Radiocarbon-based ages and growth rates of bamboo corals from the Gulf of Alaska

E. Brendan Roark; Thomas P. Guilderson; Sarah Flood-Page; Robert B. Dunbar; B. Lynn Ingram; Stewart J. Fallon; Malcolm McCulloch

doi:10.1029/2004GL021919

Radiocarbon-based ages and growth rates of bamboo corals from the Gulf of Alaska

E. Brendan Roark^*, Thomas P. Guilderson, Sarah Flood-Page, Robert B. Dunbar, B. Lynn Ingram, Stewart J. Fallon, Malcolm McCulloch

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

113 Citations (Scopus)

Abstract

Deep-sea coral communities have long been recognized by fisherman as areas that support large populations of commercial fish. As a consequence, many deep-sea coral communities are threatened by bottom trawling. Successful management and conservation of this widespread deep-sea habitat requires knowledge of the age and growth rates of deep-sea corals. These organisms also contain important archives of intermediate and deep-water variability, and are thus of interest in the context of decadal to century-scale climate dynamics. Here, we present Δ ¹⁴C data that suggest that bamboo corals from the Gulf of Alaska are long-lived (75-126 years) and that they acquire skeletal carbon from two distinct sources. Independent verification of our growth rate estimates and coral ages is obtained by counting seasonal Sr/Ca cycles and probable lunar cycle growth bands.

Original language	English
Pages (from-to)	1-5
Number of pages	5
Journal	Geophysical Research Letters
Volume	32
Issue number	4
DOIs	https://doi.org/10.1029/2004GL021919
Publication status	Published - 28 Feb 2005

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title = "Radiocarbon-based ages and growth rates of bamboo corals from the Gulf of Alaska",

abstract = "Deep-sea coral communities have long been recognized by fisherman as areas that support large populations of commercial fish. As a consequence, many deep-sea coral communities are threatened by bottom trawling. Successful management and conservation of this widespread deep-sea habitat requires knowledge of the age and growth rates of deep-sea corals. These organisms also contain important archives of intermediate and deep-water variability, and are thus of interest in the context of decadal to century-scale climate dynamics. Here, we present Δ 14C data that suggest that bamboo corals from the Gulf of Alaska are long-lived (75-126 years) and that they acquire skeletal carbon from two distinct sources. Independent verification of our growth rate estimates and coral ages is obtained by counting seasonal Sr/Ca cycles and probable lunar cycle growth bands.",

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AU - Roark, E. Brendan

AU - Guilderson, Thomas P.

AU - Flood-Page, Sarah

AU - Dunbar, Robert B.

AU - Ingram, B. Lynn

AU - Fallon, Stewart J.

AU - McCulloch, Malcolm

PY - 2005/2/28

Y1 - 2005/2/28

N2 - Deep-sea coral communities have long been recognized by fisherman as areas that support large populations of commercial fish. As a consequence, many deep-sea coral communities are threatened by bottom trawling. Successful management and conservation of this widespread deep-sea habitat requires knowledge of the age and growth rates of deep-sea corals. These organisms also contain important archives of intermediate and deep-water variability, and are thus of interest in the context of decadal to century-scale climate dynamics. Here, we present Δ 14C data that suggest that bamboo corals from the Gulf of Alaska are long-lived (75-126 years) and that they acquire skeletal carbon from two distinct sources. Independent verification of our growth rate estimates and coral ages is obtained by counting seasonal Sr/Ca cycles and probable lunar cycle growth bands.

AB - Deep-sea coral communities have long been recognized by fisherman as areas that support large populations of commercial fish. As a consequence, many deep-sea coral communities are threatened by bottom trawling. Successful management and conservation of this widespread deep-sea habitat requires knowledge of the age and growth rates of deep-sea corals. These organisms also contain important archives of intermediate and deep-water variability, and are thus of interest in the context of decadal to century-scale climate dynamics. Here, we present Δ 14C data that suggest that bamboo corals from the Gulf of Alaska are long-lived (75-126 years) and that they acquire skeletal carbon from two distinct sources. Independent verification of our growth rate estimates and coral ages is obtained by counting seasonal Sr/Ca cycles and probable lunar cycle growth bands.

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Radiocarbon-based ages and growth rates of bamboo corals from the Gulf of Alaska

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