Virgin Islands National Park: Coral Reef: Juvenile Coral

Coral larvae are selective with regards to the surfaces upon which they settle, but little is known about the outcome of these choices. In this study, we explored the implications for juvenile scleractinians (less than 40-mm diameter) of growing on igneous versus carbonate rock on the shallow reefs...

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Bibliographic Details
Main Authors: California State University Northridge, Peter Edmunds
Format: Dataset
Language:unknown
Published: Environmental Data Initiative 2020
Subjects:
NSF
Online Access:https://pasta.lternet.edu/package/metadata/eml/edi/295/2
id dataone:https://pasta.lternet.edu/package/metadata/eml/edi/295/2
record_format openpolar
spelling dataone:https://pasta.lternet.edu/package/metadata/eml/edi/295/2 2024-11-03T19:45:32+00:00 Virgin Islands National Park: Coral Reef: Juvenile Coral California State University Northridge Peter Edmunds St. John, US Virgin Islands Yawzi Tektite Cabritte Horn White Point Donkey Bite ENVELOPE(-64.73,-64.72,18.317,18.307) BEGINDATE: 1994-01-10T00:00:00Z ENDDATE: 2019-07-01T00:00:00Z 2020-03-14T00:00:00Z https://pasta.lternet.edu/package/metadata/eml/edi/295/2 unknown Environmental Data Initiative USVI VINP LTREB CSUN US Virgin Islands National Park St. John Island Caribbean California State University Northridge NSF Scleractinia Scleractinian Coral Community Demographics Corals Populations Carbonate rocks Coral Reefs Fringing Reefs Shallow water Marine environments Polyps (organisms) larvae communities community dynamics Ocean Acidification Reef Resistance and Resilience Population and Community Dynamics Dataset 2020 dataone:urn:node:EDI 2024-11-03T19:15:36Z Coral larvae are selective with regards to the surfaces upon which they settle, but little is known about the outcome of these choices. In this study, we explored the implications for juvenile scleractinians (less than 40-mm diameter) of growing on igneous versus carbonate rock on the shallow reefs (5-m depth) of St. John, US Virgin Islands. Surveys revealed that juvenile corals occurred at densities of 16 colonies m− 2 and were distributed on igneous and carbonate rocks in proportion to the abundance of these surfaces, suggesting that larvae do not discriminate between rock types at settlement. Repeated surveys demonstrated that all juvenile corals (i.e., pooled among taxa) grew 41% slower on igneous versus carbonate rock between January and August, but not between August and January when the growth was statistically indistinguishable between rock types. Although the growth of the most common juvenile coral, Porites astreoides, was similar on both substrata, the photophysiology of this species was affected by the type of rock. The maximum relative electron transfer rate (rETR, a proxy for photosynthesis) of P. astreoides was down-regulated 30% on igneous compared to carbonate rock. Phylogenetic analyses of the Symbiodinium community sequence profiles within P. astreoides revealed significant differences between substrata, with a greater diversity of co-occurring ITS-2 sequences in corals growing on carbonate compared to igneous rock. While substratum-dependent patterns in the characteristics of juvenile corals suggested there is selective value to the settlement choices made by larvae, these trends did not translate into differences in survival, at least over the time scale investigated. It remains uncertain what features of the rocks affected coral performance, but differences in the temperature of the rock may be an important feature during the warmest period of the year. Dataset Ocean acidification Environmental Data Initiative (via DataONE) White Point ENVELOPE(-56.582,-56.582,49.833,49.833) ENVELOPE(-64.73,-64.72,18.317,18.307)
institution Open Polar
collection Environmental Data Initiative (via DataONE)
op_collection_id dataone:urn:node:EDI
language unknown
topic USVI
VINP
LTREB
CSUN
US Virgin Islands National Park
St. John Island
Caribbean
California State University Northridge
NSF
Scleractinia
Scleractinian Coral
Community
Demographics
Corals
Populations
Carbonate rocks
Coral Reefs
Fringing Reefs
Shallow water
