Modeling the relative importance of ecological factors in exotic invasion: The origin of competitors matters, but disturbance in the non-native range tips the balance
Authored by Ragan M Callaway, Sa Xiao, Ryan Graebner, Jose L Hierro, Daniel Montesinos
Date Published: 2016
DOI: 10.1016/j.ecolmodel.2016.05.005
Sponsors:
European Union
Portuguese Foundation for Science and Technology (FCT)
United States National Science Foundation (NSF)
Platforms:
NetLogo
Model Documentation:
ODD
Mathematical description
Model Code URLs:
http://ars.els-cdn.com/content/image/1-s2.0-S0304380016301752-mmc2.doc
Abstract
Successful exotic plant invasions are likely to be caused by multiple, non-mutually exclusive mechanisms, and it is exceptionally difficult to
weight the relative importance of these mechanisms identified in
different experiments. To this end we used individual-based models to
explore how integrating empirical results from experiments might help to
elucidate the relative importance of seed origin, biogeographic
differences in competitive outcomes, and disturbance in exotic plant
invasion. We integrated results from (1) competition experiments between
Centaurea solstitialis derived from populations in the nonnative range
(California), the native range (Spain), and co-occurring native species
from both ranges, (2) seed production by Centaurea plants from the
different ranges grown in a common-garden environment, and (3) responses
to disturbance experiments with plants from different native and
non-native ranges. Californian C. solstitialis reached slightly higher
abundances than its Spanish counterparts in every scenario, mainly due
to higher seed production of Californians than their Spanish
conspecifics, indicating the potential importance of evolutionary
changes in the non-native range. In the absence of disturbance, grass
species native to Europe showed stronger competitive effects on C.
solstitialis than grass species native to North America, suggesting that
release from competition in the native range may have some explanatory
power for successful C. solstitialis invasion. However, the intensity of
competition depended on the disturbance regime used in models. When
intense disturbance was incorporated into the model, C. solstitialis was
favored, with plants from Californian seed sources reaching higher
densities than plants from Spanish seed sources. Our results are
consistent with the idea that disproportional positive responses to
disturbance in California, relative to those in the invader's native
range of Spain, may be an important factor in the dominance of C
solstitialis in its non-native ranges. It is not clear why disturbance
would have more beneficial effects on the invader in its non-native
range, but the powerful effects of disturbance appear to interact in
subtle ways with biogeographic differences in evolutionary trends, competitive intensities, life histories, and reproductive rates. (C)
2016 Elsevier B.V. All rights reserved.
Tags
Evolution
growth
Recruitment
Size
Resistance
Biological-control
Negative species interactions
Interplay
Starthistle centaurea-solstitialis
Seed limitation