Selenium application methods and rates for biofortification of common bean and their residual effects on Mombaça grass.

Autor:	Araújo, Suellen Nunes de, Raymundo, Jéssica Francisco, Costa, Fábio Freire Ribeiro, Lessa, Josimar Henrique de Lima, Guilherme, Luiz Roberto Guimarães, Lopes, Guilherme
Předmět:	BIOFORTIFICATION COMMON bean GRASS growing SELENIUM FOOD crops GRASSES FERTILIZERS
Zdroj:	Crop & Pasture Science; 2022, Vol. 73 Issue 8, p792-803, 12p
Abstrakt:	Context: Agronomic biofortification is recognised as being an important strategy to increase selenium (Se) contents in food crops. The effectiveness of agronomic biofortification may differ depending on the methods of how Se is applied in agricultural systems. Aims: This study aimed to evaluate different Se application methods (involving Se addition in the soil via Se-enriched fertilisers and foliar Se application) and rates for biofortification of common bean and to assess residual effects of soil Se additions for biofortification of Mombaça grass grown after the common bean. Methods: Both experiments were carried out in a greenhouse. In the first cultivation (common bean), Se (as sodium selenate) was added at 0.0, 0.2, 0.4, 0.6, and 0.8 mg/dm3 using six different methods, as follows: Se-enriched monoammonium phosphate, Se-enriched urea, Se-foliar application, Se-enriched monoammonium phosphate + Se-enriched urea, Se-enriched monoammonium phosphate + Se-foliar application, and Se-enriched urea + Se-foliar application. To evaluate the residual effects of soil Se additions, Mombaça grass plants were grown after the common bean (second cultivation) without additional Se supply. Key results: Agronomic biofortification effectiveness varied among methods, with higher Se contents in common bean grains being found when Se-enriched urea, Se-foliar application, and the combination of both methods were applied. Conclusions: Selenium addition methods via soil using fertilisers as carriers to add Se, including Se-enriched monoammonium phosphate, showed a potential of residual effects on succeeding crops since these methods were efficient for increasing Se contents in Mombaça grass shoots. The effectiveness of agronomic biofortification with selenium may depend on methods and rates of application; and these factors may also influence residual effects on succeeding crops. We studied different methods for applying Se for biofortification of common bean and assessed residual effects of soil Se additions on Mombaça grass. The biofortification efficacy varied among the assessed Se addition methods. Se-enriched fertilisers showed residual effects, since they were efficient for increasing Se contents in Mombaça grass grown in the second experiment without Se application. [ABSTRACT FROM AUTHOR]
Databáze:	Complementary Index
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