role of migratory ducks in the long-distance dispersal of native plants and the spread of exotic plants in Europe

Little is known about the role of migratory waterfowl in the long-distance dispersal (LDD) of seeds. We studied the gut contents of 42 teals Anas crecca collected in the Camargue, southern France, and found intact seeds of 16 species. There was no relationship between the probability that a given se...

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Published inEcography (Copenhagen) Vol. 32; no. 6; pp. 919 - 928
Main Authors Brochet, Anne-Laure, Guillemain, Matthieu, Fritz, Hervé, Gauthier-Clerc, Michel, Green, Andy J.
Format Journal Article
LanguageEnglish
Published Oxford, UK Oxford, UK : Blackwell Publishing Ltd 01.12.2009
Blackwell Publishing Ltd
Blackwell Publishing
Blackwell
Wiley
Subjects
Anas acuta
Anas crecca
Anas penelope
Anas platyrhynchos
Animal and plant ecology
Animal, plant and microbial ecology
Aves
biogeography
Biological and medical sciences
Diet
Diet records
diet study techniques
Dietary studies
Ducks
esophagus
France
fruits
Fundamental and applied biological sciences. Psychology
General aspects
Gizzard
habitats
Hardness
indigenous species
ingestion
Introduced plants
Life Sciences
Other
Plants
probability
Seeds
Vertebrates: general zoology, morphology, phylogeny, systematics, cytogenetics, geographical distribution
Waterfowl
Camargue
Southern Europe
France
Europe
France, Camargue
Seeds
Waterfowl
Long distance
Digestive system
Gut
Anatidae
Hardness
Anas crecca
Dispersion
Feeding
Vertebrata
Anas acuta
Migratory
Diet
Game bird
Anas platyrhynchos
Aves
Native species
Plant introduction
Online AccessGet full text
ISSN0906-7590
1600-0587
DOI10.1111/j.1600-0587.2009.05757.x

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Abstract Little is known about the role of migratory waterfowl in the long-distance dispersal (LDD) of seeds. We studied the gut contents of 42 teals Anas crecca collected in the Camargue, southern France, and found intact seeds of 16 species. There was no relationship between the probability that a given seed species was found intact in the lower gut, and the seed hardness or size. The number of seeds found in the oesophagus and gizzard (a measure of ingestion rate) was the only significant predictor of the occurrence of intact seeds in the lower gut, so studies of waterfowl diet can be used as surrogates of dispersal potential. In a literature review, we identified 223 seed species recorded in 25 diet studies of teal, pintail Anas acuta, wigeon A. penelope or mallard A. platyrhynchos in Europe. We considered whether limited species distribution reduces the chances that a seed can be carried to suitable habitat following LDD. Overall, 72% of plant species recorded in duck diets in southern Europe (36 of 50) were also recorded in the north, whereas 97% of species recorded in duck diets in the north (137 of 141) were also recorded in the south. This suggests a great potential for LDD, since most dispersed plants species occur throughout the migratory range of ducks. Migratory ducks are important vectors for both terrestrial and aquatic plant species, even those lacking the fleshy fruits or hooks typically used to identify seeds dispersed by birds. Finally, we show ducks are important vectors of exotic plant species. We identified 14 alien to Europe and 44 native to Europe but introduced to some European countries whose seeds have been recorded in duck diet.
AbstractList Little is known about the role of migratory waterfowl in the long-distance dispersal (LDD) of seeds. We studied the gut contents of 42 teals Anas crecca collected in the Camargue, southern France, and found intact seeds of 16 species. There was no relationship between the probability that a given seed species was found intact in the lower gut, and the seed hardness or size. The number of seeds found in the oesophagus and gizzard (a measure of ingestion rate) was the only significant predictor of the occurrence of intact seeds in the lower gut, so studies of waterfowl diet can be used as surrogates of dispersal potential. In a literature review, we identified 223 seed species recorded in 25 diet studies of teal, pintail Anas acuta, wigeon A. penelope or mallard A. platyrhynchos in Europe. We considered whether limited species distribution reduces the chances that a seed can be carried to suitable habitat following LDD. Overall, 72% of plant species recorded in duck diets in southern Europe (36 of 50) were also recorded in the north, whereas 97% of species recorded in duck diets in the north (137 of 141) were also recorded in the south. This suggests a great potential for LDD, since most dispersed plants species occur throughout the migratory range of ducks. Migratory ducks are important vectors for both terrestrial and aquatic plant species, even those lacking the fleshy fruits or hooks typically used to identify seeds dispersed by birds. Finally, we show ducks are important vectors of exotic plant species. We identified 14 alien to Europe and 44 native to Europe but introduced to some European countries whose seeds have been recorded in duck diet.
