4.7 Article

Effects of Exogenous Chlorinated Amino Acetic Acid on Cadmium and Mineral Elements in Rice Seedlings

期刊

TOXICS
卷 11, 期 1, 页码 -

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MDPI
DOI: 10.3390/toxics11010071

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rice; cadmium; amino acids; chlorinated amino acetic acid; mineral elements; plant stress

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This study investigated the effect of exogenous application of chlorinated amino acetic acid on cadmium transport characteristics in rice seedlings. The results showed that the application of chlorinated amino acetic acid inhibited cadmium absorption in shoots and roots of rice seedlings, and the majority of cadmium was found in the cell wall. Furthermore, chlorinated amino acetic acid significantly increased the manganese content in shoots and the calcium content in roots of rice seedlings, and also enhanced the synthesis of aspartic acid, glutamic acid, and cysteine. These findings provide a theoretical basis for the development of environmentally friendly Cd-lowering foliar fertilizer for rice.
To explore the effect of exogenous application of chlorinated amino acetic acid on cadmium (Cd) transport characteristics in rice seedlings, X24 and Z35 rice were taken as the research objects to carry out hydroponics experiments, and the changes of Cd content in rice seedlings, rice mineral elements and amino acid content in rice were analyzed. The results showed that exogenous application of 1.2 mmol center dot L-1 chlorinated amino acetic acid inhibited cadmium in shoots and roots of rice seedlings; Cd content in shoots and roots were reduced by up to 62.19% and 45.61%, respectively. The majority of cadmium was in the cell wall of shoots and roots; this decreased with the increase of the concentration of chlorinated acetic acid. In addition, the Mn content in shoots and Ca content in roots of rice seedlings increased significantly after the application of chlorinated amino acetic acid. The results of amino acid analysis showed that the contents of aspartic acid, glutamic acid and cystine in rice seedlings were increased. These results indicate that exogenous application of chlorinated amino acetic acid is beneficial to the synthesis of aspartic acid, glutamic acid and cysteine in rice seedlings, increases the content of Mn in shoots and Ca in roots of rice seedlings, and significantly alleviates cadmium stress in seedlings. This provides a theoretical basis for the development of an environmentally friendly Cd-lowering foliar fertilizer for rice.

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