Plant physiology can provide a general database and insights that produce explanations for the fundamental processes that take place in plants regardless of a specific crop. These fundamental physiological processes are directly influenced by environmental factors, light, fertilizer application, which require continuous assessment and reevaluation in the current conditions of global climate change effects. Sustainable crop yields with significant benefits connected to the environment can successfully be sustained through the use of foliar fertilization. A sustainable strategy for seed embryo activation is represented by seed priming techniques which could improve plants' physiological resistance to negative abiotic factors. Chlorophyll content represents one versatile physiological parameter that can be assessed for estimating plants' or crops' health.
Several regional climates have changed due to climate change, promoting or affecting plants' resilience to new environmental conditions. Comprehensive plant physiological parameters assessment could provide in-farm urgent help in order to obtain maximum economic efficiency. Specific needs at each crop principal growth stage are of high relevance to providing healthy food and ensuring sustainability of cropping systems. Contribution to food security with maximum economic efficiency and without environmental pollution can be ensured through foliar fertilization. By applying the correct dose according to the plant's needs, it provides resilience in the face of global climate change stress. To provide recommendations for farm use, it is also necessary to continuously test different parameters and physiological incentives.
Plant physiology offers essential insights and data to explain fundamental processes in plants across various crops. Environment, light, and fertilizer application affect these processes, requiring continuous assessment, especially under global climate change. Foliar fertilization supports sustainable crop yields and environmental benefits, while seed priming techniques enhance plants' resistance to adverse abiotic conditions. Assessing chlorophyll content is a versatile method for estimating plant health. With climate change altering regional climates, plant resilience and resistance are affected, making comprehensive physiological assessments critical for maximizing economic efficiency on farms. Addressing specific crop needs during key growth stages ensures healthy food production and sustainable cropping systems. Foliar fertilization, when applied correctly, enhances plant resilience to climate stress and promotes food security without environmental pollution. For effective farm recommendations, it is crucial to continuously test physiological parameters and techniques.
Keywords:
plant physiology, plant-health, environmental pollution, seeding techniques
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
Plant physiology can provide a general database and insights that produce explanations for the fundamental processes that take place in plants regardless of a specific crop. These fundamental physiological processes are directly influenced by environmental factors, light, fertilizer application, which require continuous assessment and reevaluation in the current conditions of global climate change effects. Sustainable crop yields with significant benefits connected to the environment can successfully be sustained through the use of foliar fertilization. A sustainable strategy for seed embryo activation is represented by seed priming techniques which could improve plants' physiological resistance to negative abiotic factors. Chlorophyll content represents one versatile physiological parameter that can be assessed for estimating plants' or crops' health.
Several regional climates have changed due to climate change, promoting or affecting plants' resilience to new environmental conditions. Comprehensive plant physiological parameters assessment could provide in-farm urgent help in order to obtain maximum economic efficiency. Specific needs at each crop principal growth stage are of high relevance to providing healthy food and ensuring sustainability of cropping systems. Contribution to food security with maximum economic efficiency and without environmental pollution can be ensured through foliar fertilization. By applying the correct dose according to the plant's needs, it provides resilience in the face of global climate change stress. To provide recommendations for farm use, it is also necessary to continuously test different parameters and physiological incentives.
Plant physiology offers essential insights and data to explain fundamental processes in plants across various crops. Environment, light, and fertilizer application affect these processes, requiring continuous assessment, especially under global climate change. Foliar fertilization supports sustainable crop yields and environmental benefits, while seed priming techniques enhance plants' resistance to adverse abiotic conditions. Assessing chlorophyll content is a versatile method for estimating plant health. With climate change altering regional climates, plant resilience and resistance are affected, making comprehensive physiological assessments critical for maximizing economic efficiency on farms. Addressing specific crop needs during key growth stages ensures healthy food production and sustainable cropping systems. Foliar fertilization, when applied correctly, enhances plant resilience to climate stress and promotes food security without environmental pollution. For effective farm recommendations, it is crucial to continuously test physiological parameters and techniques.
Keywords:
plant physiology, plant-health, environmental pollution, seeding techniques
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.