2 Even in young root zones, and persisting into the
old root zones, a fungus with hyaline (colorless)
hyphae is seen in the innermost cortical cells. This
is almost certainly an arbuscular mycorrhizal fungus
growing in the living host cells (Chapter 13).
3 Behind the root tips, Mucorand Penicilliumspecies
are found on the root surface, and they remain
associated with the surface of roots of all ages.
These fungi are assumed to grow on the soluble nutri-
ents that leak from root cells, or possibly the root
surface mucilage (a pectin-like material). However,
their hyphae cannot be seen or identified easily in
the root zone, so it is possible that they have an
initial phase of growth or periodic phases of growth
and then persist as spores on or near the root
surface.
4 A fungus with darkly pigmented hyphae is found on
the root surface in young root zones, and is seen tooccur progressively deeper in the cortex as the roots
age. This fungus is Phialophora graminicola, one of the
most abundant fungi on grass roots. It is a weak
parasite that exploits a narrow window of opportun-
ity, invading the root cortical cells as they start to
senesce, but ahead of purely saprotrophic species
(Chapter 12).
5 As Phialophoraprogresses inwards through the root
cortex, it is followed by a sequence of fungi, includ-
ing an unidentified sterile (nonsporing) fungus that
grows as hyaline (colorless) hyphae, and Fusarium
culmorumwhich is a characteristic colonizer of dead
and dying tissues but also can be pathogenic to
cereals and grasses in conditions of water-stress.
6 In the old root zones Trichoderma spp. and
Clonostachys rosea (formerly called Gliocladium
roseum) colonize the outer cortex. These are charac-
teristic soil and rhizosphere fungi. They are known228 CHAPTER 11
Fig. 11.16Natural (nonpathogenic) cortical cell death in soil-grown wheat roots stained with acridine orange (a,c) or
neutral red (b,d). All the cortical cell layers are alive in (a) and most layers are alive in (b). The outer five (of a total six)
cell layers have died in the older root regions (c and d) but the innermost (sixth) layer always remains alive until the
root itself dies. (From Lascaris & Deacon 1991.)