Paper Push: 2026-06-05
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每日论文推送:BGC-Argo、海色/海洋光学、海洋热浪与碳泵Daily Paper Push: BGC-Argo, ocean colour/ocean optics, marine heatwaves and carbon pump
本期由 GitHub Actions 自动检索生成:Nature/Science 系列优先,其次是用户指定重点期刊,再补充重点关注团队的新论文,最后纳入其他相关期刊;历史去重后保留 39 篇,不超过每日 50 篇上限。 This issue was generated automatically by GitHub Actions: Nature and Science series first, then the user-defined priority journals, then new papers from the focused team, followed by other relevant journals as topical supplements. After deduplication, 39 papers remain, below the daily limit of 50.
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趋势总结Trend Summary
本期重点关注 BGC-Argo、海色遥感/海洋光学、海洋热浪、浮游植物垂向结构和碳泵过程。筛选逻辑不再只限于重点期刊;当高影响力期刊当天新增较少时,会额外检索重点关注团队作者的新论文,并用海洋、海色/光学和碳循环关键词过滤,再从其他相关期刊补充候选论文。
This issue focuses on BGC-Argo, ocean-colour remote sensing, ocean optics, marine heatwaves, vertical phytoplankton structure and carbon-pump processes. The selection is no longer limited to priority journals; when few high-impact papers are newly available, the workflow also checks focused-team authors and filters those papers with ocean, ocean-colour/optics, and carbon-cycle keywords before adding other relevant journals as supplements.
重点期刊:按影响力和相关性排序Key journals: ordered by impact and relevance
1. Advancing Earth System Science With the NASA Plankton, Aerosol, Cloud, Ocean Ecosystem ( PACE ) Satellite Mission
作者Authors: P. Jeremy Werdell; Brian Cairns; Skyelar A. Caplan; Ivona Cetinić; Sean R. Foley; Bryan A. Franz; Meng Gao; Zachary T. Fasnacht; et al.
发表月份Publication month: 2026-04 2026-04
Global Change Biology · DOI: 10.1111/gcb.70869
关键词Tags: phytoplankton; ocean colour phytoplankton; ocean colour
这项研究关注海色遥感中的浮游植物和光学信号变化。 数据或应用场景围绕 NASA PACE/OCI 高光谱海色观测、产品验证和社区使用展开。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines phytoplankton and optical signals in ocean-colour remote sensing. The data or application setting centres on NASA PACE/OCI hyperspectral ocean-colour observations, product validation, and community use. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
2. Beyond the Nutrient Paradigm: Thermal Intensity and Duration Trigger Opposite Phytoplankton Responses to Marine Heatwaves in the East China Sea
作者Authors: Jiarui Zhou; Xin Liu; Edward A. Laws; Charlotte Laufkötter; Weinan Li; Jingxiao Wang; Changlin Li; Wupeng Xiao; et al.
发表月份Publication month: 2026-04 2026-04
Geophysical Research Letters · DOI: 10.1029/2025gl121124
关键词Tags: phytoplankton; marine heatwaves phytoplankton; marine heatwaves
这项研究关注海洋热浪对生态结构和碳循环的影响。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果帮助说明海洋热浪如何通过强度、持续时间或垂向结构影响生态和碳循环过程。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines the ecological and carbon-cycle impacts of marine heatwaves. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The core result helps explain how marine heatwaves affect ecological and carbon-cycle processes through intensity, duration, or vertical structure. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
3. Terrestrial Runoff Divides the Central Arctic Ocean and Shapes the Biologically Relevant Marine Lightscape
作者Authors: Håkon Sandven; David McKee; Rafael Gonçalves‐Araujo; Rüdiger Röttgers; Anders F. Opdal; Philipp Assmy; Mats A. Granskog
发表月份Publication month: 2026-05 2026-05
Geophysical Research Letters · DOI: 10.1029/2025gl121318
关键词Tags: phytoplankton; absorption; bio-optics; microbial carbon phytoplankton; absorption; bio-optics; microbial carbon
这项研究关注海洋生物光学和海洋光学参数、方法与应用。 数据或方法上围绕沉积物捕获器、原位光学、生物光学参数或光谱观测展开。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines marine bio-optical and ocean-optics properties, methods, and applications. The data or method emphasis is sediment traps, in-situ optics, bio-optical parameters, ocean-optics products, or spectral optical observation. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
