GeneTraMP, a spatio-temporal model of the dispersal and persistence of transgenes in feral, volunteer and crop plants of oilseed rape and related species
Authored by Broder Breckling, Hauke Reuter, Ulrike Middelhoff
Date Published: 2011
DOI: 10.1016/j.ecolind.2009.03.006
Sponsors:
German Federal Ministry of Education and Research (BMBF)
Platforms:
No platforms listed
Model Documentation:
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Model Code URLs:
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Abstract
We present a mechanistic simulation model (GeneTraMP), which allows
analysing the persistence and dispersal of genetically modified plants
(GMP) in heterogeneous landscapes. The modelling approach focuses on a
spatial explicit representation of both, individual feral and volunteer
plants as well as aggregated plant cohorts of crop plants and their
reproduction units (pollen and seeds). The plant representation is set
up to differentiate several crop species and related wild species. A
variable number of genes can be considered, enabling to study a variety
of questions related to gene flow, persistence and stacking of
genetically modified traits in agricultural and natural landscapes.
Different management schemes can be included to quantify and evaluate
the outcome of small-scale interactions of natural processes and human
activities in relation to various issues of concern in the current
debate on GMP concerning environmental impact, biodiversity issues and
the coexistence of GM and conventional crops. In this paper we present
the general model setup, model structure and the implementation of basic
processes concerning spatial configuration, plant development and
dispersal of pollen and seeds. As far as possible, these were
implemented by applying existing and previously validated model
descriptions. The parameterisation was done for oilseed rape (OSR) and
the region of northern Germany. Simulation results are presented to
provide first insights into the potential of the model to represent and
analyse many relevant aspects related to the introduction of genetically
modified (GM) OSR crops in agriculture. The model also provides a basis
for a spatial extrapolation when being run with appropriate data sets
that represent the regional variability of relevant input parameter. (C)
2009 Elsevier Ltd. All rights reserved.
Tags
individual-based models
Pollination
Populations
Mediated gene flow
Brassica-napus l.
Pollen-dispersal
Herbicide resistance
Commercial fields
Outcrossing
rate
Long-distance