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- Title
Physical Drivers of Monthly Variation in Phytoplankton Community in the Tidal Freshwater Zone of the Macrotidal Qiantang River Estuary, Eastern China: Implications for Reducing the Risk of Harmful Cyanobacterial Blooms.
- Authors
Jiang, Zhibing; Du, Wei; Zhu, Yuanli; Guo, Ran; Zhan, Lin; Sun, Zhenhao; Wang, Degang; Zeng, Jiangning
- Abstract
The Qiantang river estuary flows into Hangzhou Bay, on the East China Sea, and has one of the largest tidal bores worldwide. The tidal freshwater zone (TFZ) in this shallow macrotidal estuary is subjected to strong riverine and marine forcings. We investigated monthly variation of phytoplankton and environmental drivers in the upper and lower sections of TFZ during 2016. Large numbers of phytoplankton taxa (422) and genera (161) were identified. Diatoms were dominant in most months, but cyanobacteria abundance reached its greatest in warm months when runoff was low. Surprisingly, relatively high dominances of marine diatom species (e.g., Cyclotella stylorum, Skeletonema, and Thalassiosira) were observed in the TFZ with salinities usually <1 PSU. Microcystis contributed up to 50% to phytoplankton abundance in the upper TFZ in September, consistent with upstream bloom events. Abundances of phytoplankton and cyanobacteria were significantly negatively correlated with monthly runoff and sediment fluxes. Generalized additive models suggested that variation in phytoplankton abundance was largely explained by river flow, temperature and nutrients. Phytoplankton community composition varied significantly across different months and sections. Redundancy analysis indicated that temperature and flow rate explained more variation in phytoplankton community than other variables, but nutrients, Secchi depth and salinity also contributed significantly to the explained variation. Variance partitioning analysis confirmed that phytoplankton variation was largely regulated by physical variables rather than nutrients. These findings highlight the unexpectedly great phytoplankton species richness, dominance of marine diatoms, and physical drivers in the eutrophic macrotidal TFZ under strong tidal forcing. Plain Language Summary: The tidal freshwater zone (TFZ) in river estuary continuum has both riverine and estuarine characteristics of low salinity and tidal oscillation. Evidence is accumulating that the incidence of harmful cyanobacterial blooms (HCBs) is increasing in TFZs worldwide, which pose risks to the aquatic environment and to human health. Therefore, water quality and ecosystem health in TFZs are largely regulated by phytoplankton community. TFZ of the macrotidal Qiantang river estuary (QRE) is famous worldwide for its strong tidal bore. Here, we examined variation in phytoplankton associated with physicochemical properties in the upper and lower TFZ of QRE on a monthly basis in 2016. We found the unexpectedly great phytoplankton species richness and dominance of marine diatoms in this eutrophic TFZ and identified the strong physical drivers of phytoplankton composition variation. Diatoms were dominant in most months, but cyanobacteria (particularly Microcystis) tended to proliferate in warm months when runoff was low. We recommend that HCBs in QRE TFZ can be mitigated by increasing river flow during hot–dry months in addition to watershed nutrient load reductions. These findings will benefit other researchers seeking to understand phytoplankton variation and the underlying mechanism of HCBs formation in the eutrophic macrotidal estuaries. Key Points: A baseline survey of phytoplankton community was performed in the tidal freshwater zone of the macrotidal Qiantang river estuaryDiatoms were dominant in most months, but cyanobacteria (particularly Microcystis) abundance reached its greatest in warm monthsPhytoplankton community composition was largely regulated by river flow and temperature rather than salinity and nutrients
- Subjects
HANGZHOU (China); CHINA; CYANOBACTERIAL blooms; FRESHWATER phytoplankton; PHYTOPLANKTON; STREAMFLOW; FRESH water; ESTUARIES; ECOSYSTEM health; EUTROPHICATION; PLANT species diversity
- Publication
Journal of Geophysical Research. Oceans, 2023, Vol 128, Issue 5, p1
- ISSN
2169-9275
- Publication type
Article
- DOI
10.1029/2022JC019511