4. Surface Ocean Chlorophyll: Do the Green Get Greener and the Blue Bluer?
作者Authors: B. B. Cael; Kelsey Bisson; Emmanuel Boss; Ziyin Liu
发表月份Publication month: 2026-05 2026-05
Geophysical Research Letters · DOI: 10.1029/2025gl120527
关键词Tags: phytoplankton phytoplankton
这项研究关注表层海洋叶绿素长期变化及其气候驱动。 数据上主要面向卫星海色、叶绿素或遥感反射率记录,并在需要时结合原位或剖面观测进行约束。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines long-term changes in surface-ocean chlorophyll and their climatic drivers. The data emphasis is satellite ocean-colour, chlorophyll, or remote-sensing reflectance records, with in-situ or profile constraints where relevant. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
5. Spatiotemporal Variability in the Vertical Distribution of Phytoplankton Biomass in the Ice‐Free Southern Ocean: A Bioregionalization Approach
作者Authors: N. Mayot; J. Uitz; L. Lacour; R. Sauzède; L. Izard; D. Nerini
发表月份Publication month: 2026-04 2026-04
Global Biogeochemical Cycles · DOI: 10.1029/2025gb008930
关键词Tags: phytoplankton; backscattering; vertical structure phytoplankton; backscattering; vertical structure
这项研究关注海洋生物光学和海洋光学参数、方法与应用。 数据或方法上围绕沉积物捕获器、原位光学、生物光学参数或光谱观测展开。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心实现是提出可复用的框架、流程或数据产品,使类似观测、反演、验证或趋势分析可以更系统地开展。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines marine bio-optical and ocean-optics properties, methods, and applications. The data or method emphasis is sediment traps, in-situ optics, bio-optical parameters, ocean-optics products, or spectral optical observation. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main contribution is a reusable framework, workflow, or data product that makes similar observation, retrieval, validation, or trend-analysis tasks more systematic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
6. The Seasonal Impact of the Island Mass Effect on Coastal Biogeochemistry and Phytoplankton Assemblage: The Case of the Tropical and Volcanic Island of Guadeloupe (French West Indies)
作者Authors: Emma Moreau; Marie Boye; Pierre‐Yves Pascal; Monique Messié
发表月份Publication month: 2026-04 2026-04
Journal of Geophysical Research: Oceans · DOI: 10.1029/2025jc023236
关键词Tags: phytoplankton phytoplankton
这项研究关注浮游植物群落、生理状态和生产力变化。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines changes in phytoplankton communities, physiology, and productivity. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
7. Combining the Underwater Vision Profiler 6 with sediment traps to measure in situ velocity of marine particles
作者Authors: Manon Laget; Alexandre Accardo; Marc Picheral; Camille Catalano; Lionel Guidi; Tristan Biard
发表月份Publication month: 2026-04 2026-04
Limnology and Oceanography · DOI: 10.1002/lom3.70052
关键词Tags: carbon pump; vertical structure carbon pump; vertical structure
这项研究关注有机碳输出和生物碳泵过程。 数据或方法上围绕沉积物捕获器、原位光学、生物光学参数或光谱观测展开。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines organic carbon export and biological carbon-pump processes. The data or method emphasis is sediment traps, in-situ optics, bio-optical parameters, ocean-optics products, or spectral optical observation. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
8. Modeling Upper Ocean Ecosystem Dynamics in Response to Interannual Sea‐Ice Variability in the Western Antarctic Peninsula
作者Authors: Catherine R. Czajka; Jessica S. Turner; Sharon Stammerjohn; Heather H. Kim; Oscar Schofield; Benjamin T. Saenz; Scott C. Doney
发表月份Publication month: 2026-04 2026-04
Biogeosciences · DOI: 10.1029/2025jg009428
关键词Tags: carbon pump; phytoplankton; vertical structure carbon pump; phytoplankton; vertical structure
这项研究关注有机碳输出和生物碳泵过程。 这类论文主要综合已有观测、理论、模型、外场设计或社区训练材料,而不是发布一个新的单一观测数据集。 研究主要通过综述、模型框架或概念整合来梳理关键过程和不确定性来源。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines organic carbon export and biological carbon-pump processes. This type of paper synthesizes existing observations, theory, models, field-design material, or community-training workflows rather than publishing one new observational dataset. The paper mainly uses review, modelling, or conceptual synthesis to organize key processes and sources of uncertainty. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
9. Instrument-embedded sampling oscilloscope for in-situ waveform characterization and its implementation in the Ocean Color Instrument of the NASA PACE mission
作者Authors: Kim S. Jepsen; Ulrik Gliese; Omar Haddad; Matt Owens; Steve Marlow; Bradley Tse; Leland Chemerys; Gerhard Meister; et al.