Little is known about the role of migratory waterfowl in the long‐distance dispersal (LDD) of seeds. We studied the gut contents of 42 teals Anas crecca collected in the Camargue, southern France, and found intact seeds of 16 species. There was no relationship between the probability that a given seed species was found intact in the lower gut, and the seed hardness or size. The number of seeds found in the oesophagus and gizzard (a measure of ingestion rate) was the only significant predictor of the occurrence of intact seeds in the lower gut, so studies of waterfowl diet can be used as surrogates of dispersal potential. In a literature review, we identified 223 seed species recorded in 25 diet studies of teal, pintail Anas acuta , wigeon A. penelope or mallard A. platyrhynchos in Europe. We considered whether limited species distribution reduces the chances that a seed can be carried to suitable habitat following LDD. Overall, 72% of plant species recorded in duck diets in southern Europe (36 of 50) were also recorded in the north, whereas 97% of species recorded in duck diets in the north (137 of 141) were also recorded in the south. This suggests a great potential for LDD, since most dispersed plants species occur throughout the migratory range of ducks. Migratory ducks are important vectors for both terrestrial and aquatic plant species, even those lacking the fleshy fruits or hooks typically used to identify seeds dispersed by birds. Finally, we show ducks are important vectors of exotic plant species. We identified 14 alien to Europe and 44 native to Europe but introduced to some European countries whose seeds have been recorded in duck diet.
Author Brochet, Anne-Laure
Gauthier-Clerc, Michel
Green, Andy J.
Guillemain, Matthieu
Fritz, Hervé
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  surname: Fritz
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  surname: Gauthier-Clerc
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  givenname: Andy J.
  surname: Green
  fullname: Green, Andy J.
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Issue 6
Keywords Seeds
Waterfowl
Long distance
Digestive system
Gut
Anatidae
Hardness
Anas crecca
Dispersion
Feeding
Vertebrata
Anas acuta
Migratory
Diet
Game bird
Anas platyrhynchos
Aves
Native species
Plant introduction
Language English
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Kear, J. 2005. Ducks, geese and swans. Vol. 1 and 2. Oxford Univ. Press.
Danell, K. and Sjöberg, K. 1980. Foods of wigeon, teal, mallard and pintail during the summer in the northern Swedish Lake. Viltrevy 11: 141-167.
Buckley, Y. M. et al. 2006. Management of plant invasions mediated by frugivore interactions. J. Appl. Ecol. 43: 848-857.
Prinzing, A. et al. 2002. Which species become aliens?. Evol. Ecol. Res. 4: 385-405.
Proctor, V. W. and Malone, C. R. 1965. Further evidence of the passive dispersal of small aquatic organisms via the intestinal tract of birds. Ecology 46: 728-729.
Mateo, R. et al. 2000. Determinants of lead shot, rice, and grit ingestion in ducks and coots. J. Wild. Manage. 64: 939-947.
Figuerola, J. et al. 2003. Passive internal transport of aquatic organisms by waterfowl in Doñana, south-west Spain. Global Ecol. Biogeogr. 12: 427-436.
Muthu, K. 2006. Waterbird population estimates, 4th edition. Wetlands International Wetlands International.
Espinar, J. L. et al. 2004. Helophyte germination in a Mediterranean salt marsh: gut-passage by ducks changes seed response to salinity. J. Veg. Sci. 15: 315-322.
Charalambidou, I. et al. 2003. Effect of ingestion by five avian dispersers on the retention time, retrieval and germination of Ruppia maritima seeds. Funct. Ecol. 17: 747-753.
Ridley, H. N. 1930. The dispersal of plants throughout the world. Reeve.
