A novel system for intensive Diadema antillarum propagation as a step towards population enhancement

Abstract The long-spined sea urchin Diadema antillarum was once an abundant reef grazing herbivore throughout the Caribbean. During the early 1980s, D. antillarum populations were reduced by > 93% due to an undescribed disease. This event resulted in a lack of functional reef herbivory and contri...

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Main Authors: Aaron R. Pilnick, Keri L. O’Neil, Martin Moe, Joshua T. Patterson
Format: Article
Language:English
Published: Nature Publishing Group 2021-05-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-90564-1
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spelling doaj-dc6281b081b748e19aebaf9e9577406e2021-05-30T11:38:53ZengNature Publishing GroupScientific Reports2045-23222021-05-0111111310.1038/s41598-021-90564-1A novel system for intensive Diadema antillarum propagation as a step towards population enhancementAaron R. Pilnick0Keri L. O’Neil1Martin Moe2Joshua T. Patterson3School of Natural Resources and Environment, University of Florida/IFASCenter for Conservation, The Florida AquariumSchool of Forest, Fisheries, and Geomatics Sciences, University of Florida/IFASCenter for Conservation, The Florida AquariumAbstract The long-spined sea urchin Diadema antillarum was once an abundant reef grazing herbivore throughout the Caribbean. During the early 1980s, D. antillarum populations were reduced by > 93% due to an undescribed disease. This event resulted in a lack of functional reef herbivory and contributed to ongoing ecological shifts from hard coral towards macroalgae dominated reefs. Limited natural recovery has increased interest in a range of strategies for augmenting herbivory. An area of focus has been developing scalable ex situ methods for rearing D. antillarum from gametes. The ultimate use of such a tool would be exploring hatchery origin restocking strategies. Intensive ex situ aquaculture is a potentially viable, yet difficult, method for producing D. antillarum at scales necessary to facilitate restocking. Here we describe a purpose-built, novel recirculating aquaculture system and the broodstock management and larval culture process that has produced multiple D. antillarum cohorts, and which has the potential for practical application in a dedicated hatchery setting. Adult animals held in captivity can be induced to spawn year-round, with some evidence for annual and lunar periodicity. Fecundity and fertilization rates are both consistently very high, yet challenges persist in both late stage larval development and early post-settlement survival. Initial success was realized with production of 100 juvenile D. antillarum from ~ 1200 competent larvae. While the system we describe requires a significant level of investment and technical expertise, this work advances D. antillarum culture efforts in potential future hatchery settings and improves the viability of scalable ex situ production for population enhancement.https://doi.org/10.1038/s41598-021-90564-1
collection DOAJ
language English
format Article
sources DOAJ
author Aaron R. Pilnick
Keri L. O’Neil
Martin Moe
Joshua T. Patterson
spellingShingle Aaron R. Pilnick
Keri L. O’Neil
Martin Moe
Joshua T. Patterson
A novel system for intensive Diadema antillarum propagation as a step towards population enhancement
Scientific Reports
author_facet Aaron R. Pilnick
Keri L. O’Neil
Martin Moe
Joshua T. Patterson
author_sort Aaron R. Pilnick
title A novel system for intensive Diadema antillarum propagation as a step towards population enhancement
title_short A novel system for intensive Diadema antillarum propagation as a step towards population enhancement
title_full A novel system for intensive Diadema antillarum propagation as a step towards population enhancement
title_fullStr A novel system for intensive Diadema antillarum propagation as a step towards population enhancement
title_full_unstemmed A novel system for intensive Diadema antillarum propagation as a step towards population enhancement
title_sort novel system for intensive diadema antillarum propagation as a step towards population enhancement
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-05-01
description Abstract The long-spined sea urchin Diadema antillarum was once an abundant reef grazing herbivore throughout the Caribbean. During the early 1980s, D. antillarum populations were reduced by > 93% due to an undescribed disease. This event resulted in a lack of functional reef herbivory and contributed to ongoing ecological shifts from hard coral towards macroalgae dominated reefs. Limited natural recovery has increased interest in a range of strategies for augmenting herbivory. An area of focus has been developing scalable ex situ methods for rearing D. antillarum from gametes. The ultimate use of such a tool would be exploring hatchery origin restocking strategies. Intensive ex situ aquaculture is a potentially viable, yet difficult, method for producing D. antillarum at scales necessary to facilitate restocking. Here we describe a purpose-built, novel recirculating aquaculture system and the broodstock management and larval culture process that has produced multiple D. antillarum cohorts, and which has the potential for practical application in a dedicated hatchery setting. Adult animals held in captivity can be induced to spawn year-round, with some evidence for annual and lunar periodicity. Fecundity and fertilization rates are both consistently very high, yet challenges persist in both late stage larval development and early post-settlement survival. Initial success was realized with production of 100 juvenile D. antillarum from ~ 1200 competent larvae. While the system we describe requires a significant level of investment and technical expertise, this work advances D. antillarum culture efforts in potential future hatchery settings and improves the viability of scalable ex situ production for population enhancement.
url https://doi.org/10.1038/s41598-021-90564-1
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