Your search keyword '"Sakuragi, Yuta"' showing total 8 results

1. Meltwater Discharge From Marine-Terminating Glaciers Drives Biogeochemical Conditions in a Greenlandic Fjord

Author

Kanna, Naoya, Sugiyama, Shin, Ando, Takuto, Wang, Yefan, Sakuragi, Yuta, Hazumi, Toya, Matsuno, Kohei, Yamaguchi, Atsushi, Nishioka, Jun, Yamashita, Youhei, Kanna, Naoya, Sugiyama, Shin, Ando, Takuto, Wang, Yefan, Sakuragi, Yuta, Hazumi, Toya, Matsuno, Kohei, Yamaguchi, Atsushi, Nishioka, Jun, and Yamashita, Youhei

Abstract

An increasing body of work has shown the potential impacts of subglacial discharge from marine-terminating glaciers on the marine environment around Greenland. Upwelling of nutrients associated with rising buoyant plumes near the front of marine-terminating glaciers plays a key role in maintaining the high productivity of connected fjords. The response of protist communities to subglacial discharges into fjords nevertheless remains poorly understood. Here we show data of water properties, nutrients, and protist communities during two summers in 2018 and 2019 in a Greenlandic fjord system fed by marine-terminating glaciers. This study included the period of intense summer melting of the Greenland Ice Sheet in 2019. The data revealed high nutrient concentrations in 2019 that were attributed to intensified upwelling of nutrients and dissolved iron into the subsurface layer. The source of the iron and the nutrients was subglacial discharge and deep fjord water, respectively. Intense glacial discharges in 2019 mitigated nitrate and phosphate limitations of phytoplankton in the fjord and resulted in an increase of chlorophyll a in the subsurface layer and growth of large diatoms. Heterotrophic protists such as dinoflagellates, tintinnids, and nanoflagellates were more abundant in the summer of 2019. We concluded that nutrient upwelling by subglacial discharges was the major driver of the structure of lower trophic levels in fjord ecosystems. We hypothesize that the more intense melting of glaciers and related increase in subglacial discharge will enhance nutrient upwelling, and increased summer productivity in fjords until the glaciers retreat and terminate on land.

Published

2022

2. Meltwater Discharge From Marine-Terminating Glaciers Drives Biogeochemical Conditions in a Greenlandic Fjord

Author

1000090849720, Kanna, Naoya, Sugiyama, Shin, Ando, Takuto, Wang, Yefan, Sakuragi, Yuta, Hazumi, Toya, 1000090712159, Matsuno, Kohei, 1000050344495, Yamaguchi, Atsushi, 1000090371533, Nishioka, Jun, 1000050432224, Yamashita, Youhei, 1000090849720, Kanna, Naoya, Sugiyama, Shin, Ando, Takuto, Wang, Yefan, Sakuragi, Yuta, Hazumi, Toya, 1000090712159, Matsuno, Kohei, 1000050344495, Yamaguchi, Atsushi, 1000090371533, Nishioka, Jun, 1000050432224, and Yamashita, Youhei

Abstract

An increasing body of work has shown the potential impacts of subglacial discharge from marine-terminating glaciers on the marine environment around Greenland. Upwelling of nutrients associated with rising buoyant plumes near the front of marine-terminating glaciers plays a key role in maintaining the high productivity of connected fjords. The response of protist communities to subglacial discharges into fjords nevertheless remains poorly understood. Here we show data of water properties, nutrients, and protist communities during two summers in 2018 and 2019 in a Greenlandic fjord system fed by marine-terminating glaciers. This study included the period of intense summer melting of the Greenland Ice Sheet in 2019. The data revealed high nutrient concentrations in 2019 that were attributed to intensified upwelling of nutrients and dissolved iron into the subsurface layer. The source of the iron and the nutrients was subglacial discharge and deep fjord water, respectively. Intense glacial discharges in 2019 mitigated nitrate and phosphate limitations of phytoplankton in the fjord and resulted in an increase of chlorophyll a in the subsurface layer and growth of large diatoms. Heterotrophic protists such as dinoflagellates, tintinnids, and nanoflagellates were more abundant in the summer of 2019. We concluded that nutrient upwelling by subglacial discharges was the major driver of the structure of lower trophic levels in fjord ecosystems. We hypothesize that the more intense melting of glaciers and related increase in subglacial discharge will enhance nutrient upwelling, and increased summer productivity in fjords until the glaciers retreat and terminate on land.