Walther, G. R. et al. 2005. An ecological 'footprint' of climate change. Proc. R. Soc. B 272: 1427-1432.
Thomas, G. J. 1982. Autumn and winter feeding ecology of waterfowl at the Ouse Washes, England. J. Zool. Lond. 197: 131-172.
Tutin, T. G. et al. 1964. Flora Europaea, Vol 1. Lycopodiaceae to Platanaceae. Cambridge Univ. Press.
Marnotte, P. et al. 2006. Plantes des rizières de Camargue. Cirad, CFR, PNRC.
Pollux, B. J. A. et al. 2005. Differences in endozoochorous dispersal between aquatic plant species, with reference to plant population persistence in rivers. Freshwater Biol. 50: 232-242.
Proctor, V. W. et al. 1967. Dispersal of aquatic organisms: viability of disseminules recovered from the intestinal tract of captive killdeer. Ecology 48: 672-676.
Mazzuchi, L. 1971. Beitrag zur Nahrungsökologie in der Umgebung von Bern überwinternder Krinckenten Anas crecca L. Ornithol Beob. 68: 161-178.
Suarez, C. and Urios, V. 1999. La contaminación por saturnismo en las aves acuáticas del Parque Natural de El Hondo y su relación con los hábitos alimenticios. Humedales Medit. 1: 83-90.
DeVlaming, V. and Proctor, V. W. 1968. Dispersal of aquatic organisms: viability of seeds recovered from the droppings of captive killdeer and mallard ducks. Am. J. Bot. 55: 20-26.
McGlone, M. S. et al. 2001. Endemism, species selection and the origin and distribution of the vascular plant flora of New Zealand. J. Biogeogr. 28: 199-216.
Powers, K. D. et al. 1978. Seed distribution by waterfowl in southwestern Louisiana. J. Wildl. Manage. 42: 598-605.
Pirot, J. Y. 1981. Partage alimentaire et spatial des zones humides camarguaises par 5 espèces de canards en hivernage et en transit. Paris Univ. Pierre et Marie Curie.
Calviño-Cancela, M. et al. 2006. Emus as non-standard seed dispersers and their potential for long-distance dispersal. Ecography 29: 632-640.
Clausen, P. et al. 2002. Long-distance endozoochorous dispersal of submerged macrophyte seeds by migratory waterbirds in northern Europe - a critical review of possibilities and limitations. Acta Oecol. 23: 191-203.
Figuerola, J. and Green, A. J. 2002b. How frequent is external transport of seeds and invertebrate eggs by waterbirds? A study in Donana, SW Spain. Arch. Hydrobiol. 155: 557-565.
Birger, S. 1907. Über endozoisxhe Samenverbreitung durch Vögel. Sv. Bot. Tidskr. 1: 1-31.
Lanchon-Aubrais, E. 1992. Conséquence d'un apport artificel de nourriture sur le comportement d'un canard de surface: le Canard colvert (Anas platyrhyncos, L.) et d'un canard plongeur: le Fuligule milouin (Aythya ferina, L.) au lac de Grand-Lieu. Univ. de Rennes I.
Sterbetz, I. 1967. Economic and nature-conservation problems in feeding habits of Hungarian mallard. Aquila 73-74: 133-145.
Figuerola, J. and Green, A. J. 2002a. Dispersal of aquatic organisms by waterbirds: a review of past research and priorities for future studies. Freshwater Biol. 47: 483-494.
Street, M. 1977. The food of mallard ducklings in a wet gravel quarry, and its relation to duckling survival. Wildfowl 28: 113-125.
Traveset, A. 1998. Effect of seed passage through vertebrate frugivores' gut on germination: a review. Perspect. Plant Ecol., Syst. Evol. 1: 151-190.
Figuerola, J. et al. 2002. Comparative dispersal effectiveness of wigeongrass seeds by waterfowl wintering in south-west Spain: quantitative and qualitative aspects. J. Ecol. 90: 989-1001.
Wongsriphuek, C. et al. 2008. Dispersal of wetland plant seeds by mallards: influence of gut passage on recovery, retention, and germination. Wetlands 22: 290-299.
Burnham, K. P. and Anderson, D. R. 2002. Model selection and multimodel inference: a practical information - theoretic approach, 2nd ed. Springer.
