Reproductive plasticity as an advantage of snakes during island invasion

Samuel Fisher; Robert N. Fisher; Sophie E. Alcaraz; Ramón Gallo‐Barneto; Clara Patino‐Martinez; Luis Felipe López‐Jurado; Miguel Ángel Cabrera‐Pérez; Jesse L. Grismer

doi:10.1111/csp2.554

Conservation Science and Practice (Dec 2021)

Reproductive plasticity as an advantage of snakes during island invasion

Samuel Fisher,
Robert N. Fisher,
Sophie E. Alcaraz,
Ramón Gallo‐Barneto,
Clara Patino‐Martinez,
Luis Felipe López‐Jurado,
Miguel Ángel Cabrera‐Pérez,
Jesse L. Grismer

Affiliations

Samuel Fisher: Department of Biology La Sierra University 4500 Riverwalk Parkway Riverside California USA
Robert N. Fisher: Western Ecological Research Center U.S. Geological Survey 4615 Spruance Road San Diego California USA
Sophie E. Alcaraz: Western Ecological Research Center U.S. Geological Survey 4615 Spruance Road San Diego California USA
Ramón Gallo‐Barneto: Área de Medio Ambiente Gestión y Planeamiento Territorial y Ambiental (GesPlan S. A.) C/Francisco Gourie, 107‐30 Las Palmas Spain
Clara Patino‐Martinez: Asociación para el Desarrollo Sostenible y Conservación de la Biodiversidad (ADS) C/Blas de Lezo 55 Aguimes Las Palmas Spain
Luis Felipe López‐Jurado: Department of Biology, Faculty of Marine Sciences Universidad de Las Palmas de Gran Canaria Las Palmas Spain
Miguel Ángel Cabrera‐Pérez: Servicio de Biodiversidad, Dirección General de Protección de la Naturaleza Gobierno de Canarias C/Profesor Agustín Millares Carló, 18, 5a planta, Edificio Servicios Múltiples II Las Palmas Spain
Jesse L. Grismer: Department of Biology La Sierra University 4500 Riverwalk Parkway Riverside California USA

DOI: https://doi.org/10.1111/csp2.554
Journal volume & issue: Vol. 3, no. 12
pp. n/a – n/a

Abstract

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Abstract Most invasive species are not studied during their initial colonization of ecosystems to which they were recently introduced. Rather, research is typically performed after invasive species are well established and causing harm to the native biodiversity. Thus, novel adaptations of invasive species during their initial invasions are rarely identified. The California kingsnake (Lampropeltis californiae) is an invasive species in the Canary Islands that originated via escape or release from captive populations. Previous studies have demonstrated several morphological differences between the native California population and the invasive populations on Gran Canaria Island, particularly in regard to color pattern and body mass. In this study, we assessed the reproductive condition of 1,538 museum specimens of L. californiae from the native range, and 668 from Gran Canaria. Our results show that 57.1% of female L. californiae from Gran Canaria were gravid versus 13.4% of those from California. Moreover, average follicle size and clutch size were both greater in the invasive range (20.3 and 65%). In addition, there was a marked phenological shift in the invasive populations, among which follicles appeared 60 days sooner than in the native range. These differences can possibly be attributed to a larger body mass in the invasive populations, a lack of interspecific competition, origination from the pet trade, increased selection for large clutch sizes, and/or increased climate suitability in the invaded habitats. Overall, these reproductive and phenological attributes appear to constitute advantages for L. californiae during the invasion of this newly encountered ecosystem. The phenomenon of reproductive plasticity might generally be advantageous for rapid irruption of snakes on islands.

Published in Conservation Science and Practice

ISSN: 2578-4854 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Biology (General): Ecology; Science: Natural history (General): General. Including nature conservation, geographical distribution
Website: https://onlinelibrary.wiley.com/journal/25784854

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