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References (63)
-
Stacey Halpern (2005)
Sources and consequences of seed size variation in Lupinus perennis (Fabaceae): adaptive and non-adaptive hypotheses.American journal of botany, 92 2
-
A. Traveset, Núria Riera, R. Mas (2001)
Ecology of fruit‐colour polymorphism in Myrtus communis and differential effects of birds and mammals on seed germination and seedling growthJournal of Ecology, 89
-
(2007)
Rodr?guez-P?rez -
M. Verdú, A. Traveset (2005)
EARLY EMERGENCE ENHANCES PLANT FITNESS: A PHYLOGENETICALLY CONTROLLED META‐ANALYSISEcology, 86
-
A. Traveset, M. Verdú, D. Levey, W. Silva, M. Galetti (2002)
A meta-analysis of the effect of gut treatment on seed germination. -
Bette Loiselle (1990)
Seeds in droppings of tropical fruit-eating birds: importance of considering seed compositionOecologia, 82
-
(2001)
Image Pro-Plus Version 4.5.1.2.2 -
(1999)
S-Plus 2000. Guide to statistics -
C. Rick, R. Bowman (1961)
GALAPAGOS TOMATOES AND TORTOISESEvolution, 15
-
I. Charalambidou, L. Santamaría, C. Jansen, B. Nolet (2005)
Digestive plasticity in Mallard ducks modulates dispersal probabilities of aquatic plants and crustaceansFunctional Ecology, 19
-
A. Mayer, A. Poljakoff-mayber (1965)
Germination of SeedsNature, 132
-
Javier Rodríguez‐Pérez, Núria Riera, A. Traveset (2005)
Effect of seed passage through birds and lizards on emergence rate of mediterranean species: differences between natural and controlled conditionsFunctional Ecology, 19
-
M. Nogales, C. Nieves, J. Illera, D. Padilla, A. Traveset (2005)
Effect of native and alien vertebrate frugivores on seed viability and germination patterns of Rubia fruticosa (Rubiaceae) in the eastern Canary IslandsFunctional Ecology, 19
-
A. Dennis, E. Schupp, R. Green, D. Westcott (2007)
Seed Dispersal: Theory and its Application in a Changing World -
J. Baskin, A. Mayer, A. Poljakoff-mayber (1991)
The Germination of Seeds, Fourth Edition.Bulletin of the Torrey Botanical Club, 118
-
Sofia Wahaj, D. Levey, Anna Sanders, M. Cipollini (1998)
Control of gut retention time by secondary metabolites in ripe Solanum fruitsEcology, 79
-
J. Alcántara, Pedro Rey (2003)
Conflicting selection pressures on seed size: evolutionary ecology of fruit size in a bird‐dispersed tree, Olea europaeaJournal of Evolutionary Biology, 16
-
M. Cipollini, D. Levey (1997)
Secondary Metabolites Of Fleshy Vertebrate‐Dispersed Fruits: Adaptive Hypotheses And Implications For Seed DispersalThe American Naturalist, 150
-
S. Goldhor (1964)
EcologyThe Yale Journal of Biology and Medicine, 36
-
(2002)
Digital image processing, Second edition -
K. Murray, S. Russell, C. Picone, K. Winnett-Murray, W. Sherwood, M. Kuhlmann (1994)
Fruit Laxatives and Seed Passage Rates in Frugivores: Consequences for Plant Reproductive SuccessEcology, 75
-
E. Schupp (1993)
Quantity, quality and the effectiveness of seed dispersal by animalsVegetatio, 107
-
(1995)
Studies on seed treatments and histochemical characters on water barriers in seed coat of Leucaena glauca ( L . ) Benth -
E. Dinerstein, C. Wemmer (1988)
FRUITS RHINOCEROS EAT: DISPERSAL OF TREWIA NUDIFLORA (EUPHORBIACEAE) IN LOWLAND NEPAL'Ecology, 69
-
A. Traveset, Teresa Bermejo, M. Willson (2001)
Effect of manure composition on seedling emergence and growth of two common shrub species of Southeast AlaskaPlant Ecology, 155
-
J. Malo, F. Suárez (1995)
Herbivorous mammals as seed dispersers in a Mediterranean dehesaOecologia, 104
-
G. Aronne, D. Russo (1997)
Carnivorous mammals as seed dispersers of Myrtus communis (Myrtaceae) in the Mediterranean shrublandsPlant Biosystems, 131
-
A. Robertson, A. Trass, J. Ladley, D. Kelly (2006)
Assessing the benefits of frugivory for seed germination: the importance of the deinhibition effectFunctional Ecology, 20