Published

2022

3. Meltwater Discharge From Marine-Terminating Glaciers Drives Biogeochemical Conditions in a Greenlandic Fjord

Author

1000090849720, Kanna, Naoya, Sugiyama, Shin, Ando, Takuto, Wang, Yefan, Sakuragi, Yuta, Hazumi, Toya, 1000090712159, Matsuno, Kohei, 1000050344495, Yamaguchi, Atsushi, 1000090371533, Nishioka, Jun, 1000050432224, Yamashita, Youhei, 1000090849720, Kanna, Naoya, Sugiyama, Shin, Ando, Takuto, Wang, Yefan, Sakuragi, Yuta, Hazumi, Toya, 1000090712159, Matsuno, Kohei, 1000050344495, Yamaguchi, Atsushi, 1000090371533, Nishioka, Jun, 1000050432224, and Yamashita, Youhei

Abstract

An increasing body of work has shown the potential impacts of subglacial discharge from marine-terminating glaciers on the marine environment around Greenland. Upwelling of nutrients associated with rising buoyant plumes near the front of marine-terminating glaciers plays a key role in maintaining the high productivity of connected fjords. The response of protist communities to subglacial discharges into fjords nevertheless remains poorly understood. Here we show data of water properties, nutrients, and protist communities during two summers in 2018 and 2019 in a Greenlandic fjord system fed by marine-terminating glaciers. This study included the period of intense summer melting of the Greenland Ice Sheet in 2019. The data revealed high nutrient concentrations in 2019 that were attributed to intensified upwelling of nutrients and dissolved iron into the subsurface layer. The source of the iron and the nutrients was subglacial discharge and deep fjord water, respectively. Intense glacial discharges in 2019 mitigated nitrate and phosphate limitations of phytoplankton in the fjord and resulted in an increase of chlorophyll a in the subsurface layer and growth of large diatoms. Heterotrophic protists such as dinoflagellates, tintinnids, and nanoflagellates were more abundant in the summer of 2019. We concluded that nutrient upwelling by subglacial discharges was the major driver of the structure of lower trophic levels in fjord ecosystems. We hypothesize that the more intense melting of glaciers and related increase in subglacial discharge will enhance nutrient upwelling, and increased summer productivity in fjords until the glaciers retreat and terminate on land.

Published

2022

4. Meltwater Discharge From Marine-Terminating Glaciers Drives Biogeochemical Conditions in a Greenlandic Fjord

Author

Kanna, Naoya, Sugiyama, Shin, Ando, Takuto, Wang, Yefan, Sakuragi, Yuta, Hazumi, Toya, Matsuno, Kohei, Yamaguchi, Atsushi, Nishioka, Jun, Yamashita, Youhei, Kanna, Naoya, Sugiyama, Shin, Ando, Takuto, Wang, Yefan, Sakuragi, Yuta, Hazumi, Toya, Matsuno, Kohei, Yamaguchi, Atsushi, Nishioka, Jun, and Yamashita, Youhei

Abstract

An increasing body of work has shown the potential impacts of subglacial discharge from marine-terminating glaciers on the marine environment around Greenland. Upwelling of nutrients associated with rising buoyant plumes near the front of marine-terminating glaciers plays a key role in maintaining the high productivity of connected fjords. The response of protist communities to subglacial discharges into fjords nevertheless remains poorly understood. Here we show data of water properties, nutrients, and protist communities during two summers in 2018 and 2019 in a Greenlandic fjord system fed by marine-terminating glaciers. This study included the period of intense summer melting of the Greenland Ice Sheet in 2019. The data revealed high nutrient concentrations in 2019 that were attributed to intensified upwelling of nutrients and dissolved iron into the subsurface layer. The source of the iron and the nutrients was subglacial discharge and deep fjord water, respectively. Intense glacial discharges in 2019 mitigated nitrate and phosphate limitations of phytoplankton in the fjord and resulted in an increase of chlorophyll a in the subsurface layer and growth of large diatoms. Heterotrophic protists such as dinoflagellates, tintinnids, and nanoflagellates were more abundant in the summer of 2019. We concluded that nutrient upwelling by subglacial discharges was the major driver of the structure of lower trophic levels in fjord ecosystems. We hypothesize that the more intense melting of glaciers and related increase in subglacial discharge will enhance nutrient upwelling, and increased summer productivity in fjords until the glaciers retreat and terminate on land.

