GBRCD-1_0_1 Bibliography

Download bibtex file of references here

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Datasets included in GBRCD-1_0_1
dataSetName	datasetVersion	Lat	Lon	archiveType	citations
AL03DAV01_1	1.0.5	-18.8000	147.7000	Coral	Alibert et al. (2003); Alibert and McCulloch (1997); M. T. A. C. & McCulloch (1997)
AL03DAV01_2	1.0.5	-18.8000	147.7000	Coral	Alibert et al. (2003)
AL03PAN01_1	1.0.5	-18.8000	146.4000	Coral	Alibert et al. (2003)
AL03PAN01_2	1.0.5	-18.8000	146.4000	Coral	Alibert et al. (2003)
AL03PAN01_3	1.0.5	-18.8000	146.4000	Coral	Alibert et al. (2003)
AL03PAN01_4	1.0.5	-18.8000	146.4000	Coral	Alibert et al. (2003)
AR24DIP01	1.0.5	-18.4110	147.4510	Coral	Arzey et al. (2024)
AR24OTI01	1.0.5	-23.5053	152.0923	Coral	Arzey et al. (2024)
AR24OTI02	1.0.5	-23.4990	152.0720	Coral	Arzey et al. (2024)
AR24OTI03	1.0.5	-23.4990	152.0720	Coral	Arzey et al. (2024)
AR24OTI04	1.0.5	-23.4990	152.0720	Coral	Arzey et al. (2024)
AR24OTI05	1.0.5	-23.4990	152.0720	Coral	Arzey et al. (2024)
AR24SLY01	1.0.5	-19.2500	148.1167	Coral	Arzey et al. (2024)
BR17HER01	1.0.5	-23.4400	151.9100	Coral	Brenner, Linsley, and Potts (2017)
BR17HER02	1.0.5	-23.4400	151.9100	Coral	Brenner, Linsley, and Potts (2017)
BR17HER03	1.0.5	-23.4400	151.9100	Coral	Brenner, Linsley, and Potts (2017)
BR17HER04	1.0.5	-23.4400	151.9100	Coral	Brenner, Linsley, and Potts (2017)
BR17HER05	1.0.5	-23.4400	151.9100	Coral	Brenner, Linsley, and Potts (2017)
CA07FLI01	1.0.4	-17.7262	148.4548	Coral	Calvo et al. (2007)
CH93SLY01	1.0.5	-19.2500	148.1167	Coral	Chakraborty (1993); Chakraborty, Ramesh, and Lough (2000)
CH93SLY02	1.0.5	-19.2500	148.1167	Coral	Chakraborty (1993); Chakraborty, Ramesh, and Lough (2000)
DE14ARL01	1.0.5	-16.6381	146.1036	Coral	Deng et al. (2014)
DE14ARL02	1.0.5	-16.6381	146.1036	Coral	Deng et al. (2014); Wang et al. (2019)
DO15GBR01	1.0.5	-17.8760	146.7290	Coral	D’Olivo, McCulloch, and Trotter (2015)
DO15HAV01	1.0.5	-18.8360	146.5259	Coral	D’Olivo, McCulloch, and Trotter (2015); Chen et al. (2021)
DO15HAV02	1.0.5	-18.8360	146.5259	Coral	D’Olivo, McCulloch, and Trotter (2015); Chen et al. (2021)
DO15HAV03	1.0.5	-18.8500	146.5500	Coral	D’Olivo, McCulloch, and Trotter (2015); Chen et al. (2021)
DO15PAN01	1.0.5	-18.8100	146.4300	Coral	D’Olivo, McCulloch, and Trotter (2015); Chen et al. (2021)
DO15RIB01	1.0.5	-18.4800	146.8700	Coral	D’Olivo, McCulloch, and Trotter (2015)
DO17HAV01	1.0.4	-18.8360	146.5259	Coral	J. P. D. M. T. McCulloch (2017)
DO17HAV02	1.0.4	-18.8360	146.5259	Coral	J. P. D. M. T. McCulloch (2017)
DO17HAV03	1.0.4	-18.8360	146.5259	Coral	J. P. D. M. T. McCulloch (2017)
DO17HAV04	1.0.4	-18.8360	146.5259	Coral	J. P. D. M. T. McCulloch (2017)
DO18DAV01	1.0.5	-18.8300	147.6300	Coral	Sinclair, Rankenburg, and McCulloch (2018)
DO18DAV02	1.0.5	-18.8000	147.6300	Coral	Sinclair, Rankenburg, and McCulloch (2018)
DO18DAV03	1.0.5	-18.8000	147.6300	Coral	Sinclair, Rankenburg, and McCulloch (2018)
DO18FIT01	1.0.5	-16.9300	145.9900	Coral	Sinclair, Rankenburg, and McCulloch (2018)
DO18GBR01	1.0.5	-17.8760	146.7290	Coral	Sinclair, Rankenburg, and McCulloch (2018)
DO18HAV01	1.0.5	-18.8360	146.5259	Coral	Sinclair, Rankenburg, and McCulloch (2018)
DO18LIZ01	1.0.5	-14.6900	145.4400	Coral	Sinclair, Rankenburg, and McCulloch (2018)
DO18MYR01	1.0.5	-18.2700	147.3800	Coral	Sinclair, Rankenburg, and McCulloch (2018)
DO18MYR02	1.0.5	-18.2700	147.3800	Coral	Sinclair, Rankenburg, and McCulloch (2018)
DO18MYR03	1.0.5	-18.2700	147.3800	Coral	Sinclair, Rankenburg, and McCulloch (2018)
DO18MYR04	1.0.5	-18.2700	147.3800	Coral	Sinclair, Rankenburg, and McCulloch (2018)
DO18RIB01	1.0.5	-18.4800	146.8700	Coral	Sinclair, Rankenburg, and McCulloch (2018)
DO22ARL01	1.0.5	-16.6800	146.0300	Coral	J. P. D. M. McCulloch (2022)
DO22BRT01	1.0.5	-18.1400	146.7300	Coral	J. P. D. M. McCulloch (2022)
DO22FIT01	1.0.5	-16.9300	145.9900	Coral	J. P. D. M. McCulloch (2022)
DO22FIT02	1.0.5	-16.9300	145.9900	Coral	J. P. D. M. McCulloch (2022)
DO22HIG01	1.0.5	-17.1700	146.0000	Coral	J. P. D. M. McCulloch (2022)
DO22HMP01	1.0.5	-23.2100	150.9700	Coral	J. P. D. M. McCulloch (2022)
DO22MAG01	1.0.5	-19.1500	146.8700	Coral	J. P. D. M. McCulloch (2022)
DO22OYS01	1.0.5	-16.6200	145.9100	Coral	J. P. D. M. McCulloch (2022)
DO22PAN01	1.0.5	-18.8200	146.4300	Coral	J. P. D. M. McCulloch (2022)
