袁文平[中山大學大氣科學學院教授]

袁文平[中山大學大氣科學學院教授]
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袁文平,男,中山大學大氣科學學院教授 、博士生導師、SCI刊物Plos One學術編輯、中國氣象服務協會理事、中組部“萬人計畫”青年拔尖人才、國家優秀青年基金獲得者、教育部新世紀優秀人才、珠海區域氣候環境生態預測預警協同創新中心副主任,中國氣象服務協會理事。2017年入選氣候變化與環境生態學科“青年長江學者”。

教育

1997.9-2001.7:本科(生態學),內蒙古大學

2001.9-2007.3:博士(全球生態學),中國科學院植物研究所

工作經歷

2007.3-2008.3:美國俄克拉荷馬大學,博士後

2008.3-2009.9:美國地質勘探局地球資源觀測與研究中心,博士後

2009.9-2016.1:北京師範大學,副教授,教授

2016.1至今:中山大學,教授

研究領域

袁文平教授主要研究領域為事氣候變化、陸地碳循環模型、陸地-大氣間碳、水交換的模型發展和套用研究,特彆強調藉助於遙感資料,增強模型的模擬能力,以為氣候模式提供準確的陸氣交換信息。主持了863重點項目課題1項,973 和863 項目專題3 項,基金委基金項目3項。在國內外著名學術期刊發表論文78篇,其中第一和通訊作者SCI 文章37篇,其中包括Nature Climate Change 、Nature Communications、Global Change Biology、Remote Sensing of Environment等全球變化主流期刊。近5年文章總引次數為641次,第一作者文章單篇最高引用次數為141次。

袁文平教授近年來致力於開展中山大學地球系統模式的研發工作,具體負責陸地碳循環模型部分的改進與發展工作,實現了碳循環模型與陸表水文模型的初步耦合,使其能夠反映土壤侵蝕過程對於碳循環的影響。同時,積極參與申請國家重大研發項目的申請。此外,袁文平教授積極參與學院和學校公共管理事務,參與了我校南海實驗室的籌備、組建工作,負責海洋大氣部分的申請書撰寫,參與了大氣科學學院學科規劃、評估,與珠海市和深圳市氣象局合作規劃等事宜。

發表文章

2017年

1.Ma R, Zhang L, Tian XJ, Zhang JC, Yuan WP, Zheng Y, Zhao X and Kato T. 2017. Assimilation of Remotely-Sensed Leaf Area Index into a Dynamic Vegetation Model for Gross Primary Productivity Estimation. Remote Sensing, 9, 188; doi:10.3390/rs9030188.

2.Liu ZJ, Wu CY, Peng DL, Wang SS, Gonsamo A, Fang B, Yuan WP. 2017. Improved modeling of gross primary production from a better representation of photosynthetic components in vegetation canopy. Agricultural and Forest Meteorology, 233, 222–234.

2016年

3.Moore JC, Chen Y, Cui XF, Yuan WP, Dong WJ, Gao Y and Shi PJ. 2016. Will China be the first to initiate climate engineering? Earth's Future. DOI 10.1002/2016EF000402.

4.Tian HY, Huang SQ, Zhou S, Bi P, Yang ZC, Li XJ, Chen LF, Cazelles B, Yang J, Luo L, Jing QL, Yuan WP, Pei Y, Sun Z, Yue TX, Kwan MP, Liu QY, Wang M, Tong SL, Brownstein JS, Xu B. 2016. Surface water areas significantly impacted 2014 dengue outbreaks in Guangzhou, China. Environmental Resarch, 150, 299-305.

5.Zhang HC, Liu SG, Yuan WP*, Dong WJ, Xia JZ, Cao YJ, Jia YW. 2016. Loess Plateau check dams can potentially sequester eroded soil organic carbon. JOURNAL OF GEOPHYSICAL RESEARCH-BIOGEOSCIENCES, 121, 1449-1455.

