J. Lyon et We. Sharpe, HAY-SCENTED FERN (DENNSTAEDTIA-PUNCTILOBULA (MICHX) MOORE) INTERFERENCE WITH GROWTH OF NORTHERN RED OAK (QUERCUS-RUBRA L) SEEDLINGS, Tree physiology, 16(11-12), 1996, pp. 923-932
We assessed the impacts of hay-scented fern (Dennstaedtia punctilobula
(Michx.) Moore) and subsoil liming (CaO amendments) on root and shoot
growth of greenhouse-grown, first-year, northern red oak (Quercus rub
ra L.) seedlings. Red oak seedlings and ferns were grown in reconstruc
ted soil profiles of four common Pennsylvanian forest soils. When grow
n in the presence of hay-scented ferns, with or without subsoil liming
, red oak seedlings had significantly reduced height growth, and folia
r, stem and total root biomass. Fern foliar biomass was significantly
reduced when ferns were grown with red oaks, but there was no signific
ant difference in total belowground biomass of ferns. Belowground fern
biomass was concentrated in the upper soil profile, whereas red oak r
oots showed a variety of distributions. In the presence of ferns, fine
root branching in red oak was reduced in the organic horizons of thre
e of the four soils tested. In both the presence and absence of ferns,
root branching in red oak was also significantly and negatively corre
lated with the concentration of 0.01 M SrCl2-extractable aluminum in t
he mineral horizons (r(2) = 0.77). Subsoil liming generally improved r
oot branching in red oaks. The presence of ferns significantly reduced
ectomycorrhizal infection frequency in red oak. We conclude that hay-
scented fern inhibited root branching and suppressed above- and belowg
round biomass accumulation of first-year northern red oak seedlings.