Kiss, J. B. et al. 1984. A duna-deltában (Románia) élö tökés (Anas Platyrhynchos) ès cigányrécék (Aythya nyroca) táplálékának vizsgálata. [A study of the foods of the mallard (Anas platyrhynchos) and of the Ferrouginosus duck (Aythya nyroca) in the Danube Delta (Roumania).]. Puszta 2: 39-51.
Carlquist, S. 1967. The biota of long-distance dispersal. V. Plant dispersal to Pacific islands. Bull. Torrey Bot. Club 94: 129-162.
Green, A. J. et al. 2002. Implications of waterbird ecology for the dispersal of aquatic organisms. Acta Oecol. 23: 177-189.
Darwin, C. 1859. On the origin of species by means of natural selection. Murray.
Hughes, L. 2000. Biological consequences of global warming: is the signal already apparent?. Trends Ecol. Evol. 15: 56-61.
Brooker, R. W. et al. 2007. Modelling species' range shifts in a changing climate: the impacts of biotic interactions, dispersal distance and the rate of climate change. J. Theor. Biol. 245: 59-65.
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Rehounková, K. and Prach, K. 2008. Spontaneous vegetation succession in gravel-sand pits: a potential for restoration. Restor. Ecol. 16: 305-312.
Pieterse, A. H. and Murphy, K. J. 1990. Aquatic weeds, the ecology and management of nuisance aquatic vegetation. Oxford Science Publ.
Spärck, R. 1947. Tio års viltbiologiska undersökningar i Danmark. Svensk Jakt 85: 287-292 in Swedish.
Cappers, R. T. J. et al. 2006. Digital seed atlas of the Netherlands. Barkhuis Publ.
Tamisier, A. and Dehorter, O. 1999. Camargue, ducks and coots. Functioning and gradual change of a prestigious wintering ground. Centre Ornithologique du Gard in French..
Siegel, S. and Castellan, N. J. J. 1988. Nonparametric statistics for behavioural sciences, 2nd ed. McGraw-Hill.
Karmiris, I. and Kazantzidis, S. 2007. Wintering diet composition of selected wildfowl species in Greece 31st Annual Meeting of Waterbird Society, Barcelona.
Higgins, S. I. et al. 2003. Are long-distance dispersal events in plants usually caused by nonstandard means of dispersal?. Ecology 84: 1945-1956.
Lambdon, P. W. et al. 2008. Alien flora of Europe: species diversity, temporal trends, geographical patterns and research needs. Preslia 80: 101-149.
Rodrigues, D. 1998. Dieta Estival e Risco de Saturnismo do Pato-real (Anas platyrhynchos) nos arrozais da Quinta do Canal. Airo 9: 33-40.
Thuiller, W. et al. 2005. Climate change threats to plant diversity in Europe. Proc. Nat. Acad. Sci. USA 102: 8245-8250.
Mouronval, J. B. et al. 2007. Diet of non-breeding wildfowl Anatidae and coot Fulica atra on the Perthois gravel pits, northeast France. Wildfowl 57: 68-97.
Olney, P. J. S. 1962. The food habits of a hand-reared mallard population. Ann. Rep. Wildfowl Trust 13: 119-125.
Green, A. J. and Figuerola, J. 2005. Recent advances in the study of long-distance dispersal of aquatic invertebrates via birds. Divers. Distrib. 11: 149-156.
Owen, M. and Thomas, G. J. 1979. The feeding ecology and conservation of wigeon wintering at the Ouse Washes, England. J. Appl. Ecol. 16: 795-809.
Olney, P. J. S. 1964. The food of mallard Anas platyrhyncos platyrhyncos collected from coastal and estuarine areas. Proc. Zool. Soc. Lond. 142: 397-418.
Olney, P. J. S. 1965. Part II. The feeding ecology of local mallard and other wildfowl. Ann. Rep. Wildfowl Trust 18: 47-54.
De Meester, L. et al. 2002. The monopolization hypothesis and the dispersal-gene flow paradox in aquatic organisms. Acta Oecol. 23: 121-135.
