Groundwater and porewater as major sources of alkalinity to a fringing coral reef lagoon (Muri Lagoon, Cook Islands)

To better predict how ocean acidification will affect coral reefs, it is important to understand how biogeochemical cycles on reefs alter carbonate chemistry over various temporal and spatial scales. This study quantifies the contribution of shallow porewater exchange (as quantified from advective c...

Full description

Bibliographic Details
Main Authors: T. Cyronak, I. R. Santos, D. V. Erler, B. D. Eyre
Format: Article
Language:English
Published: Copernicus Publications 2013-04-01
Series:Biogeosciences
Online Access:http://www.biogeosciences.net/10/2467/2013/bg-10-2467-2013.pdf
id doaj-96caf94fd6ba4d6096d08a2f4476d717
record_format Article
spelling doaj-96caf94fd6ba4d6096d08a2f4476d7172020-11-25T02:39:31ZengCopernicus PublicationsBiogeosciences1726-41701726-41892013-04-011042467248010.5194/bg-10-2467-2013Groundwater and porewater as major sources of alkalinity to a fringing coral reef lagoon (Muri Lagoon, Cook Islands)T. CyronakI. R. SantosD. V. ErlerB. D. EyreTo better predict how ocean acidification will affect coral reefs, it is important to understand how biogeochemical cycles on reefs alter carbonate chemistry over various temporal and spatial scales. This study quantifies the contribution of shallow porewater exchange (as quantified from advective chamber incubations) and fresh groundwater discharge (as traced by <sup>222</sup>Rn) to total alkalinity (TA) dynamics on a fringing coral reef lagoon along the southern Pacific island of Rarotonga over a tidal and diel cycle. Benthic alkalinity fluxes were affected by the advective circulation of water through permeable sediments, with net daily flux rates of carbonate alkalinity ranging from &minus;1.55 to 7.76 mmol m<sup>−2</sup> d<sup>−1</sup>, depending on the advection rate. Submarine groundwater discharge (SGD) was a source of TA to the lagoon, with the highest flux rates measured at low tide, and an average daily TA flux of 1080 mmol m<sup>−2</sup> d<sup>−1</sup> at the sampling site. Both sources of TA were important on a reef-wide basis, although SGD acted solely as a delivery mechanism of TA to the lagoon, while porewater advection was either a sink or source of TA dependent on the time of day. This study describes overlooked sources of TA to coral reef ecosystems that can potentially alter water column carbonate chemistry. We suggest that porewater and groundwater fluxes of TA should be taken into account in ocean acidification models in order to properly address changing carbonate chemistry within coral reef ecosystems.http://www.biogeosciences.net/10/2467/2013/bg-10-2467-2013.pdf
collection DOAJ
language English
format Article
sources DOAJ
author T. Cyronak
I. R. Santos
D. V. Erler
B. D. Eyre
spellingShingle T. Cyronak
I. R. Santos
D. V. Erler
B. D. Eyre
Groundwater and porewater as major sources of alkalinity to a fringing coral reef lagoon (Muri Lagoon, Cook Islands)
Biogeosciences
author_facet T. Cyronak
I. R. Santos
D. V. Erler
B. D. Eyre
author_sort T. Cyronak
title Groundwater and porewater as major sources of alkalinity to a fringing coral reef lagoon (Muri Lagoon, Cook Islands)
title_short Groundwater and porewater as major sources of alkalinity to a fringing coral reef lagoon (Muri Lagoon, Cook Islands)
title_full Groundwater and porewater as major sources of alkalinity to a fringing coral reef lagoon (Muri Lagoon, Cook Islands)
title_fullStr Groundwater and porewater as major sources of alkalinity to a fringing coral reef lagoon (Muri Lagoon, Cook Islands)
title_full_unstemmed Groundwater and porewater as major sources of alkalinity to a fringing coral reef lagoon (Muri Lagoon, Cook Islands)
title_sort groundwater and porewater as major sources of alkalinity to a fringing coral reef lagoon (muri lagoon, cook islands)
publisher Copernicus Publications
series Biogeosciences
issn 1726-4170
1726-4189
publishDate 2013-04-01
description To better predict how ocean acidification will affect coral reefs, it is important to understand how biogeochemical cycles on reefs alter carbonate chemistry over various temporal and spatial scales. This study quantifies the contribution of shallow porewater exchange (as quantified from advective chamber incubations) and fresh groundwater discharge (as traced by <sup>222</sup>Rn) to total alkalinity (TA) dynamics on a fringing coral reef lagoon along the southern Pacific island of Rarotonga over a tidal and diel cycle. Benthic alkalinity fluxes were affected by the advective circulation of water through permeable sediments, with net daily flux rates of carbonate alkalinity ranging from &minus;1.55 to 7.76 mmol m<sup>−2</sup> d<sup>−1</sup>, depending on the advection rate. Submarine groundwater discharge (SGD) was a source of TA to the lagoon, with the highest flux rates measured at low tide, and an average daily TA flux of 1080 mmol m<sup>−2</sup> d<sup>−1</sup> at the sampling site. Both sources of TA were important on a reef-wide basis, although SGD acted solely as a delivery mechanism of TA to the lagoon, while porewater advection was either a sink or source of TA dependent on the time of day. This study describes overlooked sources of TA to coral reef ecosystems that can potentially alter water column carbonate chemistry. We suggest that porewater and groundwater fluxes of TA should be taken into account in ocean acidification models in order to properly address changing carbonate chemistry within coral reef ecosystems.
url http://www.biogeosciences.net/10/2467/2013/bg-10-2467-2013.pdf
work_keys_str_mv AT tcyronak groundwaterandporewaterasmajorsourcesofalkalinitytoafringingcoralreeflagoonmurilagooncookislands
AT irsantos groundwaterandporewaterasmajorsourcesofalkalinitytoafringingcoralreeflagoonmurilagooncookislands
AT dverler groundwaterandporewaterasmajorsourcesofalkalinitytoafringingcoralreeflagoonmurilagooncookislands
AT bdeyre groundwaterandporewaterasmajorsourcesofalkalinitytoafringingcoralreeflagoonmurilagooncookislands
_version_ 1724785601382711296