- brassicales (2)
- bread wheat (7)
- Bt toxins (4)
- C4 species (2)
- cadmium stress (4)
- callus cells (2)
- candidate genes (11)
- Candidatus Liberibacter asiaticus (2)
- cell wall extensibility (2)
- cell wall polysaccharide (3)
- centella (3)
- Chenopodium quinoa Willd. (3)
- chickpea (13)
- chicory (6)
- chilli fruit rot (2)
- chitinase (10)
- chitosan (155)
- chlorophyll a fluorescence transient (2)
- chlorophyll fluorescence (31)
- chlorophyll fluorescence efficiency (2)
- chlorophylls (12)
- chocolate spot disease (2)
- Cicer arietinum L. (7)
- circadian clock (8)
- Climate Change (816)
- Climate changes (10)
- cold stress (18)
- coleoptile (3)
- Colletotrichum scovillei (2)
- Colletotrichum truncatum (2)
- combined stresses (3)
- common centaury (2)
- comprehensive control (2)
- conventional breeding (2)
- Copper hyperaccumulation (2)
- corn smut (2)
- Cotton (18)
- CRISPR (20)
- Crop Improvement (14)
- crop productivity (10)
- crop residues (3)
- Cry1Ah1 transgenic poplar (2)
- Cytotoxicity (166)
- dehydration-responsive element binding (DREB) transcription factors (2)
- Dendrobium catenatum (3)
- désertification (10)
- different MS salts concentration (2)
- disease gradient (2)
- disease outbreak (2)
- dispersal ecology (2)
- Distribution (61)
- droplet-vitrification (3)
- drought (124)
- drought stress (46)
- drought tolerance (23)
- drought tolerant genotypes (2)
- Ecology (239)
- ecotypes (3)
- EDTA and IAA (2)
- Endangered species (14)
- Environment (351)
- enzyme activity (18)
- expression pattern (11)
- expression profile (7)
- faba bean (8)
- fungus infection (2)
- Fusarium oxysporum (4)
- Fusarium wilt (4)
- Gene expression (146)
- gene family (8)
- genome-wide (6)
- Genomics (91)
- genotypes (13)
- Glucosinolates (11)
- Glutathione (46)
- Glycine max L. (4)
- Greece (95)
- growth attributes (2)
- growth inhibition (7)
- growth parameters (5)
- growth-promoting fungi (2)
- halophytes (12)
- heat shock protein 20 (2)
- heterozygosity (3)
- high temperature (51)
- Hormones (29)
- hydrogen peroxide (43)
- inulin (14)
- ionic attributes (2)
- ionic homeostasis (2)
- jewel sweet potato (2)
- kaolin (14)
- Landscape (84)
- late embryogenesis abundant protein (2)
- lead (Pb) (2)
- leaf gas exchange (5)
- lipase (16)
- liquid bio-formulation (2)
- liquid overlay (2)
- Maize (61)
- malondialdehyde (12)
- Malus seedlings (2)
- MAS (8)
- Mathematics & science (5467)
- MDA (14)
- mega nucleases (2)
- Melatonin (44)
- membrane damage (6)
- metabolic responses (2)
- metabolites variation (2)
- metabolomics (135)
- metabolomics and proteomics (2)
- microbiota (108)
- Microorganisms (32)
- micropropagation (9)
- milk thistle (2)
- molecular breeding (10)
- molecular chaperone (4)
- molecular makers (2)
- molecular markers (24)
- mosses (3)
- multi-omics (17)
- Na+ content (2)
- NaCl treatments (2)
- Natural Farming (3)
- nitriles (3)
- non-thermal plasma (15)
- Nutrition (237)
- oilseeds (4)
- organic amendments (4)
- organic oliviculture (2)
- orthogroup (2)
- osmolyte (4)
- osmoprotector (2)
- osmotic regulation (3)
- Oxidative Stress (338)
- P-deficient (2)
- papaya (Carica papaya) (2)
- pathogen (24)
- peanut (11)
- pearl millet (4)
- PGPBs (2)
- PGPR (8)
- phenolic compounds (102)
- phenolics (60)
- phosphorus utilization (2)
- photoperiodism (2)
- Photosynthesis (81)
- photosynthetic responses (3)
- Phylogenetic (6)
- physical factors (2)
- physiological and biochemical analysis (2)
- physiological and biochemical traits (2)
- physiological changes (4)
- physiological traits (3)
- phytostimulator (2)
- PKS5 (2)
- plant defense (13)
- plant epidemic (2)
- plant growth promotion (10)
- plant growth regulators (8)
- plant performance (4)
- plant protection (12)
- plant stresses (2)
- plant tolerance (4)
- Post-translational modification (15)
- Potassium (35)
- PR proteins (2)
- pre-rebellion period (2)
- priming (18)
- Profitability (15)
- Proline (24)
- protein banding and anatomy (2)
- Proteomic analysis (10)
- Puccinia (3)
- qRT-PCR (23)
- QTLs (8)
- Quality (127)
- Reactive Oxygen Species (140)
- redox implications (2)
- Reference, information & interdisciplinary subjects (3396)
- regrowth medium (2)
- Research & information: general (2127)
- Rhizobium leguminosarum (2)
- rhizosphere (16)
- Rice (100)
- RNA sequencing (26)
- RNS (4)
- ROS (77)
- RSS (2)
- Sahara (7)
- Salinity (72)
- Salinity stress (7)
- screen house (2)
- seaweed (25)
- secondary metabolites (81)
- selection indices (2)
- shoot tip (2)
- signal transduction and stressed conditions (2)
- signaling (50)
- signaling pathway (20)
- smut (3)
- sodium nitroprusside (2)
- Soil Biology (3)
- soil enzymes (13)
- Soil fertility (19)
- soil layers (2)
- soil microorganisms (5)
- sorghum (11)
- soybean (40)
- spinosad (2)
- SSRs (6)
- stomatal aperture (2)
- Streptomyces tuirus (2)
- stress mitigation (3)
- Stress Tolerance (23)
- stressful conditions (3)
- sugarcane (18)
- sunflower (10)
- surveillance (71)
- sustainability (999)
- sustainable (51)
- TALEN (7)
- TLP (2)
- tolerance (56)
- tomato (45)
- total flavonoid (2)
- Transcriptomics (55)
- transgenic lines (2)
- transient soil salinity (2)
- Tripolium pannonicum (2)
- Triticum aestivum L. (14)
- vermicompost (4)
- virus-induced gene silencing (3)
- VOCs (21)
- water logging (2)
- wheat (86)
- wheat stripe rust (3)
- wilting (4)
- within-plant phenotypic plasticity (2)
- WRKY (5)
- yeast-one-hybrid (2)
- yield (62)
- ZFN (4)
- Zinc (77)
- β-1,3-glucanase (2)
- Buy to unglue...
- Thank for ...
- Site Favorites
- Latest Favorites
- Free eBooks!
Plant Biotic and Abiotic Stresses
Hakim Manghwar (editor) and Wajid Zaman (editor)
2023 en
0 Ungluers have
Faved this Work
Login to Fave
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.
This book is included in DOAB.
Why read this book? Have your say.
You must be logged in to comment.
Links
DOI: 10.3390/books978-3-0365-8539-0Editions
Contributors:
Hakim Manghwar,
Wajid Zaman,
1 ebooks
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Published: 2023
1 ebooks
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Published: 2023