发表月份Publication month: 2026(月份未核准) 2026 (month not verified)
IEEE Transactions on Geoscience and Remote Sensing · DOI: 10.1109/tgrs.2026.3695813
关键词Tags: ocean colour ocean colour
这项研究关注海色遥感中的浮游植物和光学信号变化。 数据或应用场景围绕 NASA PACE/OCI 高光谱海色观测、产品验证和社区使用展开。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines phytoplankton and optical signals in ocean-colour remote sensing. The data or application setting centres on NASA PACE/OCI hyperspectral ocean-colour observations, product validation, and community use. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
10. Long-term Ocean and Atmosphere Simultaneous Observation Network Supporting for Validation of Ocean Color Satellite Data Products
作者Authors: Xinhao Shi; Shuguo Chen; Chaofei Ma; Qingjun Song; Lianbo Hu; Junwei Wang; Hailong Peng
发表月份Publication month: 2026-05 2026-05
Journal of Atmospheric and Oceanic Technology · DOI: 10.1175/jtech-d-25-0053.1
关键词Tags: ocean colour; ocean optics; bio-optics ocean colour; ocean optics; bio-optics
这项研究关注海洋生物光学和海洋光学参数、方法与应用。 数据上主要面向卫星海色、叶绿素或遥感反射率记录,并在需要时结合原位或剖面观测进行约束。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines marine bio-optical and ocean-optics properties, methods, and applications. The data emphasis is satellite ocean-colour, chlorophyll, or remote-sensing reflectance records, with in-situ or profile constraints where relevant. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
11. Case 2 Regional Coast Colour: a neural network-based framework for atmospheric correction and in-water retrievals across multiple ocean colour satellite sensors
作者Authors: Dagmar Müller; Martin Hieronymi; Ana B. Ruescas; Marco Peters; Rüdiger Röttgers; Marcel König; Carole Lebreton; Kerstin Stelzer; et al.
发表月份Publication month: 2026-03 2026-03
Remote Sensing · DOI: 10.3389/frsen.2026.1710758
关键词Tags: ocean colour; ocean optics; bio-optics ocean colour; ocean optics; bio-optics
这项研究关注海洋生物光学和海洋光学参数、方法与应用。 数据上主要面向卫星海色、叶绿素或遥感反射率记录,并在需要时结合原位或剖面观测进行约束。 方法上使用机器学习、深度学习或神经模拟器来提取信号、反演变量或识别驱动机制。 核心实现是提出可复用的框架、流程或数据产品,使类似观测、反演、验证或趋势分析可以更系统地开展。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines marine bio-optical and ocean-optics properties, methods, and applications. The data emphasis is satellite ocean-colour, chlorophyll, or remote-sensing reflectance records, with in-situ or profile constraints where relevant. Methodologically, it uses machine learning, deep learning, or a neural emulator to extract signals, retrieve variables, or identify drivers. The main contribution is a reusable framework, workflow, or data product that makes similar observation, retrieval, validation, or trend-analysis tasks more systematic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
12. GPM DPR Observations of Regional Differences in Tropical Precipitation Systems: Microphysical Features and Land–Ocean Contrasts
作者Authors: Yihao Chen; Donghai Wang; Xueting Zhang; Enguang Li; Lebao Yao; Yangjinxi Ge; Yuting Xue; Rui Xie
发表月份Publication month: 2026-06 2026-06
Remote Sensing · DOI: 10.3390/rs18111838
关键词Tags: vertical structure vertical structure
这项研究关注海洋生物地球化学过程。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines ocean biogeochemical processes. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
重点关注团队Focused team
13. Lidar for Ocean Applications: Review of International Efforts
作者Authors: C. Jamet; K. Bisson; P. Chen; B. Collister; P. Di Girolamo; Y. Hu; D. Liu; X. Lu; et al.
