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Long-term changes in phytoplankton communities in China’s Yangtze Estuary driven by altered riverine fluxes and rising sea surface temperature
Geomorphology ( IF 3.9 ) Pub Date : 2021-03-01 , DOI: 10.1016/j.geomorph.2020.107566 Yanna Wang , Hao Xu , Maotian Li
Geomorphology ( IF 3.9 ) Pub Date : 2021-03-01 , DOI: 10.1016/j.geomorph.2020.107566 Yanna Wang , Hao Xu , Maotian Li
Abstract Phytoplankton communities have been changed recently in the giant and dynamical China’s Yangtze Estuary primarily due to intensifying human activities and climate warming. A large amount of riverine material fluxes into the estuary has been significantly altered in their balances, leading to a change of phytoplankton from siliceous- to non-siliceous-dominated communities. We established inter-linkages of changing phytoplankton communities to various controlling factors and revealed that this bio-transformation occurred around 2000. Before this time, there were fewer dominant diatom taxa, but since then more have emerged as the variation, along with many dinoflagellates driven by the altered riverine nutrient ratios of N:P:Si delivered to the estuary, averagely from 164:1:1977 (1960s-1970s) to 142:1:300 (1980s-1990s) and to 94:1:65 (2000s-2010s). Excessive Nitrogen and lowering Dissolved Silicate (DSi) has exerted the key environmental stress on such a bio-transformation. Skeletonema spp. the most popular in diatoms has lost its dominance by ca 50% since the early 2000s. We further convinced the long-increasing Dissolved Inorganic Nitrogen (DIN) (presently, 150 μmol L−1, maxi., ca 3.5 folds more than that of 1960s-1980s) to meet the long-decreasing DSi (ca 60% off since 1960s) at 110 μmol L−1, around 2003 (Redfield ratio balance 1:1) as a threshold. Since then, this balance has broken, serving as an engine for driving the bio-transformation. Phytoplankton development did not fully follow the Redfield Ratio, especially during the algal blooming season, as revealed by the scattered distribution of dinoflagelate:diatom vs. DIN:DSi when DIN:DSi >1. This implies a much more eutrophic setting attributable to over-loaded nitrogen concentration in the Yangtze Estuary. Besides, the lowering sediment flux in the estuary (lowest after 2003 when the Three Gorges Dam closed) and the rising sea surface temperature (SST) in recent decades has enhanced the bio-transformation. Consequently, the estuarine water tends to be more acidic than before, manifested by continuously lowering of pH and dissolved oxygen in the study area.
更新日期:2021-03-01
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