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Predator -Prey Interactions

7 Januari 2010   23:59 Diperbarui: 26 Juni 2015   18:34 604
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Nevertheless, the rates of disappearance revealed suggest that underground predation is likely to be an important parameter in insect population dynamics, and so of concern to pest managers. It is therefore of interest to note the impact of pesticides on soil predation. In the studies on both overground and soil insecticides, pupal disappearance and predator contact with prey were reduced immediately after application, but the effects proved short-lasting, and relatively unimportant at depth.

However, it must be remembered that an important element in the effects that any insecticide have on natural communities is the area treated. Mobile animals quickly reinvade insecticide-treated areas, once the effects of the insecticide wear off, as they do rapidly with modern low persistence chemicals (Murdoch, et al. 1985; Murdoch & Oatens, 1988 and Judd & Mason, 1995). In the present experiments, the areas treated were only one square meter each. It is also difficult to disentangle the effects that low doses of insecticides have on mortality, compared with repellency. The latter only protects prey and predators if, as in this case, there is a small scale mosaic of treated and untreated areas, but the present study is interesting in its implications that treatment might (presumably through repellency) drive predators deeper into the soil. The effects observed are generally similar both with an insecticide which is likely to reach the soil only as run-off from crop spraying (permethrin) and with a more specifically designed insecticide for soil pests (dursban). An interesting extension of this would be to compare insecticide formulations such as granules, which are now commonly used for soil applications.

However, the results in general confirm the view that the soil is a robust ecological system, rather resilient to pesticide damage with its highly active microbial flora which can break down a wide range of chemicals, and its finely divided mineral and organic content which can adsorb both the pesticides and their breakdown products. It is for these reasons that soil animals are so difficult to control chemically, and why perhaps soil predators can also recover rapidly.

A study such as this usually raises more questions than it solves, and the reasons why some groups such as Diplura should show a strong preference for nocturnal activity, when they operate deep within the soil is unknown. However, it is hoped that the present study has shown that the use of rhizotrons can illuminate an important, and much neglected area of ecology, namely the activity and population dynamics of soil organisms.

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