发表月份Publication month: 2026(月份未核准) 2026 (month not verified)
EPJ Web of Conferences · DOI: 10.1051/epjconf/202636205004
关键词Tags: phytoplankton; ocean colour; backscattering; bio-optics; vertical structure phytoplankton; ocean colour; backscattering; bio-optics; vertical structure
这项研究关注海洋生物光学和海洋光学参数、方法与应用。 数据上主要面向卫星海色、叶绿素或遥感反射率记录,并在需要时结合原位或剖面观测进行约束。 研究主要通过综述、模型框架或概念整合来梳理关键过程和不确定性来源。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines marine bio-optical and ocean-optics properties, methods, and applications. The data emphasis is satellite ocean-colour, chlorophyll, or remote-sensing reflectance records, with in-situ or profile constraints where relevant. The paper mainly uses review, modelling, or conceptual synthesis to organize key processes and sources of uncertainty. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
14. Assessment of gap-filling techniques applied to satellite phytoplankton composition products for the Atlantic Ocean
作者Authors: Ehsan Mehdipour; Hongyan Xi; Alexander Barth; Aida Alvera-Azcárate; Adalbert Wilhelm; Astrid Bracher
发表月份Publication month: 2026-02 2026-02
Geoscientific Model Development · DOI: 10.5194/gmd-19-1619-2026
关键词Tags: phytoplankton; ocean colour phytoplankton; ocean colour
这项研究关注海色遥感中的浮游植物和光学信号变化。 数据上主要面向卫星海色、叶绿素或遥感反射率记录,并在需要时结合原位或剖面观测进行约束。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines phytoplankton and optical signals in ocean-colour remote sensing. The data emphasis is satellite ocean-colour, chlorophyll, or remote-sensing reflectance records, with in-situ or profile constraints where relevant. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
15. Modelling primary production: multitude of theories, or multitude of languages?
作者Authors: Jozef Skákala; Shubha Sathyendranath; Yuri Artioli; Deep S. Banerjee; Heather Bouman; Robert J. W. Brewin; Momme Butenschön; Stefano Ciavatta; et al.
发表月份Publication month: 2026-05 2026-05
Ocean Science · DOI: 10.5194/os-22-1457-2026
关键词Tags: phytoplankton; vertical structure phytoplankton; vertical structure
这项研究关注浮游植物群落、生理状态和生产力变化。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines changes in phytoplankton communities, physiology, and productivity. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
16. Assessment of transparent exopolymer particles in the Arctic Ocean implemented into the coupled ocean–sea ice–biogeochemistry model FESOM2.1–REcoM3
作者Authors: Moritz Zeising; Laurent Oziel; Silke Thoms; Özgür Gürses; Judith Hauck; Bernd Heinold; Svetlana N. Losa; Manuela van Pinxteren; et al.
