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Satellite-based assessment of marine environmental indicators and their variability in the South Pacific Island regions: A national-scale perspective
Hu, Q.; Liu, T.; Bai, Y.; He, X.; Chen, X.; Chen, L.; Huang, X.; Huang, M.; Wang, D. (2026). Satellite-based assessment of marine environmental indicators and their variability in the South Pacific Island regions: A national-scale perspective. Remote Sens. 18(1): 165. https://dx.doi.org/10.3390/rs18010165
In: Remote Sensing. MDPI: Basel. ISSN 2072-4292; e-ISSN 2072-4292, more
Peer reviewed article  

Available in  Authors 

Author keywords
     satellite; marine environment indicator; CMIP6; national-scale analysis; South Pacific Island

Authors  Top 
  • Hu, Q.
  • Liu, T.
  • Bai, Y.
  • He, X.
  • Chen, X.
  • Chen, L.
  • Huang, X.
  • Huang, M.
  • Wang, D.

Abstract
    The marine environment in the South Pacific Island Countries (SPICs) is sensitive and vulnerable to climate change. While large-scale changes in this region are well-documented, national-scale analyses that address management needs remain limited. This study evaluated the performance of satellite-derived datasets—including sea surface temperature (SST), sea surface salinity (SSS), Secchi disk depth (SDD), chlorophyll-a (Chl-a), net primary production (NPP), and sea level anomaly (SLA)—against in situ observations, and analyzed their spatial and temporal variability across 12 national Exclusive Economic Zones (EEZs) during 1998–2023. Validation results presented that current satellite datasets could provide applicable information for EEZ-scale analyses. In the past decades, the SPICs experienced a general increase in SST and SLA, accompanied by marked within-EEZ heterogeneity in Chl-a and NPP variations, with Papua New Guinea exhibiting the largest within-EEZ inter-annual variability. In addition to monitoring, satellite data would help to constrain the uncertainty of CMIP6 results in the SPICs, subject to the accuracy of specific products. By 2100, Nauru might experience the most vulnerable EEZ, while the marine environment in the French Polynesian EEZ can keep relatively stable among all 12 EEZs. Meanwhile, CMIP6 projections in the Southeastern EEZs are more sensitive to satellite-based constraints, showing pronounced adjustments. Our results demonstrate the potential of combining validated satellite data with CMIP6 models to provide national-scale decision support for climate adaptation and marine resource management in the SPICs.

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