Conservation of existing germplasm is essential because of the constan
t erosion of gene pools and native germplasm throughout the world. Con
servation of rice (Oryza sativa L.) germplasm, especially accessions i
n the rice portion of the USDA-ARS Small Grains Collection, is essenti
al because rice is not native to the United States. This study was con
ducted to determine if rice accessions that did not emerge when seeded
in the field could be rejuvenated in the laboratory. Six-thousand ric
e accessions were seeded at the Rice Research and Extension Center, Un
iversity of Arkansas, Stuttgart, AR, in 1991. Two-hundred-and-eleven o
f the accessions, originally introduced from 21 countries, failed to e
merge in the field. The viability of these accessions was tested in th
e growth chamber, on agar medium, and by an embryo culture method. Ger
mination in the growth chamber recovered 27 lines that had been stored
for an average of 10.6 yr at Beltsville, MD, and Aberdeen, ID. Fifty-
eight additional lines with an average storage age of 15.2 yr were rej
uvenated by culturing the grain on agar medium. Embryo culture was use
d to test the remaining 126 lines, and 76 lines with an average storag
e time of 19.1 yr survived and produced seeds. All three laboratory te
chniques recovered rice germplasm that did not emerge in the field. Ho
wever, embryo culture was superior to grain culture and both of these
methods were more effective in rejuvenating rice germplasm than the gr
owth chamber method.