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AI-powered spatiotemporal imputation and prediction of chlorophyll-a concentration in coastal ecosystems

Author

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  • Fan Zhang

    (The Hong Kong University of Science and Technology
    The Hong Kong University of Science and Technology)

  • Hiusuet Kung

    (The Hong Kong University of Science and Technology
    The Hong Kong University of Science and Technology)

  • Fa Zhang

    (The Hong Kong University of Science and Technology)

  • Can Yang

    (The Hong Kong University of Science and Technology
    The Hong Kong University of Science and Technology)

  • Jianping Gan

    (The Hong Kong University of Science and Technology
    The Hong Kong University of Science and Technology
    The Hong Kong University of Science and Technology)

Abstract

Predicting spatiotemporal Chlorophyll-a (Chl_a) distributions is essential for diagnosing and analysing productivity and ecosystem health of coastal oceans. Yet, current tools remain inadequate for prognosing marine ecosystems through predicting spatiotemporal Chl_a distributions, particularly in the dynamic coastal ocean. Coupled physics-biogeochemical models struggle to resolve complex trophic interactions, while data-driven approaches are limited by incomplete satellite observations. We developed an advanced AI-powered spatiotemporal imputation and prediction (STIMP) model for predicting Chl_a in coastal ocean. STIMP adopts a novel paradigm that first imputes and subsequently predicts Chl_a across a broad spatiotemporal scale, resolving difficulties arising from incompletion, nonstationary temporal variations, and spatial heterogeneity of data through integrating specially designed modules. We demonstrated the STIMP’s robust imputation and prediction of Chl_a in four representative global coastal oceans. STIMP reduced the imputation mean absolute error (MAE) by 45.90–81.39% compared with the data interpolating empirical orthogonal function method in geoscience and by 8.92–43.04% against leading AI methods. With accurate imputation, STIMP demonstrated superior predictive accuracy, achieving MAE reductions of 58.99% over biogeophysical models and 6.54–13.68% over AI benchmarks. STIMP offers a new approach for predicting oceans’ Chl_a that typically have spatiotemporally limited data.

Suggested Citation

  • Fan Zhang & Hiusuet Kung & Fa Zhang & Can Yang & Jianping Gan, 2025. "AI-powered spatiotemporal imputation and prediction of chlorophyll-a concentration in coastal ecosystems," Nature Communications, Nature, vol. 16(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-62901-9
    DOI: 10.1038/s41467-025-62901-9
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    References listed on IDEAS

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    1. Yanhui Dai & Shangbo Yang & Dan Zhao & Chuanmin Hu & Wang Xu & Donald M. Anderson & Yun Li & Xiao-Peng Song & Daniel G. Boyce & Luke Gibson & Chunmiao Zheng & Lian Feng, 2023. "Coastal phytoplankton blooms expand and intensify in the 21st century," Nature, Nature, vol. 615(7951), pages 280-284, March.
    2. Nicolas Gruber & Philip W. Boyd & Thomas L. Frölicher & Meike Vogt, 2021. "Biogeochemical extremes and compound events in the ocean," Nature, Nature, vol. 600(7889), pages 395-407, December.
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