Hostname: page-component-cd9895bd7-gbm5v Total loading time: 0 Render date: 2024-12-23T03:04:44.306Z Has data issue: false hasContentIssue false

Sheep gut passage and survival of Mediterranean shrub seeds

Published online by Cambridge University Press:  22 February 2007

Pablo Manzano*
Affiliation:
Departamento Interuniversitario de Ecología, Facultad de Ciencias, Universidad Autónoma de Madrid, E-28049, Madrid, Spain
Juan E. Malo
Affiliation:
Departamento Interuniversitario de Ecología, Facultad de Ciencias, Universidad Autónoma de Madrid, E-28049, Madrid, Spain
Begoña Peco
Affiliation:
Departamento Interuniversitario de Ecología, Facultad de Ciencias, Universidad Autónoma de Madrid, E-28049, Madrid, Spain
*
*Correspondence: Fax: +34 91 497 8001, Email: [email protected]

Abstract

Although viable seeds of Mediterranean dry-fruited shrubs are found in herbivore dung, the ecological importance of this observation is still not well understood. We analysed seed retrieval percentages, defecation time and germinability after sheep gut passage for the five most common shrub species of an area in central Spain (Retama sphaerocarpa, Cytisus scoparius, Halimium umbellatum subsp. viscosum, Cistus ladanifer and Lavandula stoechas subsp. pedunculata). Five ewes were fed seeds, and their dung was collected regularly during the following week. Seeds were hand-sorted from dung subsamples and tested for germinability. The defecated seeds were clustered in time, with a majority retrieved in the 24–40 h period, although over 1% of the seeds were retained in the gut for more than 72 h. Data suggested a possible link between seed size and retrieval, with medium-sized seeds less damaged (16–23%) than larger and smaller seeds (10–12%), although only a small number of species were studied. Germination results showed an increased percentage of germination after gut passage for H. umbellatum (x2 test, P<0.05) and a marginally significant difference for C. scoparius (P<0.1). Soft-seeded L. stoechas did not germinate after gut passage. The results indicate a potential role of herbivore endozoochory for the long-distance dispersal of dry-fruited shrubs and their potential colonization of distant sites.