发表月份Publication month: 2026-03 2026-03
Geoscientific Model Development · DOI: 10.5194/gmd-19-2077-2026
关键词Tags: phytoplankton phytoplankton
这项研究关注浮游植物群落、生理状态和生产力变化。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines changes in phytoplankton communities, physiology, and productivity. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
17. Composition and assembly of the microbial community within the deep chlorophyll maximum layer of the seamount and the adjacent coastal waters in the South China Sea
作者Authors: Liyuan Ren; Yanpeng Shang; Zhangxian Xie; Dongxu Li; Cheng Xue; Dazhi Wang
发表月份Publication month: 2026-06 2026-06
mSphere · DOI: 10.1128/msphere.00162-26
关键词Tags: phytoplankton; microbial carbon; vertical structure phytoplankton; microbial carbon; vertical structure
这项研究关注浮游植物群落、生理状态和生产力变化。 数据上主要面向卫星海色、叶绿素或遥感反射率记录,并在需要时结合原位或剖面观测进行约束。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines changes in phytoplankton communities, physiology, and productivity. The data emphasis is satellite ocean-colour, chlorophyll, or remote-sensing reflectance records, with in-situ or profile constraints where relevant. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
18. Random Forest Regression Using Autonomous In Situ Ocean Observations: Inferring Small-Scale Nutrient Variability during a Southern Ocean Field Experiment
作者Authors: Sangmin Song; Paige D. Lavin; Alison R. Gray; Zachary Nachod; Dhruv Balwada; Lilian A. Dove; Andrew F. Thompson
发表月份Publication month: 2026-04 2026-04
Artificial Intelligence for the Earth Systems · DOI: 10.1175/aies-d-24-0048.1
关键词Tags: BGC-Argo BGC-Argo
这项研究关注BGC-Argo 剖面约束的生物地球化学变化。 数据基础是 BGC-Argo 浮标剖面及相关生物地球化学观测,可用于连接垂向结构和过程变化。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines biogeochemical variability constrained by BGC-Argo profiles. The data basis is BGC-Argo float profiles and related biogeochemical observations, which connect vertical structure with process variability. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
19. Sea ice loss drives a regime shift in Arctic Ocean nitrogen biogeochemistry
作者Authors: Marta Santos-García; Raja S. Ganeshram; Laurent Oziel; Paul A. Dodd; Laura de Steur; Robyn E. Tuerena; Colin A. Stedmon
发表月份Publication month: 2026-05 2026-05
Communications Earth & Environment · DOI: 10.1038/s43247-026-03569-x
关键词Tags: ocean biogeochemistry ocean biogeochemistry
这项研究关注海洋生物地球化学过程。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines ocean biogeochemical processes. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
20. Coexistence of Photosynthetic Marine Microorganisms, Viruses and Grazers: Towards Integration in Ocean Ecosystem Models
作者Authors: Paul Frémont; Stephen J. Beckett; David Demory; Eric Carr; Christopher L. Follett; Debbie Lindell; David Talmy; Stephanie Dutkiewicz; et al.
发表月份Publication month: 2026-04 2026-04
Environmental Microbiology · DOI: 10.1111/1462-2920.70295
关键词Tags: phytoplankton phytoplankton
这项研究关注浮游植物群落、生理状态和生产力变化。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines changes in phytoplankton communities, physiology, and productivity. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
21. Ecological roles, climate-driven responses, and critical knowledge gaps of krill in the global ocean
作者Authors: Kim S Bernard; Geraint A Tarling; Angus Atkinson; Emma L Cavan; Alison C Cleary; Padmini Dalpadado; Macarena Díaz-Astudillo; Jeffrey Dorman; et al.
发表月份Publication month: 2026-05 2026-05
ICES Journal of Marine Science · DOI: 10.1093/icesjms/fsag090
关键词Tags: carbon pump; vertical structure carbon pump; vertical structure
这项研究关注有机碳输出和生物碳泵过程。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines organic carbon export and biological carbon-pump processes. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
22. Development of a next-generation general ocean circulation model for the Great Lakes
作者Authors: Meena Raju; David J. Cannon; Peter Alsip; He Wang; Jia Wang; Theresa Cordero; Robert W. Hallberg; Charles A. Stock; et al.
