Elliptical cracks in the soybean [Glycine max (L.) Merr.] seed coat ha
ve been termed seed coat cracking. This imperfection of the seed coat
is an avenue for pathogenic and adverse environmental factors to affec
t seed quality. To better understand this phenomenon, the time of occu
rrence and morphological changes involved in seed coat cracking were e
xamined by light and scanning electron microscopy. Physical parameters
of normal and cracked seed and the amount of seed coat cracking that
occurs in a pod were also determined. Seed coat cracking began in the
late R6 growth stage just prior to R7 growth stage (physiological matu
rity). The initial cracking of the tissues occurred around the hilum;
the most common separation was perpendicular to the raphe. Separation
also occurred on either side of the embryonic axis. As the seed mature
d and began to desiccate, the cracks elongated and became perpendicula
r to the hilum exposing the parenchyma cells. This separation was acco
mpanied by a slight upward rolling of the parenchyma and underlying ti
ssue. The cotyledonary tissue, that was beneath the cracked area was r
aised above the surrounding tissues, indicating that this area of the
cotyledon possibly matured at a different rate than adjacent tissues.
Seeds with cracked coats were generally larger than seeds with normal
seed coats. There was a significant probability (P < .001) that if one
seed coat was cracked in a pod then all seeds in the pod contained cr
acked seed coats. The results suggest that separation of the palisade
and hourglass tissues is caused by parenchyma or underlying tissues th
at do not contract normally during seed desiccation.