DO22PAN02	1.0.5	-18.8200	146.4300	Coral	J. P. D. M. McCulloch (2022)
DR95LMI01	1.0.5	-23.9000	152.3800	Coral	Druffel and Griffin (1995)
DR99ABR01_1	1.0.4	-22.1000	152.4800	Coral	Druffel and Griffin (1999); Druffel and Griffin (1995); Druffel and Griffin (1993)
DR99ABR01_2	1.0.5	-22.1000	152.4800	Coral	Druffel and Griffin (1999); Druffel and Griffin (1995); Druffel and Griffin (1993)
DR99ABR02	1.0.5	-22.1000	152.4800	Coral	Druffel and Griffin (1999); Druffel and Griffin (1995); Druffel and Griffin (1993)
DR99HER01	1.0.5	-23.4400	151.9800	Coral	Druffel and Griffin (1999); Druffel and Griffin (1995)
EL19OTI01	1.0.5	-23.4872	152.0814	Coral	Ellis et al. (2019)
ER16MAG01	1.0.5	-19.1500	146.8700	Coral	Erler et al. (2016); Erler et al. (2020)
ER20HAV01	1.0.5	-18.8500	146.5500	Coral	Erler et al. (2020)
ER20HAV02	1.0.5	-18.8370	146.5480	Coral	Erler et al. (2020)
ER20PAN01	1.0.5	-18.8150	146.4360	Coral	Erler et al. (2020)
ER20PAN02	1.0.5	-18.8150	146.4360	Coral	Erler et al. (2020)
FA00PAN01	1.0.5	-18.8000	146.4000	Coral	Stewart John Fallon (2000)
FA03DAV01	1.0.5	-18.8000	147.7000	Coral	Stewart J. Fallon, McCulloch, and Alibert (2003); Stewart John Fallon (2000)
FA03DAV02	1.0.5	-18.8000	147.7000	Coral	Stewart J. Fallon, McCulloch, and Alibert (2003); Stewart John Fallon (2000)
FA03HAV01	1.0.5	-18.8430	146.5370	Coral	Stewart J. Fallon, McCulloch, and Alibert (2003); Stewart John Fallon (2000)
FA03MYR01	1.0.5	-18.2660	147.3830	Coral	Stewart J. Fallon, McCulloch, and Alibert (2003); Stewart John Fallon (2000)
FA03ORP01	1.0.5	-18.6340	146.4950	Coral	Stewart J. Fallon, McCulloch, and Alibert (2003); Stewart John Fallon (2000)
FA03PAN01	1.0.5	-18.8000	146.4000	Coral	Stewart J. Fallon, McCulloch, and Alibert (2003); Stewart John Fallon (2000)
FA03WHE01	1.0.5	-18.7990	147.5280	Coral	Stewart J. Fallon, McCulloch, and Alibert (2003); Stewart John Fallon (2000)
GA98ORP01	1.0.5	-18.5670	146.4830	Coral	Michael K. Gagan et al. (1998); M. K. Gagan et al. (2002); M. K. Gagan and Isdale (1994)
HE02GBR01	1.0.6	-18.3150	146.5950	Coral	Erica J. Hendy et al. (2002); E. J. Hendy et al. (2007)
HE03GBR01	1.0.4	-18.3150	146.5950	Coral	E. J. Hendy, Gagan, and Lough (2003)
HE03GPI01	1.0.4	-18.6800	146.5800	Coral	E. J. Hendy, Gagan, and Lough (2003); E. J. Hendy et al. (2007); N. D. Leonard et al. (2016); Janice M. Lough (2007)
IS98HAV02	1.0.4	-18.8500	146.5500	Coral	Isdale, Stewart, and Lough (1998); Isdale et al. (1998)
IS98PAN01	1.0.4	-18.8200	146.4300	Coral	Isdale, Stewart, and Lough (1998); Isdale et al. (1998)
JU08KES01a	1.0.5	-20.9177	149.4178	Coral	S. Jupiter et al. (2008)
JU08KES01b	1.0.5	-20.9177	149.4186	Coral	S. Jupiter (2008); S. D. Jupiter (2006)
JU08KES02	1.0.5	-20.9177	149.4178	Coral	S. Jupiter et al. (2008)
JU08KES03	1.0.5	-20.9319	149.4267	Coral	S. Jupiter et al. (2008)
JU08RTI01a	1.0.5	-21.1755	149.2639	Coral	S. Jupiter et al. (2008)
JU08RTI01b	1.0.5	-21.1708	149.2644	Coral	S. Jupiter (2008); S. D. Jupiter (2006); S. Jupiter et al. (2008)
JU08RTI02	1.0.5	-21.1720	149.2639	Coral	S. Jupiter et al. (2008)
JU08RTI03	1.0.5	-21.1717	149.2634	Coral	S. Jupiter et al. (2008)
JU08SCA01	1.0.5	-20.8522	149.6021	Coral	S. Jupiter et al. (2008)
JU08SCA02	1.0.5	-20.8522	149.6021	Coral	S. Jupiter et al. (2008)
JU08SCA03	1.0.5	-20.8522	149.6021	Coral	S. Jupiter et al. (2008)
LE05MAG01	1.0.5	-19.1500	146.8700	Coral	S. E. Lewis (2005)
LE05NEL01	1.0.5	-19.1584	146.8539	Coral	S. E. Lewis (2005)
LE05NEL02	1.0.5	-19.1584	146.8539	Coral	S. E. Lewis (2005)
LE07MAG01	1.0.5	-19.1500	146.8700	Coral	Stephen E. Lewis et al. (2007); S. E. Lewis (2005)
LE07NEL01	1.0.5	-19.1584	146.8539	Coral	Stephen E. Lewis et al. (2007); S. E. Lewis (2005)
LE12CID01	1.0.5	-20.3000	148.9000	Coral	S. E. Lewis et al. (2012)
LE12CID02	1.0.5	-20.2540	148.9230	Coral	S. E. Lewis et al. (2012)
LE12CID03	1.0.5	-20.2530	148.9200	Coral	S. E. Lewis et al. (2012)
LE12COB01	1.0.5	-19.3960	148.8060	Coral	S. E. Lewis et al. (2012)
LE12HAS01	1.0.5	-20.2600	149.0960	Coral	S. E. Lewis et al. (2012)
LE12HKI01	1.0.5	-20.0890	148.9070	Coral	S. E. Lewis et al. (2012)
LE12NMI01	1.0.5	-20.2200	148.8110	Coral	S. E. Lewis et al. (2012)
LE12REP01	1.0.5	-20.6180	148.8650	Coral	S. E. Lewis et al. (2012)
LE12REP02	1.0.5	-20.6170	148.8640	Coral	S. E. Lewis et al. (2012)
LE12REP03	1.0.5	-20.6170	148.8640	Coral	S. E. Lewis et al. (2012)