Sánchez, M. I. et al. 2006. Internal transport of seeds by migratory waders in the Odiel marshes, south-west Spain: consequences for long-distance dispersal. J. Avian Biol. 37: 201-206.
Rodrigues, D. et al. 2002. Mallard (Anas platyrhynchos) summer diet in central Portugal rice-fields. Game Wildl. Sci. 19: 55-62.
Campredon, S. et al. 1982. Manuel d'analyse des contenus stomacaux de canards et de foulques. ONC.
Green, A. J. et al. 2008. The potential role of waterbirds in dispersing invertebrates and plants in arid Australia. Freshwater Biol. 53: 380-392.
McCullagh, P. and Nelder, J. A. 1989. Generalized linear models, 2nd ed. Chapman and Hall/CRC.
Charalambidou, I. and Santamaría, L. 2002. Waterbirds as endozoochorous dispersers of aquatic organisms: a review of experimental evidence. Acta Oecol. 23: 165-176.
Campredon, P. 1984. Régime alimentaire du canard siffleur pendant son hivernage en Camargue. L'Oiseau et R.F.O. 54: 189-200.
Olney, P. J. S. 1963. The food and feeding habits of teal Anas crecca crecca L. Proc. Zool. Soc. Lond. 140: 169-210.
Santamaría, L. et al. 2003. Plant performance across latitude: the role of plasticity and local adpatation in an aquatic plant. Ecology 84: 2454-2461.
Soons, M. B. et al. 2008. Small seed size increases the potential for dispersal of wetland plants
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References_xml – reference: Suarez, C. and Urios, V. 1999. La contaminación por saturnismo en las aves acuáticas del Parque Natural de El Hondo y su relación con los hábitos alimenticios. Humedales Medit. 1: 83-90.
– reference: Figuerola, J. and Green, A. J. 2002a. Dispersal of aquatic organisms by waterbirds: a review of past research and priorities for future studies. Freshwater Biol. 47: 483-494.
– reference: Pollux, B. J. A. et al. 2005. Differences in endozoochorous dispersal between aquatic plant species, with reference to plant population persistence in rivers. Freshwater Biol. 50: 232-242.
– reference: Charalambidou, I. et al. 2003. Effect of ingestion by five avian dispersers on the retention time, retrieval and germination of Ruppia maritima seeds. Funct. Ecol. 17: 747-753.
– reference: Olney, P. J. S. 1963. The food and feeding habits of teal Anas crecca crecca L. Proc. Zool. Soc. Lond. 140: 169-210.
– reference: Thomas, G. J. 1982. Autumn and winter feeding ecology of waterfowl at the Ouse Washes, England. J. Zool. Lond. 197: 131-172.
– reference: Wongsriphuek, C. et al. 2008. Dispersal of wetland plant seeds by mallards: influence of gut passage on recovery, retention, and germination. Wetlands 22: 290-299.
– reference: Brundu, G. et al. 2001. Plant invasions: species ecology and ecosystem management. Backhuys Publ.
– reference: Birger, S. 1907. Über endozoisxhe Samenverbreitung durch Vögel. Sv. Bot. Tidskr. 1: 1-31.
– reference: Prinzing, A. et al. 2002. Which species become aliens?. Evol. Ecol. Res. 4: 385-405.
– reference: Mouronval, J. B. et al. 2007. Diet of non-breeding wildfowl Anatidae and coot Fulica atra on the Perthois gravel pits, northeast France. Wildfowl 57: 68-97.
– reference: Olney, P. J. S. 1962. The food habits of a hand-reared mallard population. Ann. Rep. Wildfowl Trust 13: 119-125.
– reference: Mateo, R. et al. 2000. Determinants of lead shot, rice, and grit ingestion in ducks and coots. J. Wild. Manage. 64: 939-947.
– reference: Proctor, V. W. and Malone, C. R. 1965. Further evidence of the passive dispersal of small aquatic organisms via the intestinal tract of birds. Ecology 46: 728-729.
– reference: Charalambidou, I. and Santamaría, L. 2002. Waterbirds as endozoochorous dispersers of aquatic organisms: a review of experimental evidence. Acta Oecol. 23: 165-176.
– reference: Owen, M. and Thomas, G. J. 1979. The feeding ecology and conservation of wigeon wintering at the Ouse Washes, England. J. Appl. Ecol. 16: 795-809.
