The University of Southampton
University of Southampton Institutional Repository

North Flinders Reef (Coral Sea, Australia) Porites sp. corals as a candidate Global Boundary Stratotype Section and Point for the Anthropocene series

North Flinders Reef (Coral Sea, Australia) Porites sp. corals as a candidate Global Boundary Stratotype Section and Point for the Anthropocene series
North Flinders Reef (Coral Sea, Australia) Porites sp. corals as a candidate Global Boundary Stratotype Section and Point for the Anthropocene series

Corals are unique in the suite of proposed Anthropocene Global Boundary Stratotype Section and Point (GSSP) archives, as living organisms that produce aragonite exoskeletons preserved in the geological record that contain highly accurate and precise (<±1 year) internal chronologies. The GSSP candidate site North Flinders Reef in the Coral Sea (Australia) is an offshore oceanic reef, and therefore less vulnerable to local human influences than those closer to the coast. Here, we present geochemical records from two Porites sp. corals sampled at an annual to pluri-annual (i.e. 3–5 years) resolution that shows clear global and regional human impacts. Atmospheric nuclear bomb testing by-products (14C,239+240Pu) show a clear increase in the Flinders Reef corals coincident with well-dated nuclear testing operations. By contrast, the radionuclides 241Am and 137Cs are present at low or undetectable levels, as are spheroidal carbonaceous fly-ash particles. Coral δ13C shows centennial variability likely influenced by growth effects in the 18th century and with a progression to lower values starting in 1880 and accelerating post-1970. The latter may be related to the Suess Effect resulting from 13C-depleted fossil fuel burning. Coral δ15N decreased between 1710 and 1954 with a reversal post-1954. Coral temperature proxies indicate prominent centennial variability with equally warm conditions in the 18th and end of 20th century. However, the exact mechanisms responsible for the mid-20th century changes in these parameters need to be scrutinised in further detail. Plain Language summary: This work proposes a candidate natural archive for the official marker of the Anthropocene that geologists will use to mark this important interval in time. Our candidate is a live coral from North Flinders Reef in the Coral Sea (Australia), located 150 km east of the Great Barrier Reef, a location that is remote from direct local human influences. Corals are a unique archive of tropical ocean change because they incorporate the geochemical signature from seawater into their limestone skeleton during their long life-spans. Here we investigated a number of geochemical markers in yearly growth layers of the corals to define several markers for the Anthropocene based on changes in temperature, water chemistry, chemicals from pollution and fertilisers, radioactive products from nuclear bomb testing, and by-products from burning fossil fuels. We have detected clear human influences in several of these markers.

