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Impacts of Fertilizers on Insect Pests
By modifying the nutrient composition of crops, fertilizer practices
can influence plant defenses. A review of 50 years of research identified
135 studies showing more plant damage and/or greater numbers of
leaf-chewing insects or mites in nitrogen-fertilized crops, while
fewer than 50 studies reported less pest damage. Researchers have
demonstrated that high nitrogen levels in plant tissue can decrease
resistance and increase susceptibility to pest attacks (Table
2). Although more research is needed to clarify the relationships
between crop nutrition and pests, most studies assessing the response
of aphids and mites to nitrogen fertilizer have documented dramatic
expansion in pest numbers with increases in fertilizer rates.
Crops could be expected, therefore, to be less prone to insect
pests and diseases where organic soil amendments are used, since
these amendments usually result in lower concentrations of soluble
nitrogen in plant tissue. Indeed, most studies documenting fewer
insect pests in organic systems have attributed these reductions
in part to lower nitrogen content in the crop tissues:
 In
Japan, the density of whitebacked planthopper (Sogatella furcifera)
immigrants in organic rice fields was significantly less than
their density in conventional rice fields. Fewer adult females
settled in the organic fields and fewer immatures survived, leading
to smaller ensuing generations. These results have been partly
attributed to lower nitrogen content in the organically farmed
crops.
In
England, conventional winter wheat fields were plagued with more
rose-grain aphids than their organic counterpart. Top-dressed
in April with nitrogen, the plants treated with soluble synthetic
fertilizers contained higher levels of free protein amino acids
in their leaves in June and attracted larger populations of aphids.
Researchers concluded that the aphids found the conventionally
grown wheat to be more palatable than the organically grown wheat.
In
Ohio greenhouse experiments, European corn borer females laid
significantly more eggs on sweet corn growing in conventionally
fertilized soils than they did on plants growing in organically
farmed soils collected nearby. Interestingly, egg-laying varied
significantly among the chemically fertilized treatments but was
uniformly low in organically managed soils. The difference appears
to be evidence for a form of biological buffering more commonly
found under organic conditions.
In
California, organically fertilized broccoli consistently developed
smaller infestations of flea beetles and cabbage aphids than conventionally
fertilized broccoli. Researchers attributed those reduced infestations
to lower levels of free nitrogen in plant foliage, further supporting
the view that farmers can influence insect pest preferences with
the types and amounts of fertilizers they use.
In
tropical Asia, by increasing organic matter in irrigated rice,
researchers enhanced populations of decomposers and plankton-feeders
— key components in the food chain of predators; in turn,
numbers of generalist predators of leafhopper pests rose significantly.
Organic matter management proved to underlie higher levels of
natural biological control.
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