发表月份Publication month: 2026-05 2026-05
Geoscientific Model Development · DOI: 10.5194/gmd-19-4331-2026
关键词Tags: ocean colour; vertical structure ocean colour; vertical structure
这项研究关注海色遥感中的浮游植物和光学信号变化。 数据上主要面向卫星海色、叶绿素或遥感反射率记录,并在需要时结合原位或剖面观测进行约束。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines phytoplankton and optical signals in ocean-colour remote sensing. The data emphasis is satellite ocean-colour, chlorophyll, or remote-sensing reflectance records, with in-situ or profile constraints where relevant. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
23. Monitoring coastal ocean dynamics under typhoon conditions using submarine distributed optical-fiber acoustic sensing
作者Authors: Sunke Fang; Jianmin Lin; Wen Xu
发表月份Publication month: 2026-05 2026-05
The Journal of the Acoustical Society of America · DOI: 10.1121/10.0043910
关键词Tags: bio-optics; vertical structure bio-optics; vertical structure
这项研究关注海洋生物光学和海洋光学参数、方法与应用。 数据或方法上围绕沉积物捕获器、原位光学、生物光学参数或光谱观测展开。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines marine bio-optical and ocean-optics properties, methods, and applications. The data or method emphasis is sediment traps, in-situ optics, bio-optical parameters, ocean-optics products, or spectral optical observation. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
24. Autonomous ocean observations: the challenges for fair and reliable data for digital twins development
作者Authors: Nikolaos D. Zarokanellos; Lara Díaz Barroso; Miguel Charcos Llorens; Emma Reyes Reyes; Mélanie Juza; Albert Miralles Brunet; Manuel Rubio Fernández; Patricia Rivera Rodríguez; et al.
发表月份Publication month: 2024-01 2024-01
Instrumentation viewpoint · DOI: 10.5821/iwp.2024.23.14114
关键词Tags: phytoplankton phytoplankton
这项研究关注浮游植物群落、生理状态和生产力变化。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines changes in phytoplankton communities, physiology, and productivity. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
25. CART Rule-Guided MaxEnt Model Construction and Its Application in Fishing Ground Prediction of Chub Mackerel in the Northwestern Pacific Ocean
作者Authors: Zuli Wu; Fenghua Tang; Yumei Wu; Shengmao Zhang; Fei Wang; Xuesen Cui
发表月份Publication month: 2026-06 2026-06
Fishes · DOI: 10.3390/fishes11060337
关键词Tags: phytoplankton phytoplankton
这项研究关注浮游植物群落、生理状态和生产力变化。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines changes in phytoplankton communities, physiology, and productivity. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
26. Oceanography, biogeochemical cycles, and biodiversity in the Central Arctic Ocean: Current state of knowledge and research directions for the Tara Polaris expeditions
作者Authors: Maxime Geoffroy; Igor Polyakov; Marit Reigstad; Silvia G. Acinas; Rémi Amiraux; Hélène Angot; Mathieu Ardyna; Marcel Babin; et al.
发表月份Publication month: 2026-06 2026-06
Elem Sci Anth · DOI: 10.1525/elementa.2025.00027
关键词Tags: carbon pump carbon pump
这项研究关注有机碳输出和生物碳泵过程。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines organic carbon export and biological carbon-pump processes. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
27. Spatial Distribution Characteristics of Dissolved Oxygen Saturation and Chlorophyll a Concentration in the Central Arabian Sea Based on the 2024 Cruise Observations
作者Authors: Xiumei Fan; Lingzhi Li; Yongchuang Shi; Hanfeng Zheng; Wei Chen; Ziniu Li; Chao Li; Zhi Zhu; et al.
发表月份Publication month: 2026-06 2026-06
Journal of Marine Science and Engineering · DOI: 10.3390/jmse14111046
关键词Tags: phytoplankton; vertical structure phytoplankton; vertical structure
这项研究关注浮游植物群落、生理状态和生产力变化。 数据上主要面向卫星海色、叶绿素或遥感反射率记录,并在需要时结合原位或剖面观测进行约束。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines changes in phytoplankton communities, physiology, and productivity. The data emphasis is satellite ocean-colour, chlorophyll, or remote-sensing reflectance records, with in-situ or profile constraints where relevant. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
28. Construction of an Oil Spill Dynamics Model Based on 3D Terrain and Marine Environmental Fields
作者Authors: Hengshuai Shang; Bo Ai; Wenjun Feng; Jiaxing Xiong; Linan Wei
发表月份Publication month: 2026(月份未核准) 2026 (month not verified)
E3S Web of Conferences · DOI: 10.1051/e3sconf/202671701017
关键词Tags: ocean colour; vertical structure ocean colour; vertical structure
这项研究关注海色遥感中的浮游植物和光学信号变化。 数据上主要面向卫星海色、叶绿素或遥感反射率记录,并在需要时结合原位或剖面观测进行约束。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines phytoplankton and optical signals in ocean-colour remote sensing. The data emphasis is satellite ocean-colour, chlorophyll, or remote-sensing reflectance records, with in-situ or profile constraints where relevant. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
29. The stratigraphic record of the Eocene–Oligocene transition in the East Pisco Basin (Peru): a phytoplankton perspective
作者Authors: Maria Elena Gastaldello; Giulia Bosio; Claudio Di Celma; Giovanni Bianucci; Alberto Collareta; Stefano Mazzoli; Luca Pellegrino; Igor Maria Villa; et al.
