Accumulation of local pathogens: a new hypothesis to explain exotic plant invasions
Publication date
2006
Authors
Eppinga, M.B.
Rietkerk, M.G.
Dekker, S.C.
Ruiter, P.C. de
Putten, W.H. van der
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Document Type
Article
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Abstract
Recent studies have concluded that release from native soil
pathogens may explain invasion of exotic plant species.
However, release from soil enemies does not explain all plant
invasions. The invasion of Ammophila arenaria (marram grass or
European beach grass) in California provides an illustrative
example for which the enemy release hypothesis has been
refuted. To explore the possible role of plant soil community
interactions in this invasion, we developed a mathematical model.
First, we analyzed the role of plant soil community interactions
in the succession of A. arenaria in its native range (north-western
Europe). Then, we used our model to explore for California how
alternative plant soil community interactions may generate the
same effect as if A. arenaria were released from soil enemies. This
analysis was carried out by construction of a ‘recovery plane’ that
discriminates between plant competition and plant soil
community interactions. Our model shows that in California,
the accumulation of local pathogens by A. arenaria could result in
exclusion of native plant species. Moreover, this mechanism could
trigger the rate and spatial pattern of invasive spread generally
observed in nature. We propose that our ‘accumulation of local
pathogens’ hypothesis could serve as an alternative explanation
for the enemy release hypothesis to be considered in further experimental studies on invasive plant species.