Unveiling the accuracy of global GPP products in data-scarce mountain ecosystems of Southwest China
ID:1018 View Protection:ATTENDEE Updated Time:2026-04-11 20:00:28 Hits:130 Oral Presentation

Start Time:2026-04-27 17:39(Asia/Shanghai)

Duration:8min

Session:S1-1 专题1.1 地球系统模式与模拟 » F39专题1.1 地球系统模式与模拟

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Abstract
Accurate estimation of terrestrial gross primary production (GPP) in ecologically and topographically complex
regions remains a major challenge. This study evaluated four global GPP products—BESS, GOSIF, MOD17, and
VPM—against eddy covariance (EC) observations from 11 flux towers in Southwest China. The region spans
diverse vegetation types and climatic gradients, making it an ideal testbed for satellite-based GPP assessment.
Site-level evaluation showed that GOSIF had the strongest correlation with GPP-EC (R2 > 0.61) but consistently
overestimated GPP, especially during summer. BESS achieved the lowest RMSE (2.02 g C/m2/d) and better
captured interannual variation, including drought impacts. MOD17 and VPM tended to underestimate summer
peaks, particularly in evergreen broadleaf forests. Seasonal analysis revealed that all four products performed
better in the non-growing season, with BESS showing the highest growing-season accuracy (R2 = 0.39, RMSE =
2.44 g C/m2/d). GOSIF notably overestimated seasonal totals, especially in shrubland and grassland ecosystems.
Spatially, mean annual GPP estimates varied by over 30 % among products, with GOSIF being the highest
(1497.32 g C/m2) and BESS being the lowest (1109.73 g C/m2). The vegetation-type analysis revealed the
highest level of agreement in deciduous broadleaf forests, while the greatest discrepancies were observed in open
shrublands. Our findings highlight the strengths and limitations of current GPP products in a mountainous,
heterogeneous region. Incorporating physiological indicators such as solar-induced chlorophyll fluorescence
(SIF), improving model parameterization of phenology, and accounting for local environmental stressors are
essential for enhancing GPP estimation in Southwest China and similar landscapes.
Keywords
Gross primary production (GPP) Breathing earth system simulator (BESS) Solar-induced chlorophyll fluorescence (SIF) Moderate resolution imaging spectroradiometer (MODIS) Vegetation photosynthesis model (VPM)
Speaker
王王宇
学生 西南大学地理科学学院

Submission Author
王王宇 西南大学地理科学学院
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Important Date
  • Conference Date

    Apr 25

    2026

    to

    Apr 29

    2026

  • Apr 07 2026

    Draft paper submission deadline

  • Jun 17 2026

    Registration deadline

Sponsored By
未来大气科学论坛理事会
Organized By
河海大学海洋学院
南京大学南京赫尔辛基大气与地球系统科学学院
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