6.Xu WF, Ma LJ, Ma MN, Zhang HC and Yuan WP*. 2016. Spatial-temporal variability of snow cover and depth in Qinghai-Tibetan Plateau. Journal of Climate, doi:10.1175/JCLI-D-15-0732.1

7.Xu WF, Li XL, Liu W, Li LH, Hou LY, Shi HQ, Xia JZ, Liu D, Zhang HC, Chen Y, Cai WW, Fu Y, Yuan WP*. 2016. Spatial patterns of soil and ecosystem respiration regulated by biological and environmental variables along a precipitation gradient in semi-arid grasslands in China. Ecological Research, 31, 505–513.

8.Dong WJ, Yuan WP, Liu SG, Moore J, Shi PJ, Chou JM, Feng SB, Jiang KJ, Cui XF. 2016. Reply to 'Emission effects of the Chinese-Russian gas deal'. Natural Climate Change, 6, 114-115.

9.Zhang YJ, Qin DH, Yuan WP*and Jia BR. 2016. Historical trends of forest fires and carbon emissions in China from 1988 to 2012. Journal of Geophysical Research: Biogeosciences, 21, doi:10.1002/2016JG003570.

10.Zhou YL, Wu XC, Ju WM, Chen JM, Wang SQ, Wang HM, Yuan WP, Black A, Jassal R, Ibrom A, Han SJ, Yan JH, Margolis H, Roupsard O, Li YN, Zhao FH, Kiely G, Starr G, Pavelka M, Montagnani L, Wohlfahrt G, D’Odorico P, Cook D, Arain MA, Bonal D, Beringer J, Blanken P, Loubet B, Leclerc M, Matteucci G, Nagy Z, Oleinik J, Paw K, Varlagin A. 2016. Global parameterization and validation of a two-leaf light use efficiency model for predicting gross primary production across FLUXNET sites. Journal of Geophysical Research: Biogeosciences, 121(4), 1045–1072.

11.Zhang HC, Yuan WP* et al. 2016. Accurate representation of leaf longevity is important for simulating ecosystem carbon cycle. Basic and Applied Ecology, 17, 396-407.

12.Wei T, Dong WJ, Moore J, Yan Q, Song Y, Yang ZY, Yuan WP, Chou JM, Cui XF, Yan XD, Wei ZG, Guo Y, Yang SL, Tian D, Lin PF, Yang S, Wen ZP, Lin H, Chen M, Feng GL, Jiang YD, Zhu XX, Chen J, Wei X, Shi W, Zhang ZG, Dong J, Li YX, Chen DL. 2016. Quantitative Estimation of the Climatic Effects of Carbon Transferred by International Trade. SCIENTIFIC REPORTS, 6, 28046, 10.1038/srep28046.

13.Fu Y, Xia JZ, Yuan WP*, Xu B, Wu XX, Chen Y, Zhang H. 2016. Assessment of multiple precipitation products over major river basins of China. Theoretical and Applied Climatology, 123 (1), 11-22.

14.Yuan WP, Xu, WF, Ma MN, Chen SY, Liu WJ, Cui LL. 2016. Improved snow cover model in terrestrial ecosystem models over the Qinghai-Tibetan Plateau. Agricultural and Forest Meteorology, 218–219, 161–170.

15.Wu YP, Liu SG, Yan WD, Xia JZ, Xiang WH, Wang KL, Luo Q, Fu W, Yuan WP. 2016. Climate change and consequences on the water cycle in the humid Xiangjiang River Basin, China. STOCHASTIC ENVIRONMENTAL RESEARCH AND RISK ASSESSMENT, 30, 225-235.

16.Yuan WP, Cai WW, Chen Y, Liu SG, Dong WJ, Zhang HC, Yu GR, Chen ZQ, He HL, Guo WD, Liu D, Liu SM, Xiang WH, Xie ZH, Zhao ZH & Zhou GM. 2016. Severe summer heatwave and drought strongly reduced carbon uptake in Southern China. Scientific Reports, 5, 18813; doi: 10.1038/srep18813.

