A regional carbon data assimilation system and its preliminary evaluation in East Asia

Peng, Zhen; Zhang, M.; Kou, Xingxia; Tian, Xiangjun; Ma, Xin

doi:10.5194/acp-15-1087-2015

Cited by 25 publications

(33 citation statements)

References 46 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…It is noted although the method is very similar to that used by Peters et al (2007) and Peng et al (2015) for CO 2 emission inversion, it is still of novelty for applications in aerosol anthropogenic emissions. In Peters et al (2007), λ p i,t were all 1.…”

Section: Forecast Model Of Scaling Factorsmentioning

confidence: 99%

“…In Peng et al (2015), the CO 2 DA system worked comparatively well when the ensemble spread of λ a i,t ranged from 0.05 to 1.25 for β = 60, 70, 75, 80. The assimilated CO 2 fluxes deviated markedly from the "true" CO 2 fluxes when the ensemble spread of λ a i,t were too small for β = 10, 50 or when the ensemble spread of λ a i,t were too large for β = 100.…”

Section: Forecast Model Of Scaling Factorsmentioning

confidence: 99%

“…As no suitable dynamic model was available to forecast the emission scaling factors, a persistence forecasting operator served as the forecast model for the scaling factors, similar to the method used by Peng et al (2015) for CO 2 emission inversion. Figure 2a shows the flowchart for the persistence forecasting operator M SF .…”

Section: Forecast Model Of Scaling Factorsmentioning

confidence: 99%

“…Besides, the framework is more advanced compared to our previous work. In Peng et al (2015), in order to generate λ p i,t , a set of ensemble forecasts were performed from time t to t + 1 to produce the CO 2 concentration fields, forced by the prescribed net CO 2 surface fluxes with the previous assimilated concentration fields as initial conditions. That means that the ensemble forecast was performed twice in that DA system, which time consuming.…”

Section: Forecast Model Of Scaling Factorsmentioning

confidence: 99%

See 3 more Smart Citations

Improving PM<sub>2. 5</sub> forecast over China by the joint adjustment of initial conditions and source emissions with an ensemble Kalman filter

et al. 2017

View full text Add to dashboard Cite

Abstract. In an attempt to improve the forecasting of atmospheric aerosols, the ensemble square root filter algorithm was extended to simultaneously optimize the chemical initial conditions (ICs) and emission input. The forecast model, which was expanded by combining the Weather Research and Forecasting with Chemistry (WRF-Chem) model and a forecast model of emission scaling factors, generated both chemical concentration fields and emission scaling factors. The forecast model of emission scaling factors was developed by using the ensemble concentration ratios of the WRF-Chem forecast chemical concentrations and also the time smoothing operator. Hourly surface fine particulate matter (PM 2.5 ) observations were assimilated in this system over China from 5 to 16 October 2014. A series of 48 h forecasts was then carried out with the optimized initial conditions and emissions on each day at 00:00 UTC and a control experiment was performed without data assimilation. In addition, we also performed an experiment of pure assimilation chemical ICs and the corresponding 48 h forecasts experiment for comparison. The results showed that the forecasts with the optimized initial conditions and emissions typically outperformed those from the control experiment. In the Yangtze River delta (YRD) and the Pearl River delta (PRD) regions, large reduction of the root-mean-square errors (RMSEs) was obtained for almost the entire 48 h forecast range attributed to assimilation. In particular, the relative reduction in RMSE due to assimilation was about 37.5 % at nighttime when WRF-Chem performed comparatively worse. In the BeijingTianjin-Hebei (JJJ) region, relatively smaller improvements were achieved in the first 24 h forecast but then no improvements were achieved afterwards. Comparing to the forecasts with only the optimized ICs, the forecasts with the joint adjustment were always much better during the night in the PRD and YRD regions. However, they were very similar during daytime in both regions. Also, they performed similarly for almost the entire 48 h forecast range in the JJJ region.

show abstract

Section: Forecast Model Of Scaling Factorsmentioning

confidence: 99%

Section: Forecast Model Of Scaling Factorsmentioning

confidence: 99%

Section: Forecast Model Of Scaling Factorsmentioning

confidence: 99%

Section: Forecast Model Of Scaling Factorsmentioning

confidence: 99%

See 2 more Smart Citations

Improving PM<sub>2. 5</sub> forecast over China by the joint adjustment of initial conditions and source emissions with an ensemble Kalman filter

et al. 2017

View full text Add to dashboard Cite

show abstract

“…In addition to CarbonTracker, a regional surface CO 2 flux inversion system (Carbon Flux Inversion system and Community Multi-scale Air Quality, CFI-CMAQ) was developed by applying the ensemble Kalman filter (EnKF) to constrain the CO 2 concentrations and applying the ensemble Kalman smoother (EnKS) to optimize the surface CO 2 fluxes (Peng et al 2015). A framework, termed TanTracker, was developed for assimilating observations of atmospheric CO 2 concentrations on the basis of an ensemble four-dimensional variation data assimilation method (Tian et al 2014), which is based on proper orthogonal decomposition.…”

