Rachel M. Walter scite author profile

The El Niño-Southern Oscillation (ENSO) is the dominant mode of interannual climate variability, but its response to greenhouse warming remains highly uncertain (Bellenger et al., 2014;Ng et al., 2021;Stevenson, 2012). Although projections of ENSO-related sea surface temperature (SST) variability differ across climate models, simulations forced with projected anthropogenic greenhouse gas emissions generally agree on an increase in the hydrological extremes associated with ENSO (

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Central Equatorial Pacific Warming and Freshening in the Twentieth Century: Insights From a Coral Ensemble Approach

Hitt

Sayani

Atwood

et al. 2021

Geophysical Research Letters

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One of the largest sources of uncertainty in future climate projections is the response of tropical Pacific sea surface temperatures (SSTs) to anthropogenic forcing (e.g., Collins et al., 2010). Climate models and observations support a range of tropical Pacific responses to greenhouse gas forcing, including changes in the properties of the El Niño-Southern Oscillation (Cai et al., 2018 and references therein), decadal variability (e.g., Liguori and

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The CoralHydro2k Database: a global, actively curated compilation of coral δ¹⁸O and Sr / Ca proxy records of tropical ocean hydrology and temperature for the Common Era

Walter

Sayani²,

Felis³

et al. 2022

Preprint

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Abstract. The response of the hydrological cycle to anthropogenic climate change, especially across the tropical oceans, remains poorly understood due to the scarcity of long instrumental temperature and hydrological records. Massive shallow-water corals are ideally suited to reconstructing past oceanic variability as they are widely distributed across the tropics, rapidly deposit calcium carbonate skeletons that continuously record ambient environmental conditions, and can be sampled at monthly to annual resolution. Most coral-based reconstructions utilize stable oxygen isotope composition (δ18O) that tracks the combined change in sea surface temperature (SST) and the oxygen isotopic composition of seawater (δ18Osw), a measure of hydrologic variability. Increasingly, coral δ18O time series are paired with time series of strontium-to-calcium ratios (Sr / Ca), a proxy for SST, from the same coral to quantify temperature and δ18Osw variability through time. To increase the utility of such reconstructions, we present the CoralHydro2k database: a compilation of published, peer-reviewed coral Sr / Ca and δ18O records from the Common Era. The database contains 54 paired Sr / Ca-δ18O records and 125 unpaired Sr / Ca or δ18O records, with 88 % of these records providing data coverage from 1800 CE to present. A quality-controlled set of metadata with standardized vocabulary and units accompanies each record, informing the use of the database. The CoralHydro2k database tracks large-scale temperature and hydrological variability. As such, it is well-suited for investigations of past climate variability, comparisons with climate model simulations including isotope-enabled models – and application in paleo-data assimilation projects.The CoralHydro2k database will be available on the NOAA National Center for Environmental Information’s Paleoclimate data service with serializations in MATLAB, R, Python, and LiPD.

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Coral oxygen isotope and in situ records capture the 2015/2016 El Niño event in the central equatorial Pacific

O'Connor¹,

Cobb²,

Sayani³

et al. 2021

Preprint

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The CoralHydro2k database: a global, actively curated compilation of coral δ¹⁸O and Sr ∕ Ca proxy records of tropical ocean hydrology and temperature for the Common Era

Walter¹,

Sayani²,

Felis³

et al. 2023

Earth Syst. Sci. Data

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Abstract. The response of the hydrological cycle to anthropogenic climate change, especially across the tropical oceans, remains poorly understood due to the scarcity of long instrumental temperature and hydrological records. Massive shallow-water corals are ideally suited to reconstructing past oceanic variability as they are widely distributed across the tropics, rapidly deposit calcium carbonate skeletons that continuously record ambient environmental conditions, and can be sampled at monthly to annual resolution. Climate reconstructions based on corals primarily use the stable oxygen isotope composition (δ18O), which acts as a proxy for sea surface temperature (SST), and the oxygen isotope composition of seawater (δ18Osw), a measure of hydrological variability. Increasingly, coral δ18O time series are paired with time series of strontium-to-calcium ratios (Sr/Ca), a proxy for SST, from the same coral to quantify temperature and δ18Osw variability through time. To increase the utility of such reconstructions, we present the CoralHydro2k database, a compilation of published, peer-reviewed coral Sr/Ca and δ18O records from the Common Era (CE). The database contains 54 paired Sr/Ca–δ18O records and 125 unpaired Sr/Ca or δ18O records, with 88 % of these records providing data coverage from 1800 CE to the present. A quality-controlled set of metadata with standardized vocabulary and units accompanies each record, informing the use of the database. The CoralHydro2k database tracks large-scale temperature and hydrological variability. As such, it is well-suited for investigations of past climate variability, comparisons with climate model simulations including isotope-enabled models, and application in paleodata-assimilation projects. The CoralHydro2k database is available in Linked Paleo Data (LiPD) format with serializations in MATLAB, R, and Python and can be downloaded from the NOAA National Center for Environmental Information's Paleoclimate Data Archive at https://doi.org/10.25921/yp94-v135 (Walter et al., 2022).

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Rachel M. Walter

Coral Oxygen Isotopic Records Capture the 2015/2016 El Niño Event in the Central Equatorial Pacific

Central Equatorial Pacific Warming and Freshening in the Twentieth Century: Insights From a Coral Ensemble Approach

The CoralHydro2k Database: a global, actively curated compilation of coral δ¹⁸O and Sr / Ca proxy records of tropical ocean hydrology and temperature for the Common Era

Coral oxygen isotope and in situ records capture the 2015/2016 El Niño event in the central equatorial Pacific

The CoralHydro2k database: a global, actively curated compilation of coral δ¹⁸O and Sr ∕ Ca proxy records of tropical ocean hydrology and temperature for the Common Era

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Resources

About

Rachel M. Walter

Coral Oxygen Isotopic Records Capture the 2015/2016 El Niño Event in the Central Equatorial Pacific

Central Equatorial Pacific Warming and Freshening in the Twentieth Century: Insights From a Coral Ensemble Approach

The CoralHydro2k Database: a global, actively curated compilation of coral δ18O and Sr / Ca proxy records of tropical ocean hydrology and temperature for the Common Era

Coral oxygen isotope and in situ records capture the 2015/2016 El Ni&ntilde;o event in the central equatorial Pacific

The CoralHydro2k database: a global, actively curated compilation of coral δ18O and Sr ∕ Ca proxy records of tropical ocean hydrology and temperature for the Common Era

Contact Info

Product

Resources

About

The CoralHydro2k Database: a global, actively curated compilation of coral δ¹⁸O and Sr / Ca proxy records of tropical ocean hydrology and temperature for the Common Era

Coral oxygen isotope and in situ records capture the 2015/2016 El Niño event in the central equatorial Pacific

The CoralHydro2k database: a global, actively curated compilation of coral δ¹⁸O and Sr ∕ Ca proxy records of tropical ocean hydrology and temperature for the Common Era