IUCN 2nd African Buffalo Symposium
Permanent URI for this collection
This digital collection includes presentations from the International Union for Conservation of Nature (IUCN) 2nd African Buffalo Symposium, which was held in conjunction with the 9th International Wildlife Ranching Symposium in 2016.
Browse
Browsing IUCN 2nd African Buffalo Symposium by Author "Azenwa, Vanessa, author"
Now showing 1 - 1 of 1
Results Per Page
Sort Options
Item Open Access Primary production drives ecophysiological cascades in African buffalo(Colorado State University. Libraries, 2016-09) Combrink, Henri, author; Beechler, Brianna, author; Azenwa, Vanessa, author; Jolles, Anna, author; International Wildlife Ranching Symposium, publisherIn savannah ecosystems, annual photosynthetic cycles are conspicuous from leaf to landscape level, introducing substantial temporal variability in the quality and quantity of forage plants. As such, the life histories and health of herbivores should be tightly coupled to seasonal phenological patterns; and occurrence patterns of infectious diseases may be driven by the resulting fluctuations in animal immune status. However, few longitudinal datasets including measures of forage quality, along with physiological, immunological and disease outcomes for ungulate consumers have yet been available to test this idea. In this work we used a novel dietary metric, faecal chlorophyll, to show that African buffalo (Syncerus caffer caffer) are highly sensitive to variation in primary production. We demonstrate that faecal chlorophyll correlates tightly with faecal nitrogen, which is often used to evaluate nutritional condition in ungulates; however, faecal chlorophyll assays are far more economical to run. We employ time lagged cross-correlation functions to explore its relationship with various environmental, physiological and immunological parameters and their outcomes for buffalo physiological condition and susceptibility to disease. Our results suggest that primary production is an overwhelming explanatory variable driving broad population level patterns of physiological condition, susceptibility to parasites, disease prevalence and the synergistic outcomes of these on buffalo health. Such strong links to environmental variability have cascading implications for disease dynamics and how we model the spread and maintenance of diseases in ungulate populations. We discuss the implications of this work for evaluating the vulnerability of buffalo to changes in climate, land use or management.