Some
research we carried out within the Water Friendly Farming project in 2017 has
just been published in the Journal of Environmental Management. We use a herbicide that is used to control
black-grass in arable crops as an initial focus for exploring broad catchment
management issues with farmers in the study area.
Propyzamide
is applied to the oilseed rape stage of the rotation and while being a crucial
means of controlling black-grass also creates a problem for drinking water
supply as it often exceeds the 0.1µg/L limit set by the EU Drinking Water
Directive. This puts its use at risk of
restriction. The herbicide moves to
water mainly adsorbed to soil particles, so as well as being linked to the
stage of the crop rotation, its mobility is reduced by soil management
practices that reduce erosion and subsequent sedimentation of water courses.
We
found that the concentrations in water were influenced largely by the area of
oilseed rape in the catchment, and by rainfall.
Modelling suggested that, to keep below the 0.1µg/L limit, the rape area
would need to be restricted to just 2-3% of the catchment. This is something that participating farmers
felt was not practical to manage across the catchment, given that there were
multiple farms and the rape area grown was up to 30% of the land area. Oilseed rape was considered to be an
important part of the rotation. A higher limit for headwater catchments that are distant from drinking water abstraction points might be more manageable but would require coordination of, and collaboration between farmers.
Pest problems now make establishing rape more difficult |
Since our research in 2017, oilseed rape has become a slightly less popular crop. The ban on the use of neonicitinoid insecticides has made the control of cabbage stem flea beetle (a major pest of rape) a substantial challenge. Alternative pyrethroid insecticides, applied as a spray to the crop, rather than as a seed dressing, reduce numbers of a wide range of other invertebrates, including beneficial predators and parasitoids of flea beetles. It is especially important to encourage these beneficial invertebrates as flea beetles are developing resistance to pyrethroids.
The
area of oilseed rape, its yields and profitability have therefore all declined
in the past couple of years. Up until
that time, rapeseed and oil were imported and exported to and from the EU but
the UK was essentially self-sufficient.
Reduced production in future could mean increased imports of vegetable
oils from other countries. If rape or
sunflower are imported from the EU, the crops are currently subject to the same
environmental standards as our own, but if from other countries we may find
ourselves using oil and animal feed produced using methods which we would not
permit in the UK, while simultaneously disadvantaging UK farmers. Substitution with palm oil from Indonesia and
Malaysia has even greater environmental implications.
The
use of a herbicide and an insecticide in oilseed rape crops may seem to be
independent activities to be considered in
isolation, but our research on propyzamide, and the more recent developments
with neonicitinoids demonstrate the integration of a wide range of associated activities
across and beyond the production of the crop.
Our
journal paper is available here as a free download until 18 March.