Published

2022

5. Rapidly changing glaciers, ocean and coastal environments, and their impact on human society in the Qaanaaq region, northwestern Greenland

Author

Sugiyama, Shin, Kanna, Naoya, Sakakibara, Daiki, Ando, Takuto, Asaji, Izumi, Kondo, Ken, Wang, Yefan, Fujishi, Yoshiki, Fukumoto, Shungo, Podolskiy, Evgeniy, Fukamachi, Yasushi, Takahashi, Minori, Matoba, Sumito, Iizuka, Yoshinori, Greve, Ralf, Furuya, Masato, Tateyama, Kazutaka, Watanabe, Tatsuya, Yamasaki, Shintaro, Yamaguchi, Atsushi, Nishizawa, Bungo, Matsuno, Kohei, Nomura, Daiki, Sakuragi, Yuta, Matsumura, Yoshimasa, Ohashi, Yoshihiko, Aoki, Teruo, Niwano, Masashi, Hayashi, Naotaka, Minowa, Masahiro, Jouvet, Guillaume, van Dongen, Eef, Bauder, Andreas, Funk, Martin, Bjork, Anders Anker, Oshima, Toku, Sugiyama, Shin, Kanna, Naoya, Sakakibara, Daiki, Ando, Takuto, Asaji, Izumi, Kondo, Ken, Wang, Yefan, Fujishi, Yoshiki, Fukumoto, Shungo, Podolskiy, Evgeniy, Fukamachi, Yasushi, Takahashi, Minori, Matoba, Sumito, Iizuka, Yoshinori, Greve, Ralf, Furuya, Masato, Tateyama, Kazutaka, Watanabe, Tatsuya, Yamasaki, Shintaro, Yamaguchi, Atsushi, Nishizawa, Bungo, Matsuno, Kohei, Nomura, Daiki, Sakuragi, Yuta, Matsumura, Yoshimasa, Ohashi, Yoshihiko, Aoki, Teruo, Niwano, Masashi, Hayashi, Naotaka, Minowa, Masahiro, Jouvet, Guillaume, van Dongen, Eef, Bauder, Andreas, Funk, Martin, Bjork, Anders Anker, and Oshima, Toku

Abstract

Environments along the coast of Greenland are rapidly changing under the influence of a warming climate in the Arctic. To better understand the changes in the coastal environments, we performed researches in the Qaanaaq region in northwestern Greenland as a part of the ArCS (Arctic Challenge for Sustainability) Project. Mass loss of ice caps and marine-terminating outlet glaciers were quantified by field and satellite observations. Measurements and sampling in fjords revealed the important role of glacial meltwater discharge in marine ecosystems. Flooding of a glacial stream in Qaanaaq and landslides in a nearby settlement were investigated to identify the drivers of the incidents. Our study observed rapid changes in the coastal environments, and their critical impact on the society in Qaanaaq. We organized workshops with the residents to absorb local and indigenous knowledge, as well as to share the results and data obtained in the project. Continuous effort towards obtaining long-term observations requiring involvement of local communities is crucial to contribute to a sustainable future in Greenland.

Published

2021

6. Rapidly changing glaciers, ocean and coastal environments, and their impact on human society in the Qaanaaq region, northwestern Greenland

