The molecular–physiological functions of mineral macronutrients and their consequences for deficiency symptoms in plants

The visual deficiency symptoms developing on plants constitute the ultimate manifestation of suboptimal nutrient supply. In classical plant nutrition, these symptoms have been extensively used as a tool to characterise the nutritional status of plants and to optimise fertilisation. Here we expand th...

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Veröffentlicht in:	The New phytologist 2021-03, Vol.229 (5), p.2446-2469
Hauptverfasser:	de Bang, Thomas Christian, Husted, Søren, Laursen, Kristian Holst, Persson, Daniel Pergament, Schjoerring, Jan Kofod
Format:	Artikel
Sprache:	eng
Schlagworte:	Biodiversity calcium Ecosystem Fertilization magnesium mineral element Minerals New technology Nitrogen Nutrient cycles Nutrient deficiency Nutrients Nutrition nutritional disorder Nutritional status phosphorus Physiological functions Physiology Plant nutrition Plants potassium Remote sensing Remote sensors sulphur Sustainable development Symptoms Tansley review Terrestrial ecosystems Terrestrial environments
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creator	de Bang, Thomas Christian Husted, Søren Laursen, Kristian Holst Persson, Daniel Pergament Schjoerring, Jan Kofod
description	The visual deficiency symptoms developing on plants constitute the ultimate manifestation of suboptimal nutrient supply. In classical plant nutrition, these symptoms have been extensively used as a tool to characterise the nutritional status of plants and to optimise fertilisation. Here we expand this concept by bridging the typical deficiency symptoms for each of the six essential macronutrients to their molecular and physiological functionalities in higher plants. We focus on the most recent insights obtained during the last decade, which now allow us to better understand the links between symptom and function for each element. A deep understanding of the mechanisms underlying the visual deficiency symptoms enables us to thoroughly understand how plants react to nutrient limitations and how these disturbances may affect the productivity and biodiversity of terrestrial ecosystems. A proper interpretation of visual deficiency symptoms will support the potential for sustainable crop intensification through the development of new technologies that facilitate automatised management practices based on imaging technologies, remote sensing and in-field sensors, thereby providing the basis for timely application of nutrients via smart and more efficient fertilisation.
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In classical plant nutrition, these symptoms have been extensively used as a tool to characterise the nutritional status of plants and to optimise fertilisation. Here we expand this concept by bridging the typical deficiency symptoms for each of the six essential macronutrients to their molecular and physiological functionalities in higher plants. We focus on the most recent insights obtained during the last decade, which now allow us to better understand the links between symptom and function for each element. A deep understanding of the mechanisms underlying the visual deficiency symptoms enables us to thoroughly understand how plants react to nutrient limitations and how these disturbances may affect the productivity and biodiversity of terrestrial ecosystems. 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subjects	Biodiversity calcium Ecosystem Fertilization magnesium mineral element Minerals New technology Nitrogen Nutrient cycles Nutrient deficiency Nutrients Nutrition nutritional disorder Nutritional status phosphorus Physiological functions Physiology Plant nutrition Plants potassium Remote sensing Remote sensors sulphur Sustainable development Symptoms Tansley review Terrestrial ecosystems Terrestrial environments
title	The molecular–physiological functions of mineral macronutrients and their consequences for deficiency symptoms in plants
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