Abstract

TanSat is China’s first greenhouse gases observing satellite. In recent years, substantial progresses have been achieved on retrieving column-averaged CO 2 dry air mole fraction (XCO 2 ). However, relatively few attempts have been made to estimate terrestrial net ecosystem exchange (NEE) using TanSat XCO 2 retrievals. In this study, based on the GEOS-Chem 4D-Var data assimilation system, we infer the global NEE from April 2017 to March 2018 using TanSat XCO 2 . The inversion estimates global NEE at −3.46 PgC yr -1 , evidently higher than prior estimate and giving rise to an improved estimate of global atmospheric CO 2 growth rate. Regionally, our inversion greatly increases the carbon uptakes in northern mid-to-high latitudes and significantly enhances the carbon releases in tropical and southern lands, especially in Africa and India peninsula. The increase of posterior sinks in northern lands is mainly attributed to the decreased carbon release during the nongrowing season, and the decrease of carbon uptakes in tropical and southern lands basically occurs throughout the year. Evaluations against independent CO 2 observations and comparison with previous estimates indicate that although the land sinks in the northern middle latitudes and southern temperate regions are improved to a certain extent, they are obviously overestimated in northern high latitudes and underestimated in tropical lands (mainly northern Africa), respectively. These results suggest that TanSat XCO 2 retrievals may have systematic negative biases in northern high latitudes and large positive biases over northern Africa, and further efforts are required to remove bias in these regions for better estimates of global and regional NEE.

Highlights

  • Satellite-based measurements of column-averaged CO2 dry air mole fraction (XCO2) provide global coverage at high spatial resolution and support top-down estimates of surface CO2 sinks and sources at global and regional scales, which is critical to future projections of climate change and effective carbon reduction strategy

  • We explore the potential of The China’s greenhouse gas monitoring satellite mission (TanSat) XCO2 retrievals in improving the estimates of net ecosystem exchange (NEE) in different regions and evaluate the inversion results using surface flask CO2 observations and Total Carbon Column Observing Network (TCCON) XCO2 retrievals

  • CO2 exchanges over the ocean surface are from the Jena CarboScope sea-air CO2 flux dataset estimated from the Surface Ocean CO2 Atlas (SOCAT) data set of pCO2 observations [37]

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Summary

Introduction

Satellite-based measurements of column-averaged CO2 dry air mole fraction (XCO2) provide global coverage at high spatial resolution and support top-down estimates of surface CO2 sinks and sources at global and regional scales, which is critical to future projections of climate change and effective carbon reduction strategy. The China’s greenhouse gas monitoring satellite mission (TanSat) [4] was launched in December of 2016 and followed by GOSAT-2 [5] in October of 2018 and OCO-3 [6] in May of 2019 These carbon satellites fly at low orbit and measure near-infrared sunlight reflected from the Journal of Remote Sensing surface in CO2 spectral bands and the O2 A band to retrieve XCO2, with the primary scientific objective of monitoring of surface carbon sinks and sources. We explore the potential of TanSat XCO2 retrievals in improving the estimates of NEE in different regions and evaluate the inversion results using surface flask CO2 observations and Total Carbon Column Observing Network (TCCON) XCO2 retrievals.

Data and Method
Results and Discussions
Conclusions
Conflicts of Interest

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