AI Article Synopsis
- Human activities and natural processes have spread toxic metals and metalloids, negatively affecting plant growth, with roots being crucial for plant tolerance to these elements.
- Key root processes for tolerance include adaptation in metal transport, detoxification within root cells, changes in root structure, and interactions with beneficial microbes that influence metal availability.
- The review examines these processes in detail, focusing on detoxification strategies for arsenic, cadmium, mercury, and zinc in crops, and evaluates their effectiveness in actual field conditions.
Article Abstract
Human activity and natural processes have led to the widespread dissemination of metals and metalloids, many of which are toxic and have a negative impact on plant growth and development. Roots, as the first point of contact, are essential in endowing plants with tolerance to excess metal(loid) in the soil. The most important root processes that contribute to tolerance are: adaptation of transport processes that affect uptake efflux and long-distance transport of metal(loid)s; metal(loid) detoxification within root cells via conjugation to thiol rich compounds and subsequent sequestration in the vacuole; plasticity in root architecture; the presence of bacteria and fungi in the rhizosphere that impact on metal(loid) bioavailability; the role of root exudates. In this review, we provide details on these processes and assess their relevance on the detoxification of arsenic, cadmium, mercury and zinc in crops. Furthermore, we assess which of these strategies have been tested in field conditions and whether they are effective in terms of improving crop metal(loid) tolerance.
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| http://dx.doi.org/10.1111/pce.14188 | DOI Listing |
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