AUTHOR=Sultana Rumana , Casareto Beatriz E. , Sohrin Rumi , Suzuki Toshiyuki , Alam Md. Shafiul , Fujimura Hiroyuki , Suzuki Yoshimi 

TITLE=Response of Subtropical Coastal Sediment Systems of Okinawa, Japan, to Experimental Warming and High pCO2

JOURNAL=Frontiers in Marine Science

VOLUME=3

YEAR=2016

URL=https://www.frontiersin.org/journals/marine-science/articles/10.3389/fmars.2016.00100

DOI=10.3389/fmars.2016.00100

ISSN=2296-7745

ABSTRACT=<p>Increasing seawater temperatures and CO<sub>2</sub> levels associated with climate change affect the shallow marine ecosystem function. In this study, the effects of elevated seawater temperature and partial pressure of CO<sub>2</sub> (<italic>p</italic>CO<sub>2</sub>) on subtropical sediment systems of mangrove, seagrass, and coral reef lagoon habitats of Okinawa, Japan, were examined. Sediment and seawater from each habitat were exposed to four <italic>p</italic>CO<sub>2</sub>-temperature treatments, including ambient <italic>p</italic>CO<sub>2</sub>- ambient temperature, ambient <italic>p</italic>CO<sub>2</sub>-high temperature (ambient temperature + 4°C), high <italic>p</italic>CO<sub>2</sub> (936 ppm)-ambient temperature, and high <italic>p</italic>CO<sub>2</sub>-high temperature. Parameters including primary production, nutrient flux, pigment content, photosynthetic community composition, and bacterial abundance were examined. Neither high temperature nor high <italic>p</italic>CO<sub>2</sub> alone impacted mangrove and seagrass sediment primary production significantly (Tukey's test, <italic>P</italic> &gt; 0.05). However, the combined stress significantly (Tukey's test, <italic>P</italic> &lt; 0.01) increased primary production in these two habitats. In sediments from the coral reef lagoon, single and combined stress treatments induced a shift from heterotrophy to autotrophy. Significant increases in net primary production (Tukey's test, <italic>P</italic> &lt; 0.01), and gross primary production (Tukey's test, <italic>P</italic> &lt; 0.05) under the combined stress suggested that benthic microalgae in mangrove and seagrass sediments were more responsive to high temperature and <italic>p</italic>CO<sub>2</sub> conditions than those in coral reef lagoon sediments. Additionally, combined stress significantly increased the sediment chlorophyll <italic>a</italic> content (Tukey's test, <italic>P</italic> &lt; 0.05) in all habitats. These increases were associated with increased net primary production, indicating that combined stress stimulates primary production activity by the photosynthetic benthic microalgae in all habitats. Diatom activity increased, as silicate uptake increased in all habitats. Microbial abundance significantly increased under the combined stress treatment (Tukey's test, <italic>P</italic> &lt; 0.01), but did not exceed autotrophic activity. Respiration did not change significantly in any of the three habitats (Tukey's test, <italic>P</italic> &gt; 0.05) under the combined stress, suggesting that heterotrophic processes were less affected by the combined stress than autotrophic processes. In summary, mangrove and seagrass sediments minimize the negative impacts of elevated temperature and <italic>p</italic>CO<sub>2</sub> via increased primary production and carbon storage. Lagoonal sediments also act as a carbon sink under temperature and ocean acidificationstress.</p>