LE12SHW01	1.0.5	-20.4800	149.0690	Coral	S. E. Lewis et al. (2012)
LE12SHW02	1.0.5	-20.4800	149.0690	Coral	S. E. Lewis et al. (2012)
LE12WHI01	1.0.5	-20.1690	148.9570	Coral	S. E. Lewis et al. (2012)
LE16GPI01	1.0.5	-18.7333	146.5667	Coral	N. D. Leonard et al. (2016)
LE16GPI02	1.0.5	-18.7333	146.5667	Coral	N. D. Leonard et al. (2016)
LE16GPI03	1.0.5	-18.7333	146.5667	Coral	N. D. Leonard et al. (2016)
LE18GFB01	1.0.5	-19.1549	146.8661	Coral	Stephen E. Lewis et al. (2018); J. P. D. M. McCulloch (2022)
LE18GFB02	1.0.5	-19.1640	146.8534	Coral	Stephen E. Lewis et al. (2018); J. P. D. M. McCulloch (2022)
LE18HAV01	1.0.5	-18.8351	146.5440	Coral	Stephen E. Lewis et al. (2018); J. P. D. M. McCulloch (2022)
LE18HAV02	1.0.5	-18.8370	146.5483	Coral	Stephen E. Lewis et al. (2018); J. P. D. M. McCulloch (2022)
LE18NEL01	1.0.5	-19.1646	146.8536	Coral	Stephen E. Lewis et al. (2018); J. P. D. M. McCulloch (2022)
LE18NEL02	1.0.5	-19.1690	146.8502	Coral	Stephen E. Lewis et al. (2018); J. P. D. M. McCulloch (2022)
LE18PAN01	1.0.5	-18.8128	146.4269	Coral	Stephen E. Lewis et al. (2018); J. P. D. M. McCulloch (2022)
LE18PAN02	1.0.5	-18.8128	146.4270	Coral	Stephen E. Lewis et al. (2018); J. P. D. M. McCulloch (2022)
LE18PEL01	1.0.5	-18.5385	146.4899	Coral	Stephen E. Lewis et al. (2018)
LE18PEL02	1.0.5	-18.5378	146.4911	Coral	Stephen E. Lewis et al. (2018)
LE19HIG01	1.0.5	-17.1610	146.0070	Coral	N. D. Leonard et al. (2019)
LE19RUS01	1.0.5	-17.2240	146.0900	Coral	N. D. Leonard et al. (2019)
LE19RUS02	1.0.5	-17.2280	146.0910	Coral	N. D. Leonard et al. (2019)
LE19SUD01	1.0.5	-17.0260	146.2110	Coral	N. D. Leonard et al. (2019)
LO11ACH01	1.0.4	-18.9565	146.6362	Coral	Janice M. Lough (2011); J. M. Lough (2010)
LO11BRO01	1.0.4	-18.1500	146.2800	Coral	Janice M. Lough (2011); J. M. Lough (2010); J. P. D. M. McCulloch (2022); Davies et al. (2011)
LO11CID01	1.0.4	-20.2700	148.9300	Coral	Janice M. Lough (2011); J. M. Lough (2010); Brierley and Fedorov (2010)
LO11CNR01	1.0.4	-15.1350	145.3190	Coral	Janice M. Lough (2011); Knutz et al. (2011)
LO11COO01	1.0.4	-18.0370	146.1730	Coral	Janice M. Lough (2011); J. M. Lough (2010); J. M. Lough (2011)
LO11DUN01	1.0.4	-17.9240	146.1380	Coral	Janice M. Lough (2011); J. M. Lough (2010); Bartoli, Hönisch, and Zeebe (2011)
LO11GPI01	1.0.4	-18.6800	146.5800	Coral	Janice M. Lough (2011); J. M. Lough (2010); Kozdon et al. (2011)
LO11HAV01	1.0.4	-18.8500	146.5500	Coral	Janice M. Lough (2011); J. M. Lough (2010); Palmer et al. (2015); J. M. Lough (2011); J. P. D. M. McCulloch (2022)
LO11HKI01	1.0.4	-20.1547	148.9500	Coral	Janice M. Lough (2011); J. M. Lough (2010); Marr et al. (2011)
LO11HKI02	1.0.4	-20.0900	148.9100	Coral	Janice M. Lough (2011); J. M. Lough (2010); J. M. Lough (2011)
LO11HMP01	1.0.4	-23.2100	150.9700	Coral	Janice M. Lough (2011); J. M. Lough (2010); J. P. D. M. McCulloch (2022); Montenegro et al. (2011)
LO11LUP01	1.0.4	-20.2800	149.1200	Coral	Janice M. Lough (2011); J. M. Lough (2010); Passchier (2011)
LO11MAG01	1.0.4	-19.1500	146.8700	Coral	Janice M. Lough (2011); J. M. Lough (2010); J. P. D. M. McCulloch (2022); J. M. Lough (2011)
LO11NMI01	1.0.4	-20.2200	148.8100	Coral	Janice M. Lough (2011); J. M. Lough (2010); J. M. Lough (2011)
LO11NOR01	1.0.4	-17.2060	146.0715	Coral	Janice M. Lough (2011); J. M. Lough (2010); J. P. D. M. McCulloch (2022); Topper et al. (2011)
LO11PAN01	1.0.4	-18.8200	146.4300	Coral	Janice M. Lough (2011); Heinrich et al. (2011)
LO11SMI01	1.0.4	-20.2700	148.8300	Coral	Janice M. Lough (2011); J. M. Lough (2010); J. M. Lough (2011)
LO14NEL01	1.0.4	-19.1584	146.8539	Coral	J. M. Lough et al. (2014)
LO14NEL02	1.0.4	-19.1584	146.8539	Coral	J. M. Lough et al. (2014)
LO14NEL03	1.0.4	-19.1584	146.8539	Coral	J. M. Lough et al. (2014)
LO14NEL04	1.0.4	-19.1584	146.8539	Coral	J. M. Lough et al. (2014)
LO14NEL05	1.0.4	-19.1584	146.8539	Coral	J. M. Lough et al. (2014)
LO14NEL06	1.0.4	-19.1646	146.8658	Coral	J. M. Lough et al. (2014)
LO14NEL07	1.0.4	-19.1640	146.8540	Coral	J. M. Lough et al. (2014)
LO14NEL08	1.0.4	-19.1690	146.8502	Coral	J. M. Lough et al. (2014)
LO15HAV01	1.0.4	-18.8500	146.5500	Coral	J. M. Lough, Lewis, and Cantin (2015)
LO15HAV02	1.0.4	-18.8370	146.5483	Coral	J. M. Lough, Lewis, and Cantin (2015)
LO15HAV03	1.0.4	-18.8351	146.5440	Coral	J. M. Lough, Lewis, and Cantin (2015)
