Increasing the Tolerance of Water-Deficit Stress in Plants with Integrated Application of Organic and Inorganic Fertilizers

Drought stress inhibits photosynthesis in plants through closing stomata and chlorophyll degradation. It disturbs the balance between the antioxidant defence system and reactive oxygen species (ROS) production. Oxidative stress is created in proteins, membrane lipids and other cellular components by...

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Bibliographic Details
Published inAgri-Based Bioeconomy pp. 299 - 312
Main Authors Kazemalilou, Solmaz, Lajayer, Behnam Asgari, Ghorbanpour, Mansour
Format Book Chapter
LanguageEnglish
Published United Kingdom CRC Press 2021
Taylor & Francis Group
Edition1
Subjects
Sterile Pollen Grain
Balanced Plant Nutrition
GlaxoSmithKline Biological SA
Soil's Water Retention Capacity
Soil Organic Matter
Black Cumin
organic wastes
Water Deficit Stress
Legume Plants
integrated plant nutrition management
Integrated Application
Recommended NPK Fertilizers
Riemerella Anatipestifer
Mycorrhizal Fungi
soil fertility
Total Seed Yield
Balanced Nutrient Application
drought stress
Dissolve Phosphate Rock
Drought Stress Conditions
Induced Systemic Resistance
Organic Biofertilizers
Increasing Plant Tolerance
Maximum Root Colonization
Mycorrhiza Inoculation
Integrated Plant Nutrient Management
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Summary:Drought stress inhibits photosynthesis in plants through closing stomata and chlorophyll degradation. It disturbs the balance between the antioxidant defence system and reactive oxygen species (ROS) production. Oxidative stress is created in proteins, membrane lipids and other cellular components by the accumulation of ROS. The mineral elements in plants have numerous functions including maintaining the charge balance, as electron carriers and structural components, in enzyme activity and as a turgor pressure regulator. Integrated plant nutrition management, including the integrated application of chemical and organic fertilizers (such as green manure, crop residues, farmyard manure, compost, biofertilizers), increases the sustainability of crop production and the uptake of water and nutrients by plants, and it improves growth and plant tolerance to drought stress. This strategy plays an important role in the productivity and sustainability of soil and is cost-effective and eco-friendly which benefits farmers and decreases the sole use of fertilizers.
ISBN:0367471000
9780367768904
0367768909
9780367471002
DOI:10.1201/9781003033394-20