Vector activity and propagule size affect dispersal potential by vertebrates

Leeuwen, Casper H. A. van; Tollenaar, Marthe L.; Klaassen, Marcel

doi:10.1007/s00442-012-2293-0

Cited by 27 publications

(44 citation statements)

References 48 publications

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“…Our results for L. grandiflora suggest that large, hard seeds can be those with the longest retention times in waterfowl: larger seeds will have longer retentions, but only if they are relatively resistant to digestion (see also Van Leeuwen, Tollenaar & Klaassen, ). In contrast, the lightest seed Arthrocnemum had the shortest retention time.…”

Section: Discussionmentioning

confidence: 97%

Internal transport of alien and native plants by geese and ducks: an experimental study

et al. 2015

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SUMMARY1. Alien plant species are rapidly spreading in aquatic ecosystems around the world, causing major ecological effects. They are typically introduced by humans, after which natural vectors facilitate their further spread. Migratory waterbirds have long been recognised as important dispersal vectors for native and aquatic plants, yet little is known about their role in the spread of alien species. 2. We determined experimentally the potential for long-distance dispersal of native and alien wetland plants in Europe by two abundant waterfowl: mallards Anas platyrhynchos and greylag geese Anser anser. We fed seeds from two plants alien to Europe and two native plants to 10 individuals of each bird species, testing for the effects of bird and plant species on the potential for dispersal. 3. Intact seeds were retrieved from faeces for up to 4 days after ingestion. The proportion of seeds retrieved intact varied significantly between plant, but not bird, species. Retrieval was highest for the invasive water primrose Ludwigia grandiflora (>35% of ingested seeds), lowest for the invasive cordgrass Spartina densiflora (<3%) and intermediate for the native glasswort Arthrocnemum macrostachyum and seablite Suaeda vera (5-10%). 4. Seed retrieval patterns over time varied between both plant and bird species. Contrary to expectations, seeds were retained in the gut for longer in the smaller mallards. No Spartina seeds germinated after retention for over 8 h, whereas some seeds of the other species germinated even after retention for 72 h. Germinability was reduced by gut passage for Ludwigia and Arthrocnemum seeds. Ludwigia seeds recovered from geese were more likely to germinate than those recovered from mallards. Time to germination was reduced by gut passage for Spartina and Ludwigia, but increased with retention time. 5. Ducks and geese evidently have the potential for long-distance transport of alien and native plant seeds, with maximal dispersal distances of well over 1000 km. The much greater potential of Ludwigia than Spartina for dispersal by waterfowl is consistent with its faster expansion across Europe. Maximum retention times of wetland seeds have been underestimated in previous experimental studies that lasted only 1-2 days. Contrary to previous studies, wetland plants with large seeds, such as Ludwigia, can still show high potential for long-distance dispersal. More attention should be paid to the role of waterbirds as vectors of alien plants and to the role of migratory geese as vectors of plants in general.

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Section: Discussionmentioning

confidence: 97%

Internal transport of alien and native plants by geese and ducks: an experimental study

et al. 2015

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“…However, the use of captive birds to obtain data on propagule gut retention time (as in all previous seed dispersal studies using mechanistic models) might bias the estimates of dispersal distance, as bird activity affects propagule gut retention time (van Leeuwen et al 2012). Incorporating the effect of the vector activity in the model should thus be a next step for future research on endozoochorous dispersal by migratory birds.…”

Section: Discussionmentioning

confidence: 99%

Migratory strategies of waterbirds shape the continental‐scale dispersal of aquatic organisms

et al. 2012

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Long distance dispersal (LDD) of propagules is an important determinant of population dynamics, community structuring and biodiversity distribution at landscape, and sometimes continental, scale. Although migratory animals are potential LDD vectors, migratory movement data have never been integrated in estimates of propagule dispersal distances and LDD probability. Here we integrated migratory movement data of two waterbird species (mallard and teal) over two continents (Europe and North America) and gut retention time of different propagules to build a simple mechanistic model of passive dispersal of aquatic plants and zooplankton. Distance and frequency of migratory movements differed both between waterbird species and continents, which in turn resulted in changes in the shapes of propagule dispersal curves. Dispersal distances and the frequency of LDD events (generated by migratory movements) were mainly determined by the disperser species and, to a lesser extent, by the continent. The gut retention time of propagules also exerted a significant effect, which was mediated by the propagule characteristics (e.g. seeds were dispersed farther than Artemia cysts). All estimated dispersal curves were skewed towards local‐scale dispersal and, although dispersal distances were lower than previous estimates based only on the vector flight speed, had fat tails produced by LDD events that ranged from 230 to 1209 km. Our results suggest that propagule dispersal curves are determined by the migratory strategy of the disperser species, the region (or flyway) through which the disperser population moves, and the propagule characteristics. Waterbirds in particular may frequently link wetlands separated by hundreds of kilometres, contributing to the maintenance of biodiversity and, given the large geographic scale of the dispersal events, to the readjustment of species distributions in the face of climate change.

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“…The two main paths are a natural, slow and non-directional spreading and an anthropogenic expansion with the participation of human activity (Nentwig 2007). The isolation of woodland ponds and the relatively small distance between them mean that water birds may be involved in the dispersion process (Van Leeuwen et al 2012a, b, c). This kind of passive dispersion has been described in the case of P. antipodarum (Haynes et al 1985; Zaranko et al 1997; Alonzo and Castro-Diez 2008), although anthropogenic dispersion (Devin et al 2005) or accidental introductions should not be excluded.…”

Section: Introductionmentioning

confidence: 99%

Identifying factors linked to the occurrence of alien gastropods in isolated woodland water bodies

Spyra

Strzelec

2014

Naturwissenschaften

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Biological invasions are a significant component of human-caused global change and is widely regarded as one of the main threats to natural biodiversity. Isolated anthropogenic water bodies created in the areas that are deprived of natural freshwater habitats allow the survival and reproduction of alien species on newly settled sites. They are often small with water level fluctuations causing frequent environmental disturbances. The colonisation success may be the result of the rate of their degradation. The aims of the study were to determine the environmental conditions that affect the existence of alien species of gastropods in this type of aquatic environment and to examine whether the occurrence of non-native species affects the community structure of the native species. This study made it possible to group woodland ponds according to the occurrence of the three invasive species in snail communities and discuss the environmental conditions present in these pond types. Analysis of water properties emphasised the distinctiveness of the selected pond types. In ponds of the Potamopyrgus antipodarum type, we found the highest values of some parameters mainly hardness, conductivity, and content of calcium and chlorides, in contrast with the Physella acuta type, which were characterised by the lowest values except for phosphates and nitrites. In the Ferrissia fragilis type, we found the highest nitrate content. Data on the occurrence of alien species in different water environments play an important role in actions which are taken to prevent new invasions and spread of non-native species as well as to reduce future impacts of invaders.

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Vector activity and propagule size affect dispersal potential by vertebrates

Cited by 27 publications

References 48 publications

Internal transport of alien and native plants by geese and ducks: an experimental study

Internal transport of alien and native plants by geese and ducks: an experimental study

Migratory strategies of waterbirds shape the continental‐scale dispersal of aquatic organisms

Identifying factors linked to the occurrence of alien gastropods in isolated woodland water bodies

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