LO15HAV04	1.0.4	-18.8370	146.5483	Coral	J. M. Lough, Lewis, and Cantin (2015)
LO15HAV05	1.0.4	-18.8370	146.5483	Coral	J. M. Lough, Lewis, and Cantin (2015)
MA00MYR01	1.0.5	-18.2660	147.3830	Coral	John Francis Marshall (2000); John F. Marshall and McCulloch (2002)
MA00MYR02	1.0.5	-18.2660	147.3830	Coral	John Francis Marshall (2000)
MA00MYR03	1.0.5	-18.2660	147.3830	Coral	John Francis Marshall (2000)
MA00SLY01	1.0.5	-19.2669	148.0335	Coral	John Francis Marshall (2000); John F. Marshall and McCulloch (2002)
MC03HAV01	1.0.5	-18.8430	146.5370	Coral	M. McCulloch et al. (2003); Stephen E. Lewis et al. (2007); Walther and McCulloch (2013); J. P. D. M. McCulloch (2022)
MC03PAN01	1.0.5	-18.8130	146.4330	Coral	M. McCulloch et al. (2003); J. P. D. M. McCulloch (2022)
MC17DAV01	1.0.5	-18.8000	147.6300	Coral	M. T. McCulloch et al. (2017); Diane Thompson et al. (2022); Chen et al. (2021); D. Thompson et al. (2022)
MC17DAV02	1.0.5	-18.8000	147.6300	Coral	M. T. McCulloch et al. (2017); Diane Thompson et al. (2022); Chen et al. (2021); D. Thompson et al. (2022)
PE05FLI01	1.0.4	-17.7262	148.4548	Coral	Pelejero et al. (2005)
RA17MYR01	1.0.5	-18.2781	147.3792	Coral	Razak et al. (2017)
RA17MYR02	1.0.5	-18.2781	147.3792	Coral	Razak et al. (2017)
RE19CLK01	1.0.5	-11.9700	143.2800	Coral	Reed et al. (2018)
RE19EEL01	1.0.5	-12.5000	143.5200	Coral	Reed et al. (2018)
RE19GBR01	1.0.5	-13.3300	143.9500	Coral	Reed et al. (2018)
RE19NOM01	1.0.5	-12.0900	143.2900	Coral	Reed et al. (2018)
RE19POR01	1.0.5	-12.5910	143.4080	Coral	Reed et al. (2018)
RO14GKI01	1.0.5	-23.1504	150.9739	Coral	Rodriguez-Ramirez et al. (2014); Grove et al. (2015)
RO14GKI02	1.0.5	-23.1920	150.9627	Coral	Rodriguez-Ramirez et al. (2014)
RO14KIN01	1.0.5	-17.7667	146.1333	Coral	Roche et al. (2014)
RO14KIN02	1.0.5	-17.7667	146.1333	Coral	Roche et al. (2014)
RO14MIA01	1.0.5	-23.1550	150.9035	Coral	Rodriguez-Ramirez et al. (2014); Grove et al. (2015)
RO14MIA02	1.0.5	-23.1553	150.9034	Coral	Rodriguez-Ramirez et al. (2014)
RO14SQR01	1.0.5	-23.0997	150.8861	Coral	Rodriguez-Ramirez et al. (2014); Grove et al. (2015)
RO14SQR02	1.0.5	-23.0997	150.8861	Coral	Rodriguez-Ramirez et al. (2014); Grove et al. (2015)
SA16HER01a	1.0.5	-23.4510	151.9300	Coral	Sadler, Nguyen, et al. (2016)
SA16HER01b	1.0.4	-23.4510	151.9300	Coral	Sadler, Webb, et al. (2016)
SA16HER02a	1.0.5	-23.4510	151.9300	Coral	Sadler, Nguyen, et al. (2016)
SA16HER02b	1.0.4	-23.4510	151.9300	Coral	Sadler, Webb, et al. (2016)
SA16HER03a	1.0.5	-23.4510	151.9300	Coral	Sadler, Nguyen, et al. (2016)
SA16HER03b	1.0.4	-23.4510	151.9300	Coral	Sadler, Webb, et al. (2016)
SA16HER04a	1.0.5	-23.4510	151.9300	Coral	Sadler, Nguyen, et al. (2016)
SA16HER04b	1.0.4	-23.4510	151.9300	Coral	Sadler, Webb, et al. (2016)
SA16HER05a	1.0.5	-23.4510	151.9300	Coral	Sadler, Nguyen, et al. (2016)
SA16HER05b	1.0.4	-23.4510	151.9300	Coral	Sadler, Webb, et al. (2016)
SA16HER06a	1.0.5	-23.4510	151.9300	Coral	Sadler, Nguyen, et al. (2016)
SA16HER06b	1.0.4	-23.4510	151.9300	Coral	Sadler, Webb, et al. (2016)
SA21GFB01	1.0.5	-19.1543	146.8656	Coral	N. Saha et al. (2021); Narottam Saha, Webb, Zhao, et al. (2019)
SA21GKI01	1.0.5	-23.1504	150.9739	Coral	N. Saha et al. (2021); Narottam Saha et al. (2018); Narottam Saha, Webb, Christy, et al. (2019)
SA21RAT01	1.0.5	-23.7663	151.3178	Coral	N. Saha et al. (2021); N. Saha et al. (2018)
WA13HAV01	1.0.5	-18.8396	146.5502	Coral	Walther and McCulloch (2013); J. P. D. M. McCulloch (2022)
WA13MYR01	1.0.5	-18.2614	147.3765	Coral	Walther and McCulloch (2013)
WA19ARL01	1.0.5	-16.6381	146.1036	Coral	Wang et al. (2019); Deng et al. (2014)
WE09ARL01_1	1.0.5	-16.7167	146.0333	Coral	Wei et al. (2009); J. P. D. M. T. McCulloch (2017); Chen et al. (2021)
WE09ARL01_2	1.0.5	-16.7167	146.0333	Coral	Wei et al. (2009); J. P. D. M. T. McCulloch (2017); Chen et al. (2021)
WU21CUR01	1.0.5	-23.7547	151.3169	Coral	Wu et al. (2021a)
WU21HUM01	1.0.5	-23.4035	151.1472	Coral	Wu et al. (2021a)
WU21HUM02	1.0.5	-23.4024	151.1460	Coral	Wu et al. (2021a)
WU21MAS01a	1.0.5	-23.5320	151.7403	Coral	Wu et al. (2021a)
WU21MAS01b	1.0.5	-23.5325	151.7460	Coral	Wu et al. (2021b); E, J, and Lough J. M. Wu (2018)
WU21SHW01	1.0.5	-20.4796	149.0691	Coral	Wu et al. (2021a)
WU21SMI01	1.0.5	-20.2588	148.8283	Coral	Wu et al. (2021a)
XI20ARL01	1.0.5	-16.6381	146.1036	Coral	Xiao et al. (2020)

