Regional distribution of genetically modified organisms (GMOs)-Up-scaling the dispersal and persistence potential of herbicide resistant oilseed rape (Brassisca napus)
Authored by Broder Breckling, Hauke Reuter, Gunther Schmidt, Winfried Schroeder, Ulrike Middelhoff, Hendrik Pehlke
Date Published: 2011
DOI: 10.1016/j.ecolind.2009.03.007
Sponsors:
European Union
German Federal Ministry of Education and Research (BMBF)
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Model Code URLs:
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Abstract
Most genetically modified (GM) crop plants are designed to be grown on
large areas. However, empirical investigations for risk assessment are
limited in their temporal and spatial extent. In the case of GM crop
plants it is difficult to test the relevance of anticipated risks on the
same spatial scale as the intended use. Processes which are difficult to
assess experimentally include combinatory effects, interactions between
different integration levels, persistence, long distance dispersal and
occurrence of rare events. To a limited extent, it is possible to
combine results of investigations on small spatial scales in a way that
large-scale and long-term implications on the regional scale can be
analysed by using modelling and extrapolation approaches. It is thus
possible to indicate some of the involved risks which are not accessible
otherwise.
In this paper we present the results of an extrapolation methodology
comprising several scales from the field size up to the landscape level.
This methodology aimed at analysing the implications of a large-scale
release of genetically modified oilseed rape (GM OSR). The approach
consisted of an extrapolation scheme beginning with a landscape analysis
which generated representative scenarios considering climate and OSR
cultivation characteristics. For the spatial extent of several fields
this information was applied in an individual-based model representing
ontogeny, dispersal and persistence of cultivated, volunteers and feral
oilseed rape. In a final step, simulation results were extrapolated to
the region of Northern Germany.
Here we focus on the model results which were extrapolated to the
regional level by applying a set of ecological indicators which allowed
to assess potential implications on this level. These indicators
included the number and distribution of flowering GM plants and the
dynamics of GM OSR seeds in the soil seedbank. Specific results related
to the long-term dynamics in the seedbank and volunteer development.
Model results emphasise the long-term consequences of GM OSR cultivation
and the explicit necessity to regard high variability in potential GMO
admixture. This has to be considered when developing landscape
management schemes for co-existence.
The extrapolation approach presented here, integrates different traits
to assess effects of GMOs on large spatial scales with respect to
persistence and dispersal. The developed methodology is equally
applicable for other crops, regions and different agricultural
conditions. (C) 2009 Elsevier Ltd. All rights reserved.
Tags
models
Populations
Crops
Risk-assessment
Pollen
Seed
Cropping system
National-scale
Gene escape
Volunteer