17.Chen TX, Wang GJ, Yuan WP, Li AZ and Liu YY. 2016. Asymmetric NDVI trends of the two cropping seasons in the Huai River basin. Remote Sensing Letters, 7, 61–70.

18.Yuan WP, Chen Y, Xia JZ, Dong WJ, Magliulo V, Moors E, Olesend JE, Zhang HC. 2016. Estimating crop yield using a satellite-based light use efficiency mode. Ecological Indicators, 60, 702–709.

2015年

19.Chen ZQ, Chen JM, Zheng XG, Jiang F, Qin J, Zhang SP, Yuan WP, Ju WM, Mo G. 2015. Optimizing photosynthetic and respiratory parameters based on the seasonal variation pattern in regional net ecosystem productivity obtained from atmospheric inversion. Science Bulletin, 60(22), 1954-1961.

20.Li XL, Shi HQ, Xu WF, Liu W, Wang XJ, Hou LY, Feng F, Yuan WP*, Li LH, Xu H. 2016. Seasonal and spatial variations of bulk nitrogen deposition and the impacts on the carbon cycle in the arid/semiarid grassland of Inner Mongolia, China. Plos One, DOI: 10.1371/journal.pone.0144689.

21.WenXH, Dong Wj, Yuan WP, Zheng ZY. 2015. Establishment and analysis of a high-resolution assimilation dataset of the water-energy cycle in China. Physics and Chemistry of the Earth, 10.1016/j.pce.2015.09.016.

22.Xia JZ, Chen Y, Liang SL, Liu D, Yuan WP*. 2015. Global simulations of carbon allocation coefficients for deciduous vegetation types. Tellus (B), 67, 28016, http://dx.doi.org/10.3402/tellusb.v67.28016.

23.Zhang HC, Yuan WP*, Liu SG, Dong WJ. 2015. Divergent responses of leaf phenology to changing temperature among plant species and geographical regions. Ecosphere, 6(12): 250. http://dx.doi.org/10.1890/ES15-00223.1.

24.Zhang HC, Yuan WP*, Liu SG, Dong WJ, and Fu Y. 2015. Sensitivity of flowering phenology to changing temperature in China. Journal of Geophysical Research: Biogeosciences, 120, doi:10.1002/2015JG003112.

25.Chen Y, Yuan WP*, Xia JZ, Fisher JB, Dong WJ, Zhang XT, Liang SL, Ye AZ, Cai WW, Feng JM. 2015. Using Bayesian model averaging to estimate terrestrial evapotranspiration in China. Journal of Hydrology, 528, 537–549.

26.Yuan WP, Cai WW, Nguy-Robertson AL, Fang HJ, Suyker AE, Chen Y, Dong WJ, Liu SG, Zhang HC. 2015. Uncertainty in Simulating Gross Primary Production of Cropland Ecosystem from Satellite-Based Models. Agricultural and Forest Meteorology, 207, 48-57.

27.Zheng H, Li Y, Chen JM, WangT, Huang Q, Huang WX, Wang LH, Li SM., Yuan WP, Zheng X, Zhang SP, Chen ZQ, and Jiang F. 2015. A global carbon assimilation system based on a dual optimization method, Biogeosciences, 12, 1131-1150.

28.Jiang B, Liang SL, Yuan WP. 2015. Observational evidence for impacts of vegetation change on local surface climate over northern China using the Granger Causality test. Journal of Geophysical Research: Biogeosciences, in press.

29.Tian HY, Zhou S, Dong L, Van Boeckeld TP, Pei Y, Wu QZ, Yuan WP, Guo Y, Huang SQ, Chen WH, Lue XL, Liu Z, Bai YQ, Yue TX, Grenfell B, Xu B. 2015. Climate change suggests a shift of H5N1 risk in migratory birds. Ecological Modelling, 306(SI): 6-15.

