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Temporal characteristics of plankton indicators in coastal waters: High-frequency data from PlanktonScope.

Authors :
Bi, Hongsheng
Song, Junting
Zhao, Jian
Liu, Hui
Cheng, Xuemin
Wang, Linlin
Cai, Zhonghua
Benfield, Mark C.
Otto, Saskia
Goberville, Eric
Keister, Julie
Yang, Yong
Yu, Xinglong
Cai, Jun
Ying, Kezhen
Conversi, Alessandra
Source :
Journal of Sea Research. Nov2022, Vol. 189, pN.PAG-N.PAG. 1p.
Publication Year :
2022

Abstract

Plankton are excellent indicators of ecosystem status and fisheries because of their pivotal role in marine food webs and their core values in the integrated ecosystem assessment (IEA). Monitoring plankton is essential to understand their dynamics and underlying processes. Recent advances in imaging technologies have enabled in situ, high-frequency, real-time observations of plankton in coastal waters. While high-frequency plankton time series have provided unprecedented fundamental information about physical and biological processes, understanding and identifying the underlying mechanisms that influence plankton dynamic remains a major challenge. We use high-frequency plankton data from PlanktonScope as an example to examine the impacts of physical and biological processes on plankton dynamics at different temporal scales. Frequency patterns were identified for both environmental factors and different plankton groups that matched in time. Using logistic regression models on the selected daily peaks for different plankton groups, we found that diurnal cycle, monsoon season, and major episodic events, such as typhoons, had major impacts on the dynamics of plankton, as proxied by our indicators. We further synthesized, across multiple spatiotemporal scales in the study area, the impacts of various processes on plankton with different mobility. Our study demonstrates that the suite of plankton indicators simultaneously generated from PlanktonScope provides a robust holistic view of pelagic ecosystem status over a broad range of spatiotemporal scales. In situ imaging systems like PlanktonScope are promising tools for near real-time plankton monitoring and a deep understanding of plankton dynamics. • Plankton imaging systems can generate a suite of near real-time high-frequency plankton indictors. • High-frequency plankton indicators provide an excellent holistic view of ecosystem status and fisheries. • A combination of highfrequency data and frequency analysis revealed the impact of physical processes at different scales. • A trait-based approach allows a comparison among different plankton groups and their response to physical processes. • Automated deep learning approach can reduce the time lag between observations and data availability. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
13851101
Volume :
189
Database :
Academic Search Index
Journal :
Journal of Sea Research
Publication Type :
Academic Journal
Accession number :
159756623
Full Text :
https://doi.org/10.1016/j.seares.2022.102283