Photosynthesis is one of the most critical biological processes in green plants. High efficiency of photosynthesis is essential for plant growth, development and biomass production. Various environmental factors, such as light intensity, soil quality, moisture, chemical pollution and temperature, can influence plants. Fluctuations in these environments may cause chlorophyll degradation, photosystem imbalance, and gas exchange obstruction in plant leaves, thereby reducing photosynthetic efficiency. Moreover, fluctuating environments may also cause the production of toxic molecules from chloroplast and damage photosynthetic components and organelles, thereby hindering the normal growth process of plants and even leading to cell death.
To understand the impact of environmental stress on photosynthesis and plant coping strategies is of great significance for improving plant growth and production. Through in-depth study of the photosynthesis regulatory mechanism and plant adaptive responses, theoretical support can be provided for developing stress-resistant plant varieties and improving crop yields.
This Research Topic aims to address the challenges of fluctuating environments to plant photosynthesis and explore strategies to improve photosynthetic efficiency in fluctuating environmental. fluctuating environments can significantly affect the performance of photosynthesis, leading to reduced crop yields and decreased ecosystem productivity. To solve this problem, researchers can explore the molecular, physiological and biochemical mechanisms of photosynthetic response to environmental fluctuations and identify the key regulatory factors and regulatory pathways involved. Recent advances in omics technologies, such as genomics, transcriptomics, proteomics, and metabolomics, have enabled researchers to comprehensively analyze changes in gene expression, protein abundance, and metabolite profiles in response to fluctuating environments.
Advances in combined imaging technologies enable real-time monitoring of photosynthetic performance and processes at cellular and subcellular levels. By integrating these cutting-edge technologies, researchers can gain a deeper insights into how plants perceive and respond to environmental changes, ultimately developing strategies to optimize photosynthesis in fluctuating environments.
We will explore the dynamic response of photosynthesis to environmental fluctuations. We welcome contributions that investigate the molecular, physiological, and biochemical mechanisms underlying photosynthetic responses to fluctuating environments.
We welcome all submissions, including original research, review, and perspectives on topics, focus on but are not limited to the following aspects:
1. Dynamic photosynthetic response mechanisms and new mechanisms in fluctuating environments.
2. Gene expression regulation, metabolic adaptation and stress signaling pathways involved in photosynthetic response under fluctuating environments.
3. Cellular signaling transduction of photosynthetic response during environmental adaptation processes.
4. Interdisciplinary research methods exploring the regulatory mechanisms of photosynthetic response to fluctuating environments.
Keywords:
photosynthesis, cellular signaling, gene expression regulation, abiotic stress, biotic stress, fluctuating environments
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.
Photosynthesis is one of the most critical biological processes in green plants. High efficiency of photosynthesis is essential for plant growth, development and biomass production. Various environmental factors, such as light intensity, soil quality, moisture, chemical pollution and temperature, can influence plants. Fluctuations in these environments may cause chlorophyll degradation, photosystem imbalance, and gas exchange obstruction in plant leaves, thereby reducing photosynthetic efficiency. Moreover, fluctuating environments may also cause the production of toxic molecules from chloroplast and damage photosynthetic components and organelles, thereby hindering the normal growth process of plants and even leading to cell death.
To understand the impact of environmental stress on photosynthesis and plant coping strategies is of great significance for improving plant growth and production. Through in-depth study of the photosynthesis regulatory mechanism and plant adaptive responses, theoretical support can be provided for developing stress-resistant plant varieties and improving crop yields.
This Research Topic aims to address the challenges of fluctuating environments to plant photosynthesis and explore strategies to improve photosynthetic efficiency in fluctuating environmental. fluctuating environments can significantly affect the performance of photosynthesis, leading to reduced crop yields and decreased ecosystem productivity. To solve this problem, researchers can explore the molecular, physiological and biochemical mechanisms of photosynthetic response to environmental fluctuations and identify the key regulatory factors and regulatory pathways involved. Recent advances in omics technologies, such as genomics, transcriptomics, proteomics, and metabolomics, have enabled researchers to comprehensively analyze changes in gene expression, protein abundance, and metabolite profiles in response to fluctuating environments.
Advances in combined imaging technologies enable real-time monitoring of photosynthetic performance and processes at cellular and subcellular levels. By integrating these cutting-edge technologies, researchers can gain a deeper insights into how plants perceive and respond to environmental changes, ultimately developing strategies to optimize photosynthesis in fluctuating environments.
We will explore the dynamic response of photosynthesis to environmental fluctuations. We welcome contributions that investigate the molecular, physiological, and biochemical mechanisms underlying photosynthetic responses to fluctuating environments.
We welcome all submissions, including original research, review, and perspectives on topics, focus on but are not limited to the following aspects:
1. Dynamic photosynthetic response mechanisms and new mechanisms in fluctuating environments.
2. Gene expression regulation, metabolic adaptation and stress signaling pathways involved in photosynthetic response under fluctuating environments.
3. Cellular signaling transduction of photosynthetic response during environmental adaptation processes.
4. Interdisciplinary research methods exploring the regulatory mechanisms of photosynthetic response to fluctuating environments.
Keywords:
photosynthesis, cellular signaling, gene expression regulation, abiotic stress, biotic stress, fluctuating environments
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.