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Selenium uptake, translocation, subcellular distribution and speciation in winter wheat in response to phosphorus application combined with three types of selenium fertilizer

Caixia Hu, Zhaojun Nie, Huazhong Shi, Hongyu Peng, Guangxin Li, Hai‐Yang Liu, Chang Li, Hongen Liu, Hongen Liu, Hongen Liu

2023BMC Plant Biology30 citationsDOIOpen Access PDF

Abstract

Abstract Background Selenium (Se) deficiency causes a series of health disorders in humans, and Se concentrations in the edible parts of crops can be improved by altering exogenous Se species. However, the uptake, transport, subcellular distribution and metabolism of selenite, selenate and SeMet (selenomethionine) under the influence of phosphorus (P) has not been well characterized. Results The results showed that increasing the P application rate enhanced photosynthesis and then increased the dry matter weight of shoots with selenite and SeMet treatment, and an appropriate amount of P combined with selenite treatment increased the dry matter weight of roots by enhancing root growth. With selenite treatment, increasing the P application rate significantly decreased the concentration and accumulation of Se in roots and shoots. P 1 decreased the Se migration coefficient, which could be attributed to the inhibited distribution of Se in the root cell wall, but increased distribution of Se in the root soluble fraction, as well as the promoted proportion of SeMet and MeSeCys (Se-methyl-selenocysteine) in roots. With selenate treatment, P 0.1 and P 1 significantly increased the Se concentration and distribution in shoots and the Se migration coefficient, which could be attributed to the enhanced proportion of Se (IV) in roots but decreased proportion of SeMet in roots. With SeMet treatment, increasing the P application rate significantly decreased the Se concentration in shoots and roots but increased the proportion of SeCys 2 (selenocystine) in roots. Conclusion Compared with selenate or SeMet treatment, treatment with an appropriate amount of P combined with selenite could promote plant growth, reduce Se uptake, alter Se subcellular distribution and speciation, and affect Se bioavailability in wheat.

Topics & Concepts

SelenateSeleniumShootDry matterBiologyBiofortificationPhosphorusFertilizerMetabolismAnimal scienceBioavailabilityBotanyPhotosynthesisChromosomal translocationBiochemistryAgronomyChemistryMicronutrientGeneOrganic chemistryBioinformaticsSelenium in Biological SystemsHeavy Metal Exposure and ToxicityCoal and Its By-products