References

Alibert, Chantal, Les Kinsley, Stewart J. Fallon, Malcolm T. McCulloch, Ray Berkelmans, and Felicity McAllister. 2003. “Source of Trace Element Variability in Great Barrier Reef Corals Affected by the Burdekin Flood Plumes.” Geochimica Et Cosmochimica Acta 67 (2): 231–46. https://doi.org/10.1016/s0016-7037(02)01055-4.

Alibert, Chantal, and Malcolm T. McCulloch. 1997. “Strontium/Calcium Ratios in Modern Porites Corals from the Great Barrier Reef as a Proxy for Sea Surface Temperature: Calibration of the Thermometer and Monitoring of ENSO.” Paleoceanography 12 (3): 345–63. https://doi.org/10.1029/97pa00318.

Arzey, A. K, H. V McGregor, T. R Clark, J. M Webster, S. E Lewis, J Mallela, N. P McKay, H. W Fahey, S Chakraborty, and M. J. Razak T. B. & Fischer. 2024. “Coral Skeletal Proxy Records Database for the Great Barrier Reef, Australia.” Earth System Science Data. https://doi.org/10.5194/essd-2024-159.

Bartoli, Gretta, Bärbel Hönisch, and Richard E. Zeebe. 2011. “Atmospheric CO2 Decline During the Pliocene Intensification of Northern Hemisphere Glaciations.” Paleoceanography 26 (4). https://doi.org/10.1029/2010pa002055.

Brenner, Logan D., Braddock K. Linsley, and Donald C. Potts. 2017. “A Modern Sr/Ca-δ18O-Sea Surface Temperature Calibration for Isopora Corals on the Great Barrier Reef.” Paleoceanography 32 (2): 182–94. https://doi.org/10.1002/2016pa002973.

Brierley, Christopher M., and Alexey V. Fedorov. 2010. “Correction to ‘Relative Importance of Meridional and Zonal Sea Surface Temperature Gradients for the Onset of the Ice Ages and Pliocene-Pleistocene Climate Evolution’: CORRECTION.” Paleoceanography 25 (4): n/a–. https://doi.org/10.1029/2010pa002052.

Calvo, Eva, John F. Marshall, Carles Pelejero, Malcolm T. McCulloch, Michael K. Gagan, and Janice M. Lough. 2007. “Interdecadal Climate Variability in the Coral Sea Since 1708 a.d.” Palaeogeography, Palaeoclimatology, Palaeoecology 248 (1–2): 190–201. https://doi.org/10.1016/j.palaeo.2006.12.003.

Chakraborty, S. 1993. “Environmental Significance of Isotopic and Trace Elemental Variations in Banded Corals.” PhD Thesis.

Chakraborty, S., R. Ramesh, and J. M. Lough. 2000. “Effect of Intraband Variability on Stable Isotope and Density Time Series Obtained from Banded Corals.” Journal of Earth System Science 109 (1): 145–51. https://doi.org/10.1007/bf02719158.

Chen, Xuefei, Wenfeng Deng, Huiling Kang, Ti Zeng, Le Zhang, Jian-xin Zhao, and Gangjian Wei. 2021. “A Replication Study on Coral δ11B and b/Ca and Their Variation in Modern and Fossil Porites: Implications for Coral Calcifying Fluid Chemistry and Seawater pH Changes over the Last Millennium.” Paleoceanography and Paleoclimatology 36 (10). https://doi.org/10.1029/2021pa004319.

D’Olivo, J. P, M. T McCulloch, and J. Eggins S. M. & Trotter. 2015. “Coral Records of Reef-Water pH Across the Central Great Barrier Reef, Australia: Assessing the Influence of River Runoff on Inshore Reefs.” Biogeosciences. https://doi.org/10.5194/bg-12-1223-2017.

Davies, M. H., A. C. Mix, J. S. Stoner, J. A. Addison, J. Jaeger, B. Finney, and J. Wiest. 2011. “The Deglacial Transition on the Southeastern Alaska Margin: Meltwater Input, Sea Level Rise, Marine Productivity, and Sedimentary Anoxia.” Paleoceanography 26 (2). https://doi.org/10.1029/2010pa002051.

Deng, Wenfeng, Gangjian Wei, Malcolm McCulloch, Luhua Xie, Ying Liu, and Ti Zeng. 2014. “Evaluation of Annual Resolution Coral Geochemical Records as Climate Proxies in the Great Barrier Reef of Australia.” Coral Reefs 33 (4): 965–77. https://doi.org/10.1007/s00338-014-1203-9.

Druffel, Ellen R. M., and Sheila Griffin. 1993. “Large Variations of Surface Ocean Radiocarbon: Evidence of Circulation Changes in the Southwestern Pacific.” Journal of Geophysical Research: Oceans 98 (C11): 20249–59. https://doi.org/10.1029/93jc02113.

———. 1995. “Regional Variability of Surface Ocean Radiocarbon from Southern Great Barrier Reef Corals.” Radiocarbon 37 (2): 517–24. https://doi.org/10.1017/s0033822200031003.

———. 1999. “Variability of Surface Ocean Radiocarbon and Stable Isotopes in the Southwestern Pacific.” Journal of Geophysical Research: Oceans 104 (C10): 23607–13. https://doi.org/10.1029/1999jc900212.

E, Cantin N., Fallon S. J, and Y. & Lough J. M. Wu. 2018. “Project ISP019: Calcification and Geochemical Signatures of Industrial Development of the Gladstone Harbour from Century Old Coral Skeletons.” Report Prepared for Gladstone Healthy Harbour Partnership.

Ellis, Bethany, Katharine Grant, Jennie Mallela, and Nerilie Abram. 2019. “Is XRF Core Scanning a Viable Method for Coral Palaeoclimate Temperature Reconstructions?” Quaternary International 514 (April): 97–107. https://doi.org/10.1016/j.quaint.2018.11.044.

Erler, Dirk V., Hanieh Tohidi Farid, Thomas D. Glaze, Natasha L. Carlson-Perret, and Janice M. Lough. 2020. “Coral Skeletons Reveal the History of Nitrogen Cycling in the Coastal Great Barrier Reef.” Nature Communications 11 (1). https://doi.org/10.1038/s41467-020-15278-w.

Erler, Dirk V., Xingchen T. Wang, Daniel M. Sigman, Sander R. Scheffers, Alfredo Mart’ınez-Garc’ıa, and Gerald H. Haug. 2016. “Nitrogen Isotopic Composition of Organic Matter from a 168 Year-Old Coral Skeleton: Implications for Coastal Nutrient Cycling in the Great Barrier Reef Lagoon.” Earth and Planetary Science Letters 434 (January): 161–70. https://doi.org/10.1016/j.epsl.2015.11.023.

Fallon, Stewart J., Malcolm T. McCulloch, and Chantal Alibert. 2003. “Examining Water Temperature Proxies in Porites Corals from the Great Barrier Reef: A Cross-Shelf Comparison.” Coral Reefs 22 (4): 389–404. https://doi.org/10.1007/s00338-003-0322-5.

Fallon, Stewart John. 2000. “Environmental Records from Corals and Coralline Sponges.” The Australian National University. https://doi.org/10.25911/5D778A502C764.

Gagan, M. K, L. K Ayliffe, B. N Opdyke, D Hopley, and J. Scott-Gagan H. & Cowley. 2002. “Coral Oxygen Isotope Evidence for Recent Groundwater Fluxes to the Australian Great Barrier Reef.” Geophysical Research Letters. https://doi.org/10.1029/2002GL015336.

