Abstract
Minerals are critical to an individual’s health and fitness, and yet little is known about mineral nutrition and requirements in free-ranging primates. We estimated the mineral content of foods consumed by mountain gorillas (Gorilla beringei beringei) in the Bwindi Impenetrable National Park, Uganda. Mountain gorillas acquire the majority of their minerals from herbaceous leaves, which constitute the bulk of their diet. However, less commonly eaten foods were sometimes found to be higher in specific minerals, suggesting their potential importance. A principal component analysis demonstrated little correlation among minerals in food items, which further suggests that mountain gorillas might increase dietary diversity to obtain a full complement of minerals in their diet. Future work is needed to examine the bioavailability of minerals to mountain gorillas in order to better understand their intake in relation to estimated needs and the consequences of suboptimal mineral balance in gorilla foods.
Highlights
Minerals play a vital role in the growth and maintenance of animal tissues [1], including their involvement in maintaining structural components, mediating enzymatic reactions, and maintaining acidbase balance (e.g. Ca) in the body [2,3]
Mineral content of food items Plant parts differed in concentrations of Ca (H = 36.56, P, 0.001), P (H = 14.99, P = 0.01), Mg (H = 31.85, P,0.001), K (H = 27.15, P,0.001), Na (H = 15.26, P = 0.01), Zn (H = 12.24, P = 0.03), Fe (H = 29.15, P,0.001), and Mn (H = 23.64, P, 0.001), but not in concentrations of Cu (Figure 1)
Pith/stem was higher than bark, fruit, herbaceous leaves, and tree leaves in K, and had the highest mean concentrations for P, Zn, and Cu
Summary
Minerals play a vital role in the growth and maintenance of animal tissues [1], including their involvement in maintaining structural components (e.g. magnesium [Mg], manganese [Mn], and phosphorus [P]), mediating enzymatic reactions (e.g. calcium [Ca], potassium [K], Mg, and zinc [Zn]), and maintaining acidbase balance (e.g. Ca) in the body [2,3]. Mineral deficiency has both short- and long-term health costs, including compromised neuromuscular, gastrointestinal, cardiovascular, cognitive, or immune functioning [2]. Few studies have investigated the dietary minerals of primates [7,8,9,10,11,12,13,14], and of apes [15,16,17,18,19]
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