Author

Sugiyama, Shin, Kanna, Naoya, Sakakibara, Daiki, Ando, Takuto, Asaji, Izumi, Kondo, Ken, Wang, Yefan, Fujishi, Yoshiki, Fukumoto, Shungo, Podolskiy, Evgeniy, Fukamachi, Yasushi, Takahashi, Minori, Matoba, Sumito, Iizuka, Yoshinori, Greve, Ralf, Furuya, Masato, Tateyama, Kazutaka, Watanabe, Tatsuya, Yamasaki, Shintaro, Yamaguchi, Atsushi, Nishizawa, Bungo, Matsuno, Kohei, Nomura, Daiki, Sakuragi, Yuta, Matsumura, Yoshimasa, Ohashi, Yoshihiko, Aoki, Teruo, Niwano, Masashi, Hayashi, Naotaka, Minowa, Masahiro, Jouvet, Guillaume, van Dongen, Eef, Bauder, Andreas, Funk, Martin, Bjork, Anders Anker, Oshima, Toku, Sugiyama, Shin, Kanna, Naoya, Sakakibara, Daiki, Ando, Takuto, Asaji, Izumi, Kondo, Ken, Wang, Yefan, Fujishi, Yoshiki, Fukumoto, Shungo, Podolskiy, Evgeniy, Fukamachi, Yasushi, Takahashi, Minori, Matoba, Sumito, Iizuka, Yoshinori, Greve, Ralf, Furuya, Masato, Tateyama, Kazutaka, Watanabe, Tatsuya, Yamasaki, Shintaro, Yamaguchi, Atsushi, Nishizawa, Bungo, Matsuno, Kohei, Nomura, Daiki, Sakuragi, Yuta, Matsumura, Yoshimasa, Ohashi, Yoshihiko, Aoki, Teruo, Niwano, Masashi, Hayashi, Naotaka, Minowa, Masahiro, Jouvet, Guillaume, van Dongen, Eef, Bauder, Andreas, Funk, Martin, Bjork, Anders Anker, and Oshima, Toku

Abstract

Environments along the coast of Greenland are rapidly changing under the influence of a warming climate in the Arctic. To better understand the changes in the coastal environments, we performed researches in the Qaanaaq region in northwestern Greenland as a part of the ArCS (Arctic Challenge for Sustainability) Project. Mass loss of ice caps and marine-terminating outlet glaciers were quantified by field and satellite observations. Measurements and sampling in fjords revealed the important role of glacial meltwater discharge in marine ecosystems. Flooding of a glacial stream in Qaanaaq and landslides in a nearby settlement were investigated to identify the drivers of the incidents. Our study observed rapid changes in the coastal environments, and their critical impact on the society in Qaanaaq. We organized workshops with the residents to absorb local and indigenous knowledge, as well as to share the results and data obtained in the project. Continuous effort towards obtaining long-term observations requiring involvement of local communities is crucial to contribute to a sustainable future in Greenland.

Published

2021

7. Rapidly changing glaciers, ocean and coastal environments, and their impact on human society in the Qaanaaq region, northwestern Greenland

Author

Sugiyama, Shin, Kanna, Naoya, Sakakibara, Daiki, Ando, Takuto, Asaji, Izumi, Kondo, Ken, Wang, Yefan, Fujishi, Yoshiki, Fukumoto, Shungo, Podolskiy, Evgeniy, Fukamachi, Yasushi, Takahashi, Minori, Matoba, Sumito, Iizuka, Yoshinori, Greve, Ralf, Furuya, Masato, Tateyama, Kazutaka, Watanabe, Tatsuya, Yamasaki, Shintaro, Yamaguchi, Atsushi, Nishizawa, Bungo, Matsuno, Kohei, Nomura, Daiki, Sakuragi, Yuta, Matsumura, Yoshimasa, Ohashi, Yoshihiko, Aoki, Teruo, Niwano, Masashi, Hayashi, Naotaka, Minowa, Masahiro, Jouvet, Guillaume, van Dongen, Eef, Bauder, Andreas, Funk, Martin, Bjørk, Anders Anker, Oshima, Toku, Sugiyama, Shin, Kanna, Naoya, Sakakibara, Daiki, Ando, Takuto, Asaji, Izumi, Kondo, Ken, Wang, Yefan, Fujishi, Yoshiki, Fukumoto, Shungo, Podolskiy, Evgeniy, Fukamachi, Yasushi, Takahashi, Minori, Matoba, Sumito, Iizuka, Yoshinori, Greve, Ralf, Furuya, Masato, Tateyama, Kazutaka, Watanabe, Tatsuya, Yamasaki, Shintaro, Yamaguchi, Atsushi, Nishizawa, Bungo, Matsuno, Kohei, Nomura, Daiki, Sakuragi, Yuta, Matsumura, Yoshimasa, Ohashi, Yoshihiko, Aoki, Teruo, Niwano, Masashi, Hayashi, Naotaka, Minowa, Masahiro, Jouvet, Guillaume, van Dongen, Eef, Bauder, Andreas, Funk, Martin, Bjørk, Anders Anker, and Oshima, Toku

