Ecological Effects on Lyme Disease Transmission Helio Shimozako Hsunyi Hsieh Luiz Henrique Fonseca Marina Salles Rosângela Sanches Tharindu Wickramaarachchi.

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Presentation transcript:

Ecological Effects on Lyme Disease Transmission Helio Shimozako Hsunyi Hsieh Luiz Henrique Fonseca Marina Salles Rosângela Sanches Tharindu Wickramaarachchi II Southern-Summer School on Mathematical Biology Jan

The Lyme Disease What is it?  A tick-borne zoonosis caused by the bacteria Borrelia burgdorferi  It is transmitted reciprocally between wildlife reservoirs and ticks.  Humans can get infected, but are dead ends and do not transmit the disease. Why is studying ecological effects on Lyme disease transmission important?  The range of the Lyme disease has been increasing in NA.  Vertebrate animals are important hosts of the black-legged tick, lxodes scapudaris, which is a vector of spirochete bacteria (Borrelia burgdorferi) that cause Lyme disease in humans.

Scientific Debates Argument I: Oak mastings + Deer increase the transmission of the Lyme disease in North America (Jones et al. 1998) Vs. Argument II: The increase of top predators (e.g. coyotes) increases the transmission of the Lyme disease in North America (Levi et al. 2012)

Source: Argument I

Argument II Levi et al (PNAS)

Biological factors 1. Oak masting occurs every 2-5 years 2. Gypsy moths significantly affects oak growth and delays oak masting 3. The gypsy moth is a critical food of the white-footed mice 4. Oak masting attracts large quantity of deer to the forests

Our research questions Q1: Would oak masting have an influence on the outbreak of the white-footed mice? Q2: Would there be a trade-off between Gypsy-Moth outbreak and the Lyme disease outbreak?

Mathematical Model

Explain the stochastic implementation of the masting function

Oak energy is subject to an energy constant, a proxy of its biomass. Masting occurs while energy accumulation in oaks reaches a threshold that is randomly generated.

Simulation results

Dynamics

Time mice population was above threshold

Moths reduce Stocasticity red: peaks of mice, black: minimums of mice, gray: peaks of moths, blue: minimums of moths

K=1

K=2.2

K=3

Conclusions 1. Oak masting increases the chance of mice outbreak 2. However, by delaying oak masting, the gypsy moth inhibits the outbreak of white-footed mice. The outbreaks of the moth and the Lyme disease are thus likely to be non-synchronous.

Discussions Although we did not model the effect of deer, our simulation results suggest that the gypsy moth, an important pest of oak forests, would play a significant role in mediating the outbreak of the Lyme disease. Could this help reconcile the controversy of the scientific debate?

Acknowledgement Fernando Rossine Renata S. Khouri Christina Cobbold Andre Chalom Paulo Inacio Prado Eduardo Mariano II Southern-Summer School on Mathematical Biology