The southeastern USA is vulnerable to drought during critical times in
the development of soybean [Glycine mcrr (L.) Merr.]. A Japanese plan
t introduction, PI 416937, exhibits drought tolerance and may be an im
portant breeding line for the region. PI 416937 has an extensive fibro
us root system that confers drought tolerance. The objective of this s
tudy was to relate visual root scores to other measurable root charact
eristics in order to provide breeders with a means for rapid phenotypi
c evaluation of soybean roots. Root score, root surface, and root dry
weight were measured for 'Lee 74' and PI 416937 at three soybean stage
s of development in 1999 and 1993. Nodule number and nodule dry weight
were also measured during the second year. PI 416937 had higher root
score, root surface, nodule number, and nodule dry weight than Lee 74.
Root score was positively correlated with root surface, nodule number
, and nodule dry weight (r = 0.74, 0.83, and 0.80, respectively). Phen
otypic root scores could be utilized effectively in selection programs
to rapidly evaluate large numbers of progeny in order to identify tho
se with extensive fibrous root systems.