Your search keyword '"Asami Tsugi"' showing total 4 results

1. Potential local adaptation of corals at acidified and warmed Nikko Bay, Palau

Author

Haruko Kurihara, Atsushi Watanabe, Asami Tsugi, Izumi Mimura, Chuki Hongo, Takashi Kawai, James Davis Reimer, Katsunori Kimoto, Marine Gouezo, and Yimnang Golbuu

Subjects

Medicine, Science

Abstract

Abstract Ocean warming and acidification caused by increases of atmospheric carbon dioxide are now thought to be major threats to coral reefs on a global scale. Here we evaluated the environmental conditions and benthic community structures in semi-closed Nikko Bay at the inner reef area in Palau, which has high pCO2 and seawater temperature conditions with high zooxanthellate coral coverage. Nikko Bay is a highly sheltered system with organisms showing low connectivity with surrounding environments, making this bay a unique site for evaluating adaptation and acclimatization responses of organisms to warmed and acidified environments. Seawater pCO2/Ωarag showed strong gradation ranging from 380 to 982 µatm (Ωarag: 1.79–3.66), and benthic coverage, including soft corals and turf algae, changed along with Ωarag while hard coral coverage did not change. In contrast to previous studies, net calcification was maintained in Nikko Bay even under very low mean Ωarag (2.44). Reciprocal transplantation of the dominant coral Porites cylindrica showed that the calcification rate of corals from Nikko Bay did not change when transplanted to a reference site, while calcification of reference site corals decreased when transplanted to Nikko Bay. Corals transplanted out of their origin sites also showed the highest interactive respiration (R) and lower gross photosynthesis (Pg) to respiration (Pg:R), indicating higher energy acquirement of corals at their origin site. The results of this study give important insights about the potential local acclimatization and adaptation capacity of corals to different environmental conditions including pCO2 and temperature.

Published

2021

2. Author Correction: Potential local adaptation of corals at acidified and warmed Nikko Bay, Palau

Author

Haruko Kurihara, Atsushi Watanabe, Asami Tsugi, Izumi Mimura, Chuki Hongo, Takashi Kawai, James Davis Reimer, Katsunori Kimoto, Marine Gouezo, and Yimnang Golbuu

Subjects

Medicine, Science

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2021

3. Author Correction: Potential local adaptation of corals at acidified and warmed Nikko Bay, Palau

Author

Yimnang Golbuu, Takashi Kawai, Marine Gouezo, Izumi Mimura, Haruko Kurihara, Katsunori Kimoto, Atsushi Watanabe, Asami Tsugi, Chuki Hongo, and James Davis Reimer

Subjects

Multidisciplinary, Hot Temperature, Coral Reefs, Published Erratum, Science, Climate Change, Palau, Adaptation, Biological, Carbon Dioxide, Hydrogen-Ion Concentration, Anthozoa, Oceanography, Geography, Calcification, Physiologic, Medicine, Animals, Author Correction, Bay, Local adaptation

Abstract

Ocean warming and acidification caused by increases of atmospheric carbon dioxide are now thought to be major threats to coral reefs on a global scale. Here we evaluated the environmental conditions and benthic community structures in semi-closed Nikko Bay at the inner reef area in Palau, which has high pCO

Published

2021

4. Potential local adaptation of corals at acidified and warmed Nikko Bay, Palau

Author

Takashi Kawai, Izumi Mimura, Chuki Hongo, Yimnang Golbuu, Marine Gouezo, James Davis Reimer, Haruko Kurihara, Katsunori Kimoto, Atsushi Watanabe, and Asami Tsugi

Subjects

0301 basic medicine, 010504 meteorology & atmospheric sciences, Science, Coral, Effects of global warming on oceans, 01 natural sciences, Article, 03 medical and health sciences, Reef, 0105 earth and related environmental sciences, Marine biology, geography, Multidisciplinary, geography.geographical_feature_category, Coral reef, Tropical ecology, Transplantation, 030104 developmental biology, Oceanography, Benthic zone, Medicine, Environmental science, Porites cylindrica, Bay

Abstract

Ocean warming and acidification caused by increases of atmospheric carbon dioxide are now thought to be major threats to coral reefs on a global scale. Here we evaluated the environmental conditions and benthic community structures in semi-closed Nikko Bay at the inner reef area in Palau, which has high pCO2 and seawater temperature conditions with high zooxanthellate coral coverage. Nikko Bay is a highly sheltered system with organisms showing low connectivity with surrounding environments, making this bay a unique site for evaluating adaptation and acclimatization responses of organisms to warmed and acidified environments. Seawater pCO2/Ωarag showed strong gradation ranging from 380 to 982 µatm (Ωarag: 1.79–3.66), and benthic coverage, including soft corals and turf algae, changed along with Ωarag while hard coral coverage did not change. In contrast to previous studies, net calcification was maintained in Nikko Bay even under very low mean Ωarag (2.44). Reciprocal transplantation of the dominant coral Porites cylindrica showed that the calcification rate of corals from Nikko Bay did not change when transplanted to a reference site, while calcification of reference site corals decreased when transplanted to Nikko Bay. Corals transplanted out of their origin sites also showed the highest interactive respiration (R) and lower gross photosynthesis (Pg) to respiration (Pg:R), indicating higher energy acquirement of corals at their origin site. The results of this study give important insights about the potential local acclimatization and adaptation capacity of corals to different environmental conditions including pCO2 and temperature.

Published

2021