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– reference: Carlquist, S. 1967. The biota of long-distance dispersal. V. Plant dispersal to Pacific islands. Bull. Torrey Bot. Club 94: 129-162.
– reference: Soons, M. B. et al. 2008. Small seed size increases the potential for dispersal of wetland plants by ducks. J. Ecol. 96: 619-627.
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– reference: Olney, P. J. S. 1964. The food of mallard Anas platyrhyncos platyrhyncos collected from coastal and estuarine areas. Proc. Zool. Soc. Lond. 142: 397-418.
– reference: Thuiller, W. et al. 2005. Climate change threats to plant diversity in Europe. Proc. Nat. Acad. Sci. USA 102: 8245-8250.
– reference: Sánchez, M. I. et al. 2006. Internal transport of seeds by migratory waders in the Odiel marshes, south-west Spain: consequences for long-distance dispersal. J. Avian Biol. 37: 201-206.
– reference: Santamaría, L. et al. 2003. Plant performance across latitude: the role of plasticity and local adpatation in an aquatic plant. Ecology 84: 2454-2461.
– reference: Street, M. 1977. The food of mallard ducklings in a wet gravel quarry, and its relation to duckling survival. Wildfowl 28: 113-125.
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– reference: Figuerola, J. et al. 2002. Comparative dispersal effectiveness of wigeongrass seeds by waterfowl wintering in south-west Spain: quantitative and qualitative aspects. J. Ecol. 90: 989-1001.
– reference: Campredon, S. et al. 1982. Manuel d'analyse des contenus stomacaux de canards et de foulques. ONC.
– reference: Green, A. J. and Figuerola, J. 2005. Recent advances in the study of long-distance dispersal of aquatic invertebrates via birds. Divers. Distrib. 11: 149-156.
– reference: Spärck, R. 1947. Tio års viltbiologiska undersökningar i Danmark. Svensk Jakt 85: 287-292 in Swedish.
– reference: Tamisier, A. and Dehorter, O. 1999. Camargue, ducks and coots. Functioning and gradual change of a prestigious wintering ground. Centre Ornithologique du Gard in French..
– reference: Darwin, C. 1859. On the origin of species by means of natural selection. Murray.
– reference: Figuerola, J. et al. 2003. Passive internal transport of aquatic organisms by waterfowl in Doñana, south-west Spain. Global Ecol. Biogeogr. 12: 427-436.
– reference: De Meester, L. et al. 2002. The monopolization hypothesis and the dispersal-gene flow paradox in aquatic organisms. Acta Oecol. 23: 121-135.
– reference: Buckley, Y. M. et al. 2006. Management of plant invasions mediated by frugivore interactions. J. Appl. Ecol. 43: 848-857.
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– reference: Walther, G. R. et al. 2005. An ecological 'footprint' of climate change. Proc. R. Soc. B 272: 1427-1432.
– reference: Clausen, P. et al. 2002. Long-distance endozoochorous dispersal of submerged macrophyte seeds by migratory waterbirds in northern Europe - a critical review of possibilities and limitations. Acta Oecol. 23: 191-203.
– reference: Proctor, V. W. et al. 1967. Dispersal of aquatic organisms: viability of disseminules recovered from the intestinal tract of captive killdeer. Ecology 48: 672-676.
– reference: Karmiris, I. and Kazantzidis, S. 2007. Wintering diet composition of selected wildfowl species in Greece 31st Annual Meeting of Waterbird Society, Barcelona.
– reference: McCullagh, P. and Nelder, J. A. 1989. Generalized linear models, 2nd ed. Chapman and Hall/CRC.
– reference: DeVlaming, V. and Proctor, V. W. 1968. Dispersal of aquatic organisms: viability of seeds recovered from the droppings of captive killdeer and mallard ducks. Am. J. Bot. 55: 20-26.
– reference: Pieterse, A. H. and Murphy, K. J. 1990. Aquatic weeds, the ecology and management of nuisance aquatic vegetation. Oxford Science Publ.
– reference: Rehounková, K. and Prach, K. 2008. Spontaneous vegetation succession in gravel-sand pits: a potential for restoration. Restor. Ecol. 16: 305-312.
