Effects of ocean acidification (pHtotal~7.8) on calcification, photosynthesis, carbon and nitrogen contents and carbon isotopic signatures on Halimeda opuntia grown at tropical carbon dioxide seeps (NERP TE 5.2, AIMS)

Credit K.E. Fabricius, J. Strahl, S.H.C. Noonan, C. Wild, S. Uthicke This dataset consists of one csv data file from field derived experiments at tropical carbon dioxide seeps in Papua New Guinea, measuring the response parameters: calcification, photosynthesis, carbon and nitrogen contents and carb...

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Bibliographic Details
Other Authors: Australian Institute of Marine Science (AIMS) (hasAssociationWith), Lawrey, Eric, Dr (pointOfContact), Lawrey, Eric, Dr. (pointOfContact), Uthicke, Sven, Dr (Party who can be contacted for acquiring knowledge about or acquisition of the
				resource), Uthicke, Sven, Dr (pointOfContact), Vogel, Nikolas (hasPrincipalInvestigator), Vogel, Nikolas (Key party responsible for gathering information and conducting
			research), Wolfe, Kennedy (Dr) (pointOfContact), e-Atlas (pointOfContact), eAtlas Data Manager (pointOfContact), mailto:b.robson@aims.gov.au (pointOfContact)
Format: Dataset
Language:unknown
Published: Australian Ocean Data Network
Subjects:
biota
ocean acidification
Halimeda opuntia
calcification
marine
Ocean acidification
Online Access:https://researchdata.edu.au/effects-ocean-acidification-52-aims/690612
Description
Summary:Credit K.E. Fabricius, J. Strahl, S.H.C. Noonan, C. Wild, S. Uthicke This dataset consists of one csv data file from field derived experiments at tropical carbon dioxide seeps in Papua New Guinea, measuring the response parameters: calcification, photosynthesis, carbon and nitrogen contents and carbon isotopic signatures on Halimeda opuntia grown under ocean acidification conditions. The aim of this study was to investigate the effects of ocean acidification on Halimeda opuntia grown under ocean acidification conditions at tropical carbon dioxide seeps. Therefore we tested several response parameters to try to understand how the calcareous alga is capable of growing under ocean acidification conditions. Method: At several locations in Milne Bay Province, Papua New Guinea, volcanic CO2 is seeping out of the seafloor (Fabricius et al. 2011). The seep sites are located at Dobu Island and Upa-Upasina (Normanby Island) close to the shore in shallow water of ~1–15 m depth and extend over an area of ~20 by 100 m with different intensities of bubble activity within this area. Control reefs were allocated several hundred meters away from the seep sites with no impact of the seep activity on their seawater carbonate system. The bubbles, which consist of pure CO2, ascend to the surface and mix with the ambient seawater, changing the carbonate chemistry. This study was confined to areas where seawater chemistry was altered to levels projected for a vast part of the globe for the end of this century (‘representative concentration pathway’ RCP6.0 to RCP8.5 scenarios) (Moss et al. 2010). Calcification rates in the light and dark, as well as net photosynthesis and respiration rates, were measured in-situ at control (pHtotal = 8.17) and seep sites (pHtotal = 7.77). Branches 5 – 8 cm in height and with ~20 phylloids of H. opuntia were collected and retained at the site of collection until incubations commenced. Light incubations were conducted in-situ at 5 m water depth at midday. Specimens were placed into 0.5 L clear Perspex ...

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