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• W2899721308 abstract "AEI Aquaculture Environment Interactions Contact the journal Facebook Twitter RSS Mailing List Subscribe to our mailing list via Mailchimp HomeLatest VolumeAbout the JournalEditorsTheme Sections AEI 11:41-51 (2019) - DOI: https://doi.org/10.3354/aei00291 The role of two non-indigenous serpulid tube worms in shaping artificial hard substrata communities: case study of a fish farm in the central Mediterranean Sea M. Cristina Mangano1,2, Francesca Ape3, Simone Mirto3,* 1Dipartimento di Scienze della Terra e del Mare, Università degli Studi di Palermo, Viale delle Scienze Ed. 16, 90128 Palermo, Italy 2School of Ocean Sciences, Bangor University, 328 Westbury Mount, Menai Bridge, Anglesey LL59 5AB, UK 3Istituto per lo studio degli impatti Antropici e Sostenibilità in ambiente marino (IAS-CNR), Via G. da Verrazzano 17, 91014 Castellammare del Golfo, TP, Italy *Corresponding author: simone.mirto@cnr.it ABSTRACT: Understanding the spread and establishment of non-indigenous species (NIS) is one of the primary areas of focus in bioinvasion science and is essential for generating appropriate management strategies in aquaculture. Here we investigated the role of 2 non-indigenous serpulid tube worms (Hydroides elegans and H. dirampha) in shaping the hard substrata communities around a fish farm in the Strait of Sicily over 1 yr (June 2014-June 2015), at 3 mo intervals (September and December 2014, March and June 2015). The mean density values of serpulids were significantly different at each sampling time. The density of serpulids on submerged panels showed a peak in spring (March 2015, after 9 mo) and decreased drastically in summer (June 2015). Hydroides shaped the entire associated macrobenthic community, which showed the highest density in the first month of observations. The lowest density was recorded in proximity to the highest density of serpulids. Margalef’s species richness of the associated macrofaunal community peaked at the end of monitoring (summer). Our results will add new insights into the role of aquaculture as a vector and pathway for NIS. KEY WORDS: Non-indigenous species · Annelida · Serpulidae · Macrofouling · Pathway · Aquaculture cages Full text in pdf format Supplementary material PreviousNextCite this article as: Mangano MC, Ape F, Mirto S (2019) The role of two non-indigenous serpulid tube worms in shaping artificial hard substrata communities: case study of a fish farm in the central Mediterranean Sea. Aquacult Environ Interact 11:41-51. https://doi.org/10.3354/aei00291 Export citation Mail this link - Contents Mailing Lists - RSS Facebook - Tweet - linkedIn Cited by Published in AEI Vol. 11. Online publication date: February 07, 2019 Print ISSN: 1869-215X; Online ISSN: 1869-7534 Copyright © 2019 Inter-Research." @default.
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• W2899721308 title "The role of two non-indigenous serpulid tube worms in shaping artificial hard substrata communities: case study of a fish farm in the central Mediterranean Sea" @default.
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• W2899721308 cites W1803950400 @default.
• W2899721308 cites W1964981606 @default.
• W2899721308 cites W1978099559 @default.
• W2899721308 cites W1979837394 @default.
• W2899721308 cites W1981833046 @default.
• W2899721308 cites W1985993987 @default.
• W2899721308 cites W1986550475 @default.
• W2899721308 cites W1993465184 @default.
• W2899721308 cites W2002461421 @default.
• W2899721308 cites W2006749731 @default.
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• W2899721308 cites W2017653228 @default.
• W2899721308 cites W2017813587 @default.
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• W2899721308 cites W2030993066 @default.
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• W2899721308 cites W2031967150 @default.
• W2899721308 cites W2036594688 @default.
• W2899721308 cites W2047967997 @default.
• W2899721308 cites W2058745706 @default.
• W2899721308 cites W2067981575 @default.
• W2899721308 cites W2075383673 @default.
• W2899721308 cites W2075686374 @default.
• W2899721308 cites W2077533369 @default.
• W2899721308 cites W2082598566 @default.
• W2899721308 cites W2084156540 @default.
• W2899721308 cites W2093340209 @default.
• W2899721308 cites W2105365764 @default.
• W2899721308 cites W2116964561 @default.
• W2899721308 cites W2124598518 @default.
• W2899721308 cites W2126755910 @default.
• W2899721308 cites W2128261605 @default.
• W2899721308 cites W2131042289 @default.
• W2899721308 cites W2137439980 @default.
• W2899721308 cites W2146202609 @default.
• W2899721308 cites W2146368563 @default.
• W2899721308 cites W2148261524 @default.
• W2899721308 cites W2149819707 @default.
• W2899721308 cites W2160349174 @default.
• W2899721308 cites W2162259552 @default.
• W2899721308 cites W218216241 @default.
• W2899721308 cites W2231835210 @default.
• W2899721308 cites W2283350670 @default.
• W2899721308 cites W2294067699 @default.
• W2899721308 cites W2320260623 @default.
• W2899721308 cites W2404772290 @default.
• W2899721308 cites W2428679076 @default.
• W2899721308 cites W2564708729 @default.
• W2899721308 cites W2564929599 @default.
• W2899721308 cites W2604775532 @default.
• W2899721308 cites W2765876806 @default.
• W2899721308 cites W2774177301 @default.
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• W2899721308 cites W2789077176 @default.
• W2899721308 cites W2790193306 @default.
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• W2899721308 cites W2803085139 @default.
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• W2899721308 cites W571707395 @default.
• W2899721308 cites W101721681 @default.
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