Section: Classical Methodsmentioning

confidence: 99%

A fundamental theorem of Earth’s surface modelling

et al. 2016

View full text Add to dashboard Cite

Ground observation is able to obtain highly accurate data with high temporal resolution at observation points, but these observation points are too sparse to satisfy some application requirements. Satellite remote sensing and system models can frequently supply spatially continuous information about the Earth's surface, which is impossible from ground-based investigations, but remote sensing description and system model simulation are not able to directly obtain process parameters. The most effective method for Earth surface modelling entails the integration of satellite observations or system models with ground observations. However, the full integration was ignored in most of the methods. For finding a solution for this problem, we suggest an alternative method, high accuracy surface modeling (HASM), which takes global approximate information (e.g., remote sensing images or model simulation results) as its driving field and local accurate information (e.g., ground observation data and/or sampling data) as its optimum control constraints. HASM completes its operation when its output satisfies the iteration stopping criterion which is determined by application requirement for accuracy. A Fundamental Theorem of Earth Surface Modelling (FTESM) is abstracted on the basis of applying HASM to simulating surfaces of elevation, soil properties, changes of ecosystem services, and driving forces of the changes on multi-scales for about 20 years. FTESM is described as ''an Earth's surface system or a component surface of the Earth's surface environment can be simulated with HASM when its spatial resolution is fine enough, which is uniquely defined by both extrinsic and intrinsic invariants of the surface''. From FTESM, seven corollaries have been deduced, corresponding to interpolation, upsaling, downscaling, data fusion and data assimilation respectively.

show abstract

Simulation and analysis of XCO2 in North China based on high accuracy surface modeling

Liu

Yue

Zhang

et al. 2018

Environ Sci Pollut Res

View full text Add to dashboard Cite

As an important cause of global warming, CO2 concentrations and their changes have aroused worldwide concern. Establishing explicit understanding of the spatial and temporal distributions of CO2 concentrations at regional scale is a crucial technical problem for climate change research. High accuracy surface modeling (HASM) is employed in this paper using the output of the CO2 concentrations from weather research and forecasting-chemistry (WRF-CHEM) as the driving fields, and the greenhouse gases observing satellite (GOSAT) retrieval XCO2 data as the accuracy control conditions to obtain high accuracy XCO2 fields. WRF-CHEM is an atmospheric chemical transport model designed for regional studies of CO2 concentrations. Verified by ground- and space-based observations, WRF-CHEM has a limited ability to simulate the conditions of CO2 concentrations. After conducting HASM, we obtain a higher accuracy distribution of the CO2 in North China than those calculated using the classical Kriging and inverse distance weighted (IDW) interpolation methods, which were often used in past studies. The cross-validation also shows that the averaging mean absolute error (MAE) of the results from HASM is 1.12 ppmv, and the averaging root mean square error (RMSE) is 1.41 ppmv, both of which are lower than those of the Kriging and IDW methods. This study also analyses the space-time distributions and variations of the XCO2 from the HASM results. This analysis shows that in February and March, there was the high value zone in the southern region of study area relating to heating in the winter and the dense population. The XCO2 concentration decreased by the end of the heating period and during the growing period of April and May, and only some relatively high value zones continued to exist.

show abstract

A regional carbon data assimilation system and its preliminary evaluation in East Asia

Cited by 25 publications

References 46 publications

Improving PM<sub>2. 5</sub> forecast over China by the joint adjustment of initial conditions and source emissions with an ensemble Kalman filter

Improving PM<sub>2. 5</sub> forecast over China by the joint adjustment of initial conditions and source emissions with an ensemble Kalman filter

A fundamental theorem of Earth’s surface modelling

Simulation and analysis of XCO2 in North China based on high accuracy surface modeling

Contact Info

Product

Resources

About

A regional carbon data assimilation system and its preliminary evaluation in East Asia

Cited by 25 publications

References 46 publications

Improving PM&lt;sub&gt;2. 5&lt;/sub&gt; forecast over China by the joint adjustment of initial conditions and source emissions with an ensemble Kalman filter

Improving PM&lt;sub&gt;2. 5&lt;/sub&gt; forecast over China by the joint adjustment of initial conditions and source emissions with an ensemble Kalman filter

A fundamental theorem of Earth’s surface modelling

Simulation and analysis of XCO2 in North China based on high accuracy surface modeling

Contact Info

Product

Resources

About

Improving PM<sub>2. 5</sub> forecast over China by the joint adjustment of initial conditions and source emissions with an ensemble Kalman filter

Improving PM<sub>2. 5</sub> forecast over China by the joint adjustment of initial conditions and source emissions with an ensemble Kalman filter