Marine environments
Polyps (organisms)
larvae
communities
community dynamics
Ocean Acidification
Reef Resistance and Resilience
Population and Community Dynamics
spellingShingle USVI
VINP
LTREB
CSUN
US Virgin Islands National Park
St. John Island
Caribbean
California State University Northridge
NSF
Scleractinia
Scleractinian Coral
Community
Demographics
Corals
Populations
Carbonate rocks
Coral Reefs
Fringing Reefs
Shallow water
Marine environments
Polyps (organisms)
larvae
communities
community dynamics
Ocean Acidification
Reef Resistance and Resilience
Population and Community Dynamics
California State University Northridge
Peter Edmunds
Virgin Islands National Park: Coral Reef: Juvenile Coral
topic_facet USVI
VINP
LTREB
CSUN
US Virgin Islands National Park
St. John Island
Caribbean
California State University Northridge
NSF
Scleractinia
Scleractinian Coral
Community
Demographics
Corals
Populations
Carbonate rocks
Coral Reefs
Fringing Reefs
Shallow water
Marine environments
Polyps (organisms)
larvae
communities
community dynamics
Ocean Acidification
Reef Resistance and Resilience
Population and Community Dynamics
description Coral larvae are selective with regards to the surfaces upon which they settle, but little is known about the outcome of these choices. In this study, we explored the implications for juvenile scleractinians (less than 40-mm diameter) of growing on igneous versus carbonate rock on the shallow reefs (5-m depth) of St. John, US Virgin Islands. Surveys revealed that juvenile corals occurred at densities of 16 colonies m− 2 and were distributed on igneous and carbonate rocks in proportion to the abundance of these surfaces, suggesting that larvae do not discriminate between rock types at settlement. Repeated surveys demonstrated that all juvenile corals (i.e., pooled among taxa) grew 41% slower on igneous versus carbonate rock between January and August, but not between August and January when the growth was statistically indistinguishable between rock types. Although the growth of the most common juvenile coral, Porites astreoides, was similar on both substrata, the photophysiology of this species was affected by the type of rock. The maximum relative electron transfer rate (rETR, a proxy for photosynthesis) of P. astreoides was down-regulated 30% on igneous compared to carbonate rock. Phylogenetic analyses of the Symbiodinium community sequence profiles within P. astreoides revealed significant differences between substrata, with a greater diversity of co-occurring ITS-2 sequences in corals growing on carbonate compared to igneous rock. While substratum-dependent patterns in the characteristics of juvenile corals suggested there is selective value to the settlement choices made by larvae, these trends did not translate into differences in survival, at least over the time scale investigated. It remains uncertain what features of the rocks affected coral performance, but differences in the temperature of the rock may be an important feature during the warmest period of the year.
format Dataset
author California State University Northridge
Peter Edmunds
author_facet California State University Northridge
Peter Edmunds
author_sort California State University Northridge
title Virgin Islands National Park: Coral Reef: Juvenile Coral
title_short Virgin Islands National Park: Coral Reef: Juvenile Coral
title_full Virgin Islands National Park: Coral Reef: Juvenile Coral
title_fullStr Virgin Islands National Park: Coral Reef: Juvenile Coral
title_full_unstemmed Virgin Islands National Park: Coral Reef: Juvenile Coral
title_sort virgin islands national park: coral reef: juvenile coral
publisher Environmental Data Initiative
publishDate 2020
url https://pasta.lternet.edu/package/metadata/eml/edi/295/2
op_coverage St. John, US Virgin Islands
Yawzi
Tektite
Cabritte Horn
White Point
Donkey Bite
ENVELOPE(-64.73,-64.72,18.317,18.307)
BEGINDATE: 1994-01-10T00:00:00Z ENDDATE: 2019-07-01T00:00:00Z
long_lat ENVELOPE(-56.582,-56.582,49.833,49.833)
ENVELOPE(-64.73,-64.72,18.317,18.307)
geographic White Point
geographic_facet White Point
genre Ocean acidification
genre_facet Ocean acidification
_version_ 1814740092352200704