Kenaf (Hibiscus cannabinus L.) stems contain two distinct fiber types, bast
and core. The absorbent, low density core (xylem) is a possible potting mi
x component. Two greenhouse studies were conducted during 1993 and 1995 to
determine the feasibility of substituting kenaf core for vermiculite and ba
rk. In Study 1, fine-grade kenaf was substituted for vermiculite in three v
olume ratios (1, 2 or 3) with sphagnum peat moss and perlite (1:1) and comp
ared to a 1:1:1 ratio of vermiculite:sphagnum peat moss:perlite. In Study 2
, coarse-grade kenaf was substituted in three volume ratios (1, 2 or 3) wit
h sphagnum peat moss and compared to a 1:1 ratio of pine bark:sphagnum peat
moss. Plant height, canopy diameter, shoot weight, and root weight of peri
winkle (Vinca minor) seedlings were determined 10 weeks after transplanting
into the media contained in 12.5-cm diameter pots. The substitution of fin
e-grade kenaf for vermiculite at a 1:1 ratio reduced to some extent all per
iwinkle yield parameters except root dry weight. As the volume of fine-grad
e kenaf increased, all yield parameters decreased compared to the vermiculi
te media. Substitution of coarse-grade kenaf for pine bark in a 1:1 ratio p
roduced equivalent or greater yield components. This research indicates tha
t kenaf core can be a suitable containerized growth medium component, depen
ding on the size and percentage of kenaf used, the plant growth requirement
s, and the specific physical characteristics desired in the containerized g
rowth media. Published by Elsevier Science B.V.