Cumulative impact of GM herbicide-tolerant cropping on arable plants assessed through species-based and functional taxonomies
Authored by Cathy Hawes, Geoffrey R Squire, Graham S Begg, Mark W Young
Date Published: 2009
DOI: 10.1007/s11356-008-0072-6
Sponsors:
Scottish Government
Scottish Government Rural Affairs
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
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Abstract
In a gradualist approach to the introduction of crop biotechnology, the
findings of experimentation at one scale are used to predict the outcome
of moving to a higher scale of deployment. Movement through scales had
occurred for certain genetically modified herbicide-tolerant (GMHT)
crops in the UK as far as large-scale field trials. However, the land
area occupied by these trials was still < 1\% of the area occupied by
the respective non-GM crops. Some means is needed to predict the
direction and size of the effect of increasing the area of GMHT cropping
on ecological variables such as the diversity among species and trophic
interactions. Species-accumulation curves are examined here as a method
of indicating regional-scale impacts on botanical diversity from
multiple field experiments.
Data were used from experiments on the effect of (GMHT) crops and
non-GM, or conventional, comparators in fields sown with four crop types
(beet, maize, spring and winter oilseed rape) at a total of 250 sites in
the UK between 2000 and 2003. Indices of biodiversity were measured in a
split-field design comparing GMHT with the farmers' usual weed
management. In the original analyses based on the means at site level, effects were detected on the mass of weeds in the three spring crops and
the proportion of broadleaf and grass weeds in winter oilseed rape, but
not on indices of plant species diversity. To explore the links between
site means and total taxa, accumulation curves were constructed based on
the number of plant species (a pool of around 250 species in total) and
the number of plant functional types (24), inferred from the general
life-history characteristics of a species.
Species accumulation differed between GMHT and conventional treatments
in direction and size, depending on the type of crop and its
conventional management. Differences were mostly in the asymptote of the
curve, indicative of the maximum number of species found in a treatment, rather than the steepness of the curve. In winter oilseed rape, 8\% more
species were accumulated in the GMHT treatment, mainly as a result of
the encouragement of grass species by the herbicide when applied in the
autumn. (Overall, GMHT winter oilseed rape had strong negative effects
on both the food web and the potential weed burden by increasing the
biomass of grasses and decreasing that of broadleaf weeds.) In maize, 33\% more species-a substantial increase-were accumulated in the GMHT
than in the conventional, consistent with the latter's highly
suppressive weed management using triazine herbicides. In the spring
oilseed rape and beet, fewer species (around 10\%) were accumulated in
the GMHT than the conventional. The GMHT treatments did not remove or
add any functional (life history) types, however. Differences in species
accumulation between treatments appeared to be caused by loss or gain of
rarer species. The generality of this effect was confirmed by
simulations of species accumulation in which the species complement at
each of 50 sites was drawn from a regional pool and subjected to
reducing treatment at each site. Shifts in the species-accumulation
parameters, comparable to those measured, occurred only when a treatment
removed the rarer species at each site.
Species accumulation provided a set of simple curve-parameters that
captured the net result of numerous local effects of treatments on plant
species and, in some instances, the balance between grass and broadleaf
types. The direction of effect was not the same in the four crops and
depended on the severity of the conventional treatment and on complex
interactions between season, herbicide and crop. The accumulation curves
gave an indication of potential positive or negative consequences for
regional species pools of replacing a conventional practice with GMHT
weed management. In this and related studies, a range of indicators, through which diversity was assessed by both species and functional
type, and at both site and regional scales, gave more insight into
effects of GMHT treatment than provided by any one indicator.
Species accumulation was shown to discriminate at the regional scale
between agronomic treatments that had little effect on species number at
the field scale. While a comprehensive assessment of GM cropping needs
to include an examination of regional effects, as here, the costs of
doing this in all instances would be prohibitive. Simulations of
diversity-reducing treatments could provide a theoretical framework for
predicting the likely regional effects from in-field plant dynamics.
Accumulation curves potentially offer a means of linking within-site
effects to regional impacts on biodiversity resulting from any change in
agricultural practice. To guide empirical measurement, there is a scope
to apply a methodology such as individual-based modelling at the field
scale to explore the links between agronomic treatments and the relative
abundance of plant types. The framework needs to be validated in
practice, using species-based and functional taxonomies, the latter
defined by measured rather than inferred traits.
Tags
Diversity
Abundance
Soil
Farm-scale evaluations
Volunteer oilseed rape
Intraspecific variation
Vegetable crops
Shepherds purse
Weed seeds
Capsella