Toward resilient agriculture and environmental protection: The role of cell wall-bound phenolics

Due to their unpredicted scope, duration, and effects, soil droughts pose a serious threat to agriculture. Gradual steppe formation and desertification of farming and horticultural lands are the consequences of climate change. Irrigation systems for field crops do not offer the most viable solution,...

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Vydáno v:	Journal of plant physiology Ročník 287; s. 154020
Hlavní autoři:	Hura, Tomasz, Hura, Katarzyna, Ostrowska, Agnieszka, Urban, Karolina
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Germany Elsevier GmbH 01.08.2023
Témata:	Agriculture Cell Wall Cell wall-bound phenolics climate change Community Conservation of Natural Resources Crops, Agricultural cultivars desertification Drought Droughts Environment environmental protection freshwater horticulture irrigation phenolic compounds plant physiology Soil soil water steppes Environment Agriculture Drought Cell wall-bound phenolics Community
ISSN:	0176-1617, 1618-1328, 1618-1328
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Abstract	Due to their unpredicted scope, duration, and effects, soil droughts pose a serious threat to agriculture. Gradual steppe formation and desertification of farming and horticultural lands are the consequences of climate change. Irrigation systems for field crops do not offer the most viable solution, as they depend heavily on freshwater resources, which are currently scarce. For these reasons, it is necessary to obtain crop cultivars that are not only more tolerant to soil drought, but also capable of effective use of water during and after drought. In this article, we highlight the importance of cell wall-bound phenolics in the efficient adaptation of crops to arid environments and protection of soil water resources. •Cell wall-bound phenolics (CWPh) offer multiple benefits for plants and environment.•CWPh increase soil drought and UV tolerance.•CWPh improve plant water status and water use efficiency.•Protection of freshwater resources and limited irrigation of crops.
AbstractList	Due to their unpredicted scope, duration, and effects, soil droughts pose a serious threat to agriculture. Gradual steppe formation and desertification of farming and horticultural lands are the consequences of climate change. Irrigation systems for field crops do not offer the most viable solution, as they depend heavily on freshwater resources, which are currently scarce. For these reasons, it is necessary to obtain crop cultivars that are not only more tolerant to soil drought, but also capable of effective use of water during and after drought. In this article, we highlight the importance of cell wall-bound phenolics in the efficient adaptation of crops to arid environments and protection of soil water resources.Due to their unpredicted scope, duration, and effects, soil droughts pose a serious threat to agriculture. Gradual steppe formation and desertification of farming and horticultural lands are the consequences of climate change. Irrigation systems for field crops do not offer the most viable solution, as they depend heavily on freshwater resources, which are currently scarce. For these reasons, it is necessary to obtain crop cultivars that are not only more tolerant to soil drought, but also capable of effective use of water during and after drought. In this article, we highlight the importance of cell wall-bound phenolics in the efficient adaptation of crops to arid environments and protection of soil water resources. Due to their unpredicted scope, duration, and effects, soil droughts pose a serious threat to agriculture. Gradual steppe formation and desertification of farming and horticultural lands are the consequences of climate change. Irrigation systems for field crops do not offer the most viable solution, as they depend heavily on freshwater resources, which are currently scarce. For these reasons, it is necessary to obtain crop cultivars that are not only more tolerant to soil drought, but also capable of effective use of water during and after drought. In this article, we highlight the importance of cell wall-bound phenolics in the efficient adaptation of crops to arid environments and protection of soil water resources. Due to their unpredicted scope, duration, and effects, soil droughts pose a serious threat to agriculture. Gradual steppe formation and desertification of farming and horticultural lands are the consequences of climate change. Irrigation systems for field crops do not offer the most viable solution, as they depend heavily on freshwater resources, which are currently scarce. For these reasons, it is necessary to obtain crop cultivars that are not only more tolerant to soil drought, but also capable of effective use of water during and after drought. In this article, we highlight the importance of cell wall-bound phenolics in the efficient adaptation of crops to arid environments and protection of soil water resources. •Cell wall-bound phenolics (CWPh) offer multiple benefits for plants and environment.•CWPh increase soil drought and UV tolerance.•CWPh improve plant water status and water use efficiency.•Protection of freshwater resources and limited irrigation of crops.
ArticleNumber	154020
Author	Ostrowska, Agnieszka Urban, Karolina Hura, Tomasz Hura, Katarzyna
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Snippet	Due to their unpredicted scope, duration, and effects, soil droughts pose a serious threat to agriculture. Gradual steppe formation and desertification of...
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SubjectTerms	Agriculture Cell Wall Cell wall-bound phenolics climate change Community Conservation of Natural Resources Crops, Agricultural cultivars desertification Drought Droughts Environment environmental protection freshwater horticulture irrigation phenolic compounds plant physiology Soil soil water steppes
Title	Toward resilient agriculture and environmental protection: The role of cell wall-bound phenolics
URI	https://dx.doi.org/10.1016/j.jplph.2023.154020 https://www.ncbi.nlm.nih.gov/pubmed/37301037 https://www.proquest.com/docview/2824690851 https://www.proquest.com/docview/3153835555
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