Gagan, M. K, and P. J. Chivas A. R. & Isdale. 1994. “High-Resolution Isotopic Records from Corals Using Ocean Temperature and Mass-Spawning Chronometers.” Earth and Planetary Science Letters. https://doi.org/10.1016/0012-821X(94)90090-6.

Gagan, Michael K., Linda K. Ayliffe, David Hopley, Joseph A. Cali, Graham E. Mortimer, John Chappell, Malcolm T. McCulloch, and M. John Head. 1998. “Temperature and Surface-Ocean Water Balance of the Mid-Holocene Tropical Western Pacific.” Science 279 (5353): 1014–18. https://doi.org/10.1126/science.279.5353.1014.

Grove, C. A, A Rodriguez-Ramirez, G Merschel, R Tjallingii, J Zinke, and G.-J.A. Macia A. & Brummer. 2015. “UV-Spectral Luminescence Scanning: Technical Updates and Calibration Developments.” Micro-XRF Studies of Sediment Cores: Applications of a Non-Destructive Tool for the Environmental Sciences. https://doi.org/10.1007/978-94-017-9849-5_23.

Heinrich, Sonja, Karin A. F. Zonneveld, Torsten Bickert, and Helmut Willems. 2011. “The Benguela Upwelling Related to the Miocene Cooling Events and the Development of the Antarctic Circumpolar Current: Evidence from Calcareous Dinoflagellate Cysts.” Paleoceanography 26 (3). https://doi.org/10.1029/2010pa002065.

Hendy, E. J., M. K. Gagan, and J. M. Lough. 2003. “Chronological Control of Coral Records Using Luminescent Lines and Evidence for Non-Stationary ENSO Teleconnections in Northeast Australia.” The Holocene 13 (2): 187–99. https://doi.org/10.1191/0959683603hl606rp.

Hendy, E. J., M. K. Gagan, J. M. Lough, M. McCulloch, and P. B. deMenocal. 2007. “Impact of Skeletal Dissolution and Secondary Aragonite on Trace Element and Isotopic Climate Proxies in Porites Corals.” Paleoceanography 22 (4). https://doi.org/10.1029/2007pa001462.

Hendy, Erica J., Michael K. Gagan, Chantal A. Alibert, Malcolm T. McCulloch, Janice M. Lough, and Peter J. Isdale. 2002. “Abrupt Decrease in Tropical Pacific Sea Surface Salinity at End of Little Ice Age.” Science 295 (5559): 1511–14. https://doi.org/10.1126/science.1067693.

Isdale, P. J, B. J Stewart, and J. M. Tickle K. S. & Lough. 1998. “Palaeohydrological Variation in a Tropical River Catchment: A Reconstruction Using Fluorescent Bands in Corals of the Great Barrier Reef, Australia.” The Holocene. https://doi.org/Isdale, P.J., Stewart, B.J., Tickle, K.S. & Lough, J.M. (1998), 'Palaeohydrological variation in a tropical river catchment: a reconstruction using fluorescent bands in corals of the Great Barrier Reef, Australia', The Holocene, 8, no. 1, 1-8, 10.1191/095968398670905088.

Isdale, P.J, Stewart, B.J, Tickle, K.S., Lough, and J.M. 1998. “Palaeohydrological Variation in a Tropical River Catchment: A Reconstruction Using Fluorescent Bands in Corals of the Great Barrier Reef and Australia.” The Holocene. https://doi.org/10.1191/095968398670905088.

Jupiter, S. 2008. “Coral Rare Earth Element Tracers of Terrestrial Exposure in Nearshore Corals of the Great Barrier Reef.” Proceedings of the 11th International Coral Reef Symposium.

Jupiter, S. D. 2006. “From Cane to Coral Reefs: Ecosystem Connectivity and Downstream Responses to Land Use Intensification.” PhD Thesis.

Jupiter, S., G. Roff, G. Marion, M. Henderson, V. Schrameyer, M. McCulloch, and O. Hoegh-Guldberg. 2008. “Linkages Between Coral Assemblages and Coral Proxies of Terrestrial Exposure Along a Cross-Shelf Gradient on the Southern Great Barrier Reef.” Coral Reefs 27 (4): 887–903. https://doi.org/10.1007/s00338-008-0422-3.

Knutz, Paul C., Marie-Alexandrine Sicre, Hanne Ebbesen, Sarah Christiansen, and Antoon Kuijpers. 2011. “Multiple-Stage Deglacial Retreat of the Southern Greenland Ice Sheet Linked with Irminger Current Warm Water Transport.” Paleoceanography 26 (3). https://doi.org/10.1029/2010pa002053.

Kozdon, Reinhard, D. Clay Kelly, Noriko T. Kita, John H. Fournelle, and John W. Valley. 2011. “Planktonic Foraminiferal Oxygen Isotope Analysis by Ion Microprobe Technique Suggests Warm Tropical Sea Surface Temperatures During the Early Paleogene.” Paleoceanography 26 (3). https://doi.org/10.1029/2010pa002056.

Leonard, N. D., K. J. Welsh, J. M. Lough, Y.-x. Feng, J. M. Pandolfi, T. R. Clark, and J.-x. Zhao. 2016. “Evidence of Reduced Mid-Holocene ENSO Variance on the Great Barrier Reef, Australia.” Paleoceanography 31 (9): 1248–60. https://doi.org/10.1002/2016pa002967.

Leonard, N. D, K. J Welsh, A. D Nguyen, J Sadler, J. M Pandolfi, T. R Clark, J.x Zhao, and G. E. Feng Y.x. & Webb. 2019. “High Resolution Geochemical Analysis of Massive Porites Spp. Corals from the Wet Tropics, Great Barrier Reef: Rare Earth Elements, Yttrium and Barium as Indicators of Terrigenous Input.” Marine Pollution Bulletin. https://doi.org/10.1016/j.marpolbul.2019.110634.

Lewis, S. E. 2005. “Environmental Trends in GBR Lagoon and Burdekin River Catchment During the Mid-Holocene and Since European Settlement Using Porites Coral Records, Magnetic Island, QLD.” PhD Thesis.

Lewis, S. E., J. E. Brodie, M. T. McCulloch, J. Mallela, S. D. Jupiter, H. Stuart Williams, J. M. Lough, and E. G. Matson. 2012. “An Assessment of an Environmental Gradient Using Coral Geochemical Records, Whitsunday Islands, Great Barrier Reef, Australia.” Marine Pollution Bulletin 65 (4–9): 306–19. https://doi.org/10.1016/j.marpolbul.2011.09.030.

Lewis, Stephen E., Janice M. Lough, Neal E. Cantin, Eric G. Matson, Les Kinsley, Zoe T. Bainbridge, and Jon E. Brodie. 2018. “A Critical Evaluation of Coral Ba/Ca, Mn/Ca and y/Ca Ratios as Indicators of Terrestrial Input: New Data from the Great Barrier Reef, Australia.” Geochimica Et Cosmochimica Acta 237 (September): 131–54. https://doi.org/10.1016/j.gca.2018.06.017.

