Litcius/Paper detail

Sulfur fertility management to enhance methionine and cysteine in soybeans

Dana Alison Rushovich, Ray R. Weil

2021Journal of the Science of Food and Agriculture21 citationsDOI

Abstract

Abstract BACKGROUND Soybeans ( Glycine max) are a major protein source both for humans and non‐ruminant livestock; however, the usability of soybean protein is limited by the concentration of the essential sulfur (S)‐containing amino acids methionine and cysteine (MET+CYS). Traditional efforts to improve protein quality in soybeans have largely been focused on plant breeding but soil S fertility may also influence seed MET+CYS concentration. Crop S deficiencies are increasingly common due to soil depletion by high yields and reduced atmospheric deposition. We report on a survey of commercial soybean fields and two replicated split‐plot field experiments in the mid‐Atlantic region, USA. The experimental treatments were two levels (0 or 100 kg S ha −1 ) of broadcast gypsum (CaSO 4 ) and two levels (0 or 11 kg‐S ha −1 ) of foliar Epsom salt (MgSO 4 ) applied to two soybean cultivars. The objective was to assess the variability of, and effect of, S fertilization on S and MET+CYS concentrations in soybean seeds. RESULTS Sulfur ranged from 2.35 to 3.54 mg g −1 and MET+CYS ranged from 5.5 to 9.2 mg g −1 protein in seeds from commercial fields surveyed. Sulfur application increased seed MET+CYS concentration 1.3 to twofold in two replicated field experiments. Overall, MET+CYS concentration in protein ranged from 3.9 to 12.8 mg g −1 and was linearly predicted (R 2 = 0.65) by seed S. CONCLUSIONS Soybean seed S and MET+CYS concentrations vary widely. We show that field‐scale S application can greatly enhance soybean MET+CYS content and therefore protein quality. © 2021 Society of Chemical Industry.

Topics & Concepts

MethionineSulfurCultivarAgronomyLegumeRuminantCropGlycineChemistryBiologyAmino acidBiochemistryOrganic chemistryLegume Nitrogen Fixing SymbiosisNitrogen and Sulfur Effects on BrassicaSoybean genetics and cultivation