TY - JOUR
T1 - Measuring gross and net calcification of a reef coral under ocean acidification conditions: methodological considerations
AU - Fine, M.
AU - Cohen, S
PY - 2012
Y1 - 2012
N2 - Ongoing ocean acidification (OA) is rapidly altering carbonate chemistry in the oceans.
The projected changes will likely have deleterious consequences for coral reefs by
negatively affecting their growth. Nonetheless, diverse responses of reef-building corals
calcification to OA hinder our ability to decipher reef susceptibility to elevated pCO2
5 .
Some of the inconsistencies between studies originate in measuring net calcification
(NC), which does not always consider the proportions of the “real” (gross) calcification
(GC) and gross dissolution in the observed response. Here we show that microcolonies
of Stylophora pistillata (entirely covered by tissue), incubated under normal (8.2) and
reduced (7.6) pH conditions for 16 months, survived and added new skeletal CaCO3
10 ,
despite low (1.25) Ωarg conditions. Moreover, corals maintained their NC and GC rates
under reduced (7.6) pH conditions and displayed positive NC rates at the low-end (7.3)
pH treatment while bare coral skeleton underwent marked dissolution. Our findings
suggest that S. pistillata may fall into the “low sensitivity” group with respect to OA
15 and that their overlying tissue may be a key determinant in setting their tolerance to
reduced pH by limiting dissolution and allowing them to calcify. This study is the first
to measure GC and NC rates for a tropical scleractinian corals under OA conditions.
We provide a detailed, realistic assessment of the problematic nature of previously
accepted methods for measuring calcification (total alkalinity and 45Ca).
AB - Ongoing ocean acidification (OA) is rapidly altering carbonate chemistry in the oceans.
The projected changes will likely have deleterious consequences for coral reefs by
negatively affecting their growth. Nonetheless, diverse responses of reef-building corals
calcification to OA hinder our ability to decipher reef susceptibility to elevated pCO2
5 .
Some of the inconsistencies between studies originate in measuring net calcification
(NC), which does not always consider the proportions of the “real” (gross) calcification
(GC) and gross dissolution in the observed response. Here we show that microcolonies
of Stylophora pistillata (entirely covered by tissue), incubated under normal (8.2) and
reduced (7.6) pH conditions for 16 months, survived and added new skeletal CaCO3
10 ,
despite low (1.25) Ωarg conditions. Moreover, corals maintained their NC and GC rates
under reduced (7.6) pH conditions and displayed positive NC rates at the low-end (7.3)
pH treatment while bare coral skeleton underwent marked dissolution. Our findings
suggest that S. pistillata may fall into the “low sensitivity” group with respect to OA
15 and that their overlying tissue may be a key determinant in setting their tolerance to
reduced pH by limiting dissolution and allowing them to calcify. This study is the first
to measure GC and NC rates for a tropical scleractinian corals under OA conditions.
We provide a detailed, realistic assessment of the problematic nature of previously
accepted methods for measuring calcification (total alkalinity and 45Ca).
UR - https://scholar.google.co.il/scholar?q=Measuring+gross+and+net+calcification+of+a+reef+coral+under+ocean+acidification+conditions%3A+methodological+considerations.&btnG=&hl=en&as_sdt=0%2C5
U2 - 10.5194/bgd-9-8241-2012
DO - 10.5194/bgd-9-8241-2012
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SN - 1810-6277
VL - 9
SP - 8241
EP - 8272
JO - Biogeosciences Discussions
JF - Biogeosciences Discussions
IS - 7
ER -