网采镜检与全息粒子成像综合分析贻贝养殖区浮游植物群落特征

doi:10.11978/2025051

Integrated analysis of phytoplankton community structure in mussel aquaculture areas using net sampling with microscopy and Lisst holo2

YANG Tianwei¹, LIN Jun^{1, 2, 3, 4}, JIAO Junpeng¹, WU Yue¹

1. College of Oceanography and Ecological Science, Shanghai Ocean University, Shanghai 201306, China;

2. Marine Ranching Engineering Technology Research Center, Shanghai Ocean University, Shanghai 201306, China;

3. National Engineering Research Center for Special Equipment and Power Systems of Naval Architecture and Ocean Engineering, Shanghai 200030, China;

4. Key Laboratory of Marine Ecological Monitoring and Restoration Technology, Ministry of Natural Resources, Shanghai Ocean University, Shanghai 201306, China

Received:2025-04-04 Revised:2025-05-23 Accepted:2025-05-29
Supported by:
National Natural Science Foundation of China (42376207); National Key Research and Development Program of China(2023YFD2401902)

Abstract

Abstract: This study is based on phytoplankton field data collected in August 2023 from the suspended mussel farms of Gouqi Island, Zhejiang Province, using the underwater digital holographic particle imaging system (Lisst holo2) and traditional net sampling combined with microscopy. A comprehensive comparative analysis of particle imaging data and net sampling data was conducted, with a focus on diurnal variations in phytoplankton community structure and influencing factors. During the survey, 75 phytoplankton species belonging to 38 genera and 5 phyla were identified, with dominant species including Noctiluca scintillans and Rhizosolenia styliformis.Significant diurnal variations in phytoplankton species richness and abundance were observed. At midday, most phytoplankton migrated toward deeper layers, resulting in significantly higher species numbers and abundance in the bottom layer compared to the surface. By evening, differences between surface and bottom layers diminished, with a vertical migration pattern dominated by dinoflagellates (primarily Noctiluca scintillans), characterized by daytime descent and nighttime ascent. Phytoplankton abundance exhibited a moderate correlation with tidal cycles, showing a notable increase during flood tide within the aquaculture water layer. The study area displayed a transition from diatom-dominated blooms to Noctiluca scintillans-dominated blooms.Phytoplankton co-occurrence network analysis revealed that the aquaculture layer had fewer species and lower abundance compared to the whole water column. However, its network complexity (186 edges) was higher, indicating stronger community stability and more intensive species interactions (e.g., mutualism or competition) within the aquaculture layer. Compared to traditional sampling methods, Lisst holo2 addresses limitations such as cumbersome sample preservation and processing, delayed data acquisition, and challenges in measuring phytoplankton particle size. This study validates its reliability in monitoring large-sized algae (e.g., Noctiluca scintillans), highlighting its potential for future marine ecosystem monitoring and conservation research.

Key words: Lisst holo2, mussel raft culture, community structure, environment factors, diurnal variation, phytoplankton co-occurrence network

YANG Tianwei LIN Jun JIAO Junpeng WU Yue. Integrated analysis of phytoplankton community structure in mussel aquaculture areas using net sampling with microscopy and Lisst holo2[J].Journal of Tropical Oceanography, 0, (): 1-.

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Integrated analysis of phytoplankton community structure in mussel aquaculture areas using net sampling with microscopy and Lisst holo2

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