Controls on Polar Southern Ocean Deep Chlorophyll Maxima: Viewpoints from Multiple Observational Platforms
Deep Chlorophyll Maxima (DCMs) are ubiquitous in low-latitude oceans, and of recognized biogeochemical and ecological importance. DCMs have been observed in the Southern Ocean, initially from ships and recently from profiling robotic floats, but with less understanding of their onset, duration, unde...
| Main Authors: | , , , , , , , , , , |
|---|---|
| Format: | Other/Unknown Material |
| Language: | unknown |
| Published: |
Authorea, Inc.
2023
|
| Subjects: | |
| Online Access: | http://dx.doi.org/10.22541/essoar.168677216.63458355/v1 |
| id |
crwinnower:10.22541/essoar.168677216.63458355/v1 |
|---|---|
| record_format |
openpolar |
| spelling |
crwinnower:10.22541/essoar.168677216.63458355/v1 2024-06-02T08:14:46+00:00 Controls on Polar Southern Ocean Deep Chlorophyll Maxima: Viewpoints from Multiple Observational Platforms Boyd, Philip W Antoine, David Baldry, Kimberlee Cornec, Marin Ellwood, Michael J Halfter, Svenja Lacour, Léo Latour, Pauline Marie Aurelie Strzepek, Robert Francis Trull, Thomas W. Rohr, Tyler Weaver 2023 http://dx.doi.org/10.22541/essoar.168677216.63458355/v1 unknown Authorea, Inc. posted-content 2023 crwinnower https://doi.org/10.22541/essoar.168677216.63458355/v1 2024-05-07T14:19:16Z Deep Chlorophyll Maxima (DCMs) are ubiquitous in low-latitude oceans, and of recognized biogeochemical and ecological importance. DCMs have been observed in the Southern Ocean, initially from ships and recently from profiling robotic floats, but with less understanding of their onset, duration, underlying drivers, or whether they are associated with enhanced biomass features. We report the characteristics of a DCM and DBM (Deep Biomass Maximum) in the Inter-Polar-Frontal-Zone (IPFZ) south of Australia from CTD profiles, shipboard-incubated samples, a towbody, and a BGC-ARGO float. The DCM and DBM were ~20 m thick and co-located with the nutricline, in the vicinity of a subsurface ammonium maximum characteristic of the IPFZ, but ~100 m shallower than the ferricline. Towbody transects demonstrated that the co-located DCM/DBM was broadly present across the IPFZ. Large healthy diatoms, with low iron requirements, resided within the DCM/DBM, and fixed up to 20 mmol C m-2 d-1. The BGC-ARGO float revealed the DCM/DBM persisted for >3 months. We propose a dual environmental mechanism to drive DCM/DBM formation and persistence within the IPFZ: sustained supply of both recycled iron within the subsurface ammonium maxima and upward silicate transport from depth. DCM/DBM cell-specific growth rates were considerably slower than those in the overlying mixed layer, implying that phytoplankton losses are also reduced, possibly as a result of heavily silicified diatom frustules. The light-limited seasonal termination of the observed DCM/DBM did not result in a ‘diatom dump’, rather ongoing diatom downward export occurred throughout its multi-month persistence. Other/Unknown Material Southern Ocean The Winnower Southern Ocean |
| institution |
Open Polar |
| collection |
The Winnower |
| op_collection_id |
crwinnower |
| language |
unknown |
| description |
Deep Chlorophyll Maxima (DCMs) are ubiquitous in low-latitude oceans, and of recognized biogeochemical and ecological importance. DCMs have been observed in the Southern Ocean, initially from ships and recently from profiling robotic floats, but with less understanding of their onset, duration, underlying drivers, or whether they are associated with enhanced biomass features. We report the characteristics of a DCM and DBM (Deep Biomass Maximum) in the Inter-Polar-Frontal-Zone (IPFZ) south of Australia from CTD profiles, shipboard-incubated samples, a towbody, and a BGC-ARGO float. The DCM and DBM were ~20 m thick and co-located with the nutricline, in the vicinity of a subsurface ammonium maximum characteristic of the IPFZ, but ~100 m shallower than the ferricline. Towbody transects demonstrated that the co-located DCM/DBM was broadly present across the IPFZ. Large healthy diatoms, with low iron requirements, resided within the DCM/DBM, and fixed up to 20 mmol C m-2 d-1. The BGC-ARGO float revealed the DCM/DBM persisted for >3 months. We propose a dual environmental mechanism to drive DCM/DBM formation and persistence within the IPFZ: sustained supply of both recycled iron within the subsurface ammonium maxima and upward silicate transport from depth. DCM/DBM cell-specific growth rates were considerably slower than those in the overlying mixed layer, implying that phytoplankton losses are also reduced, possibly as a result of heavily silicified diatom frustules. The light-limited seasonal termination of the observed DCM/DBM did not result in a ‘diatom dump’, rather ongoing diatom downward export occurred throughout its multi-month persistence. |
| format |
Other/Unknown Material |
| author |
Boyd, Philip W Antoine, David Baldry, Kimberlee Cornec, Marin Ellwood, Michael J Halfter, Svenja Lacour, Léo Latour, Pauline Marie Aurelie Strzepek, Robert Francis Trull, Thomas W. Rohr, Tyler Weaver |
| spellingShingle |
Boyd, Philip W Antoine, David Baldry, Kimberlee Cornec, Marin Ellwood, Michael J Halfter, Svenja Lacour, Léo Latour, Pauline Marie Aurelie Strzepek, Robert Francis Trull, Thomas W. Rohr, Tyler Weaver Controls on Polar Southern Ocean Deep Chlorophyll Maxima: Viewpoints from Multiple Observational Platforms |
| author_facet |
Boyd, Philip W Antoine, David Baldry, Kimberlee Cornec, Marin Ellwood, Michael J Halfter, Svenja Lacour, Léo Latour, Pauline Marie Aurelie Strzepek, Robert Francis Trull, Thomas W. Rohr, Tyler Weaver |
| author_sort |
Boyd, Philip W |
| title |
Controls on Polar Southern Ocean Deep Chlorophyll Maxima: Viewpoints from Multiple Observational Platforms |
| title_short |
Controls on Polar Southern Ocean Deep Chlorophyll Maxima: Viewpoints from Multiple Observational Platforms |
| title_full |
Controls on Polar Southern Ocean Deep Chlorophyll Maxima: Viewpoints from Multiple Observational Platforms |
| title_fullStr |
Controls on Polar Southern Ocean Deep Chlorophyll Maxima: Viewpoints from Multiple Observational Platforms |
| title_full_unstemmed |
Controls on Polar Southern Ocean Deep Chlorophyll Maxima: Viewpoints from Multiple Observational Platforms |
| title_sort |
controls on polar southern ocean deep chlorophyll maxima: viewpoints from multiple observational platforms |
| publisher |
Authorea, Inc. |
| publishDate |
2023 |
| url |
http://dx.doi.org/10.22541/essoar.168677216.63458355/v1 |
| geographic |
Southern Ocean |
| geographic_facet |
Southern Ocean |
| genre |
Southern Ocean |
| genre_facet |
Southern Ocean |
| op_doi |
https://doi.org/10.22541/essoar.168677216.63458355/v1 |
| _version_ |
1800738741889794048 |