Lewis, Stephen E., Graham A. Shields, Balz S. Kamber, and Janice M. Lough. 2007. “A Multi-Trace Element Coral Record of Land-Use Changes in the Burdekin River Catchment, NE Australia.” Palaeogeography, Palaeoclimatology, Palaeoecology 246 (2–4): 471–87. https://doi.org/10.1016/j.palaeo.2006.10.021.

Lough, J. M. 2010. “Measured Coral Luminescence as a Freshwater Proxy: Comparison with Visual Indices and a Potential Age Artefact.” Coral Reefs 30 (1): 169–82. https://doi.org/10.1007/s00338-010-0688-0.

———. 2011. “Measured Coral Luminescence as a Freshwater Proxy: Comparison with Visual Indices and a Potential Age Artefact.” Coral Reefs. https://doi.org/10.1029/2010PA002054.

Lough, J. M., S. E. Lewis, and N. E. Cantin. 2015. “Freshwater Impacts in the Central Great Barrier Reef: 1648–2011.” Coral Reefs 34 (3): 739–51. https://doi.org/10.1007/s00338-015-1297-8.

Lough, J. M., L. E. Llewellyn, S. E. Lewis, C. S. M. Turney, J. G. Palmer, C. G. Cook, and A. G. Hogg. 2014. “Evidence for Suppressed Mid-Holocene Northeastern Australian Monsoon Variability from Coral Luminescence.” Paleoceanography 29 (6): 581–94. https://doi.org/10.1002/2014pa002630.

Lough, Janice M. 2007. “Tropical River Flow and Rainfall Reconstructions from Coral Luminescence: Great Barrier Reef, Australia.” Paleoceanography 22 (2). https://doi.org/10.1029/2006pa001377.

———. 2011. “Great Barrier Reef Coral Luminescence Reveals Rainfall Variability over Northeastern Australia Since the 17th Century.” Paleoceanography 26 (2). https://doi.org/10.1029/2010pa002050.

Marr, Julene P., Joel A. Baker, Lionel Carter, Aidan S. R. Allan, Gavin B. Dunbar, and Helen C. Bostock. 2011. “Ecological and Temperature Controls on Mg/Ca Ratios of Globigerina Bulloides from the Southwest Pacific Ocean.” Paleoceanography 26 (2). https://doi.org/10.1029/2010pa002059.

Marshall, John F, and Malcolm T McCulloch. 2002. “An Assessment of the Sr/Ca Ratio in Shallow Water Hermatypic Corals as a Proxy for Sea Surface Temperature.” Geochimica Et Cosmochimica Acta 66 (18): 3263–80. https://doi.org/10.1016/s0016-7037(02)00926-2.

Marshall, John Francis. 2000. “Decadal-Scale, High Resolution Records of Sea Surface Temperature in the Eastern Indian and South Western Pacific Oceans from Proxy Records of the Strontium/Calcium Ratio of Massive Porites Corals.” The Australian National University. https://doi.org/10.25911/5D63BFACACC9F.

McCulloch, J. P. Dand M. T. 2017. “Response of Coral Calcification and Calcifying Fluid Composition to Thermally Induced Bleaching Stress.” Scientific Reports 7 (1). https://doi.org/10.1038/s41598-017-02306-x.

McCulloch, Juan Pablo Dand Malcolm. 2022. “Impact of European Settlement and Land Use Changes on Great Barrier Reef River Catchments Reconstructed from Long-Term Coral Ba/Ca Records.” Science of The Total Environment 830 (July): 154461. https://doi.org/10.1016/j.scitotenv.2022.154461.

McCulloch, M. T. Alibert C. &. 1997. “Strontium/Calcium Ratios in Modern Porites Corals from the Great Barrier Reef as a Proxy for Sea Surface Temperature: Calibration of the Thermometer and Monitoring of ENSO.” Paleoceanography. https://doi.org/10.1029/97PA00318.

McCulloch, Malcolm T., Juan Pablo Dand James Falter, Michael Holcomb, and Julie A. Trotter. 2017. “Coral Calcification in a Changing World and the Interactive Dynamics of pH and DIC Upregulation.” Nature Communications 8 (1). https://doi.org/10.1038/ncomms15686.

McCulloch, Malcolm, Stewart Fallon, Timothy Wyndham, Erica Hendy, Janice Lough, and David Barnes. 2003. “Coral Record of Increased Sediment Flux to the Inner Great Barrier Reef Since European Settlement.” Nature 421 (6924): 727–30. https://doi.org/10.1038/nature01361.

Montenegro, A., P. Spence, K. J. Meissner, M. Eby, M. J. Melchin, and S. T. Johnston. 2011. “Climate Simulations of the Permian-Triassic Boundary: Ocean Acidification and the Extinction Event.” Paleoceanography 26 (3). https://doi.org/10.1029/2010pa002058.

Palmer, J. G, E. R Cook, C. S. M Turney, K Allen, P Fenwick, B. I Cook, A Oand J Lough, and P. Grierson P. & Baker. 2015. “Drought Variability in the Eastern Australia and New Zealand Summer Drought Atlas (ANZDA, CE 1500–2012) Modulated by the Interdecadal Pacific Oscillation.” Environmental Research Letters. https://doi.org/10.1088/1748-9326/10/12/124002.

Passchier, S. 2011. “Linkages Between East Antarctic Ice Sheet Extent and Southern Ocean Temperatures Based on a Pliocene High-Resolution Record of Ice-Rafted Debris Off Prydz Bay, East Antarctica.” Paleoceanography 26 (4). https://doi.org/10.1029/2010pa002061.

Pelejero, Carles, Eva Calvo, Malcolm T. McCulloch, John F. Marshall, Michael K. Gagan, Janice M. Lough, and Bradley N. Opdyke. 2005. “Preindustrial to Modern Interdecadal Variability in Coral Reef pH.” Science 309 (5744): 2204–7. https://doi.org/10.1126/science.1113692.

Razak, Tries B., Peter J. Mumby, Ai D. Nguyen, Jian-Xin Zhao, Janice M. Lough, Neal E. Cantin, and George Roff. 2017. “Use of Skeletal Sr/Ca Ratios to Determine Growth Patterns in a Branching Coral Isopora Palifera.” Marine Biology 164 (4). https://doi.org/10.1007/s00227-017-3099-8.

Reed, Emma V., Julia E. Cole, Janice M. Lough, Diane Thompson, and Neal E. Cantin. 2018. “Linking Climate Variability and Growth in Coral Skeletal Records from the Great Barrier Reef.” Coral Reefs 38 (1): 29–43. https://doi.org/10.1007/s00338-018-01755-8.

Roche, Ronan C, Christopher T Perry, Scott G Smithers, Melanie J Leng, Craig A Grove, Hilary J Sloane, and Catherine E Unsworth. 2014. “Mid-Holocene Sea Surface Conditions and Riverine Influence on the Inshore Great Barrier Reef.” The Holocene 24 (8): 885–97. https://doi.org/10.1177/0959683614534739.