30.Yuan WP, Xu B, Chen ZQ, Xia JZ, Xu WF, Chen Y, Wu XX, Fu Y. 2015. Validation of China-wide interpolated daily climate variables from 1960 to 2011. Theoretical and Applied Climatology, 119, 689-700.

31.Yang SL, Dong WJ, Chou JM, Feng JM, Yan XD, Wei ZG, Yuan WP, Guo Y, Tang YL, Hu JC. 2015. A brief introduction to BNU-HESM1.0 and its earth surface temperature simulations. Advances in Atmospheric Sciences, 32(12): 1683-1688.

32.Jia K, Liang SL, Liu JY, Li QZ, Wei XQ, Yuan WP, Yao YJ. 2015. Forest Cover Changes in the Three-North Shelter Forest Region of China during 1990 to 2005. Journal of Environmental Informatics, 26, 112-120。

2014年

1.Zhang HC, Liu SG, Yuan WP*, Dong WJ, Ye AZ, Xie XH, Chen Y, Liu D, Cai WW and Mao YN. 2014. Inclusion of soil carbon lateral movement alters terrestrial carbon budget in China. Scientific Reports, 4, 7247; DOI:10.1038/srep07247.

2.Cao SX, Ma H, Yuan WP, Wang X. 2014. Interation of ecological and social factors affects vegetation recovery in China. Biological Conservation, dx.doi.org/10.1016/j.biocon.2014.10.009.

3.Dong WJ, Yuan WP*, Liu SG, Moore J, Shi PJ, Chou JM, Feng SB, Jiang KJ, Cui XF. 2014. China-Russia gas deal for a cleaner China. Nature Climate Change, 4, 940–942.

4.Liu D, Cai WW, Xia JZ, Dong WJ, Zhou GS, Chen Y, Zhang HC, Yuan WP*. 2014. Global validation of a process-based model on vegetation gross primary production using eddy covariance observations. Plos One, doi: 10.1371/journal.pone.0110407.

5.Fu Y, Yuan WP*, Zhang HC et al. 2014. Comparison of phenology models for predicting the onset of growing season over the Northern Hemisphe. Plos One, 10.1371/journal.pone.0109544.

6.Cai WW, Yuan WP*, Liang SL, Liu SG, Dong WJ, Chen Y, Liu D, Zhang HC. 2014. Large differences in terrestrial vegetation production derived from satellite-based light use efficiency models. Remote Sensing, 6(9), 8945-8965.

7.Liu D, Chen Y, Cai WW, Dong WJ, Xiao JF, Chen JQ, Zhang HC, Xia JZ, Yuan WP*. 2014. The contribution of China’s Grain for Green Program to carbon sequestration. Landscape Ecology, 29(10): 1675-1688.

8.袁文平*,蔡文文,劉丹,董文杰. 2014. 陸地生態系統植被生產力遙感模型研究進展. 地球科學進展. 29(5), 541-550.

9.Wen XH, Liao XH, Yuan WP, YAN XD, WEI ZG, Liu HZ, Feng JM, Lv SH, Dong WJ. 2014. Numerical simulation and data assimilation of the water-energy cycle over semiarid northeastern China. Science China: Earth Sciences, 57: 2340–2356.

10.Yuan WP, Liu SG, Cai WW Liu SG, Dong WJ, Chen JQ, Arain MA, Blanken PD, Cescatti A, Wohlfahrt G, Georgiadis T, Genesio L, Gianelle D, Grelle A, Kiely G, Knohl A, Liu D, Marek MV, Merbold L, Montagnani L, Panferov O, Peltoniemi M, Rambal S, Raschi A, Varlagin A, Xia JZ. 2014. Vegetation-specific model parameters are not required for estimating gross primary production. Ecological Modelling, 292, 1-10.

