Four-year-old plantation-grown autumn olive (Elaeagnus umbellata Thunb.) an
d black alder (Alnus glutinosa L.) trees were analyzed for gross heat value
, ash, alcohol-benzene extractives, hot-water extractives, 1% NaOH extracti
ves, lignin, and pentosan. These plantations were established on marginal l
and that was not suitable for food production in Illinois. For comparison p
urpose, lumber from 60-year-old black alder trees was also analyzed. Test r
esults indicated that the planting sites (bottomland vs. upland) factor did
not affect the chemical composition of both trees. The main factor, specie
s, was significant in determining various chemical properties. Black alder
had higher average alcohol-benzene extractives, 1% NaOH extractives, pentos
an, ash, and gross heat content than autumn olive. Autumn olive had higher
hot-water extractives, lignin, holocellulose, and alpha-cellulose content t
han black alder. The commercial alder lumber had less chemical extractives
but was higher in alpha-cellulose than the 4-year-old black alder trees. Ba
sed on the chemical compositions, these two juvenile, nitrogen-fixing decid
uous species could serve as a raw material source for chemical and paper in
dustries, as well as for energy or fuel.