Context dependence of acorn handling by the Algerian mouse (Mus spretus) |
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| Institution: | 1. Department of Biogeography and Global Change (BGC-MNCN-CSIC), National Museum of Natural Sciences, CSIC, C/Serrano 155bis, E-28006 Madrid, Spain;2. Laboratorio Ecotono, INIBIOMA-CONICET, Universidad Nacional del Comahue, Black River, Argentina;3. Museu de Ciències Naturals de Granollers (MCNG), E-08402 Granollers, Barcelona, Spain;4. Department of Biology, Unit of Zoology, Faculty of Sciences, Universidad Autónoma de Madrid, C/Darwin 2, Campus Universitario de Cantoblanco, 28049 Madrid, Spain;1. Dipartimento di Biologia Ambientale, Università degli Studi Roma Tre, Viale G. Marconi, 446, 00146 Roma, Italy;2. Department of Applied and Environmental Biology, Rivers State University of Science and Technology, P.M.B. 5080, Port Harcourt, Rivers State, Nigeria;3. IDECC Institute for Development, Ecology, Conservation and Cooperation, via G. Tomasi di Lampedusa 33, I-00144 Rome, Italy;1. Rede BIONORTE, Programa de Pós-Graduação em Biodiversidade e Biotecnologia, Laboratório de Ecologia Vegetal, P.O. Box 08, Nova Xavantina, MT 78690-000, Brazil;2. Universidade do Estado de Mato Grosso, Programa de Pós-Graduação em Ecologia e Conservação, P.O. Box 08, Nova Xavantina, MT 78690-000, Brazil;3. Universidade Federal do Acre, Centro de Ciências Biológicas e da Natureza, P.O. Box 500, Rio Branco, AC 69920-900, Brazil;4. Environmental Change Institute, School of Geography and the Environment, University of Oxford, Oxford, UK;1. Department of Ecology, School of Life Science, Nanjing University, Nanjing, PR China;2. Institute of Soil and Water Conservation, CAS, Yangling, PR China;3. Department of Environmental Sciences, Faculty of Agricultural and Environment, The University of Sydney, Sydney, Australia;4. The Center for Global Change & Earth Observations, Michigan State University, East Lansing, USA;1. Department of Plant Protection, Gaziosmanpaşa University, Tokat, Turkey;2. Department of Soil Science and Plant Nutrition, Gaziosmanpaşa University, Tokat, Turkey;3. Department of Plant Protection, Dicle University, Diyarbakir, Turkey;1. Comportement et Ecologie de la Faune Sauvage, I.N.R.A., CS 52627, 31326 Castanet-Tolosan cedex, France;2. Bogor Agricultural University, Faculty of Forestry, Department of Forest Resources Conservation and Ecotourism, Bogor, Indonesia;3. Ujung Kulon National Park, Jl. Perintis Kemerdekaan No.51, Labuan, Pandeglang, 42264, Banten, Indonesia;1. Instituto Nacional de Investigaciones Agrarias y Tecnologías Agroalimentarias, Centro de Investigación Forestal, Carretera de la Coruña Km 7.5, 28040 Madrid, Spain;2. Instituto Regional de Investigación, Desarrollo Agroalimentario y Forestal de Castilla-La Mancha (IRIAF), Centro de Investigación Agroforestal de Albadalejito (CIAF). Carretera Toledo-Cuenca, Km 174, 16194 Cuenca, Spain |
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| Abstract: | Perceived predation risk and competition for acorns are expected to affect scatter-hoarding decisions by Algerian mice (Mus spretus). We manipulated both factors by means of predator fecal scents and ungulate exclosures. We hypothesized that high-risk perception and ungulate presence would promote acorn dispersal. In the former case, it would stimulate acorn mobilization to safe microhabitats rather than in situ consumption. In the latter, increased competition for acorns would promote their storage for later consumption. We also expected that mice would adapt their foraging behavior to previous experience modulating the strength of these effects.In the presence of ungulates, mice focused their foraging activities on food acquisition at the expenses of vigilant behaviors. However, a more efficient foraging did not entail enhanced dispersal services. Lack of anti-predatory cover in tree surroundings may have deterred mice from transporting seeds outside canopies. Increased risk interacted with previous experience. In control trees (no predator odor), mice confidence increased throughout the night resulting in decreased vigilance and enhanced acorn mobilization rates. In contrast, in risky conditions (trees with predator odor) mice maintained a base-line vigilant behavior. Contrary to our expectations, increased risk did not result in higher acorn mobilization, but the opposite. Again, the scarcity of safe microhabitats for mobilization may have been the underlying cause of this behavior.Our results show that successful acorn dispersal depends, at least partly, on plant-animal relationships that are beyond the oak-rodent mutualism. Thus, any conservation policy aimed at restoring natural regeneration of oaks should take into account the interaction network in which oak-rodent encounters are embedded. In addition, they suggest that mice incorporate direct and indirect cues of risks (habitat structure) through recent experience. A better understanding of this process will improve our ability to incorporate such temporal and spatial variability in models of acorn dispersal. |
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| Keywords: | Predation risk Competition Experience Dehesas Acorn dispersal |
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