Abstract

Environments along the coast of Greenland are rapidly changing under the influence of a warming climate in the Arctic. To better understand the changes in the coastal environments, we performed researches in the Qaanaaq region in northwestern Greenland as a part of the ArCS (Arctic Challenge for Sustainability) Project. Mass loss of ice caps and marine-terminating outlet glaciers were quantified by field and satellite observations. Measurements and sampling in fjords revealed the important role of glacial meltwater discharge in marine ecosystems. Flooding of a glacial stream in Qaanaaq and landslides in a nearby settlement were investigated to identify the drivers of the incidents. Our study observed rapid changes in the coastal environments, and their critical impact on the society in Qaanaaq. We organized workshops with the residents to absorb local and indigenous knowledge, as well as to share the results and data obtained in the project. Continuous effort towards obtaining long-term observations requiring involvement of local communities is crucial to contribute to a sustainable future in Greenland.

Published

2021

8. Rapidly changing glaciers, ocean and coastal environments, and their impact on human society in the Qaanaaq region, northwestern Greenland

Author

Sugiyama, Shin, Kanna, Naoya, Sakakibara, Daiki, Ando, Takuto, Asaji, Izumi, Kondo, Ken, Wang, Yefan, Fujishi, Yoshiki, Fukumoto, Shungo, Podolskiy, Evgeniy, Fukamachi, Yasushi, Takahashi, Minori, Matoba, Sumito, Iizuka, Yoshinori, Greve, Ralf, Furuya, Masato, Tateyama, Kazutaka, Watanabe, Tatsuya, Yamasaki, Shintaro, Yamaguchi, Atsushi, Nishizawa, Bungo, Matsuno, Kohei, Nomura, Daiki, Sakuragi, Yuta, Matsumura, Yoshimasa, Ohashi, Yoshihiko, Aoki, Teruo, Niwano, Masashi, Hayashi, Naotaka, Minowa, Masahiro, Jouvet, Guillaume, van Dongen, Eef, Bauder, Andreas, Funk, Martin, Bjørk, Anders Anker, Oshima, Toku, Sugiyama, Shin, Kanna, Naoya, Sakakibara, Daiki, Ando, Takuto, Asaji, Izumi, Kondo, Ken, Wang, Yefan, Fujishi, Yoshiki, Fukumoto, Shungo, Podolskiy, Evgeniy, Fukamachi, Yasushi, Takahashi, Minori, Matoba, Sumito, Iizuka, Yoshinori, Greve, Ralf, Furuya, Masato, Tateyama, Kazutaka, Watanabe, Tatsuya, Yamasaki, Shintaro, Yamaguchi, Atsushi, Nishizawa, Bungo, Matsuno, Kohei, Nomura, Daiki, Sakuragi, Yuta, Matsumura, Yoshimasa, Ohashi, Yoshihiko, Aoki, Teruo, Niwano, Masashi, Hayashi, Naotaka, Minowa, Masahiro, Jouvet, Guillaume, van Dongen, Eef, Bauder, Andreas, Funk, Martin, Bjørk, Anders Anker, and Oshima, Toku

Abstract

Environments along the coast of Greenland are rapidly changing under the influence of a warming climate in the Arctic. To better understand the changes in the coastal environments, we performed researches in the Qaanaaq region in northwestern Greenland as a part of the ArCS (Arctic Challenge for Sustainability) Project. Mass loss of ice caps and marine-terminating outlet glaciers were quantified by field and satellite observations. Measurements and sampling in fjords revealed the important role of glacial meltwater discharge in marine ecosystems. Flooding of a glacial stream in Qaanaaq and landslides in a nearby settlement were investigated to identify the drivers of the incidents. Our study observed rapid changes in the coastal environments, and their critical impact on the society in Qaanaaq. We organized workshops with the residents to absorb local and indigenous knowledge, as well as to share the results and data obtained in the project. Continuous effort towards obtaining long-term observations requiring involvement of local communities is crucial to contribute to a sustainable future in Greenland.

Published

2021