Thieving rodents as substitute dispersers of megafaunal seeds
Thieving rodents as substitute dispersers of megafaunal seeds
The Neotropics have many plant species that seem to be adapted for seed dispersal by megafauna that went extinct in the late Pleistocene. Given the crucial importance of seed dispersal for plant persistence, it remains a mystery how these plants have survived more than 10,000 y without their mutualist dispersers. Here we present support for the hypothesis that secondary seed dispersal by scatter-hoarding rodents has facilitated the persistence of these large-seeded species. We used miniature radio transmitters to track the dispersal of reputedly megafaunal seeds by Central American agoutis, which scatter-hoard seeds in shallow caches in the soil throughout the forest. We found that seeds were initially cached at mostly short distances and then quickly dug up again. However, rather than eating the recovered seeds, agoutis continued to move and recache the seeds, up to 36 times. Agoutis dispersed an estimated 35% of seeds for >100 m. An estimated 14% of the cached seeds survived to the next year, when a new fruit crop became available to the rodents. Serial video-monitoring of cached seeds revealed that the stepwise dispersalwas caused by agoutis repeatedly stealing and recaching each other's buried seeds. Although previous studies suggest that rodents are poor dispersers, we demonstrate that communities of rodents can in fact provide highly effective long-distance seed dispersal. Our findings suggest that thieving scatter-hoarding rodents could substitute for extinct megafaunal seed dispersers of tropical large-seeded trees.
Cache pilferage, Pleistocene extinctions, Seed predation, Telemetry
12610-12615
Jansen, Patrick A.
21dc0d57-d0be-430e-a793-7b065bfab9c6
Hirsch, Ben T.
64b5ed82-2b4e-45d7-a4d5-b6a3679ba404
Emsens, Willem Jan
8d0430b4-9f34-420a-a362-bbd5341baeda
Zamora-Gutierrez, Veronica
17a6b9d9-3346-4df6-9438-026b7342e28a
Wikelski, Martin
81f2518f-ffda-47dd-b747-0ff74a4680f3
Kays, Roland
2ddf282c-87ee-480f-8990-d41c7ad18526
31 July 2012
Jansen, Patrick A.
21dc0d57-d0be-430e-a793-7b065bfab9c6
Hirsch, Ben T.
64b5ed82-2b4e-45d7-a4d5-b6a3679ba404
Emsens, Willem Jan
8d0430b4-9f34-420a-a362-bbd5341baeda
Zamora-Gutierrez, Veronica
17a6b9d9-3346-4df6-9438-026b7342e28a
Wikelski, Martin
81f2518f-ffda-47dd-b747-0ff74a4680f3
Kays, Roland
2ddf282c-87ee-480f-8990-d41c7ad18526
Jansen, Patrick A., Hirsch, Ben T., Emsens, Willem Jan, Zamora-Gutierrez, Veronica, Wikelski, Martin and Kays, Roland
(2012)
Thieving rodents as substitute dispersers of megafaunal seeds.
Proceedings of the National Academy of Sciences of the United States of America, 109 (31), .
(doi:10.1073/pnas.1205184109).
Abstract
The Neotropics have many plant species that seem to be adapted for seed dispersal by megafauna that went extinct in the late Pleistocene. Given the crucial importance of seed dispersal for plant persistence, it remains a mystery how these plants have survived more than 10,000 y without their mutualist dispersers. Here we present support for the hypothesis that secondary seed dispersal by scatter-hoarding rodents has facilitated the persistence of these large-seeded species. We used miniature radio transmitters to track the dispersal of reputedly megafaunal seeds by Central American agoutis, which scatter-hoard seeds in shallow caches in the soil throughout the forest. We found that seeds were initially cached at mostly short distances and then quickly dug up again. However, rather than eating the recovered seeds, agoutis continued to move and recache the seeds, up to 36 times. Agoutis dispersed an estimated 35% of seeds for >100 m. An estimated 14% of the cached seeds survived to the next year, when a new fruit crop became available to the rodents. Serial video-monitoring of cached seeds revealed that the stepwise dispersalwas caused by agoutis repeatedly stealing and recaching each other's buried seeds. Although previous studies suggest that rodents are poor dispersers, we demonstrate that communities of rodents can in fact provide highly effective long-distance seed dispersal. Our findings suggest that thieving scatter-hoarding rodents could substitute for extinct megafaunal seed dispersers of tropical large-seeded trees.
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Published date: 31 July 2012
Keywords:
Cache pilferage, Pleistocene extinctions, Seed predation, Telemetry
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Local EPrints ID: 486692
URI: http://eprints.soton.ac.uk/id/eprint/486692
ISSN: 0027-8424
PURE UUID: 30361193-32d1-49a8-9859-a15c135849b3
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Date deposited: 01 Feb 2024 17:47
Last modified: 18 Mar 2024 04:18
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Contributors
Author:
Patrick A. Jansen
Author:
Ben T. Hirsch
Author:
Willem Jan Emsens
Author:
Veronica Zamora-Gutierrez
Author:
Martin Wikelski
Author:
Roland Kays
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