Rodriguez-Ramirez, A, C. A Grove, J Zinke, and J.-x. Pandolfi J. M. & Zhao. 2014. “Coral Luminescence Identifies the Pacific Decadal Oscillation as a Primary Driver of River Runoff Variability Impacting the Southern Great Barrier Reef.” PLOS ONE. https://doi.org/10.1371/journal.pone.0084305.

Sadler, James, Ai D. Nguyen, Nicole D. Leonard, Gregory E. Webb, and Luke D. Nothdurft. 2016. “Acropora Interbranch Skeleton Sr/Ca Ratios: Evaluation of a Potential New High-Resolution Paleothermometer.” Paleoceanography 31 (4): 505–17. https://doi.org/10.1002/2015pa002898.

Sadler, James, Gregory E. Webb, Nicole D. Leonard, Luke D. Nothdurft, and Tara R. Clark. 2016. “Reef Core Insights into Mid-Holocene Water Temperatures of the Southern Great Barrier Reef: GBR Mid-Holocene Water Temperatures.” Paleoceanography 31 (10): 1395–1408. https://doi.org/10.1002/2016pa002943.

Saha, Narottam, Alberto Rodriguez-Ramirez, Ai Duc Nguyen, Tara R. Clark, Jian-xin Zhao, and Gregory E. Webb. 2018. “Seasonal to Decadal Scale Influence of Environmental Drivers on Ba/Ca and y/Ca in Coral Aragonite from the Southern Great Barrier Reef.” Science of The Total Environment 639 (October): 1099–109. https://doi.org/10.1016/j.scitotenv.2018.05.156.

Saha, Narottam, Gregory E. Webb, Andrew G. Christy, and Jian-xin Zhao. 2019. “Vanadium in the Massive Coral Porites: A Potential Proxy for Historical Wood Clearing and Burning.” Earth and Planetary Science Letters 527 (December): 115793. https://doi.org/10.1016/j.epsl.2019.115793.

Saha, Narottam, Gregory E. Webb, Jian-Xin Zhao, Ai Duc Nguyen, Stephen E. Lewis, and Janice M. Lough. 2019. “Coral-Based High-Resolution Rare Earth Element Proxy for Terrestrial Sediment Discharge Affecting Coastal Seawater Quality, Great Barrier Reef.” Geochimica Et Cosmochimica Acta 254 (June): 173–91. https://doi.org/10.1016/j.gca.2019.04.004.

Saha, N, G. E Webb, J.-X Zhao, S. E Lewis, and Y. Duc Nguyen A. & Feng. 2021. “Spatiotemporal Variation of Rare Earth Elements from River to Reef Continuum Aids Monitoring of Terrigenous Sources in the Great Barrier Reef.” Geochimica Et Cosmochimica Acta. https://doi.org/10.1016/j.gca.2021.02.014.

Saha, N, G. E Webb, J.-X Zhao, and A. D. Leonard N. D. & Nguyen. 2018. “Influence of Marine Biochemical Cycles on Seasonal Variation of Ba/Ca in the Near-Shore Coral Cyphastrea, Rat Island, Southern Great Barrier Reef.” Chemical Geology. https://doi.org/10.1016/j.chemgeo.2018.09.005.

Sinclair, Juan P. Dand Daniel J., Kai Rankenburg, and Malcolm T. McCulloch. 2018. “A Universal Multi-Trace Element Calibration for Reconstructing Sea Surface Temperatures from Long-Lived Porites Corals: Removing ‘Vital-Effects’.” Geochimica Et Cosmochimica Acta 239 (October): 109–35. https://doi.org/10.1016/j.gca.2018.07.035.

Thompson, Diane, Malcolm McCulloch, Julia E. Cole, Emma V. Reed, Juan P. Dand Kelsey Dyez, Marcus Lofverstrom, Janice Lough, et al. 2022. “Marginal Reefs Under Stress: Physiological Limits Render Galápagos Corals Susceptible to Ocean Acidification and Thermal Stress.” AGU Advances 3 (1). https://doi.org/10.1029/2021av000509.

Thompson, D, M McCulloch, J. E Cole, E. V Reed, J. P Dand K Dyez, M Lofverstrom, J Lough, et al. 2022. “Marginal Reefs Under Stress: Physiological Limits Render Galapagos Corals Susceptible to Ocean Acidification and Thermal Stress.” AGU Advances. https://doi.org/10.1029/2021AV000509.

Topper, R. P. M., R. Flecker, P. Th. Meijer, and M. J. R. Wortel. 2011. “A Box Model of the Late Miocene Mediterranean Sea: Implications from Combined 87Sr/86Sr and Salinity Data.” Paleoceanography 26 (3). https://doi.org/10.1029/2010pa002063.

Walther, B. D, and M. T. Kingsford M. J. & McCulloch. 2013. “Environmental Records from Great Barrier Reef Corals: Inshore Versus Offshore Drivers.” PLOS ONE. https://doi.org/10.1371/journal.pone.0077091.

Wang, Zhibing, Jie Li, Gangjian Wei, Wenfeng Deng, Xuefei Chen, Ti Zeng, Xijie Wang, et al. 2019. “Biologically Controlled Mo Isotope Fractionation in Coral Reef Systems.” Geochimica Et Cosmochimica Acta 262 (October): 128–42. https://doi.org/10.1016/j.gca.2019.07.037.

Wei, Gangjian, Malcolm T. McCulloch, Graham Mortimer, Wengfeng Deng, and Luhua Xie. 2009. “Evidence for Ocean Acidification in the Great Barrier Reef of Australia.” Geochimica Et Cosmochimica Acta 73 (8): 2332–46. https://doi.org/10.1016/j.gca.2009.02.009.

Wu, Yang, Stewart J. Fallon, Neal E. Cantin, and Janice M. Lough. 2021a. “Assessing Multiproxy Approaches (Sr/Ca, u/Ca, Li/Mg, and b/Mg) to Reconstruct Sea Surface Temperature from Coral Skeletons Throughout the Great Barrier Reef.” Science of The Total Environment 786 (September): 147393. https://doi.org/10.1016/j.scitotenv.2021.147393.

Wu, Yang, Stewart J Fallon, Neal E Cantin, and Janice M Lough. 2021b. “SURFACE OCEAN RADIOCARBON FROM a PORITES CORAL RECORD IN THE GREAT BARRIER REEF: 1945–2017.” Radiocarbon 63 (4): 1193–203. https://doi.org/10.1017/rdc.2020.141.

Xiao, Hangfang, Wenfeng Deng, Gangjian Wei, Jiubin Chen, Xinqing Zheng, Tuo Shi, Xuefei Chen, Chenying Wang, Xi Liu, and Ti Zeng. 2020. “A Pilot Study on Zinc Isotopic Compositions in Shallow-Water Coral Skeletons.” Geochemistry, Geophysics, Geosystems 21 (11). https://doi.org/10.1029/2020gc009430.

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