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Type: Journal article
Title: An ecophysiologically informed model of seed dispersal by orangutans: linking animal movement with gut passage across time and space
Author: Tarszisz, E.
Tomlinson, S.
Harrison, M.E.
Morrogh-Bernard, H.C.
Munn, A.J.
Citation: Conservation Physiology, 2018; 6(1):coy013-1-coy013-15
Publisher: Oxford University Press
Issue Date: 2018
ISSN: 2051-1434
Statement of
Esther Tarszisz, Sean Tomlinson, Mark E. Harrison, Helen C. Morrogh-Bernard, and Adam J. Munn
Abstract: Fauna-mediated ecosystem service provision (e.g. seed dispersal) can be difficult to quantify and predict because it is underpinned by the shifting niches of multiple interacting organisms. Such interactions are especially complex in tropical ecosystems, including endangered peat forests of Central Borneo, a biodiversity hot spot and home to the critically endangered orangutan (Pongo pygmaeus wurmbii). We combined studies of the digestive physiology of captive orangutans in Australia with detailed field studies of wild orangutans in the Natural Laboratory of Peat-Swamp Forest of Sabangau, Central Kalimantan, Indonesia. By measuring the gut transit time (TT) of indigestible seed mimics (beads) in captivity and applying this as a temporal constraint to movement data of wild orangutans, we developed a mechanistic, time-explicit spatial model to project the seed dispersal patterns by these large-bodied, arboreal frugivores. We followed seven orangutans and established home range kernels using Time Local Convex Hull (T-LoCoH) modelling. This allowed us to model individual orangutan movements and to adjust these models according to gut transit times to estimate seed dispersal kernels. Female movements were conservative (core ranges of 55 and 52 ha in the wet and dry seasons, respectively) and revisitation rates to the same location of n = 4 in each 24-h block. Male movements were more unpredictable, yielding fragmented core ranges and revisitation rates to the same location of only 1.2 times each 24 h; males also demonstrated large disjunctions where they moved rapidly over long distances and were frequently lost from view. Seed dispersal kernels were nested predictably within the core ranges of females, but not males. We used the T-LoCoH approach to analyse movement ecology, which offered a powerful tool to predict the primary deposition of seeds by orangutans, thereby providing a reliable method for making a priori predictions of seed dispersal dynamics by other frugivores in novel ecosystems.
Keywords: Ecological service provision; endozoochory; home range estimates; kernel modelling; orang-utan; plant–animal interactions; T-LoCoH
Rights: © The Author(s) 2018. Published by Oxford University Press and the Society for Experimental Biology. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (, which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited
DOI: 10.1093/conphys/coy013
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Ecology, Evolution and Landscape Science publications

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