Page Banner

United States Department of Agriculture

Agricultural Research Service

Title: Amelioration of Subsoil Acidity Constraints to Soybean Root Growth with Magnesium

Authors
item Hashimoto, Yohei - NC STATE UNIV
item Smyth, Jot - NC STATE UNIV
item Israel, Daniel
item Hesterberg, Dean - NC STATE UNIV
item Nelson, Paul - NC STATE UNIV

Submitted to: Agronomy Abstracts
Publication Type: Abstract Only
Publication Acceptance Date: July 15, 2005
Publication Date: November 1, 2005
Citation: Hashimoto, Y., Smyth, J., Israel, D.W., Hesterberg, D., Nelson, P. 2005. Amelioration of subsoil acidity constraints to soybean root growth with magnesium. Agronomy Abstracts.file:///E:/techprogram/AM05/P1947.HTM

Technical Abstract: Aluminum rhizotoxicity in acid soils inhibits root elongation and limits crop acquisition of water and nutrients from the subsoil layers. Studies with soybean [Glycine max (L.) Merr.] in hydroponic systems have shown that µM additions of Mg2+ were as effective in ameliorating Al rhizotoxicity as additions of Ca2+ in the mM concentration range. The objective of this study was to assess the ameliorative effect of Mg on soybean root elongation into acid sub-surface layers of North Carolina Ultisols. Replicated greenhouse experiments with a soybean cultivar Plant Introdction 416937 were conducted using a split-root system. Roots extending from a limed surface soil compartment grew for 28 days into a subsurface compartment with acid subsoil samples from soil series of three NC Ultisols: Cecil (oxidic and kaolinitic), Creedmoor (montmorillonitic) and Norfolk (kaolinitic). The three Mg treatments consisted of the native equilibrium soil solution concentrations in each soil (50 µM for Creedmoor and Norfolk, and 100 µM for Cecil) and MgCl2 additions to achieve 150 and 300 µM Mg in the soil solutions. Root elongations into Mg-treated subsoils were compared with a CaCO3 treatment limed to achieve a soil pH value of 6. Liming of Cecil and Creedmoor subsoils increased both dry matter of soybean tops and subsoil root length at harvest relative to the lowest Mg treatment, whereas there was no response to subsoil treatments in the Norfolk soil. Although dry matter and subsoil root elongation responses to Mg treatments were less than for limed subsoils, reductions in water content of the subsurface compartment for two of the three soils suggest that increased Mg supply improved plant access to subsoil water reserves.

Last Modified: 9/29/2014
Footer Content Back to Top of Page