Journal ArticleDOI
Effects of magnesium deficiency on photosynthesis and carbohydrate partitioning
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TLDR
As magnesium is a nutrient with high mobility in plants, it is preferentially transported to source leaves to prevent severe declines in photosynthetic activity and an inverse relationship between Mg shortage and sugar accumulation in leaves is often observed.Abstract:
Magnesium nutrition is often forgotten, while its absence adversely affects numerous functions in plants. Magnesium deficiency is a growing concern for crop production frequently observed in lateritic and leached acid soils. Competition with other cations (Ca2+, Na+, and K+) is also found to be an essential factor, inducing magnesium deficiency in plants. This nutrient is required for chlorophyll formation and plays a key role in photosynthetic activity. Moreover, it is involved in carbohydrate transport from source-to-sink organs. Hence, sugar accumulation in leaves that results from the impairment of their transport in phloem is considered as an early response to Mg deficiency. The most visible effect is often recorded in root growth, resulting in a significant reduction of root/shoot ratio. Carbohydrate accumulation in source leaves is attributed to the unique chemical proprieties of magnesium. As magnesium is a nutrient with high mobility in plants, it is preferentially transported to source leaves to prevent severe declines in photosynthetic activity. In addition, Mg is involved in the source-to-sink transport of carbohydrates. Hence, an inverse relationship between Mg shortage and sugar accumulation in leaves is often observed. We hereby review all these aspects with a special emphasis on the role of Mg in photosynthesis and the structural and functional effects of its deficiency on the photosynthetic apparatus.read more
Citations
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Journal ArticleDOI
Magnesium Fertilization Improves Crop Yield in Most Production Systems: A Meta-Analysis.
Zheng Wang,Zheng Wang,Mahmood Ul Hassan,Faisal Nadeem,Liangquan Wu,Fusuo Zhang,Fusuo Zhang,Xuexian Li +7 more
TL;DR: It is corroborated that Mg fertilization enhances crop performance by improving yield or resulting in favorable physiological outcomes, providing great potentials for integrated Mg management for higher crop yield and quality.
Journal ArticleDOI
Critical Leaf Magnesium Thresholds and the Impact of Magnesium on Plant Growth and Photo-Oxidative Defense: A Systematic Review and Meta-Analysis From 70 Years of Research
TL;DR: The evaluation quantifies the demand of Mg for various crop and tree species for maintaining important physiological processes such as net CO2 assimilation that is required for optimal plant growth and yield and can be used to identify Mg nutritional status in plants and may help to optimize fertilization strategies.
Journal ArticleDOI
Global changes alter plant multi-element stoichiometric coupling.
Dashuan Tian,Peter B. Reich,Peter B. Reich,Han Y. H. Chen,Yangzhou Xiang,Yiqi Luo,Ying Shen,Cheng Meng,Wenxuan Han,Shuli Niu +9 more
TL;DR: A new stoichiometric framework is proposed in which all plant element contents and their coupling are not only affected by soil nutrient availability, but also by plant nutrient demand to maintain diverse functions under climate change.
Journal ArticleDOI
Synergistic and antagonistic interactions between potassium and magnesium in higher plants
Kailiu Xie,Kailiu Xie,Ismail Cakmak,Shiyu Wang,Fusuo Zhang,Fusuo Zhang,Shiwei Guo,Shiwei Guo +7 more
TL;DR: The antagonistic effect of K on Mg is stronger than that of Mg on K in root absorption and transport within plants, indicating that the balanced use of K and Mg fertilizers is necessary for sustaining high plant-available Mg and alleviating K-induced Mg deficiency, especially in plant species with high K demand or in high-available-K soil.
Journal ArticleDOI
Fruit sugar and organic acid were significantly related to fruit Mg of six citrus cultivars.
TL;DR: The results suggested that the accumulation of sugar and organic acid might be related to the dynamic changes of fruit Mg concentrations of 6 citrus cultivars, and found ACO was the key enzyme resulting in the difference of citric acid accumulation, but not quite clear in sucrose metabolism.
References
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Book
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TL;DR: This chapter discusses the relationship between Mineral Nutrition and Plant Diseases and Pests, and the Soil-Root Interface (Rhizosphere) in Relation to Mineral Nutrition.
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Konrad Mengel,Ernest A. Kirkby +1 more
TL;DR: In this article, the Soil as a Plant Nutrient Medium is discussed and the importance of water relations in plant growth and crop production, and the role of water as a plant nutrient medium.
Journal ArticleDOI
Superoxide dismutase and stress tolerance
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TL;DR: Growing evidence suggests a model for redox homeostasis in which the reactive oxygen species (ROS)–antioxidant interaction acts as a metabolic interface for signals derived from metabolism and from the environment.
Journal ArticleDOI
Magnesium Deficiency and High Light Intensity Enhance Activities of Superoxide Dismutase, Ascorbate Peroxidase, and Glutathione Reductase in Bean Leaves
Ismail Cakmak,Horst Marschner +1 more
TL;DR: The results demonstrate the role of both light intensity and Mg nutritional status on the regulation of O(2) (.-) and H( 2)O(3) scavenging enzymes in chloroplasts.
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