ORCID Profile
0000-0002-9711-4340
Current Organisation
Oregon State University
Does something not look right? The information on this page has been harvested from data sources that may not be up to date. We continue to work with information providers to improve coverage and quality. To report an issue, use the Feedback Form.
Publisher: Wiley
Date: 10-04-2023
DOI: 10.1111/MEC.16949
Abstract: In idual animals in natural populations tend to host erse parasite species concurrently over their lifetimes. In free‐living ecological communities, organismal life histories shape interactions with their environment, which ultimately forms the basis of ecological succession. However, the structure and dynamics of mammalian parasite communities have not been contextualized in terms of primary ecological succession, in part because few datasets track occupancy and abundance of multiple parasites in wild hosts starting at birth. Here, we studied community dynamics of 12 subtypes of protozoan microparasites ( Theileria spp.) in a herd of African buffalo. We show that Theileria communities followed predictable patterns of succession underpinned by four different parasite life history strategies. However, in contrast to many free‐living communities, network complexity decreased with host age. Examining parasite communities through the lens of succession may better inform the effect of complex within host eco‐evolutionary dynamics on infection outcomes, including parasite co‐existence through the lifetime of the host.
Publisher: Wiley
Date: 20-12-2020
DOI: 10.1002/ECE3.5758
Publisher: The Royal Society
Date: 02-2020
Abstract: Newborn mammals have an immature immune system that cannot sufficiently protect them against infectious diseases. However, variation in the effectiveness of maternal immunity against different parasites may couple with temporal trends in parasite exposure to influence disparities in the timing of infection risk. Determining the relationship between age and infection risk is critical in identifying the portion of a host population that contributes to parasite dynamics, as well as the parasites that regulate host recruitment. However, there are no data directly identifying timing of first infection among parasites in wildlife. Here, we took advantage of a longitudinal dataset, tracking infection status by viruses, bacteria, protists and gastro-intestinal worms in a herd of African buffalo ( Syncerus caffer ) to ask: how does age of first infection differ among parasite taxa? We found distinct differences in the age of first infection among parasites that aligned with the mode of transmission and parasite taxonomy. Specifically, we found that tick-borne and environmentally transmitted protists were acquired earlier than directly transmitted bacteria and viruses. These results emphasize the importance of understanding infection risk in juveniles, especially in host species where juveniles are purported to sustain parasite persistence and/or where mortality rates of juveniles influence population dynamics.
Publisher: Elsevier BV
Date: 08-2023
Publisher: Elsevier BV
Date: 03-2017
DOI: 10.1016/J.TTBDIS.2017.01.003
Abstract: Bovine anaplasmosis is a tick-borne disease, mainly caused by Anaplasma marginale and A. centrale and is distributed in tropical and sub-tropical areas. This study aimed to characterise A. marginale and A. centrale from African buffaloes in Kruger National Park (KNP), South Africa, using the DNA sequences of the genes coding for major surface protein (msp1β) and heat shock protein (groEL), respectively. A total of 747 blood s les were collected from February 2014 to August 2016 from African buffaloes kept in KNP, and DNAs were tested using a molecular-phylogenetic approach. Out of 747 s les tested, 129 (17.3%) and 98 (13.1%) were positive for single infection with A. marginale and A. centrale, respectively whereas 113 (15.1%) were positive for both Anaplasma spp. Pairwise difference of 1.6-8.5% was observed in msp1β sequences of A. marginale whereas that was only 0.3-2.4% for groEL sequences of A. centrale. Separate phylogenetic analyses of msp1β and groEL sequences of A. marginale and A. centrale, respectively, revealed that sequences of Anaplasma spp. from African buffaloes were unique and they grouped separately when compared with previously published sequences of both species. This is the first study to characterise A. marginale and A. centrale from African buffalo using species specific molecular markers. This study will pave the way for future studies to assess genetic variation among Anaplasma spp. from wild ruminants using molecular markers that are better at differentiating between species and strains than the more commonly used 16S rRNA gene, and help to undertake health and fitness studies and host-parasite dynamics using quantitative molecular tools.
No related grants have been discovered for Brianna Beechler.