MATHEMATICAL MODEL OF NETTLE CATERPILLARâS POPULATION CONTROL WITH PREDATOR IN OIL PALM PLANTATION
The nettle caterpillar eats leaves in oil palm plantations and significantly reduce production. In all stages, oil palm leaves can be eaten by nettle caterpillar. The nettle caterpillar eats the leaves until they have holes or completely exhausted and only the bone left. Commonly used pest contro...
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| Format: | Dissertations |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/56850 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The nettle caterpillar eats leaves in oil palm plantations and significantly reduce
production. In all stages, oil palm leaves can be eaten by nettle caterpillar. The
nettle caterpillar eats the leaves until they have holes or completely exhausted and
only the bone left. Commonly used pest control is chemical insecticides, but it
can cause environmental problems and disruption to the food chain. Therefore, the
handling of caterpillars is carried out by means of pest control that utilizes natural
enemies in the form of predatory insects. In this study, the population dynamics
of caterpillars and oil palm were studied through mathematical modeling. This
is important to do because mathematical modeling can provide projections of the
growth of caterpillars and their control strategies. This study builds a model of
the nettle caterpillar population dynamics through its life cycles, the use of natural
enemies (caterpillar predators) as well as involving the surface area of oil palm
leaves. The model is described in the form of compartments and expressed in a
system of ordinary differential equations. For each model, analysis and numerical
simulations were carried out. From the simulation results and model analysis, it was
found that the presence of predators could restrain the growth rate of caterpillars.
The natural growth rate of predators not only affects the predator population itself,
but also greatly affects the growth of the caterpillar population which indirectly
affects the leaf surface area. |
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