Review: Strategies for limiting dietary cadmium in cereals

Autor: Apuli, Rami-Petteri; Adler, Karl; Barregård, Lars; Dixelius, Christina; Harari, Florencia; Hofvander, Per; Johansson, Eva; Kuktaite, Ramune; Lan, Yuzhou; Lilja, Tua; Novakazi, Fluturë; Rahmatov, Mahbubjon; Söderström, Mats; Bengtsson, Therése
In:

Plant Science

Auflage: Volume 357
ISBN: 0168-9452
DOI: https://doi.org/10.1016/j.plantsci.2025.112535
Seite: 112535Jahr: 2025

Einordung:
Institut: Professur Phytomedizin

Abstract:
Cadmium (Cd) is a toxic metal, which in some production areas reaches levels above allowed limits in cereals. Thus, reducing its concentration in cereals is crucial for mitigating health risks and complying with food safety regulations. This review evaluates strategies to reduce Cd accumulation in cereal grains by mitigating soil Cd contamination and its bioavailability to plants. It covers methods for Cd estimation in soil and explores biological, chemical, and genetic approaches to limit Cd uptake by crops. The effectiveness of these strategies depends on genetic factors, soil properties, and crop type. Key approaches include traditional breeding, genome editing, digital and predictive soil mapping, and silicon (Si) and selenium (Se) supplementation. Traditional breeding, enhanced by modern genetic tools, enables the development of high-yielding, low-Cd cultivars but is time-consuming. Genome editing, particularly CRISPR-Cas9, offers precise gene modifications to reduce Cd uptake but faces regulatory constraints. Digital and predictive soil mapping provide high-resolution maps for targeted interventions but require extensive calibration. Silicon supplementation is a promising approach, as it competes with Cd for uptake sites, and limits Cd translocation to edible plant parts. Additionally, Si enhances plant tolerance to abiotic stresses, making it a multifunctional solution. Selenium supplementation can also reduce Cd accumulation while offering health benefits. However, the effectiveness of both Si and Se vary with dosage and crop type. An integrated approach combining these strategies is essential for effective Cd reduction in cereals. Continued research, technological advancements, and supportive policies are crucial for ensuring safe and sustainable cereal production.

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