many haploid spores that are wind-dispersed. These
spores germinate to produce either amoeboid cells
termed myxamoebaeor flagellate swarmers, which
fuse in pairs, and the resulting diploid cell grows into
a plasmodium. Physarum polycephalumis perhaps the
best-known example. It has been studied intensively
by morphogeneticists because it can be maintained
on defined (bacterium-free) media. Full details of the
Myxomycota can be found in Martin & Alexopoulos
(1969).PlasmodiophoridsPlasmodiophorids (Fig. 2.37) are obligate intracellular
parasites of plants, algae, or fungi. They grow only in
a host organism, and cannot be grown in laboratory
culture. As a group, the plasmodiophorids show no
obvious relationship to fungi or to other fungus-like
organisms, so their phylogenetic status remains
unclear (Down et al. 2002). The most important
organism of this group is Plamodiophora brassicae,
which causes the damaging clubroot disease of crucifer-
ous crops (the cabbage family). In this disease the roots
are severely deformed, with proliferation of cell divi-sion caused by the production of phytohormones,
and this can lead to serious yield losses. A related
organism, Spongospora subterranea, causes powdery
scab of potato tubers. In addition to these, several
common plasmodiophorids, such as Polymyxa spp.,
grow as symptomless parasites in the roots of many
plants, causing little or no damage, but they can act
as vectors of some economically important plant
viruses (Chapter 10).
Significant stages in the life cycle of P. brassicaeare
shown in Fig. 2.38, although there is still doubt about
the details of some stages. The thick-walled resting
spores can persist in soil for many years, and only a
low proportion of them will germinate in any one year.
So, once this fungus is established in a site it is almost
impossible to eradicate. The resting spores eventually
germinate to release a motile, biflagellate zoospore,
which locates a host root by chemotaxis and then
encysts in a defined orientation. The cyst protoplast is
then injected into a root epidermal cell or a root hair
by means of a bullet-like structure. The protoplast
then grows into a small primary plasmodiumwithin
the infected cell, and converts into a sporangium,
which releases zoospores when the root cell dies or when
an exit tube is formed. At this stage, the zoospores areDIVERSITY OF FUNGI 45
Fig. 2.37Plasmodiophorids. (a) Club-
root symptoms caused by Plasmodio-
phora brassicae on a cruciferous
seedling: note the grossly deformed
root system. (b) Large numbers of thick-
walled resting spores of P. brassicaein
clubroot tissue. (c,d) Clusters of thick-
walled resting spores of Polymyxa
graminisat different magnifications in
the roots of grasses. ( (a,b) Courtesy
of J.P. Braselton, Ohio University; see
http://oak.cats.ohiou.edu/~braselto/
plasmos/ )(a) (b)(c) (d)FB4eC02 04/20/2005 02:52PM Page 45