Acid soil tolerance of soybean (Glycine Max L. Merr.) germplasm from the USSR

Abstract

Nineteen soybean genotypes (ten from the former USSR, two from Brazil and seven from USA) were tested for aluminum (Al) tolerance by growing them for 21 days in greenhouse pots of acid, Al‐toxic, unlimed Tatum (Typic Hapludult) subsoil at pH 4.0 and in limed subsoil at pH 5.1. Aluminum tolerance ranking depended upon the plant traits used in the screening process. Based on absolute dry shoot weights at pH 4.0, Giessener, Brunatna, and St.‐59 (USSR), and Biloxi (USA) were most tolerant; least tolerant entries included Yantarnaya and Smena (USSR), and Davis (USA). Based on relative shoot dry weights (pH 4.0/pH 5.1 %), Giessener, Brunatna, and St.‐59 (USSR) were among the most tolerant, Bossier, Biloxi, Essex, and Perry were intermediate, and Salute 216 (USSR), Chief (USA), and Santa Rosa and IAC‐9 (Brazil) were more sensitive to the acid soil. Based on absolute root dry weights, Giessener, and St.‐59 (USSR), and Biloxi (USA) were among the most tolerant and Smena, Yantarnaya and Salute 216 (USSR), and Chief (USA) were most sensitive. Based on relative root dry weights (pH 4.0/ pH 5.1 %), Giessener was most tolerant and Smena and Salute 216 least tolerant.

Preliminary evidence indicated that soybean entries screened for Al tolerance on acid Tatum soil also differed in tolerance to naturally occurring levels of ambient ozone in greenhouses at Beltsville. The Russian entries VNIIS‐2, Giessener, and Brunatna appeared more sensitive than USA entries Perry, Biloxi, Davis, and Bossier (USA), and Santa Rosa (Brazil). Aluminum tolerance and ozone tolerance appeared to coincide in the Perry genotype. Studies on Al‐ozone‐soybean genotype relationships are being continued at Beltsville.

Notes

Plant Breeding and Physiology Laboratory, All Russian Soybean Research Institute, Ignatyevskoya shosse 19, Blagoveschensk, 675027, USSR.