发表月份Publication month: 2026-06 2026-06
Newsletters on Stratigraphy · DOI: 10.1127/nos/0873
关键词Tags: phytoplankton phytoplankton
这项研究关注浮游植物群落、生理状态和生产力变化。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines changes in phytoplankton communities, physiology, and productivity. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
30. Response of eukaryotic phytoplankton to mesoscale and sub-mesoscale processes within a cyclonic-anticyclonic eddy pair
作者Authors: Jia Guo; Jiaxing Liu; Zhiyou Jing; Tong Yan; Sheng Dai; Yuan Liu; Yehui Tan
发表月份Publication month: 2026-06 2026-06
Ocean Dynamics · DOI: 10.1007/s10236-026-01818-3
关键词Tags: phytoplankton phytoplankton
这项研究关注浮游植物群落、生理状态和生产力变化。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines changes in phytoplankton communities, physiology, and productivity. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
31. Environmental drivers of allelopathic interactions among phytoplankton: Insights into abiotic and biotic regulation
作者Authors: Hani Abdo; Bingbing Wang; Liju Tan; Jiangtao Wang
发表月份Publication month: 2026-06 2026-06
Regional Studies in Marine Science · DOI: 10.1016/j.rsma.2026.105083
关键词Tags: phytoplankton phytoplankton
这项研究关注浮游植物群落、生理状态和生产力变化。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines changes in phytoplankton communities, physiology, and productivity. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
32. High sea ice algal primary production near marine-terminating glaciers linked to turbulence-driven nutrient fluxes across the ice–ocean interface
作者Authors: Dorte H. Søgaard; Søren Rysgaard; Tobias Reiner Vonnahme; Pedro Duarte; Cæcilie Erichsen Kudsk; Brian K. Sorrell; Lorenz Meire; Josefa Verdugo; et al.
发表月份Publication month: 2026-05 2026-05
Scientific Reports · DOI: 10.1038/s41598-026-53846-0
关键词Tags: ocean biogeochemistry ocean biogeochemistry
这项研究关注海洋生物地球化学过程。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines ocean biogeochemical processes. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
33. From Flames to the Ocean: Biomass Burning Aerosols Are Associated With Changes in Prokaryotic Communities in the Mediterranean Sea
作者Authors: Nathan Nault; Frédéric Gazeau; Philippe Catala; Barbara Marie; Joan Llort; Cécile Guieu; Matthieu Bressac; Emmanuelle Uher; et al.
发表月份Publication month: 2026-04 2026-04
Environmental Microbiology · DOI: 10.1111/1462-2920.70267
关键词Tags: phytoplankton phytoplankton
这项研究关注浮游植物群落、生理状态和生产力变化。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines changes in phytoplankton communities, physiology, and productivity. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
34. Assessing the Ocean Color observation capability of the CALIGOLA mission: The PROTEO project
作者Authors: D. Dionisi; M. Di Paolantonio; E. D'Acunzo; G. Giuliano; G. L. Liberti; G. Volpe; N. Franco; A. Andrisani; et al.
