Horticultural Crop Response to Different Environmental and Nutritional Stress
Marino, Stefano
Horticultural Crop Response to Different Environmental and Nutritional Stress - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021 - 1 electronic resource (208 p.)
Open Access
Environmental conditions and nutritional stress may greatly affect crop performance. Abiotic stresses such as temperature (cold, heat), water (drought, flooding), irradiance, salinity, nutrients, and heavy metals can strongly affect plant growth dynamics and the yield and quality of horticultural products. Such effects have become of greater importance during the course of global climate change. Different strategies and techniques can be used to detect, investigate, and mitigate the effects of environmental and nutritional stress. Horticultural crop management is moving towards digitized, precision management through wireless remote-control solutions, but data analysis, although a traditional approach, remains the basis of stress detection and crop management. This Special Issue summarizes the recent progress in agronomic management strategies to detect and reduce environmental and nutritional stress effects on the yield and quality of horticultural crops.
Creative Commons
English
books978-3-0365-1949-4 9783036519487 9783036519494
10.3390/books978-3-0365-1949-4 doi
Research & information: general
Capsicum annuum heat units plant population density hail damage baby corn non-leguminous cover crops chopping baby corn yield baby corn quality kharif season Thuja standishii × plicata container production nursery production volumetric water content vegetables water deficit climate change polyols minerals flavonoids carotenoids salinity evapotranspiration leaching fraction calcium cactus pear GA3 injection application spraying application lignification photosynthesis chlorophyll proline ion leakage susceptibility electrical conductivity greenhouse image processing nutrient stress remote sensing Bradyrhizobium temperature-dependent distribution nodule composition proliferation in soil infection French bean mangetout peas antioxidant ascorbic acid total phenolic content mineral composition Bradyrhizobium japonicum Bradyrhizobium elkanii temperature effects growth competitive infection biochemical constituents β-carotene vitamins micro-nutrients growing environments Brix TAcy nitrogen potassium compositional data cranberry yield parameters firmness local diagnosis redundancy analysis n/a
Horticultural Crop Response to Different Environmental and Nutritional Stress - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021 - 1 electronic resource (208 p.)
Open Access
Environmental conditions and nutritional stress may greatly affect crop performance. Abiotic stresses such as temperature (cold, heat), water (drought, flooding), irradiance, salinity, nutrients, and heavy metals can strongly affect plant growth dynamics and the yield and quality of horticultural products. Such effects have become of greater importance during the course of global climate change. Different strategies and techniques can be used to detect, investigate, and mitigate the effects of environmental and nutritional stress. Horticultural crop management is moving towards digitized, precision management through wireless remote-control solutions, but data analysis, although a traditional approach, remains the basis of stress detection and crop management. This Special Issue summarizes the recent progress in agronomic management strategies to detect and reduce environmental and nutritional stress effects on the yield and quality of horticultural crops.
Creative Commons
English
books978-3-0365-1949-4 9783036519487 9783036519494
10.3390/books978-3-0365-1949-4 doi
Research & information: general
Capsicum annuum heat units plant population density hail damage baby corn non-leguminous cover crops chopping baby corn yield baby corn quality kharif season Thuja standishii × plicata container production nursery production volumetric water content vegetables water deficit climate change polyols minerals flavonoids carotenoids salinity evapotranspiration leaching fraction calcium cactus pear GA3 injection application spraying application lignification photosynthesis chlorophyll proline ion leakage susceptibility electrical conductivity greenhouse image processing nutrient stress remote sensing Bradyrhizobium temperature-dependent distribution nodule composition proliferation in soil infection French bean mangetout peas antioxidant ascorbic acid total phenolic content mineral composition Bradyrhizobium japonicum Bradyrhizobium elkanii temperature effects growth competitive infection biochemical constituents β-carotene vitamins micro-nutrients growing environments Brix TAcy nitrogen potassium compositional data cranberry yield parameters firmness local diagnosis redundancy analysis n/a