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by an invasive 'fungus-like' network which penetrates the host tissues in
a search for organic nutrition. In this respect, roots might represent fungal
vestiges of putative ancient mergings between fungi and algae to generate
higher plants (Atsatt 1988; Zyalalov 2004). This would explain the inher-
ent tendency of roots to fuse with mycorrhizal fungi and thus generate
plant root-fungal networks (Brundrett 2002). Early land plants suffered
from a dry environment and could survive only if buried in wet parts of
soil. After inventing a cuticle that would prevent desiccation, plants could
extend into the aboveground space. Hypothetical merging between fun-
gal and algal organisms would be beneficial for survival during this very
critical period. Relevant in this respect is that lichens are also formed by
association of fungal and algal partners. But this took place in recent times
and the individual partners are still clearly distinguishable and separable.
Recent advances in studies on lichens reveal that this association enables
both components to invade separately hostile terrestrial niches exposed to
high irradiation and dramatic desiccation (Kranner et al. 2005). It might be
that similar, but much more ancient, associations between fungi and algae,
resulting in the establishment of root-fungus communal networks, allowed
plants to colonize land. The fungal/animal-like nature of roots is also sup-
ported by holoparasitic plants which can rely solely on the plant host which
is penetrated via fungal-like root-derived haustoria (Yoder 2001). Parasitic
plants represent an extremely diverse group of organisms with regard to
their taxonomy and they have profound effects on the ecosystems in which
they live (Press and Phoenix 2004).
Roots resemble ancient plants in their intimate association with water
which is taken up and distributed throughout the plant body (Zyalalov
2004). The root apoplasm is freely accessible to the water which surrounds
therootsystem.Despitetheeffectivecolonizationofland,rootsarestill
continuously bathed in aqueous soil solutions. Fungal features of roots are
interesting also from the perspective of the inherent symbiotic interactions
between roots and fungi (Vandenkoornhuyse et al. 2002). Whereas roots of
most plant species are engaged in symbiotic interactions with fungi (Brun-
drett 2002; Karandashov and Bucher 2005), the aboveground organs do not
share this feature and fungi are, by contrast, pathogens of shoots. The only
cells of aboveground organs with a fungus-like characteristic are pollen
tubes which are capable of an active lifestyle owing to their haustorium-
like growth within female tissues (Palanivelu and Preuss 2000), resembling
in this respect the root-derived haustoria of holoparasitic plants.
Another ancient root feature relates to their phloem elements. In root
apices, protophloem lacks companion cells which are associated with all
other phloem elements of angiosperm plants (van Bel 2003). In this re-
spect, root protophloem resembles the conductive system of moss game-
tophytes.
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