A systems approach to exploring the influence of ‘Ocean Acidification’ on nutrient cycling in coastal zones
Global concentrations of aqueous carbon dioxide (CO2) have been steadily increasing since the onset of the industrial revolution. A consequence of this has been an observed decrease in the pH of seawater as its natural buffering capacity has become overwhelmed. Research into this ‘ocean acidificatio...
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2012
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ftgriffithuniv:oai:research-repository.griffith.edu.au:10072/53923 2024-06-23T07:55:48+00:00 A systems approach to exploring the influence of ‘Ocean Acidification’ on nutrient cycling in coastal zones Richards, Russell Sano, Marcello Smith, T.F. Tomlinson, Rodger Benson 2011-07-03 to 2011-07-07 Arendal, Norway 2012 http://hdl.handle.net/10072/53923 unknown 2nd International Symposium on Integrated Coastal Zone Management http://www.imr.no/om_havforskningsinstituttet/arrangementer/konferanser/ICZM_2011/en http://hdl.handle.net/10072/53923 Environmental Management Environmental Science and Management not elsewhere classified Natural Resource Management Conference output 2012 ftgriffithuniv 2024-05-29T00:08:41Z Global concentrations of aqueous carbon dioxide (CO2) have been steadily increasing since the onset of the industrial revolution. A consequence of this has been an observed decrease in the pH of seawater as its natural buffering capacity has become overwhelmed. Research into this ‘ocean acidification’ effect has only emerged recently, although there is already compounding evidence that the impacts will be wide-ranging. This is because pH is a dominant variable in controlling biogeochemical processes. A potentially critical effect of decreasing pH is how it influences nutrient cycling in coastal zones, which will have flow-on effects on primary and secondary producers and has various implications including nutrient management, ecosystem health and carrying capacity. Of these, nutrient management is of particular concern because (1) the effect of decreasing pH combined with other expected changes in climatic conditions (e.g. increased storm events, increased water temperature) will alter the environmental fate of nutrients; and (2) there will be increased demands for managing ‘recycled’ water discharges into coastal waters arising from increasing populations. We present here a systems approach to mapping nutrient cycling within the context of ocean acidification for a sub-tropical coastal waterway located in southeast Queensland, Australia. This conceptualization will help to identify the causal pathways (including feedback loops) between a suite of important social, economic and environmental variables and highlight important leverage points for adaptation strategies for nutrient management under ocean acidification. Faculty of Science, Environment, Engineering and Technology No Full Text Conference Object Ocean acidification Griffith University: Griffith Research Online Norway Queensland |
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Open Polar |
| collection |
Griffith University: Griffith Research Online |
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ftgriffithuniv |
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unknown |
| topic |
Environmental Management Environmental Science and Management not elsewhere classified Natural Resource Management |
| spellingShingle |
Environmental Management Environmental Science and Management not elsewhere classified Natural Resource Management Richards, Russell Sano, Marcello Smith, T.F. Tomlinson, Rodger Benson A systems approach to exploring the influence of ‘Ocean Acidification’ on nutrient cycling in coastal zones |
| topic_facet |
Environmental Management Environmental Science and Management not elsewhere classified Natural Resource Management |
| description |
Global concentrations of aqueous carbon dioxide (CO2) have been steadily increasing since the onset of the industrial revolution. A consequence of this has been an observed decrease in the pH of seawater as its natural buffering capacity has become overwhelmed. Research into this ‘ocean acidification’ effect has only emerged recently, although there is already compounding evidence that the impacts will be wide-ranging. This is because pH is a dominant variable in controlling biogeochemical processes. A potentially critical effect of decreasing pH is how it influences nutrient cycling in coastal zones, which will have flow-on effects on primary and secondary producers and has various implications including nutrient management, ecosystem health and carrying capacity. Of these, nutrient management is of particular concern because (1) the effect of decreasing pH combined with other expected changes in climatic conditions (e.g. increased storm events, increased water temperature) will alter the environmental fate of nutrients; and (2) there will be increased demands for managing ‘recycled’ water discharges into coastal waters arising from increasing populations. We present here a systems approach to mapping nutrient cycling within the context of ocean acidification for a sub-tropical coastal waterway located in southeast Queensland, Australia. This conceptualization will help to identify the causal pathways (including feedback loops) between a suite of important social, economic and environmental variables and highlight important leverage points for adaptation strategies for nutrient management under ocean acidification. Faculty of Science, Environment, Engineering and Technology No Full Text |
| format |
Conference Object |
| author |
Richards, Russell Sano, Marcello Smith, T.F. Tomlinson, Rodger Benson |
| author_facet |
Richards, Russell Sano, Marcello Smith, T.F. Tomlinson, Rodger Benson |
| author_sort |
Richards, Russell |
| title |
A systems approach to exploring the influence of ‘Ocean Acidification’ on nutrient cycling in coastal zones |
| title_short |
A systems approach to exploring the influence of ‘Ocean Acidification’ on nutrient cycling in coastal zones |
| title_full |
A systems approach to exploring the influence of ‘Ocean Acidification’ on nutrient cycling in coastal zones |
| title_fullStr |
A systems approach to exploring the influence of ‘Ocean Acidification’ on nutrient cycling in coastal zones |
| title_full_unstemmed |
A systems approach to exploring the influence of ‘Ocean Acidification’ on nutrient cycling in coastal zones |
| title_sort |
systems approach to exploring the influence of ‘ocean acidification’ on nutrient cycling in coastal zones |
| publishDate |
2012 |
| url |
http://hdl.handle.net/10072/53923 |
| op_coverage |
2011-07-03 to 2011-07-07 Arendal, Norway |
| geographic |
Norway Queensland |
| geographic_facet |
Norway Queensland |
| genre |
Ocean acidification |
| genre_facet |
Ocean acidification |
| op_relation |
2nd International Symposium on Integrated Coastal Zone Management http://www.imr.no/om_havforskningsinstituttet/arrangementer/konferanser/ICZM_2011/en http://hdl.handle.net/10072/53923 |
| _version_ |
1802648515043655680 |