Type
Research Article
Copyright
Copyright © Cambridge University Press 2005

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Azcárate, F.M. (2003) Hormigas granívoras en pastizales y matorrales mediterráneos: interacciones y efectos sobre la vegetación. PhD thesis, Universidad Autónoma de Madrid.Google Scholar
Baskin, C.C., Baskin, J.M. (2001) Seeds. Ecology, biogeography, and evolution of dormancy and germination San Diego, Academic Press.Google Scholar
Bellingham, P.J., Coomes, D.A. (2003) Grazing and community structure as determinants of invasion success by Scotch broom in a New Zealand montane shrubland. Diversity and Distributions 9, 1928.Google Scholar
Bossard, C.C. (1993) Seed germination in the exotic shrub Cytisus scoparius (Scotch broom) in California. Madroño 40, 4761.Google Scholar
Bullock, J.M., Clarke, R.T. (2000) Long distance dispersal by wind: measuring and modelling the tail of the curve. Oecologia 124, 506521.CrossRefGoogle ScholarPubMed
Cain, M.L., Damman, H., Muir, A. (1998) Seed dispersal and the Holocene migration of woodland herbs. Ecological Monographs 68, 325347.CrossRefGoogle Scholar
Cain, M.L., Milligan, B.G., Strand, A.E. (2000) Long-distance seed dispersal in plant populations. American Journal of Botany 87, 12171227.Google Scholar
Campbell, J.E., Gibson, D.J. (2001) The effect of seeds of exotic species transported via horse dung on vegetation along trail corridors. Plant Ecology 157, 2335.CrossRefGoogle Scholar
Castro, J., Robles, A.B. (2003) Dispersión endozoócora por ganado ovino de las semillas de seis especies de cistáceas. pp. 645650. in Robles, A.B.;, Ramos, M.E.;, Morales, M.C.;, de Simón, E.;, González-Rebollar, J.L.;, Boza, J.; (Eds) Pastos, desarrollo y conservación. Sevilla, Spain, Junta de Andalucía.Google Scholar
Catalán, G. (1991) Semillas de árboles y arbustos forestales Madrid, Spain, ICONA.Google Scholar
Chavagnat, A. (1978) Étude de la germination des semences de Lavandula angustifolia au laboratoire. Seed Science and Technology 6, 775784.Google Scholar
Delgado, J.A., Serrano, J.M., López, F., Acosta, F.J. (2001) Heat shock, mass-dependent germination, and seed yield as related components of fitness in Cistus ladanifer. Environmental and Experimental Botany 46, 1120.CrossRefGoogle ScholarPubMed
DeSimone, S.A., Zedler, P.H. (2001) Do shrub colonizers of Southern Californian grassland fit generalities for other woody colonizers?. Ecological Applications 11, 11011111.CrossRefGoogle Scholar
Gardener, C.J., McIvor, J.G., Jansen, A. (1993) Survival of seeds of tropical grassland species subjected to bovine digestion. Journal of Applied Ecology 30, 7585.Google Scholar
Herranz, J.M., Ferrandis, P., Martínez-Sánchez, J.J. (2000) Influence of heat on seed germination of nine woody Cistaceae species. International Journal of Wildland Fire 9, 173182.CrossRefGoogle Scholar
Janzen, D.H. (1983) The dispersal of seeds by vertebrate guts Coevolution. pp. 232262. Futuyma, D.J.;, Slatkin, M. (Eds) Sunderland, Massachussets, USA, Sinauer Associates.Google Scholar
Janzen, D.H. (1984) Dispersal of small seeds by big herbivores: foliage is the fruit. American Naturalist 123, 338353.CrossRefGoogle Scholar
Keeley, J.E. (1991) Seed gemination and life history syndromes in the California chaparral. Botanical Review 57, 81116.Google Scholar
Klein, J. (1981) La Mesta 2nd edition. Madrid, Spain, Alianza Editorial.Google Scholar
Maher, J., Gerasopoulos, D., Maloupa, E. (2000) Temperature and light effects on germination of Lavandula stoechas seeds. Acta Horticulturae 541, 261264.CrossRefGoogle Scholar
Malo, J.E. (2004) Potential ballistic dispersal of Cytisus scoparius ( Fabaceae ) seeds. Australian Journal of Botany 52, 653658.CrossRefGoogle Scholar
Malo, J.E., Suárez, F. (1996) Cistus ladanifer recruitment – Not only fire, but also deer. Acta Oecologica 17, 5560.Google Scholar
Pakeman, R.J. (2001) Plant migration rates and seed dispersal mechanisms. Journal of Biogeography 28, 795800.CrossRefGoogle Scholar
Pakeman, R.J., Digneffe, G., Small, J.L. (2002) Ecological correlates of endozoochory by herbivores. Functional Ecology 16, 296304.CrossRefGoogle Scholar
Pérez-Fernández, M.A., Rodríguez-Echeverría, S. (2003) Effect of smoke, charred wood, and nitrogenous compounds on seed germination of ten species from woodland in Central–Western Spain. Journal of Chemical Ecology 29, 237251.CrossRefGoogle ScholarPubMed
Pérez-Fernández, M.A., Rodríguez-Echeverría, S., Calvo-Magro, E., David-Antonio, C. (2003) Germination of selected perennial plant species from western Spain under nitrogen, light and wet and dry heat treatments. Journal of Mediterranean Ecology 4, 2333.Google Scholar
Pérez-García, F. (1997) Germination of Cistus ladanifer seeds in relation to parent material. Plant Ecology 133, 5762.CrossRefGoogle Scholar
Pérez-García, F., Hornero, J., González-Benito, M.E. (2003) Interpopulation variation in seed germination of five Mediterranean Labiatae shrubby species. Israel Journal of Plant Sciences 51, 117124.Google Scholar
Rivals, F., Kacimi, S., Moutoussamy, J. (2004) Artiodactyls, favourite game of prehistoric hunters at the Caune de l'Arago Cave (Tautavel, France). Opportunistic or selective hunting strategies?. European Journal of Wildlife Research 50, 2532.CrossRefGoogle Scholar
Russi, L., Cocks, P.S., Roberts, E.H. (1992) The fate of legume seeds eaten by sheep from a Mediterranean grassland. Journal of Applied Ecology 29, 772778.Google Scholar
Sánchez, A.M. (2002) Colonización y regeneración de Lavandula stoechas subsp. pedunculata en un paisaje agrario abandonado de la Sierra de Guadarrama. PhD Thesis, Universidad Autónoma de Madrid.Google Scholar
Sánchez, A.M., Peco, B. (2002) Dispersal mechanisms in Lavandula stoechas subsp. pedunculata: autochory and endozoochory by sheep. Seed Science Research 12, 101111.Google Scholar
Staniforth, R.J., Cavers, P.B. (1977) The importance of cottontail rabbits in the dispersal of Polygonum spp. Journal of Applied Ecology 14, 261268.Google Scholar
Tárrega, R., Calvo, L., Trabaud, L. (1992) Effect of high-temperatures on seed-germination of two woody Leguminosae. Vegetatio 102, 139147.CrossRefGoogle Scholar
Thanos, C.A., Georghiou, K., Kadis, C., Pantazi, C. (1992) Cistaceae: a plant family with hard seeds. Israel Journal of Botany 41, 251263.Google Scholar
Traveset, A., Verdú, M. (2002) A meta-analysis of the effect of gut treatment on seed germination. pp. 339350. Levey, D.J.;, Silva, W.R.;, Galetti, M. (Eds) Seed dispersal and frugivory: Ecology, evolution and conservation. Wallingford, CABI Publishing.Google Scholar
Valbuena, L., Luis-Calabuig, E., Tárrega, R. (2002) Relationship between thermal shock and germination in five Mediterranean shrubs. pp. 9398. Trabaud, L.;, Prodon, R. (Eds) Fire and biological processes. Leiden, The Netherlands, Backhuys.Google Scholar
Wallander, R.T., Olson, B.E., Lacey, J.R. (1995) Spotted knapweed seed viability after passing through sheep and mule deer. Journal of Range Management 48, 145149.Google Scholar