– reference: Olney, P. J. S. 1965. Part II. The feeding ecology of local mallard and other wildfowl. Ann. Rep. Wildfowl Trust 18: 47-54.
– reference: Marnotte, P. et al. 2006. Plantes des rizières de Camargue. Cirad, CFR, PNRC.
– reference: Green, A. J. et al. 2002. Implications of waterbird ecology for the dispersal of aquatic organisms. Acta Oecol. 23: 177-189.
– reference: Cappers, R. T. J. et al. 2006. Digital seed atlas of the Netherlands. Barkhuis Publ.
– reference: Danell, K. and Sjöberg, K. 1980. Foods of wigeon, teal, mallard and pintail during the summer in the northern Swedish Lake. Viltrevy 11: 141-167.
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– reference: Powers, K. D. et al. 1978. Seed distribution by waterfowl in southwestern Louisiana. J. Wildl. Manage. 42: 598-605.
– reference: Sterbetz, I. 1967. Economic and nature-conservation problems in feeding habits of Hungarian mallard. Aquila 73-74: 133-145.
– reference: Tutin, T. G. et al. 1964. Flora Europaea, Vol 1. Lycopodiaceae to Platanaceae. Cambridge Univ. Press.
– reference: Ridley, H. N. 1930. The dispersal of plants throughout the world. Reeve.
– reference: Mazzuchi, L. 1971. Beitrag zur Nahrungsökologie in der Umgebung von Bern überwinternder Krinckenten Anas crecca L. Ornithol Beob. 68: 161-178.
– reference: Traveset, A. 1998. Effect of seed passage through vertebrate frugivores' gut on germination: a review. Perspect. Plant Ecol., Syst. Evol. 1: 151-190.
– reference: Calviño-Cancela, M. et al. 2006. Emus as non-standard seed dispersers and their potential for long-distance dispersal. Ecography 29: 632-640.
– reference: Figuerola, J. and Green, A. J. 2002b. How frequent is external transport of seeds and invertebrate eggs by waterbirds? A study in Donana, SW Spain. Arch. Hydrobiol. 155: 557-565.
– reference: Rodrigues, D. et al. 2002. Mallard (Anas platyrhynchos) summer diet in central Portugal rice-fields. Game Wildl. Sci. 19: 55-62.
– reference: Hughes, L. 2000. Biological consequences of global warming: is the signal already apparent?. Trends Ecol. Evol. 15: 56-61.
– reference: Espinar, J. L. et al. 2004. Helophyte germination in a Mediterranean salt marsh: gut-passage by ducks changes seed response to salinity. J. Veg. Sci. 15: 315-322.
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Snippet Little is known about the role of migratory waterfowl in the long-distance dispersal (LDD) of seeds. We studied the gut contents of 42 teals Anas crecca...
Little is known about the role of migratory waterfowl in the long‐distance dispersal (LDD) of seeds. We studied the gut contents of 42 teals Anas crecca...
Little is known about the role of migratory waterfowl in the long‐distance dispersal (LDD) of seeds. We studied the gut contents of 42 teals Anas crecca...
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SubjectTerms Anas acuta
Anas crecca
Anas penelope
Anas platyrhynchos
Animal and plant ecology
Animal, plant and microbial ecology
Aves
biogeography
Biological and medical sciences
Diet
Diet records
diet study techniques
Dietary studies
Ducks
esophagus
France
fruits
Fundamental and applied biological sciences. Psychology
General aspects
Gizzard
habitats
Hardness
indigenous species
ingestion
Introduced plants
Life Sciences
Other
Plants
probability
Seeds
Vertebrates: general zoology, morphology, phylogeny, systematics, cytogenetics, geographical distribution
Waterfowl
Title role of migratory ducks in the long-distance dispersal of native plants and the spread of exotic plants in Europe
URI https://api.istex.fr/ark:/67375/WNG-M2M37C3R-0/fulltext.pdf
https://www.jstor.org/stable/20696304
https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fj.1600-0587.2009.05757.x
https://www.proquest.com/docview/21276870
https://www.proquest.com/docview/46455469
https://hal.science/hal-00539481
Volume 32
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