Abstract
In disease ecology, the host immune system interacts with environmental conditions and pathogen properties to affect the impact of disease on the host. Within the host, pathogens may interact to facilitate or inhibit each other's growth, and pathogens interact with different hosts differently. We investigated co-infection of two Mycoplasma and the association of infection with clinical signs of upper respiratory tract disease in four congeneric tortoise host species (Gopherus) in the United States to detect differences in infection risk and disease dynamics in these hosts. Mojave Desert tortoises had greater prevalence of Mycoplasma agassizii than Texas tortoises and gopher tortoises, while there were no differences in Mycoplasma testudineum prevalence among host species. In some host species, the presence of each pathogen influenced the infection intensity of the other; hence, these two mycoplasmas interact differently within different hosts, and our results may indicate facilitation of these bacteria. Neither infection nor co-infection was associated with clinical signs of disease, which tend to fluctuate across time. From M. agassizii DNA sequences, we detected no meaningful differentiation of haplotypes among hosts. Experimental inoculation studies and recurrent resampling of wild individuals could help to decipher the underlying mechanisms of disease dynamics in this system.
Highlights
The manifestation of disease depends on interactions between the host and pathogen, in relation to the environment of the host
Host species differed in prevalence of M. agassizii: desert tortoise species had higher prevalence than Texas tortoises (p < 0.001 each) and Mojave Desert tortoises had higher prevalence than gopher tortoises (z = –4.768, p < 0.001)
No host species followed this pattern without it being driven by a single, strongly infected sample. We detected both M. agassizii and M. testudineum in all four tortoise species inhabiting the USA. These pathogens have been reported to cause upper respiratory tract disease (URTD) in tortoise hosts, and some have hypothesized that URTD has caused population declines in Mojave Desert tortoises and gopher tortoises [4,5,14,34,35,36]
Summary
The manifestation of disease depends on interactions between the host and pathogen, in relation to the environment of the host. Pathogens can directly or indirectly affect other pathogens. When co-infecting a host, and these microbial interactions can, in themselves, positively or negatively 2 affect the survival of each pathogen within the host Mutualistic, commensalistic or neutral interactions of pathogens within a host can result in additive or synergistic rates of clinical signs of disease. Co-infection of pathogens that interact with each other negatively could result in disease with lower impact than what is expected additively
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