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Invasion and Current Distribution of the Octocoral Carijoa Riisei

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Invasion and Current Distribution of the Octocoral Carijoa Riisei Heriot-Watt University Research Gateway Invasion and current distribution of the octocoral Carijoa riisei (Duchassaing & Michelotti, 1860) in the Ecuadorian coast (eastern tropical pacific) Citation for published version: Cárdenas-Calle, M, Pérez-Correa, J, Uzca-Sornoza, C, Bigatti, G, Diez, N, Lozada, M, Coronel, J, Herrera, I, Torres, G, De la Cuadra, T, Espinoza, F, Mair, J & Keith, I 2021, 'Invasion and current distribution of the octocoral Carijoa riisei (Duchassaing & Michelotti, 1860) in the Ecuadorian coast (eastern tropical pacific)', Aquatic Invasions, vol. 16, no. 1, pp. 62-76. https://doi.org/10.3391/ai.2021.16.1.05 Digital Object Identifier (DOI): 10.3391/ai.2021.16.1.05 Link: Link to publication record in Heriot-Watt Research Portal Document Version: Publisher's PDF, also known as Version of record Published In: Aquatic Invasions Publisher Rights Statement: © Cárdenas-Calle et al. General rights Copyright for the publications made accessible via Heriot-Watt Research Portal is retained by the author(s) and / or other copyright owners and it is a condition of accessing these publications that users recognise and abide by the legal requirements associated with these rights. Take down policy Heriot-Watt University has made every reasonable effort to ensure that the content in Heriot-Watt Research Portal complies with UK legislation. If you believe that the public display of this file breaches copyright please contact [email protected] providing details, and we will remove access to the work immediately and investigate your claim. Download date: 29. Sep. 2021 Aquatic Invasions (2021) Volume 16, Issue 1: 62–76 Special Issue: Proceedings of the 21st International Conference on Aquatic Invasive Species Guest editors: Sarah Bailey, Bonnie Holmes and Oscar Casas-Monroy CORRECTED PROOF Research Article Invasion and current distribution of the octocoral Carijoa riisei (Duchassaing & Michelotti, 1860) in the Ecuadorian coast (Eastern Tropical Pacific) Maritza Cárdenas-Calle1,2,*, Julián Pérez-Correa1,3, Cecilia Uzca-Sornoza2, Gregorio Bigatti3,4, Nardy Diez5, Mariana Lozada6, Jorge Coronel7, Ileana Herrera3,8, Gladys Torres9, Telmo De la Cuadra10, Freddy Espinoza11, James Mair1,12 and Inti Keith13 1Bioelite. Cdla. Bosques el Salado Mz 301 solar 2B frente a Ciudad Colón, Guayaquil, Ecuador 2Universidad de Guayaquil, Facultad de Ingeniería Química. Ciudadela Universitaria “Salvador Allende”, Av. Delta y Av. Kennedy, Guayaquil, Ecuador 3Universidad Espíritu Santo, Km. 2.5 vía La Puntilla, Samborondón, Ecuador 4LARBIM (IBIOMAR-CONICET), Bv. Almirante Brown 2915, Puerto Madryn, Chubut, Argentina 5Escuela Superior Politécnica del Litoral, ESPOL, Centro de Investigación Biotecnológicas del Ecuador-CIBE, Campus Gustavo Galindo Km. 30.5 Vía Perimetral, P.O. Box 09-01-5863, Guayaquil, Ecuador 6Laboratorio de Microbiología Ambiental (IBIOMAR-CONICET), Bv. Almirante Brown 2915, Puerto Madryn, Chubut, Argentina 7Universidad Agraria del Ecuador, Av. 25 de Julio y Pío Jaramillo, Guayaquil, Ecuador 8Instituto Nacional de Biodiversidad (INABIO), 170501, Quito, Ecuador 9Instituto Oceanográfico y Antártico (INOCAR), Av. 25 de Julio Base Naval Sur, Guayaquil, Ecuador 10Instituto Público de Investigación de Acuicultura y Pesca, Letamendi 102 y la Ría. Guayaquil, Ecuador 11Dirección Nacional de los Espacios Acuáticos (DIRNEA), Gral. Elizalde 101 y Malecón Simón Bolívar, Guayaquil, Ecuador 12Heriot-Watt University, Edinburgh, Scotland, UK EH14 4AS 13Charles Darwin Research Station, Charles Darwin Foundation, Santa Cruz, Galápagos, Ecuador Author e-mails: [email protected] (MCC), [email protected] (JPC), [email protected] (CU), [email protected] (GB), [email protected] (ND), [email protected] (ML), [email protected] (JC), [email protected] (IH), [email protected] (GT), [email protected] (TDC), [email protected] (FE), [email protected] (JM), [email protected] (IK) *Corresponding author Co-Editors’ Note: This study was contributed in relation to the 21st International Conference Abstract on Aquatic Invasive Species held in Montreal, Canada, October 27–31, 2019 (http://www.icais. Carijoa riisei is a snowflake coral that has aggressively spread across many coastal org/html/previous21.html). This conference has habitats in the Atlantic and Pacific oceans, threatening a number of tropical provided a venue for the exchange of ecosystems worldwide, including coral reefs. The aim of this work was to evaluate information on various aspects of aquatic the distribution and provide an estimation of abundance of the invasive octocoral invasive species since its inception in 1990. The conference continues to