An individual based model for the conservation of the endangered Large Blue Butterfly, Maculinea arion (Lepidoptera : Lycaenidae)
Authored by EM Griebeler, A Seitz
Date Published: 2002
DOI: 10.1016/s0304-3800(02)00131-x
Sponsors:
German Federal Ministry of Education and Research (BMBF)
Platforms:
No platforms listed
Model Documentation:
Other Narrative
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Model Code URLs:
Model code not found
Abstract
European populations of the Large Blue Butterfly Maculinea arion have
experienced severe declines during the 20th century, especially in the
northern part of the species' range. This endangered lycaenid butterfly
needs two resources for development: flower buds of specific plants
(Thymus spp., Origanum vulgare), on which young caterpillars briefly
feed, and red ants of the genus Myrmica, whose nests support
caterpillars during a prolonged final instar. In order to improve
understanding of those mechanisms that are most influential to
population dynamics of the butterfly, we developed a stochastic
population model. This individual based model implements three main
biological components relevant for population dynamics of the butterfly:
(i) life on the initial host plant, (ii) adoption of the caterpillars by
host ants, and (iii) life of the caterpillars within host ant nests. The
model explicitly describes the spatial distribution and abundance of the
butterfly, the foodplant and the host ant. Life-history parameters of
the butterfly were derived from literature. Habitat characteristics such
as area size, Thymus cover, density of host ant nests and proportion of
adoption by non-host Myrmica ant species were obtained from a population
of M. arion in the Swabian Jura (Baden-Wurttemberg, Germany). The model
was successfully tested on results from studies of this natural
population. A highly significant correlation between the number of
individuals marked in the field and the number of individuals predicted
by the model was found. A sensitivity analysis was used to test and
assess general conservation measures for the Swabian population and the
species in general. The Monte Carlo simulations clearly indicate that
the density of host ant nests and the proportion of caterpillars adopted
by non-host ant Myrmica is more critical for the survival of the
butterfly than the density of its initial foodplants. A population
inhabiting an area of I ha is likely to be regarded as safe for the next
50 years under the following conditions: Thymus cover should not fall
below 5\%, the proportion of adoption of caterpillars by host ants
should be greater than 20\%, and a minimum nest density of host ants
greater than 500 per ha should be assured. Maintenance or
re-establishment of grazing or mowing was successfully tested as a
suitable conservation measure for declining M. arion populations. (C)
2002 Elsevier Science B.V. All rights reserved.
Tags
Habitats
Quality
Population-dynamics
Larvae
Myrmica ant nests
Euphydryas-editha
Rebeli