Abstract
Rodents represent a serious threat to food security and public health. The extent to which rodent control can mitigate the risk from rodent‐borne disease depends on both the effectiveness of control in reducing rodent abundance and the impact on disease epidemiology. Focusing on a plague‐endemic region of Madagascar, this study compared the effectiveness of 3 methods: live‐traps, snap‐traps, and rodenticides. Control interventions were implemented inside houses between May and October 2019. Tracking tiles monitored rodent abundance. Rodent fleas, the vector involved in plague transmission, were collected. Rodent populations consisted of Rattus rattus and Mus musculus. In terms of trap success, we found that our live‐trap regime was more effective than snap‐traps. While all 3 control strategies appeared to reduce in‐house rodent activity in the short term, we found no evidence of a longer‐term effect, with in‐house rodent abundance in treated sites comparable to non‐treatment sites by the following month. Endemic flea, Synopsyllus fonquerniei, is a key plague vector usually found on rats living outdoors. Although we found no evidence that its abundance inside houses increased following control, this may have been due to a lack of power caused by significant variation in S. fonquerniei abundance. The presence of S. fonquerniei in houses was more likely when S. fonquerniei abundance on outdoor rats was higher, which in turn correlated with high rat abundance. Our results emphasize that control strategies need to consider this connectivity between in‐house rat–flea populations and the outdoor populations, and any potential consequences for plague transmission.
Highlights
Rodents pose a serious threat to agricultural productivity and public health
The specific objectives of the project were to (i) compare the effectiveness of live-traps and snap-traps for capturing rodents in houses; (ii) evaluate the effect of treatments on in-house rodent abundance in the short-term and long-term; (iii) assess evidence of increased reproduction in in-house rodent populations subjected to control; (iv) assess the impact of treatments on fleas inside houses, including the abundance of X. cheopis and the presence of S. fonquerniei; and (v) assess how in-house rodent and flea populations are impacted by the abundance of rodents and S. fonquerniei in the immediate surrounding areas
We detected no systematic variation between treatment groups in the probability of in-house rodent infestation (χ 2(3) = 5.7, P = 0.13), the abundance index in infested houses (χ 2(6) = 6.0, P = 0.11), or outdoor rodent abundance (χ 2(3) = 4.0, P = 0.26)
Summary
Pre- and postharvest losses to rodent pests contribute to malnutrition and global food insecurity (Meerburg et al 2009a). The effective control of rodents could have significant impacts on health and well-being. Due to their behavioral plasticity, life history traits, and high breeding potential, the control of rodents is notoriously difficult (Capizzi et al 2014)
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