发表月份Publication month: 2026(月份未核准) 2026 (month not verified)
EPJ Web of Conferences · DOI: 10.1051/epjconf/202636205007
关键词Tags: ocean colour ocean colour
这项研究关注海色遥感中的浮游植物和光学信号变化。 数据上主要面向卫星海色、叶绿素或遥感反射率记录,并在需要时结合原位或剖面观测进行约束。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines phytoplankton and optical signals in ocean-colour remote sensing. The data emphasis is satellite ocean-colour, chlorophyll, or remote-sensing reflectance records, with in-situ or profile constraints where relevant. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
35. Non-Temporal Environmental Factor-Driven Dissolved Oxygen Prediction via Physics-Informed Regression for Sustainable Environmental Monitoring
作者Authors: Lun Tan; Sen Lin; Xinran Li; Qi Wang; Qiang Zhao; Lianjie Guo; Wenzhen Zhang; Wei Wang
发表月份Publication month: 2026-06 2026-06
Sustainability · DOI: 10.3390/su18115746
关键词Tags: phytoplankton phytoplankton
这项研究关注浮游植物群落、生理状态和生产力变化。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines changes in phytoplankton communities, physiology, and productivity. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
36. Hydrodynamic Modelling of Semi-Enclosed Coastal Systems: A Stepwise Assessment of Key Forcing Factors
作者Authors: Baiming Chen; Cui Wang; Shang Jiang
发表月份Publication month: 2026-06 2026-06
Journal of Marine Science and Engineering · DOI: 10.3390/jmse14111058
关键词Tags: vertical structure vertical structure
这项研究关注海洋生物地球化学过程。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines ocean biogeochemical processes. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
37. Heterogeneous spatial drivers of chlorophyll-a seasonal variability off the Shandong Peninsula, China
作者Authors: Jie Sun; Xiangyang Xue; Peimiao Zhao; Xinling Song; Wenjian Li; Ling Zhao; Zhenyan Wang
发表月份Publication month: 2026-06 2026-06
Geo-Marine Letters · DOI: 10.1007/s00367-026-00856-6
关键词Tags: phytoplankton phytoplankton
这项研究关注浮游植物群落、生理状态和生产力变化。 数据上主要面向卫星海色、叶绿素或遥感反射率记录,并在需要时结合原位或剖面观测进行约束。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines changes in phytoplankton communities, physiology, and productivity. The data emphasis is satellite ocean-colour, chlorophyll, or remote-sensing reflectance records, with in-situ or profile constraints where relevant. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
38. The Impact of Climate Change on the Potential Habitat Distribution of Eggs and Larvae of the Liza haematocheilus and Harpadon nehereus in the Coastal Waters of Zhejiang Province
作者Authors: Yuelian He; Rijin Jiang; Rui Yin; Peng Zhao; Mengyuan Zhang; Jinqing Wang
发表月份Publication month: 2026-05 2026-05
Journal of Marine Science and Engineering · DOI: 10.3390/jmse14111017
关键词Tags: phytoplankton phytoplankton
这项研究关注浮游植物群落、生理状态和生产力变化。 研究结合观测、模型或实验结果来刻画海洋生态和生物地球化学过程。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines changes in phytoplankton communities, physiology, and productivity. The study combines observations, models, or experimental results to characterize ocean ecological and biogeochemical processes. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.
39. Spatiotemporal Distribution of Chlorophyll-a and Dissolved Organic Matter in Ganjiang River Estuary of Lake Poyang
作者Authors: Zitong Huang; Haiqing Liao; Meichen Ji; Yule Luo; Fang Yang; Danni Liu; Yiling Zhong; Dongxia Feng; et al.
发表月份Publication month: 2026-05 2026-05
Water · DOI: 10.3390/w18101160
关键词Tags: phytoplankton; microbial carbon phytoplankton; microbial carbon
这项研究关注浮游植物群落、生理状态和生产力变化。 数据上主要面向卫星海色、叶绿素或遥感反射率记录,并在需要时结合原位或剖面观测进行约束。 研究主要分析变化趋势、事件响应、驱动机制或方法表现,并把观测结果与生态和生物地球化学过程联系起来。 核心结果或实现为该主题提供了新的观测约束、方法基准或过程解释。 它有助于解释观测现象、比较方法差异,并为后续海洋生物地球化学分析提供线索。
The study examines changes in phytoplankton communities, physiology, and productivity. The data emphasis is satellite ocean-colour, chlorophyll, or remote-sensing reflectance records, with in-situ or profile constraints where relevant. The main task is to analyse trends, event responses, drivers, or method performance, linking observations with ecological or biogeochemical processes. The main result or implementation provides new observational constraints, methodological benchmarks, or process interpretation for this topic. It is useful for interpreting observations, comparing methods, and designing follow-up analyses in marine biogeochemistry.