Factors Affecting Leaf Selection by Foregut-fermenting Proboscis Monkeys: New Insight from in vitro Digestibility and Toughness of Leaves

Ikki Matsuda,John Sugau,Henry Bernard,Augustine Tuuga,Jürgen Hummel,Marcus Clauss,Takakazu Yumoto,Goro Hanya

doi:10.1038/srep42774

Abstract

Free-living animals must make dietary choices in terms of chemical and physical properties, depending on their digestive physiology and availability of food resources. Here we comprehensively evaluated the dietary choices of proboscis monkeys (Nasalis larvatus) consuming young leaves. We analysed the data for leaf toughness and digestibility measured by an in vitro gas production method, in addition to previously reported data on nutrient composition. Leaf toughness, in general, negatively correlated with the crude protein content, one of the most important nutritional factors affecting food selection by leaf-eating primates. This result suggests that leaf toughness assessed by oral sensation might be a proximate cue for its protein content. We confirmed the importance of the leaf chemical properties in terms of preference shown by N. larvatus; leaves with high protein content and low neutral detergent fibre levels were preferred to those of the common plant species. We also found that these preferred leaves were less tough and more digestible than the alternatives. Our in vitro results also suggested that N. larvatus were little affected by secondary plant compounds. However, the spatial distribution pattern of plant species was the strongest factor explaining the selection of the preferred leaf species.

Highlights

Since food is distributed heterogeneously in nature, food abundance/biomass is one of the important factors affecting dietary selection in many primate species[5,8,9,10]
We added the data for leaf toughness and digestibility, measured using an in vitro gas production method, to the data on nutrient composition of the same plant samples obtained by Matsuda, et al.[6]
We analysed the mechanisms of food selection by a leaf-eating primate, N. larvatus

Summary

Introduction

Since food is distributed heterogeneously in nature, food abundance/biomass is one of the important factors affecting dietary selection in many primate species[5,8,9,10] This is because the time required to find and handle food is a significant cost for animals in some cases, and it has been explained using the optimal foraging model, i.e. the animals tend to maximise energy gain per unit time[11]. We added the data for leaf toughness and digestibility, measured using an in vitro gas production method, to the data on nutrient composition of the same plant samples obtained by Matsuda, et al.[6] Using this dataset, we analysed the diet selection by N. larvatus on the basis of complex, integrated, multiple criteria, including the classic optimal foraging models (food abundance), chemical content, leaf toughness and digestibility. In the analysis of our comprehensive dataset, we tried to establish which measurements might be the most relevant proxies for diet selection by this species at this particular location

Methods

Results

Conclusion