Growth Patterns and AMS-14C Age Dates of Fossil Corals from Northwest Pacific

Kevin L. Garas; Tsuyoshi Watanabe; Atsuko Yamazaki; Angel T. Bautista; Hiroyuki Matsuzaki

Growth Patterns and AMS-¹⁴C Age Dates of Fossil Corals from Northwest Pacific

Kevin L. Garas, Tsuyoshi Watanabe, Atsuko Yamazaki, Angel T. Bautista, Hiroyuki Matsuzaki

Dynamics, Structure and Evolution of the Earth and Planets

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

Abstract

This study aims to evaluate the controlling factor/s of coral growth in the northwest Pacific during the Holocene. Here, we present newly acquired growth data and radiocarbon age dates of fossil Porites corals collected from Holocene uplifted marine terraces in Kikaijima, southern Japan and northwest Luzon, Philippines. Carbonate mineral identification using X-ray diffraction (XRD) and scanning electron microscope (SEM) was conducted to screen for any diagenetic alteration in the fossil corals. We used accelerator mass spectrometer (AMS) –¹⁴C dating to determine the absolute age dates of the fossil corals. Well-preserved fossil corals yielded radiocarbon age dates of 3235 ± 20 and 5712 ± 24 cal. yr BP for Kikaijima and 6285 ± 79, 6144 ± 77, 4336 ± 21, 4277 ± 19, 4200 ± 20, and 2972 ± 70 cal. yr BP for northwest Luzon. X-ray imaging of a 5-mm thick coral slab was utilized to measure growth variables. Linear extension rate, skeletal density, and calcification rate of Kikaijima corals are 3.77–8.72 mm/ yr, 1.71–1.87 g/cm³, and 0.70–1.56 g/cm²yr, respectively. Linear extension rate, skeletal density, and calcification rate from northwest Luzon corals are 10.17–17.6 mm/yr, 0.66–1.67 g/cm³, and 0.91–2.81 g/cm²yr, respectively. Average linear extension rate from both sites was significantly and positively related to average calcification rate (r = 0.72, p = 0.019, n = 10). Skeletal density and linear extension rate measured from both sites were inversely related with each other (r = –0.56, p = 0.09, n = 10). Our data suggest that the variations in linear extension rates of fossil corals were influenced by the sea surface temperature (SST) difference between the study sites. However, data from modern corals are still needed to establish the local linear extension rate-SST relationship and to quantitatively evaluate how coral growth changes with respect to SST. Geomorphological, sedimentological, and geochronological studies of Holocene uplifted marine terraces should be conducted to provide the timing of emergence and coral reef development during Holocene.

Original language	English
Pages (from-to)	317-332
Number of pages	16
Journal	Philippine Journal of Science
Volume	151
Issue number	1
Publication status	Published - Feb 2022

All Science Journal Classification (ASJC) codes

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Cite this

@article{bce97358c2ed48c4ab980ef37f9ac512,

title = "Growth Patterns and AMS-14C Age Dates of Fossil Corals from Northwest Pacific",

