Drivers of pCO2 Variability in Two Contrasting Coral Reef Lagoons: The Influence of Submarine Groundwater Discharge

Authors

Tyler Cyronak, Southern Cross University - Lismore, AustraliaFollow
Isaac R. Santos, Southern Cross University - Lismore, Australia
Dirk V. Erler, Southern Cross University - Lismore, Australia
Damien T. Maher, Southern Cross University - Lismore, Australia
Bradley D. Eyre, Southern Cross University - Lismore, Australia

Document Type

Article

Publication Date

4-2014

Publication Title

Global Biogeochemical Cycles

Keywords

pCO2, Groundwater, SGD, Coral reef, Ocean acidification, Radon

ISSN

0886-6236

Volume

28

Issue/No.

4

First Page

398

Last Page

414

Abstract

The impact of groundwater on pCO₂ variability was assessed in two coral reef lagoons with distinct drivers of submarine groundwater discharge (SGD). Diel variability of pCO₂ in the two ecosystems was explained by a combination of biological drivers and SGD inputs. In Rarotonga, a South Pacific volcanic island, ²²²Rn‐derived SGD was driven primarily by a steep terrestrial hydraulic gradient, and the water column was influenced by the high pCO₂ (5501 µatm) of the fresh groundwater. In Heron Island, a Great Barrier Reef coral cay, SGD was dominated by seawater recirculation through the sediments (i.e., tidal pumping), and pCO₂ was mainly impacted through the stimulation of biological processes. The Rarotonga water column had a higher average pCO₂ (549 µatm) than Heron Island (471 µatm). However, pCO₂ exhibited a greater diel range in Heron Island (778 µatm) than in Rarotonga (507 µatm). The Rarotonga water column received 29.0 ± 8.2 mmol free‐CO₂ m⁻² d⁻¹ from SGD, while the Heron Island water column received 12.1 ± 4.2 mmol free‐CO₂ m⁻² d⁻¹. Over the course of this study, both systems were sources of CO₂ to the atmosphere with SGD‐derived free‐CO₂ most likely contributing a large portion to the air‐sea CO₂ flux. Studies measuring the carbon chemistry of coral reefs (e.g., metabolism and calcification rates) may need to consider the effects of groundwater inputs on water column carbonate chemistry. Local drivers of coral reef carbonate chemistry such as SGD may offer more approachable management solutions to mitigating the effects of ocean acidification on coral reefs.

Comments

©2014. American Geophysical Union. All Rights Reserved.

Additional Comments

ARC grant #s: DP110103638, DP120101645, LP100200732, LE120100156

NSUWorks Citation

Tyler Cyronak, Isaac R. Santos, Dirk V. Erler, Damien T. Maher, and Bradley D. Eyre. 2014. Drivers of pCO2 Variability in Two Contrasting Coral Reef Lagoons: The Influence of Submarine Groundwater Discharge .Global Biogeochemical Cycles , (4) : 398 -414. https://nsuworks.nova.edu/occ_facarticles/1036.

ORCID ID

0000-0003-3556-7616

DOI

10.1002/2013GB004598