-
(2003)
Santamar?a, and O. Langevoord -
A. Barnea, Y. Yom-Tov, J. Friedman (1992)
Effect of frugivorous birds on seed dispersal and germination of multi-seeded fruitsActa Oecologica-international Journal of Ecology, 13
-
K. Boote, J. Bennett, T. Sinclair, G. Paulsen (1994)
Physiology and Determination of Crop Yield -
D. Levey, W. Karasov (1994)
Gut passage of insects by european starlings and comparison with other speciesThe Auk, 111
-
A. Traveset (1994)
Reproductive biology of Phillyrea angustifolia L. (Oleaceae) and effect of galling‐insects on its reproductive outputBotanical Journal of the Linnean Society, 114
-
(2005)
STATISTICA for Windows. StatSoft -
T. Paulsen, O. Lindtjørn, Nils Gjerdet, G. Högstedt (2006)
Research note: Avian gut passage reduces seed exit costs in Sorbus aucuparia (Rosaceae) as measured by a diametral compression test.Functional plant biology : FPB, 33 4
-
A. Traveset, A. Robertson, Javier Rodríguez‐Pérez, A. Dennis, E. Schupp, R. Green, D. Westcott (2007)
A review on the role of endozoochory in seed germination. -
T. Paulsen, G. Högstedt (2002)
Passage through bird guts increases germination rate and seedling growth in Sorbus aucupariaFunctional Ecology, 16
-
L. Santamaría, I. Charalambidou, J. Figuerola, A. Green (2002)
Effect of passage through duck gut on germination of fennel pondweed seedsArchiv Fur Hydrobiologie, 156
-
Rafel Mas, A. Traveset (1999)
Efectes de la ingestió per ocells sobre la germinació i la dispersió de dues espècies pròximes de Solanum. Effects of avian ingestion on germination and dispersal of two closely related species of Solanum, 42
-
C. Baskin, J. Baskin (1998)
Seeds: Ecology, Biogeography, and, Evolution of Dormancy and Germination -
L. Pietrzak, J. Frégeau-Reid, B. Chatson, B. Blackwell (2002)
Observations on water distribution in soybean seed during hydration processes using nuclear magnetic resonance imagingCanadian Journal of Plant Science, 82
-
I. Charalambidou, L. Santamaría, O. Langevoord (2003)
Effect of ingestion by five avian dispersers on the retention time, retrieval and germination of Ruppia maritima seedsFunctional Ecology, 17
-
G. Meyer, M. Witmer (1998)
Influence of Seed Processing by Frugivorous Birds on Germination Success of Three North American Shrubs, 140
-
A. Barnea, Y. Yom-Tov, J. Friedman (1990)
Differential germination of two closely related species of Solanum in response to bird ingestionOikos, 57
-
J. Tewksbury, D. Levey, M. Huizinga, D. Haak, A. Traveset (2008)
Costs and benefits of capsaicin-mediated control of gut retention in dispersers of wild chilies.Ecology, 89 1
-
J. Gómez (2004)
BIGGER IS NOT ALWAYS BETTER: CONFLICTING SELECTIVE PRESSURES ON SEED SIZE IN QUERCUS ILEX, 58
-
M. Stanley, A. Lill (2002)
Avian fruit consumption and seed dispersal in a temperate Australian woodlandAustral Ecology, 27
-
A. Traveset, Núria Riera, R. Mas (2001)
Passage through bird guts causes interspecific differences in seed germination characteristicsFunctional Ecology, 15
-
MediaCybernetics, North Reading -
D. Egli (1994)
Seed Growth and Development -
This content downloaded from 193.145.219.216 on Mon, 23 Feb 2015 03:46:26 AM All use subject to JSTOR Terms and Conditions -
A. Barnea, Y. Yom-Tov, J. Friedman (1991)
Does ingestion by birds affect seed germinationFunctional Ecology, 5
-
B. Pollux, L. Santamaría, N. Ouborg (2004)
Differences in endozoochorous dispersal between aquatic plant species, with reference to plant population persistence in riversFreshwater Biology, 50
-
D. Levey, W. Silva, M. Galetti (2002)
Seed dispersal and frugivory : ecology, evolution, and conservation -
(2005)
Effect of native and alien vertebrate ANNA -
R. Ferrer, Anna Vilagines (1999)
Efectes de la ingestió per ocells sobre la germinació i la dispersió de dues espècies pròximes de "Solanum" -
