Low temperature scanning and transmission electron microscopy were used to
observe the anatomy of vascular tissue of the placental and nonplacental su
tures of the carpel (pod) of soybean [Glycine max (L.) Merr.]. Pods were ha
rvested when they reached their greatest length and then weekly until physi
ological maturity. The vascular tissue lies internal to a layer of thick-wa
lled sclerenchyma tissue that is not connected to the sclerenchyma tissue o
f the pod pericarp. The walls of the sclerenchyma tissue become thicker wit
h maturation. The vascular tissue is arranged with phloem external to the x
ylem. Phloem and xylem cells differentiate continuously throughout the peri
od of seed development. The mature xylem consists of tracheary elements wit
h helical secondary wall thickenings. The mature phloem consists of sieve e
lements and adjoining companion cells. The sieve elements did not form P-pr
otein crystals. The companion cells were replete with mitochondria and the
number of companion cells per sieve element varied from one to three or fou
r. An unusual feature of the placental vasculature was the presence of an i
nner layer of phloem cells consisting of sieve elements and companion cells
. These cells were similar to and joined with the outer phloem when they en
tered the funiculus (seed stalk). The presence of the inner phloem suggests
that it may have a special function in the nourishment of the developing s
eed.