provide an C. riisei along the Ecuadorian coast, as well as the relationship between its abundance opportunity for dialog between academia, and different environmental variables. In a field survey, high abundances of C. riisei industry and environmental regulators. colonies were reported growing over corals and sessile communities at 5 of 43 Citation: Cárdenas-Calle M, Pérez-Correa J, sampling sites. The areas with highest relative abundance were found in the Manabí Uzca-Sornoza C, Bigatti G, Diez N, province, at two sites in Jama: Bajo Londres (44.57% coverage) and Vaca Brava 1 Lozada M, Coronel J, Herrera I, Torres G, (20.25%). Results of ordination and grouping statistical analyses showed no significant De la Cuadra T, Espinoza F, Mair J, Keith I (2021) Invasion and current distribution of differences between invaded and not invaded sites as regards community composition the octocoral Carijoa riisei (Duchassaing or environmental characteristics, suggesting neither biotic nor abiotic factors could & Michelotti, 1860) in the Ecuadorian be limiting C. riisei dispersal along the Ecuadorian coast. Results from a bibliographic coast (Eastern Tropical Pacific). Aquatic survey covering occurrence data up to 2020 were in accordance, showing that in Invasions 16(1): 62–76, https://doi.org/10. 3391/ai.2021.16.1.05 that period C. riisei became an established species to the Ecuadorian coast, being present in at least 22 of the 43 sites, including various sites in Marine Protected Received: 29 July 2020 Areas. Based on these findings, recommendations are made to promote urgent 11 January 2021 Accepted: monitoring programs to detect C. riisei in new areas along the coast of Ecuador and Published: 15 February 2021 in the Galapagos Marine Reserve, in order to develop a mitigation program and to Thematic editor: Sarah Bailey take actions to conserve the ecosystems affected by this invasion. Copyright: © Cárdenas-Calle et al. This is an open access article distributed under terms of the Creative Commons Attribution License Key words: invasive species, Eastern Pacific, Ecuador, snowflake coral (Attribution 4.0 International - CC BY 4.0). OPEN ACCESS. Cárdenas-Calle et al. (2021), Aquatic Invasions 16(1): 62–76, https://doi.org/10.3391/ai.2021.16.1.05 62 Carijoa riisei in the Coast of Ecuador Introduction Carijoa riisei (Duchassaing & Michelotti, 1860), commonly known as snowflake coral, is an octocoral (Octocorallia: Cnidaria) native to the Indo- Pacific, currently present in the Atlantic, Pacific and Caribbean Seas (Sánchez and Ballesteros 2014). This species was reported for the first time, as an invasive species in 1972, in Hawaii (Kahng et al. 2008). It has been reported in areas with rich organic matter, where it inhabits rocky and artificial substrates (Sánchez 1994; Venkataraman et al. 2016). It forms dense, monospecific aggregations, carpeting hard substrata. This octocoral is an aggressive competitor that monopolizes food and space, feeding mainly on phytoplankton, diatoms and zooplankton larvae (Lira et al. 2009). It has few natural predators, therefore no species has been identified as potential for biocontrol (Wagner et al. 2009). This species is usually found to compete successfully with black corals and invertebrates, impacting coral reefs (Kahng and Grigg 2005; Barbosa et al. 2014; Sánchez and Ballesteros 2014). This process can lead to major shifts in species interactions and changes in both nutrient cycles and energy flow, which can result in unpredictable cascading effects (Carlton 2001). Carijoa riisei was reported for the first time in Ecuador in 2010, in the Machalilla National Park. One year later it was observed in the northern province of Esmeraldas, in the Galera San Francisco Marine Reserve (Instituto Nazca 2013; Keith and Martínez 2017). In 2012, it was detected on the central coast in El Islote Los Ahorcados, Manabí (Instituto Nazca 2013) and south central coast in El Pelado Marine Reserve (Cárdenas-Calle et al. 2018a; Instituto Nazca 2013). In 2013, it was observed at a shallow water site known as El Cuarenta, known for its high diversity of benthic and fish communities (Cárdenas-Calle et al. 2018a). In a short time, this species was reported at several coastal sandy sites as well as in an open water area that is characterized by rocky reefs (Cárdenas-Calle et al. 2018b). Ecuador is the smallest among the so-called “megadiverse” countries, harboring a wide range of ecosystems and many endemic species distributed in small geographic ranges (Cuesta et al. 2017; Mestanza-Ramón et al. 2019). The Ecuadorian coast is approximately 2,900 km in length, and has been considered a hotspot of species richness due to its location in the great Panamic-Pacific zoogeographic province (Olsson 1961). For example, in a recent survey, a total of 479 macroinvertebrate
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