Contrasting Selenate-Sulfate Interactions in Selenium-Accumulating and Nonaccumulating Plant Species

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Contrasting Selenate-Sulfate Interactions in Selenium-Accumulating and Nonaccumulating Plant Species

D. R. Parker^* and A. L. Page

Dep. of Soil and Environmental Sciences, Univ. of California, Riverside, CA 92521

Paul F. Bell

Agronomy Dep., Louisiana State Univ., Baton Rouge, LA 70803

*Corresponding author.

ABSTRACT

The shoots of primary Se-accumulating plant species can accrueSe to several thousand micrograms per gram of dry weight, evenwhen growing in gypsiferous soils, yet no detailed studies ofthe mutual antagonism between SeO₄ and SO₄ during plant uptakehave been conducted with these species. In a comparative study,we grew a nonaccumulator (alfalfa, [Medicago sativa L.]) anda primary Se accumulator [Astragalus bisulcatus (Hook.) A. Gray]in identical nutrient solutions with varied SeO₄ (2–80µM) and SO₄ (0.5–15.5 mM) concentrations for 21(alfalfa) or 32 to 35 d (A. bisulcatus). Shoot S concentrationsin alfalfa were increased by increases in solution SeO₄, butonly when shoot Se was above ${approx}$ 20 µg g^–1, suggestingthat SeO₄-induced stimulation of S uptake may be a result ofincipient Se toxicity. Similar stimulations of S uptake wereless apparent in A. bisulcatus. Alfalfa shoot Se concentrationsranged from 4 to 154 µg g^–1, while the same treatmentsresulted in shoot levels of 175 to 1200 µg g^–1 inA. bisulcatus. Uptake of SeO₄ by alfalfa was profoundly inhibitedby increases in solution SO₄, while Se uptake by A. bisulcatuswas much less, although still significantly, affected. Comparisonof molar Se/S ratios in plants and nutrient solutions indicateddiscrimination against Se by alfalfa, but preferential accumulationof Se by A. bisulcatus. A reevaluation of previously publishedresults was in general agreement with our findings, and suggestedthat primary Se accumulators have a unique ability to accumulateSeO₄ in the face of competition from SO₄. These species couldthus prove useful in efforts to remediate Se-contaminated soilsor sediments that are also enriched in SO₄. Overall plant discriminationbetween SeO₄ and SO₄ may be related to (i) discrimination betweenthe two analogues during initial absorption, or (ii) differentialretranslocation of these elements to the root with subsequentafflux to the external solution.

Received for publication January 20, 1992.

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				G. S. Banuelos Irrigation of Broccoli and Canola with Boron- and Selenium-Laden Effluent J. Environ. Qual., November 1, 2002; 31(6): 1802 - 1808. [Abstract] [Full Text] [PDF]