A. Traveset (1998)
Effect of seed passage through vertebrate frugivores' guts on germination: A reviewPerspectives in Plant Ecology Evolution and Systematics, 1
-
D. Levey, Alejandro Grajal (1991)
Evolutionary Implications of Fruit-Processing Limitations in Cedar WaxwingsThe American Naturalist, 138
-
I. Samuels, D. Levey (2005)
Effects of gut passage on seed germination: do experiments answer the questions they ask?Functional Ecology, 19
-
R. Haralick, K. Shanmugam, I. Dinstein (1973)
Textural Features for Image ClassificationIEEE Trans. Syst. Man Cybern., 3
-
P. Marrero, M. Nogales (2005)
A microhistological survey on the trees of a relict subtropical laurel forest from the Macaronesian Islands as a base for assessing vertebrate plant dietBotanical Journal of the Linnean Society, 148
-
T. Paulsen, O. Lindtjørn, Nils Gjerdet, G. Högstedt (2006)
Corrigendum to: Avian gut passage reduces seed exit costs in Sorbus aucuparia (Rosaceae) as measured by a diametral compression test.Functional plant biology : FPB, 33 6
-
J. Todd (1988)
Book Review: Digital image processing (second edition). By R. C. Gonzalez and P. Wintz, Addison-Wesley, 1987. 503 pp. Price: £29.95. (ISBN 0-201-11026-1)Optics and Lasers in Engineering, 8
- Publisher
- Ecological Society of America
- Copyright
- Copyright © 2008 by the Ecological Society of America
- Subject
- Articles
- ISSN
- 0012-9658
- DOI
- 10.1890/07-0094.1
- Publisher site
- See Article on Publisher Site
Abstract
The effectiveness of a frugivore as a disperser of a plant is greatly determined by how fruits and seeds are handled in its mouth and its digestive tract. Although a number of studies have investigated the effect of avian ingestion on germination, we still know very little about the modifications to seeds during ingestion and the specific consequences on plant fitness. Here we investigate for the first time the different mechanisms by which germination patterns of seeds are modified following ingestion by frugivores. Specifically, we examine changes in seed mass, water content, permeability, seed coat thickness, texture, and resistance in two common Mediterranean fleshy-fruited plants, Phillyrea angustifolia and Myrtus communis , after ingestion by Eurasian Blackbirds, Turdus merula . We found a number of differences between the plant species: Phillyrea seeds lost mass, mainly due to water loss, and had thinner coats after gut passage, but Myrtus seeds did not. Seeds of both species showed increased permeability, while Myrtus seeds in particular became less resistant to breakage. No quantifiable changes in seed coat texture were detected in either species, although this trait was partly associated with differences in germination rate in Phillyrea . High intraspecific plant variation was found for most seed traits measured. Seed passage through birds' guts sped up germination in both species, especially in Myrtus . Increased permeability in seeds of both species following ingestion resulted in a higher germination rate. Moreover, seeds with thick coats (and in the case of Phillyrea , harder coats) germinated at a slower rate and produced seedlings that also grew more slowly, indicating a cost of coat thickness and/or hardness for seedling emergence. Results obtained here contribute to explaining the great heterogeneity in germination responses among and within plant species and the large variety of factors, both intrinsic and extrinsic to the plants, that influence such responses.
Journal
Ecology – Ecological Society of America
Published: Jan 1, 2008
Keywords: avian digestive tract ; endozoochory ; fruit dispersers ; mediterranean fleshy fruits ; Myrtus communis ; Phillyrea angustifolia ; seed germination ; seed traits ; seedling growth ; Turdus merula