Abstract
Current scientific debate addresses whether species richness in animal communities may negatively moderate pathogen transmission and disease outcome (dilution effect), or to the contrary, if disease emergence benefits from more diverse community assemblages (amplification effect). The result may not depend exclusively on patterns of host species biodiversity but may depend on the specific composition of reservoir hosts and vectors, and their ecology. Host–pathogen interactions have shaped variations in parasite virulence, transmissibility and specificity. In the same way the importance of factors related to host exposure or to life history trade-offs are expected to vary. In this study, we demonstrate that ungulate host species richness correlates with increased community competence to maintain and transmit pathogens of the Mycobacterium tuberculosis complex (MTC) in game-managed areas in Mediterranean Spain. Therefore, we should consider natural and artificial variations in life histories of pathogens and host communities to characterize the impact of biodiversity on the health of diverse assemblages of human and animal communities. Since most approaches assessing epidemiology and transmission of shared pathogens only involve single- or pair-species, further research is needed to better understand the infection dynamics from complete community assemblages, at least in chronic diseases such as tuberculosis and in non-natural animal communities.
Highlights
Changes in host species diversity have been described as important factors influencing transmission risk of infectious diseases
We found a 46% increase in community competence for transmitting and maintaining TB in richer assemblages with three or four species compared with estates where only one species is present (10.29 ± 2.87; Linear models (LM), f.d. = 2, F = 3.32, p = 0.046; Figure 1a)
No effect in community competence was related to host abundance rates (LM, f.d. = 1, F = 1.349, p = 0.252)
Summary
Changes in host species diversity have been described as important factors influencing transmission risk of infectious diseases. We aimed to establish the correlation between host species richness and the competence of the whole community [1,6] to maintain and transmit tuberculosis (TB) in managed scenarios from Mediterranean Spain. Studies which adopt a community perspective are needed to better understand the complex effect of the structure of livestock and wildlife populations on MTC transmission scenarios [7,13,14].
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