Contents
Voorwoord
1. General introduction
2. Logging, seed dispersai by vertebrates,and natural regeneration of tropical timber trees - with P.A. Zuidema pp. 35-59 in R.A. Fimbel, J.G. Robinson and A. Grajal (eds). The cutting edge. Conserving wildlife in logged tropical forests. Columbia University Press, New York (2001)
3. Scatterhoarding rodents and tree regeneration 29 with P.M. Forget pp. 275-288 in F. Bongers, P. Charles-Dominique, P. M. Forget & M. Théry (eds). Nouragues. Dynamics and plant-animal interactions in a Neotropical rainforest. Kluwer Academic Publishers, Dordrecht (2001)
4. Rodents change perishable seeds into long-term food supplies 45 with F. Bongers and H.H. T. Prins submitted
5. The raie of seed size in dispersai bya scatterhoarding rodent 51 with[...]
Contents
Voorwoord
1. General introduction
2. Logging, seed dispersai by vertebrates,and natural regeneration of tropical timber trees - with P.A. Zuidema pp. 35-59 in R.A. Fimbel, J.G. Robinson and A. Grajal (eds). The cutting edge. Conserving wildlife in logged tropical forests. Columbia University Press, New York (2001)
3. Scatterhoarding rodents and tree regeneration 29 with P.M. Forget pp. 275-288 in F. Bongers, P. Charles-Dominique, P. M. Forget & M. Théry (eds). Nouragues. Dynamics and plant-animal interactions in a Neotropical rainforest. Kluwer Academic Publishers, Dordrecht (2001)
4. Rodents change perishable seeds into long-term food supplies 45 with F. Bongers and H.H. T. Prins submitted
5. The raie of seed size in dispersai bya scatterhoarding rodent 51 with M. Bartholomeus, J.A. Elzinga, F. Bongers, J. den Ouden and S.E. van Wieren Pp. 209-225 in D.J. Levey, W.R. Silva & M. Galetti (eds). Seed dispersaI and frugivory: ' Ecology, evolution and conservation. CAB International, Wa/lingford (2002)
6. Seed mass and mast seeding enhance dispersai by scatterhoarding rodents with F. Bongers and L. Hemerik 69 submitted
7. Stabilising selection on seed mass by a seed-dispersing rodent 101 with L. Hemerik, F. Bongers, F.J. Sterck, S.E. van Wieren and H.H. T. Prins submitted
8. Predator escape, gap colonisation and the recruitment pattern of three rodent-dispersed rainforest tree species 107 with F. Bongers and P.J. van der Meer
9. Synthesis
Seed-eating animals are reputed predators of seeds, but they may also function as seed dispersers. This dissertation deals with the interaction of nut-bearing trees and scatterhoarding animals, which store important amounts of seeds as food reserves in spatially scattered soil surface caches. It studies how large cavi-like rodents - in particular the Red acouchy - disperse and predate upon the seeds of the canopy tree Carapa procera (Meliaceae) at the Nouragues Biological Station, an undisturbed tropical rainforest site in French Guiana, South America. Video surveillance and thread-marking techniques were used to follow the fate of seeds throughout the dispersal process, from shedding until either death or establishment of a seedling. Thus, seed production was linked with dispersai effectiveness and establishment success. Within these seed fate experiments, seed size and seed abundance were varied to study how these plant traits affect scatterhoarding and to test hypotheses on the evolution of large-seediness and mast seeding. Scatterhoarding proved to be an effective dispersal mode. Seedlings did establish from cached seeds, even though the majority of seeds were eventually dug up and consumed. Large seeds were more likely to be successfully dispersed than small seeds, which opposes the paradigm that the need for dispersai causes selection against large seeds. Large seeds, however, were favoured only up to a certain point beyond which seeds apparently became increasingly difficult for the animals to manipulate. This resulted in an optimum seed size for dispersal by scatterhoarding animals. An explanation is given for the contrasting results obtained in published experiments on size-dependent seed predation. Establishment was far more likely in years of abundant fruiting than in lean years, and the selectivity of rodents regarding the size of scatterhoarded seeds was also greater in rich years. Scatterhoarder responses to seed size and abundance alone Gan explain why many nut-bearing plant species have mast seeding, the alternation of years with abundant crops and years with few or no seeds. Regeneration of C. procera in natural forest came exclusively from seeds cached by scatterhoarding rodents: seed predating insects and mammals destroyed ail non-dispersed seeds. Exceptions were seeds shed by parent trees along or within treefall gaps. These high light environments permitted seedling establishment even from heavily infested seeds. Therefore, regeneration need not be at immediate risk in managed forests where scatterhoarding rodents are scarcer, but where light availability tends to be greater.
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