Periodic Reporting for period 2 - ECODIS (Effects of co-infections on the emergence of an avian disease Mycoplasma gallisepticum)
Berichtszeitraum: 2020-06-16 bis 2021-06-15
The current COVID-19-crisis is providing ample evidence for pathogen evolution at rapid rates, fitness advantages allowing.
The objectives of this project - of which hypotheses have been tested within wild bird species - therefore are of high socio-economic value: understanding underlying processes of co-pathogen interactions on transmission dynamics is key to predict fitness landscapes favouring the one strain over the other, and therefore the population dynamics of both pathogen and host.
Hosts are typically co-parasitized by multiple species. Parasites can benefit or suffer from the presence of other parasites, which can reduce or increase the overall virulence due to competition or facilitation. Outcomes of new multi-parasite systems are seldom predictable. In 1994 the bacterium Mycoplasma gallisepticum jumped from poultry to songbirds in which it caused an epidemic throughout North America. Songbirds are often parasitized by hard ticks, that can act as reservoirs for tick-borne diseases. We tested the hypothesis that Mycoplasma infection in house finches influences North America’s most important tick vector Ixodes scapularis, by affecting the tick’s feeding success, detachment behaviour and survival to the next stage. Ticks detached during the day irrespective of the bird’s disease status and time since infestation. Birds incrementally invested in anti-tick resistance mechanisms over the course of the experiment; this investment was made earlier in the Mycoplasma-infected birds. At higher tick densities, the feeding success in birds with more severe conjunctivitis was lower than in the control birds. Throughout the experiment we found positive density dependent effects on the tick’s feeding success. More diseased hosts suffered more from the tick infestations, as shown by reduced haematocrits. Three Mycoplasma-infected birds died during the weeks following the experiment, although all birds were kept in optimal housing conditions. Mycoplasma made the bird a less accessible and valuable host for ticks, which is an example of ecological interference. Therefore, Mycoplasma has the potential to ultimately reduce transmission outcomes of tick-borne pathogens via songbird hosts.
No specific project website has been developed.