abstract = "This study aims to evaluate the controlling factor/s of coral growth in the northwest Pacific during the Holocene. Here, we present newly acquired growth data and radiocarbon age dates of fossil Porites corals collected from Holocene uplifted marine terraces in Kikaijima, southern Japan and northwest Luzon, Philippines. Carbonate mineral identification using X-ray diffraction (XRD) and scanning electron microscope (SEM) was conducted to screen for any diagenetic alteration in the fossil corals. We used accelerator mass spectrometer (AMS) –14C dating to determine the absolute age dates of the fossil corals. Well-preserved fossil corals yielded radiocarbon age dates of 3235 ± 20 and 5712 ± 24 cal. yr BP for Kikaijima and 6285 ± 79, 6144 ± 77, 4336 ± 21, 4277 ± 19, 4200 ± 20, and 2972 ± 70 cal. yr BP for northwest Luzon. X-ray imaging of a 5-mm thick coral slab was utilized to measure growth variables. Linear extension rate, skeletal density, and calcification rate of Kikaijima corals are 3.77–8.72 mm/ yr, 1.71–1.87 g/cm3, and 0.70–1.56 g/cm2yr, respectively. Linear extension rate, skeletal density, and calcification rate from northwest Luzon corals are 10.17–17.6 mm/yr, 0.66–1.67 g/cm3, and 0.91–2.81 g/cm2yr, respectively. Average linear extension rate from both sites was significantly and positively related to average calcification rate (r = 0.72, p = 0.019, n = 10). Skeletal density and linear extension rate measured from both sites were inversely related with each other (r = –0.56, p = 0.09, n = 10). Our data suggest that the variations in linear extension rates of fossil corals were influenced by the sea surface temperature (SST) difference between the study sites. However, data from modern corals are still needed to establish the local linear extension rate-SST relationship and to quantitatively evaluate how coral growth changes with respect to SST. Geomorphological, sedimentological, and geochronological studies of Holocene uplifted marine terraces should be conducted to provide the timing of emergence and coral reef development during Holocene.",

author = "Garas, {Kevin L.} and Tsuyoshi Watanabe and Atsuko Yamazaki and Bautista, {Angel T.} and Hiroyuki Matsuzaki",

note = "Funding Information: We would like to thank K.B. Tee and M.M. Alorro of the Mines and Geosciences Bureau, as well as T.K. Watanabe, S. Ito, and W. Kobayashi of Hokkaido University–CREES for their assistance during the fieldwork in the Philippines. We thank M.L.S. Leido and H. Lacbawan of the Mines and Geosciences Bureau for their assistance in XRD analysis. We would like to acknowledge the CAD-PAGASA for providing the rainfall data from Laoag and Dagupan weather stations. We thank A. Estanislao of the Mines and Geosciences Bureau for editing the manuscript. We are deeply grateful to the anonymous reviewers for giving relevant comments, questions, and suggestions that greatly improved this manuscript. This study was supported by the Japan Society for the Promotion of Science KAKENHI Grant-in-Aid for Young Scientist 20J1425. Publisher Copyright: {\textcopyright} 2022, Department of Science and Technology. All rights reserved.",

year = "2022",

month = feb,

language = "English",

volume = "151",

pages = "317--332",

journal = "Philippine Journal of Science",

issn = "0031-7683",

publisher = "Science and Technology Information Institute",

number = "1",

}

TY - JOUR

T1 - Growth Patterns and AMS-14C Age Dates of Fossil Corals from Northwest Pacific

AU - Garas, Kevin L.

AU - Watanabe, Tsuyoshi

AU - Yamazaki, Atsuko

AU - Bautista, Angel T.

AU - Matsuzaki, Hiroyuki

N1 - Funding Information: We would like to thank K.B. Tee and M.M. Alorro of the Mines and Geosciences Bureau, as well as T.K. Watanabe, S. Ito, and W. Kobayashi of Hokkaido University–CREES for their assistance during the fieldwork in the Philippines. We thank M.L.S. Leido and H. Lacbawan of the Mines and Geosciences Bureau for their assistance in XRD analysis. We would like to acknowledge the CAD-PAGASA for providing the rainfall data from Laoag and Dagupan weather stations. We thank A. Estanislao of the Mines and Geosciences Bureau for editing the manuscript. We are deeply grateful to the anonymous reviewers for giving relevant comments, questions, and suggestions that greatly improved this manuscript. This study was supported by the Japan Society for the Promotion of Science KAKENHI Grant-in-Aid for Young Scientist 20J1425. Publisher Copyright: © 2022, Department of Science and Technology. All rights reserved.