Ba/Ca, carbon isotopes, nitrogen isotopes, oxygen isotopes, plutonium, Porites sp., radiocarbon, Sr/Ca
2053-0196
201-224
Zinke, Jens
0c732c9b-5c96-4262-9468-fc5b8e015b8b
Cantin, Neal E.
34bf914a-378b-4d67-809c-8ba0a0b5d41c
DeLong, Kristine L.
db2d170b-5303-458a-9783-3841e696ce34
Palmer, Kylie
938ca9f2-4d37-4f6e-b5a3-2b897f2133d2
Boom, Arnoud
13220663-8f78-4bc2-afef-e20b2e8cf2b3
Hajdas, Irka
6197adaf-0fdc-4918-baaf-18f0bbfc24aa
Duprey, Nicolas
1cff4943-4c75-44ab-8c6d-867f52114345
Martínez-García, Alfredo
29c2896b-3a8c-4457-b640-5c3ac1b9d272
Rose, Neil L.
6930a646-0595-4dd4-bc17-c6c2f5d06c0a
Roberts, Sarah L.
2e63acc9-8eaa-4e65-a62b-44b72205b427
Yang, Handong
f53cc7d9-fbd3-40ad-a6a9-09a993c3b1b9
Roberts, Lucy R.
37f3c48d-647e-4afc-9bcf-1fb43adf1968
Cundy, Andrew B.
994fdc96-2dce-40f4-b74b-dc638286eb08
Gaca, Pawel
3d23473d-db81-436a-a12d-ad707db4abc8
Milton, James Andy
9e183221-d0d4-4ddb-aeba-0fdde9d31230
Frank, Grace
559c1211-8215-4025-aaf4-5ce56d93ffcd
Cox, Adam
5cc285e5-79df-47bd-b14c-d771e630ffa8
Sampson, Sue
98083447-f4c6-47d5-9db2-51d358b73ecb
Tyrrell, Genevieve
7971736d-e9b9-4121-8d8c-715bc92b15d9
Agg, Molly
8978fb13-322a-4441-a32e-6aeafceb6726
Turner, Simon D.
abee618d-a1cd-4927-a6b1-d889725b2c29
Zinke, Jens
0c732c9b-5c96-4262-9468-fc5b8e015b8b
Cantin, Neal E.
34bf914a-378b-4d67-809c-8ba0a0b5d41c
DeLong, Kristine L.
db2d170b-5303-458a-9783-3841e696ce34
Palmer, Kylie
938ca9f2-4d37-4f6e-b5a3-2b897f2133d2
Boom, Arnoud
13220663-8f78-4bc2-afef-e20b2e8cf2b3
Hajdas, Irka
6197adaf-0fdc-4918-baaf-18f0bbfc24aa
Duprey, Nicolas
1cff4943-4c75-44ab-8c6d-867f52114345
Martínez-García, Alfredo
29c2896b-3a8c-4457-b640-5c3ac1b9d272
Rose, Neil L.
6930a646-0595-4dd4-bc17-c6c2f5d06c0a
Roberts, Sarah L.
2e63acc9-8eaa-4e65-a62b-44b72205b427
Yang, Handong
f53cc7d9-fbd3-40ad-a6a9-09a993c3b1b9
Roberts, Lucy R.
37f3c48d-647e-4afc-9bcf-1fb43adf1968
Cundy, Andrew B.
994fdc96-2dce-40f4-b74b-dc638286eb08
Gaca, Pawel
3d23473d-db81-436a-a12d-ad707db4abc8
Milton, James Andy
9e183221-d0d4-4ddb-aeba-0fdde9d31230
Frank, Grace
559c1211-8215-4025-aaf4-5ce56d93ffcd
Cox, Adam
5cc285e5-79df-47bd-b14c-d771e630ffa8
Sampson, Sue
98083447-f4c6-47d5-9db2-51d358b73ecb
Tyrrell, Genevieve
7971736d-e9b9-4121-8d8c-715bc92b15d9
Agg, Molly
8978fb13-322a-4441-a32e-6aeafceb6726
Turner, Simon D.
abee618d-a1cd-4927-a6b1-d889725b2c29

Zinke, Jens, Cantin, Neal E., DeLong, Kristine L., Palmer, Kylie, Boom, Arnoud, Hajdas, Irka, Duprey, Nicolas, Martínez-García, Alfredo, Rose, Neil L., Roberts, Sarah L., Yang, Handong, Roberts, Lucy R., Cundy, Andrew B., Gaca, Pawel, Milton, James Andy, Frank, Grace, Cox, Adam, Sampson, Sue, Tyrrell, Genevieve, Agg, Molly and Turner, Simon D. (2023) North Flinders Reef (Coral Sea, Australia) Porites sp. corals as a candidate Global Boundary Stratotype Section and Point for the Anthropocene series. Anthropocene Review, 10 (1), 201-224. (doi:10.1177/20530196221142963).

