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Data from: Recurrent insect outbreaks caused by temperature-driven changes in system stability

Citation

Nelson, William A.; Bjornstad, Ottar N.; Yamanaka, Takehiko (2013), Data from: Recurrent insect outbreaks caused by temperature-driven changes in system stability, Dryad, Dataset, https://doi.org/10.5061/dryad.n11d4

Abstract

Insect species often undergo regular outbreaks in population density, but identifying the causal mechanism for such outbreaks in any particular species has proven difficult. Here we show that outbreak cycles in the tea tortrix Adoxophyes honmai can be explained by temperature-driven changes in system stability. Wavelet analysis of a 51yr time series spanning over 200 outbreaks reveals a threshold in outbreak amplitude each spring when temperature exceeds 15°C, and a secession of outbreaks each fall as temperature decreases. This is in close agreement with our independently parameterized mathematical model that predicts the system crosses a Hopf bifurcation from stability to sustained cycles as temperature increases. These results suggest that temperature can alter system stability and provide an explanation for generation cycles in multivoltine insects.

Usage Notes

Location

Kagoshima
Japan