The brightness reversion of kraft pulps has been reported to be caused
by the presence of residual lignin, chlorinated extractives, or oxidi
zed carbohydrates. In this work, the effect of hemicellulose content,
i.e., xylan and glucomannan, on the thermal stability of modern bleach
ed kraft pulps was studied. Different oxygen-delignified hardwood and
softwood kraft pulps were bleached with different bleaching sequences
containing chlorine dioxide, hydrogen peroxide, or ozone. Hemicellulos
e-degrading enzymes, i.e., xylanase or mannanase, were used for select
ive removal of the respective hemicellulose from the pulps, and the ro
le of partially removed xylan and glucomannan on the brightness stabil
ity of these pulps was studied. Due to the structure of kraft xylan, e
nzymatic removal of xylan also resulted in a decreased carboxyl group
content in the pulps, whereas glucomannan removal did not affect the c
arboxyl group content. By reducing the carboxyl groups in the pulps in
conjunction with xylan removal, the thermal aging of the pulps was si
gnificantly reduced. The role of glucomannan was less significant. Thu
s, the uronic acids present in the pulp were found to participate in t
he brightness reversion of kraft pulps.