Herbicides and Plant Physiology. Andrew H. Cobb

Herbicides and Plant Physiology - Andrew H. Cobb


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although leaves may be removed manually or by grazing, the means of vegetative reproduction remains in the soil. Only continuous cultivation will prevent the accumulation of stored nutrient reserves and so control these weeds.

      Black‐grass flowers from May to August and is cross‐pollinated. Seeds have short dormancy and viability (3% viable after 3 years), so ploughing, crop rotation or spring sowing will remove the problem.

Schematic illustration of effect of black-grass density on the growth and yield of winter wheat.

      Source: Moss, S.R. (1987) Competition between blackgrass (Alopecurus myosuroides) and winter wheat. British Crop Protection Conference. Weeds 2, 367–374.

      Bracken creates a profound shading effect, suppressing underlying flora and gradually eliminating grass growth. Bracken also contains various carcinogens and mutagens, and is therefore poisonous to both humans and grazing animals. In addition, bracken may provide a haven for sheep ticks, which can transfer numerous sheep and grouse diseases.

      Cleavers (G. aparine) is considered by many to be the most aggressive weed of winter cereals. It is of ubiquitous occurrence in hedgerows, and has become most invasive in cereals and oilseed rape. Its climbing and scrambling habit allows it to rapidly outgrow the crop to form a dense weed canopy, eventually causing severe lodging, interference with harvesting procedures, large yield losses and severe crop contamination.

      There is nowadays an increasingly widespread occurrence of crop species in succeeding crops when sown in rotation. These ‘volunteer’ crops include potatoes, cereals, oilseed rape and sugar beet.

      Potato ‘ground keepers’ are usually small tubers that are missed by the harvesters, although some are derived from true seeds. They can last several seasons, and pose a particular problem in subsequent pea and bean crops where they can only be eliminated by hand rogueing. They also pose a considerable threat to the health and certification of subsequent potato crops since they can carry over pests and virus infections.

      Weed (sugar) beet has also become a serious problem in Europe, such that at least 45% of the UK crop is infested. These bolters also severely reduce crop yield.

      In all cases harvesting techniques must be improved to avoid substantial seed return to the soil, and agronomic practices should be altered to reduce rapid germination of volunteers. It is also important that volunteers containing engineered resistance to herbicides are avoided at all costs. These plants would be difficult to control by chemical means, and could have serious consequences to the spread of herbicide‐resistant genes in the population at large (Young, 1989).

      The water hyacinth (Eichornia crassipes Mart. Solms) has been blamed for the loss of 10% of the water in the river Nile, equivalent to 7 × 109 m3 annually, through increased transpiration, and this loss is in addition to its deleterious effects on irrigation systems, fishing activity, navigation and health (by harbouring vectors of human disease organisms) which, together with its pan‐tropical spread, have earned it the name ‘the million dollar weed’ (Lacey, 1985).

      Although this section will outline the positive roles of weeds in agroecosystems, it might more properly be titled ‘Positive Attributes of Non‐sown Plant Species’, to reflect the definition of a weed given at the beginning of this chapter.

      Non‐sown species of plant, whether native to a piece of land or accidentally introduced, can perform a number of very important roles. These need to be assessed prior to the implementation of any weed management practices as removal might cause more harm than good. Non‐sown species have a valuable role in reducing soil erosion by water and wind. This is particularly important when a crop is small and after harvest, when erosion is likely to be more of a problem. An additional benefit is that plants growing in this situation will ‘lift’ and make available nutrients by absorbing them at depth through their roots and assimilating them into above‐ground biomass. When the above‐ground biomass dies, then nutrients are returned to the soil surface. If the non‐sown species is a legume, then the added benefits of nitrogen fixation can be considered. In this way non‐sown species are not only reducing erosion but also reducing nutrient leaching.

      Although non‐sown species may act as reservoirs and alternative hosts for pests and diseases, they can also act as shelter for beneficial organisms that can contribute to biological control in crops. This shelter may be in the form of hedgerows or artificially created beetle banks, but the role of non‐sown species must not be underestimated. In addition, complete removal of all non‐crop species gives herbivorous organisms no choice but to eat the crop. Recent research has investigated whether organisms such as slugs might preferentially predate on non‐crop species if they are present (Brooks et al., 2003).


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