Hajime Kayanne scite author profile

Worldwide, coral reef ecosystems are experiencing increasing pressure from a variety of anthropogenic perturbations including ocean warming and acidification, increased sedimentation, eutrophication, and overfishing, which could shift reefs to a condition of net calcium carbonate (CaCO3) dissolution and erosion. Herein, we determine the net calcification potential and the relative balance of net organic carbon metabolism (net community production; NCP) and net inorganic carbon metabolism (net community calcification; NCC) within 23 coral reef locations across the globe. In light of these results, we consider the suitability of using these two metrics developed from total alkalinity (TA) and dissolved inorganic carbon (DIC) measurements collected on different spatiotemporal scales to monitor coral reef biogeochemistry under anthropogenic change. All reefs in this study were net calcifying for the majority of observations as inferred from alkalinity depletion relative to offshore, although occasional observations of net dissolution occurred at most locations. However, reefs with lower net calcification potential (i.e., lower TA depletion) could shift towards net dissolution sooner than reefs with a higher potential. The percent influence of organic carbon fluxes on total changes in dissolved inorganic carbon (DIC) (i.e., NCP compared to the sum of NCP and NCC) ranged from 32% to 88% and reflected inherent biogeochemical differences between reefs. Reefs with the largest relative percentage of NCP experienced the largest variability in seawater pH for a given change in DIC, which is directly related to the reefs ability to elevate or suppress local pH relative to the open ocean. This work highlights the value of measuring coral reef carbonate chemistry when evaluating their susceptibility to ongoing global environmental change and offers a baseline from which to guide future conservation efforts aimed at preserving these valuable ecosystems.

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Diurnal Changes in the Partial Pressure of Carbon Dioxide in Coral Reef Water

Kayanne

Suzuki

Saitô³

1995

Science

159

111

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Coral reefs are considered to be a source of atmospheric carbon dioxide because of their high calcium carbonate production and low net primary production. This was tested by direct measurement of diurnal changes in the partial pressure of carbon dioxide (Pco(co2)) in reef waters during two 3-day periods, one in March 1993 and one in March 1994, on Shiraho reef of the Ryukyu Islands, Japan. Although the Pco(co2) values in reef waters exhibited large diurnal changes ranging from 160 to 520 microatmospheres, they indicate that the reef flat area is a net sink for atmospheric carbon dioxide. This suggests that the net organic production rate of the reef community exceeded its calcium carbonate production rate during the observation periods.

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Atoll island vulnerability to flooding and inundation revealed by historical reconstruction: Fongafale Islet, Funafuti Atoll, Tuvalu

Yamano

Kayanne

Yamaguchi

et al. 2007

Global and Planetary Change

147

106

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Seasonal and bleaching‐induced changes in coral reef metabolism and CO₂ flux

Kayanne

Harada²,

Kudo

et al. 2005

Global Biogeochemical Cycles

101

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[1] Monitoring seawater CO 2 for a full year with seasonal observations of community metabolism in Ishigaki Island, Japan, revealed seasonal variation and anomalous values owing to the bleaching event in 1998. The daily average pCO 2 showed a seasonal pattern on an annual scale, 280 to 320 matm in winter and 360 to 400 matm in summer, which was determined primarily by the seasonal change in seawater temperature. By contrast, the range in the diel variation in pCO 2 , 400 to 500 matm in summer 200 to 300 matm in winter, was attributed to the seasonal variation in community metabolism: Gross primary production (P g ) and respiration (R) were high in summer and low in winter. During the 1998 bleaching event, although P g and R increased, community excess organic production (E) decreased by three quarters compared with the same month in 1999, when the coral community showed high recovery. This change in metabolism led to large diel range and increased average value of pCO 2 levels in the seawater on the reef flat. The decrease in the range and increase in the average value of pCO 2 were observed by monitoring the Palau barrier reef flat, where overall mortality of corals occurred after the bleaching. All the metabolic parameters, P g , R, E and calcification (G) were reduced by half after the bleaching, which increased the average pCO 2 value by 10 matm and decreased its diel range from 200-400 matm to 100-200 matm. Bleaching and resultant mortality of coral reefs led to degradation of their metabolic performance, and thus resulted in the loss of their active interaction with the carbon cycle.

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Hajime Kayanne

Spatial community shift from hard to soft corals in acidified water

Taking the metabolic pulse of the world’s coral reefs

Diurnal Changes in the Partial Pressure of Carbon Dioxide in Coral Reef Water

Atoll island vulnerability to flooding and inundation revealed by historical reconstruction: Fongafale Islet, Funafuti Atoll, Tuvalu

Seasonal and bleaching‐induced changes in coral reef metabolism and CO₂ flux

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Hajime Kayanne

Spatial community shift from hard to soft corals in acidified water

Taking the metabolic pulse of the world’s coral reefs

Diurnal Changes in the Partial Pressure of Carbon Dioxide in Coral Reef Water

Atoll island vulnerability to flooding and inundation revealed by historical reconstruction: Fongafale Islet, Funafuti Atoll, Tuvalu

Seasonal and bleaching‐induced changes in coral reef metabolism and CO2 flux

Contact Info

Product

Resources

About

Seasonal and bleaching‐induced changes in coral reef metabolism and CO₂ flux