Processes leading to the coexistence of a host and its parasitoid in homogeneous environments: The role of an infected dormant stage
Authored by Sami Souissi, Marc Arancio, Marc Sourisseau
Date Published: 2014
DOI: 10.1016/j.ecolmodel.2014.02.015
Sponsors:
French National Research Agency (ANR)
Platforms:
No platforms listed
Model Documentation:
ODD
Flow charts
Mathematical description
Model Code URLs:
Model code not found
Abstract
Theoretical studies have usually been used to explain host-parasitoid
persistence in conditions of spatial heterogeneity or in homogeneous
environments with specific conditions. In shallow estuaries where
spatial heterogeneity is prevented by tides and river input, a common
host-parasitoid system (dinoflagellate-Amoebophrya spp.) is able to
persist even in the absence of specific conditions described in the
literature. Recent observations have revealed that the cyst stage
(during which the dinoflagellate host can survive in difficult
environmental conditions in a dormant stage) can be infected by the
parasitoid. The encystment/excystment process is suspected to be the
basis for the long-term persistence of the system. In this work, the
coexistence of Amoebophrya spp. and their hosts in homogeneous
environments has been tested with an individual-based model of
host-parasitoid interactions. Three processes that enable the
coexistence were introduced into our model: (1) modifications in
infection parameters, (2) a tritrophic food web and (3) a host
encystment-excystment process. The persistence of the system was
obtained in mixed conditions in all cases; however, the conditions
required to obtain persistence with the infection parameter
modifications were unrealistic. The tritrophic food web scenario
produced short, stable, 10-d-long cycles in which the control of the
parasite population in the environment was difficult to observe. The
excystment process appears to be responsible for the interannual
persistence of the system. Durable cycles with periods of 50 d were
produced despite the unstable conditions. Moreover, these cycles did not
depend on the proportion of infected cysts as long as a portion of the
cysts remained healthy. (c) 2014 Elsevier B.V. All rights reserved.
Tags
Phytoplankton
growth
Population-dynamics
Associations
Dinoflagellate blooms
Northeast japan
Chesapeake
bay
Onagawa bay
Dinophyceae
Cysts