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First estimates of the population growth rate of the parasitic honey bee mite Tropilaelaps mercedesae in Apis mellifera colonies

Aurell, D.; Tokach, R.; Chuttong, B.; Praphawilai, P.; Barascou, L.; Steury, T. D.; Duffy, K.; Jung, C.; Oh, H.; Bruckner, S.; Williams, G. R.

2026-07-07 zoology
10.64898/2026.07.06.736813 bioRxiv
Show abstract

A parasitic mite of honey bee brood (Tropilaelaps mercedesae), is spreading through populations of Apis mellifera honey bees in new regions and poses a major threat to honey bee health. Despite its clear threat, the biology of this mite is poorly understood, with gaps on such fundamental issues as how fast its populations can grow. This leaves the beekeeping world underprepared to plan for its arrival and management. In this study, we documented the growth of T. mercedesae populations in untreated A. mellifera colonies in Thailand and South Korea, and did the same for another parasitic mite (Varroa destructor) when possible. We found that the population growth of T. mercedesae was variable but could reach high levels (daily r of 0.010, 0.036, and 0.057), while the population growth of V. destructor (r = 0.021) matched previous estimates. Our results indicate that T. mercedesae populations can grow rapidly but they do not always attain this potential. Based on our results, humidity should be studied as a potential driver of population growth. If future work can reveal key drivers of T. mercedesae population growth, this would help predict infestations and help design management strategies that exploit the pest's biological vulnerabilities.

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