Predator, prey and pathogen interactions in introduced snail populations

J. Gerlach

doi:10.1017/S136794300100124X

Abstract

The introduction of the carnivorous snail Euglandina rosea to Pacific islands by biological control programmes has had a devastating effect on native snail populations. In most areas the target species, Achatina fulica, has not been affected, although some unsubstantiated reports have led to E. rosea being viewed as an effective control agent. Data from recent laboratory and field studies of E. rosea were combined into a simple model of the interactions between populations of E. rosea and A. fulica and a disease agent. Predictions from the model correspond closely with field data from a number of sites. The model suggests that apparent reductions in A. fulica numbers following E. rosea introduction are the result of a combination of predation and disease effects, and that although the maximum population levels are reduced the population is stabilized at a relatively high level. The model predicts that both A. fulica and E. rosea populations will persist. Partulidae will decline following E. rosea invasion although Samoana spp. may persist at reduced densities. More effective control of A. fulica can be achieved through manual collecting. Control of E. rosea requires the imposition of a significant novel mortality factor.

Crossref Citations

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Lee, Taehwan Burch, John B. Jung, Younghun Coote, Trevor Pearce-Kelly, Paul and Ó Foighil, Diarmaid 2007. Tahitian tree snail mitochondrial clades survived recent mass extirpation. Current Biology, Vol. 17, Issue. 13, p. R502.

van der Putten, Wim H Klironomos, John N and Wardle, David A 2007. Microbial ecology of biological invasions. The ISME Journal, Vol. 1, Issue. 1, p. 28.

Lee, Taehwan Burch, John B Coote, Trevor Pearce-Kelly, Paul Hickman, Carole Meyer, Jean-Yves and Ó Foighil, Diarmaid 2009. Moorean tree snail survival revisited: a multi-island genealogical perspective. BMC Evolutionary Biology, Vol. 9, Issue. 1,

Roll, Uri Dayan, Tamar Simberloff, Daniel and Mienis, Henk K. 2009. Non-indigenous land and freshwater gastropods in Israel. Biological Invasions, Vol. 11, Issue. 8, p. 1963.

Meyer, Wallace M. and Cowie, Robert H. 2010. Feeding Preferences of Two Predatory Snails Introduced to Hawaii and Their Conservation Implications. Malacologia, Vol. 53, Issue. 1, p. 135.

Meyer, Wallace M. and Cowie, Robert H. 2011. Distribution, movement, and microhabitat use of the introduced predatory snailEuglandina roseain Hawaii: implications for management. Invertebrate Biology, Vol. 130, Issue. 4, p. 325.

Davis‐Berg, Elizabeth C. 2012. The predatory snail Euglandina rosea successfully follows mucous trails  of both native and non‐native prey snails. Invertebrate Biology, Vol. 131, Issue. 1, p. 1.

Patel, Kinjal Shaheen, Nagma Witherspoon, Jessica Robinson, Natallia and Harrington, Melissa A. 2014. Mucus trail tracking in a predatory snail: olfactory processing retooled to serve a novel sensory modality. Brain and Behavior, Vol. 4, Issue. 1, p. 83.

Bonanomi, Giuliano Capodilupo, Manuela Incerti, Guido Gaglione, Salvatore A. and Scala, Felice 2014. Fungal diversity increases soil fungistasis and resistance to microbial invasion by a non resident species. Biological Control, Vol. 72, Issue. , p. 38.

Bick, C.S. Foighil, Diarmaid Ó and Coote, Trevor 2016. Differential survival among Tahitian tree snails during a mass extinction event: persistence of the rare and fecund. Oryx, Vol. 50, Issue. 1, p. 169.

Haponski, Amanda E. Lee, Taehwan and Ó Foighil, Diarmaid 2017. Moorean and Tahitian Partula tree snail survival after a mass extinction: New genomic insights using museum specimens. Molecular Phylogenetics and Evolution, Vol. 106, Issue. , p. 151.

Bick, C S Pearce-Kelly, Paul Coote, Trevor and Ó Foighil, Diarmaid 2018. Survival among critically endangered partulid tree snails is correlated with higher clutch sizes in the wild and higher reproductive rates in captivity. Biological Journal of the Linnean Society,

Yeung, Norine W. Meyer, Wallace M. Hayes, Kenneth A. Kim, Jaynee R. Skelton, Travis J. and Cowie, Robert H. 2019. Non-native gastropods in high elevation horticultural facilities in Hawaii: a threat to native biodiversity. Biological Invasions, Vol. 21, Issue. 5, p. 1557.

Bick, Cindy S. Lee, Inhee Coote, Trevor Haponski, Amanda E. Blaauw, David and Foighil, Diarmaid Ó 2021. Millimeter-sized smart sensors reveal that a solar refuge protects tree snail Partula hyalina from extirpation. Communications Biology, Vol. 4, Issue. 1,

Baker, Christopher M. and Bode, Michael 2021. Recent advances of quantitative modeling to support invasive species eradication on islands. Conservation Science and Practice, Vol. 3, Issue. 2,

Gerlach, Justin Barker, Gary M. Bick, Cindy S. Bouchet, Philippe Brodie, Gilianne Christensen, Carl C. Collins, Timothy Coote, Trevor Cowie, Robert H. Fiedler, G. Curt Griffiths, Owen L. Florens, F. B. Vincent Hayes, Kenneth A. Kim, Jaynee Meyer, Jean-Yves Meyer, Wallace M. Richling, Ira Slapcinsky, John D. Winsor, Leigh and Yeung, Norine W. 2021. Negative impacts of invasive predators used as biological control agents against the pest snail Lissachatina fulica: the snail Euglandina ‘rosea’ and the flatworm Platydemus manokwari. Biological Invasions, Vol. 23, Issue. 4, p. 997.

2022.

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Predator, prey and pathogen interactions in introduced snail populations

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Predator, prey and pathogen interactions in introduced snail populations

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