PY - 2022/2

Y1 - 2022/2

N2 - This study aims to evaluate the controlling factor/s of coral growth in the northwest Pacific during the Holocene. Here, we present newly acquired growth data and radiocarbon age dates of fossil Porites corals collected from Holocene uplifted marine terraces in Kikaijima, southern Japan and northwest Luzon, Philippines. Carbonate mineral identification using X-ray diffraction (XRD) and scanning electron microscope (SEM) was conducted to screen for any diagenetic alteration in the fossil corals. We used accelerator mass spectrometer (AMS) –14C dating to determine the absolute age dates of the fossil corals. Well-preserved fossil corals yielded radiocarbon age dates of 3235 ± 20 and 5712 ± 24 cal. yr BP for Kikaijima and 6285 ± 79, 6144 ± 77, 4336 ± 21, 4277 ± 19, 4200 ± 20, and 2972 ± 70 cal. yr BP for northwest Luzon. X-ray imaging of a 5-mm thick coral slab was utilized to measure growth variables. Linear extension rate, skeletal density, and calcification rate of Kikaijima corals are 3.77–8.72 mm/ yr, 1.71–1.87 g/cm3, and 0.70–1.56 g/cm2yr, respectively. Linear extension rate, skeletal density, and calcification rate from northwest Luzon corals are 10.17–17.6 mm/yr, 0.66–1.67 g/cm3, and 0.91–2.81 g/cm2yr, respectively. Average linear extension rate from both sites was significantly and positively related to average calcification rate (r = 0.72, p = 0.019, n = 10). Skeletal density and linear extension rate measured from both sites were inversely related with each other (r = –0.56, p = 0.09, n = 10). Our data suggest that the variations in linear extension rates of fossil corals were influenced by the sea surface temperature (SST) difference between the study sites. However, data from modern corals are still needed to establish the local linear extension rate-SST relationship and to quantitatively evaluate how coral growth changes with respect to SST. Geomorphological, sedimentological, and geochronological studies of Holocene uplifted marine terraces should be conducted to provide the timing of emergence and coral reef development during Holocene.

AB - This study aims to evaluate the controlling factor/s of coral growth in the northwest Pacific during the Holocene. Here, we present newly acquired growth data and radiocarbon age dates of fossil Porites corals collected from Holocene uplifted marine terraces in Kikaijima, southern Japan and northwest Luzon, Philippines. Carbonate mineral identification using X-ray diffraction (XRD) and scanning electron microscope (SEM) was conducted to screen for any diagenetic alteration in the fossil corals. We used accelerator mass spectrometer (AMS) –14C dating to determine the absolute age dates of the fossil corals. Well-preserved fossil corals yielded radiocarbon age dates of 3235 ± 20 and 5712 ± 24 cal. yr BP for Kikaijima and 6285 ± 79, 6144 ± 77, 4336 ± 21, 4277 ± 19, 4200 ± 20, and 2972 ± 70 cal. yr BP for northwest Luzon. X-ray imaging of a 5-mm thick coral slab was utilized to measure growth variables. Linear extension rate, skeletal density, and calcification rate of Kikaijima corals are 3.77–8.72 mm/ yr, 1.71–1.87 g/cm3, and 0.70–1.56 g/cm2yr, respectively. Linear extension rate, skeletal density, and calcification rate from northwest Luzon corals are 10.17–17.6 mm/yr, 0.66–1.67 g/cm3, and 0.91–2.81 g/cm2yr, respectively. Average linear extension rate from both sites was significantly and positively related to average calcification rate (r = 0.72, p = 0.019, n = 10). Skeletal density and linear extension rate measured from both sites were inversely related with each other (r = –0.56, p = 0.09, n = 10). Our data suggest that the variations in linear extension rates of fossil corals were influenced by the sea surface temperature (SST) difference between the study sites. However, data from modern corals are still needed to establish the local linear extension rate-SST relationship and to quantitatively evaluate how coral growth changes with respect to SST. Geomorphological, sedimentological, and geochronological studies of Holocene uplifted marine terraces should be conducted to provide the timing of emergence and coral reef development during Holocene.

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M3 - Article

AN - SCOPUS:85123847101

VL - 151

SP - 317

EP - 332

JO - Philippine Journal of Science

JF - Philippine Journal of Science

SN - 0031-7683

IS - 1

ER -

Growth Patterns and AMS-¹⁴C Age Dates of Fossil Corals from Northwest Pacific

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