The likelihood of observing dust-stimulated phytoplankton growth in waters proximal to the Australian continent
We develop a tool to assist in identifying a link between naturally occurring aeolian dust deposition and phytoplankton response in the ocean. Rather than examining a single, or small number of dust deposition events, we take a climatological approach to estimate the likelihood of observing a defini...
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| Format: | Article in Journal/Newspaper |
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2013
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| Online Access: | http://hdl.handle.net/10453/27458 |
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ftunivtsydney:oai:opus.lib.uts.edu.au:10453/27458 |
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ftunivtsydney:oai:opus.lib.uts.edu.au:10453/27458 2023-05-15T18:25:08+02:00 The likelihood of observing dust-stimulated phytoplankton growth in waters proximal to the Australian continent Cropp, RA Gabric, AJ Levasseur, M McTainsh, GH Bowie, A Hassler, CS Law, CS McGowan, H Tindale, N Viscarra Rossel, R 2013-05-01 application/pdf http://hdl.handle.net/10453/27458 unknown Journal of Marine Systems 10.1016/j.jmarsys.2013.02.013 Journal of Marine Systems, 2013, 117-118 pp. 43 - 52 0924-7963 http://hdl.handle.net/10453/27458 Oceanography Journal Article 2013 ftunivtsydney 2022-03-13T13:45:35Z We develop a tool to assist in identifying a link between naturally occurring aeolian dust deposition and phytoplankton response in the ocean. Rather than examining a single, or small number of dust deposition events, we take a climatological approach to estimate the likelihood of observing a definitive link between dust deposition and a phytoplankton bloom for the oceans proximal to the Australian continent. We use a dust storm index (DSI) to determine dust entrainment in the Lake Eyre Basin (LEB) and an ensemble of modelled atmospheric trajectories of dust transport from the basin, the major dust source in Australia. Deposition into the ocean is computed as a function of distance from the LEB source and the local over-ocean precipitation. The upper ocean's receptivity to nutrients, including dust-borne iron, is defined in terms of time-dependent, monthly climatological fields for light, mixed layer depth and chlorophyll concentration relative to the climatological monthly maximum. The resultant likelihood of a dust-phytoplankton link being observed is then mapped as a function of space and time. Our results suggest that the Southern Ocean (north of 45°S), the North West Shelf, and Great Barrier Reef are ocean regions where a rapid biological response to dust inputs is most likely to be observed. Conversely, due to asynchrony between deposition and ocean receptivity, direct causal links appear unlikely to be observed in the Tasman Sea and Southern Ocean south of 45°S. © 2013 Elsevier B.V. Article in Journal/Newspaper Southern Ocean University of Technology Sydney: OPUS - Open Publications of UTS Scholars Southern Ocean |
| institution |
Open Polar |
| collection |
University of Technology Sydney: OPUS - Open Publications of UTS Scholars |
| op_collection_id |
ftunivtsydney |
| language |
unknown |
| topic |
Oceanography |
| spellingShingle |
Oceanography Cropp, RA Gabric, AJ Levasseur, M McTainsh, GH Bowie, A Hassler, CS Law, CS McGowan, H Tindale, N Viscarra Rossel, R The likelihood of observing dust-stimulated phytoplankton growth in waters proximal to the Australian continent |
| topic_facet |
Oceanography |
| description |
We develop a tool to assist in identifying a link between naturally occurring aeolian dust deposition and phytoplankton response in the ocean. Rather than examining a single, or small number of dust deposition events, we take a climatological approach to estimate the likelihood of observing a definitive link between dust deposition and a phytoplankton bloom for the oceans proximal to the Australian continent. We use a dust storm index (DSI) to determine dust entrainment in the Lake Eyre Basin (LEB) and an ensemble of modelled atmospheric trajectories of dust transport from the basin, the major dust source in Australia. Deposition into the ocean is computed as a function of distance from the LEB source and the local over-ocean precipitation. The upper ocean's receptivity to nutrients, including dust-borne iron, is defined in terms of time-dependent, monthly climatological fields for light, mixed layer depth and chlorophyll concentration relative to the climatological monthly maximum. The resultant likelihood of a dust-phytoplankton link being observed is then mapped as a function of space and time. Our results suggest that the Southern Ocean (north of 45°S), the North West Shelf, and Great Barrier Reef are ocean regions where a rapid biological response to dust inputs is most likely to be observed. Conversely, due to asynchrony between deposition and ocean receptivity, direct causal links appear unlikely to be observed in the Tasman Sea and Southern Ocean south of 45°S. © 2013 Elsevier B.V. |
| format |
Article in Journal/Newspaper |
| author |
Cropp, RA Gabric, AJ Levasseur, M McTainsh, GH Bowie, A Hassler, CS Law, CS McGowan, H Tindale, N Viscarra Rossel, R |
| author_facet |
Cropp, RA Gabric, AJ Levasseur, M McTainsh, GH Bowie, A Hassler, CS Law, CS McGowan, H Tindale, N Viscarra Rossel, R |
| author_sort |
Cropp, RA |
| title |
The likelihood of observing dust-stimulated phytoplankton growth in waters proximal to the Australian continent |
| title_short |
The likelihood of observing dust-stimulated phytoplankton growth in waters proximal to the Australian continent |
| title_full |
The likelihood of observing dust-stimulated phytoplankton growth in waters proximal to the Australian continent |
| title_fullStr |
The likelihood of observing dust-stimulated phytoplankton growth in waters proximal to the Australian continent |
| title_full_unstemmed |
The likelihood of observing dust-stimulated phytoplankton growth in waters proximal to the Australian continent |
| title_sort |
likelihood of observing dust-stimulated phytoplankton growth in waters proximal to the australian continent |
| publishDate |
2013 |
| url |
http://hdl.handle.net/10453/27458 |
| geographic |
Southern Ocean |
| geographic_facet |
Southern Ocean |
| genre |
Southern Ocean |
| genre_facet |
Southern Ocean |
| op_relation |
Journal of Marine Systems 10.1016/j.jmarsys.2013.02.013 Journal of Marine Systems, 2013, 117-118 pp. 43 - 52 0924-7963 http://hdl.handle.net/10453/27458 |
| _version_ |
1766206357744123904 |