Record type: Article

Abstract

Corals are unique in the suite of proposed Anthropocene Global Boundary Stratotype Section and Point (GSSP) archives, as living organisms that produce aragonite exoskeletons preserved in the geological record that contain highly accurate and precise (<±1 year) internal chronologies. The GSSP candidate site North Flinders Reef in the Coral Sea (Australia) is an offshore oceanic reef, and therefore less vulnerable to local human influences than those closer to the coast. Here, we present geochemical records from two Porites sp. corals sampled at an annual to pluri-annual (i.e. 3–5 years) resolution that shows clear global and regional human impacts. Atmospheric nuclear bomb testing by-products (14C,239+240Pu) show a clear increase in the Flinders Reef corals coincident with well-dated nuclear testing operations. By contrast, the radionuclides 241Am and 137Cs are present at low or undetectable levels, as are spheroidal carbonaceous fly-ash particles. Coral δ13C shows centennial variability likely influenced by growth effects in the 18th century and with a progression to lower values starting in 1880 and accelerating post-1970. The latter may be related to the Suess Effect resulting from 13C-depleted fossil fuel burning. Coral δ15N decreased between 1710 and 1954 with a reversal post-1954. Coral temperature proxies indicate prominent centennial variability with equally warm conditions in the 18th and end of 20th century. However, the exact mechanisms responsible for the mid-20th century changes in these parameters need to be scrutinised in further detail. Plain Language summary: This work proposes a candidate natural archive for the official marker of the Anthropocene that geologists will use to mark this important interval in time. Our candidate is a live coral from North Flinders Reef in the Coral Sea (Australia), located 150 km east of the Great Barrier Reef, a location that is remote from direct local human influences. Corals are a unique archive of tropical ocean change because they incorporate the geochemical signature from seawater into their limestone skeleton during their long life-spans. Here we investigated a number of geochemical markers in yearly growth layers of the corals to define several markers for the Anthropocene based on changes in temperature, water chemistry, chemicals from pollution and fertilisers, radioactive products from nuclear bomb testing, and by-products from burning fossil fuels. We have detected clear human influences in several of these markers.

Text
zinke-et-al-2023-north-flinders-reef-(coral-sea-australia)-porites-sp-corals-as-a-candidate-global-boundary-stratotype - Version of Record
Available under License Creative Commons Attribution.
Download (1MB)

More information

Accepted/In Press date: 19 February 2023
e-pub ahead of print date: 19 February 2023
Keywords: Ba/Ca, carbon isotopes, nitrogen isotopes, oxygen isotopes, plutonium, Porites sp., radiocarbon, Sr/Ca

Identifiers

Local EPrints ID: 491637
URI: http://eprints.soton.ac.uk/id/eprint/491637
ISSN: 2053-0196
PURE UUID: 4246add4-87fa-4019-a1b1-0373885fd6c1
ORCID for Andrew B. Cundy: ORCID iD orcid.org/0000-0003-4368-2569
ORCID for James Andy Milton: ORCID iD orcid.org/0000-0003-4245-5532

Catalogue record

Date deposited: 03 Jul 2024 09:18
Last modified: 12 Jul 2024 01:53

Export record

Altmetrics

Contributors

Author: Jens Zinke
Author: Neal E. Cantin
Author: Kristine L. DeLong
Author: Kylie Palmer
Author: Arnoud Boom
Author: Irka Hajdas
Author: Nicolas Duprey
Author: Alfredo Martínez-García
Author: Neil L. Rose
Author: Sarah L. Roberts
Author: Handong Yang
Author: Lucy R. Roberts
Author: Andrew B. Cundy ORCID iD
Author: Pawel Gaca
Author: Grace Frank
Author: Adam Cox
Author: Sue Sampson
Author: Genevieve Tyrrell
Author: Molly Agg
Author: Simon D. Turner

Download statistics

Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.

View more statistics

Atom RSS 1.0 RSS 2.0

Contact ePrints Soton: eprints@soton.ac.uk

ePrints Soton supports OAI 2.0 with a base URL of http://eprints.soton.ac.uk/cgi/oai2

This repository has been built using EPrints software, developed at the University of Southampton, but available to everyone to use.

We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we will assume that you are happy to receive cookies on the University of Southampton website.

×