JpGU-AGU Joint Meeting 2020

講演情報

[E] 口頭発表

セッション記号 B (地球生命科学) » B-PT 古生物学・古生態学

[B-PT04] Biomineralization and Geochemistry of Proxies

コンビーナ:豊福 高志(国立研究開発法人海洋研究開発機構)、Jelle Bijma(アルフレッドウェゲナー極域海洋研究所)、北里 洋(国立大学法人東京海洋大学)、廣瀬 孝太郎(早稲田大学  大学院創造理工学研究科 地球・環境資源理工学専攻)

[BPT04-12] Recent changes of the diatom assemblages in relation to human-induced pollution in Baltic Sea coastal inlets.

*廣瀬 孝太郎1Nilsson Hanna3,2Rengefors Karin3Berglund Olof3Filipsson Helena2 (1.早稲田大学  大学院創造理工学研究科 地球・環境資源理工学専攻、2.Dept. of Geology, Lund University, Lund, Sweden、3.Dept. of Biology, Lund University, Lund, Sweden)

キーワード:diatom assemblages、anthropogenic impact、eutrophication、coastal inlets、Baltic Sea、past 130 years

The Baltic Sea, one of the world’s largest semi-enclosed water bodies in northern Europe, is naturally vulnerable to hypoxia due to estuarine hydraulic characteristics (Zillén et al. 2008). Moreover, the ca 85 million people living in the drainage area are causing severe pressures on the ecosystem, resulting in environmental deterioration and one of the most polluted seas in the world (Leppäranta and Myrberg, 2009).

Diatoms are dominant primary producers in coastal ecosystems, and are sensitive to the environmental change. In this study, we present temporal changes of diatom assemblages in the core (c.l. 49 cm) from coastal fjord-like inlets Gropviken (site Gp2) on the Swedish southeast coast, and discuss the temporal variation of the ecosystem on the basis of primary producers.

Using the vertical variations of diatom assemblages of the past 130 years (210Pb and 137Cs age information), core Gp2 was classified into 4 diatom zones: DAZ1 (50-36cm; C.E. 1888-1952), relatively low and constant content of dominant species. DAZ2 (36-19cnm; C.E. 1952-1989), intense dominance of Skeletonema marinoiintermittently and strong dominance of Pauliella taeniatain the lower horizons (39-33cm). DAZ3 (19-2cm; C.E. 1989-2014): strong dominance of Cyclotella choctawhachiana, and DAZ4 (2-0cm; C.E. 2014-2017): Strong dominance of Skeletonema marinoi, similar assemblage to DAZ2.

Based on the ecological features of diatoms and their fluxes (valves/cm2/yr), the change in the primary producers in Gropviken (Gp2) during the 1950’s, is considered to be caused by the acceleration of human-induced eutrophication. Recent records (CE 2014-2017), suggest a potential recovery from the initial change (CE 1952-1989).

[reference]
Zillén, L., Conley, D., Andrén, T., Andrén, E. & Björck, S. (2008) Past occurrences of hypoxia in the Baltic Sea and the role of climate variabil ity, environmental change and human impact, Earth-Science Reviews 91, 77-92.Leppäranta, M., and Myrberg, K. (2009). Physical Oceanography of the Baltic Sea. Berlin: Springer/Praxis Pub.