11.Yuan WP, Liu SG, Dong WJ, Liang SL, Zhao SQ, Chen JM, Xu WF, Li XL, Barr A, Black TA, Yan WD, Goulden ML, Kulmala L, Lindroth A, Margolis HA, Matsuura Y, Moors E, van der Molen M, Ohta T, Pilegaard K, Varlagin A, Vesala T. 2014. Differentiating moss from higher plants is critical in studying the carbon cycle of the boreal biome. Nature Communications, 5: 4270 doi: 10.1038/ncomms5270.

12.Yuan WP, Liu D, Dong WJ, Liu SG, Zhou GS, Yu GR, Zhao TB, Feng JM, Ma ZG, Chen JQ, Chen Y, Chen SP, Han SJ, Huang JP, Li LH, Liu HZ, Liu SM, Ma MG, Wang YF, Xia JZ, Xu WF, Zhang Q, Zhao XQ, Zhao L. 2014. Multiyear precipitation reduction strongly decreases carbon uptake over northern China. Journal of Geophysical Research: Biogeosciences, 119, 881-896.

13.Xia JZ, Liang SL, Chen JQ, Yuan WP*. 2014. Satellite-based analysis of evapotranspiration and water balance in the grassland ecosystems of dryland east Asia. PLoS ONE, 9(5): e97295. doi:10.1371/journal.pone.0097295.

14.Wei T, Dong WJ, Yuan WP Yan XD, Guo Y. 2014. Influence of carbon cycle on attribution of responsibility for climate change. Chinese Science Bulletin, doi:10.1007/s11434-014-0196-7

15.Yuan WP, Cai WW, Xia JZ, et al. 2014. Global comparison of light use efficiency models for simulating terrestrial vegetation gross primary production based on the LaThuile database. Agricultural and Forest Meteorology, 192–193, 108–120.

16.Xia JZ, Liu SG, Liang SL, Chen Y, Xu WF, Yuan WP*, et al. 2014. Spatio-temporal patterns and control mechanisms of biomass carbon stock of global grassland ecosystems from 1982 to 2006. Remote Sensing, 6, 1783-1802.

17.Yuan WP, Li XL, Liang SL, et al. 2014. Characterization of locations and extents of afforestation from the Grain for Green Project in China. Remote Sensing Letters, doi:10.1080/2150704X.2014.894655.

18.Zhang HC, Yuan WP*, Dong WJ. 2014. Seasonal patterns of litterfall in forest ecosystem worldwide. Ecological Complexity, 20(SI): 240-247.

19.Chen Y, Xia JZ, Yuan WP* et al. 2014. Comparison of evapotranspiration models over terrestrial ecosystem in China. Remote Sensing of Environment, 140, 279-293.

20.Zhang L, Guo HD, Jia GS, Wylie B, Gilmanov T, Howard D, Ji L, Xiao JF, Li J, Yuan WP, Zhao TB, Chen SP, Zhou GS, Kato T. 2014. Net ecosystem productivity of temperate grasslands in northern China: an upscaling study. Agricultural and Forest Meteorology, 184, 71-81.

21.Cai WW, Yuan WP*, Liang SL et al. 2014. Improved estimations of gross primary production using satellite-derived photosynthetically active radiation. Journal of Geophysical Research: Biogeosciences, 119, doi:10.1002/2013JG002456.

22.Li XL, Liang SL, Yuan WP* et al. 2014, Estimation of evapotranspiration over the terrestrial ecosystems in China. Ecohydrology, 7, 139-149.

2013年

1.Xu WF, Yuan WP*, Dong WJ et al. 2013. A meta-analysis of the response of soil moisture to experimental warming. Environmental Research Letters, 8, doi.org/10.1088/1748-9326/8/4/044027.

2.Li XL, Liang SL, Yu GR, Yuan WP*, et al. 2013. Estimation of gross primary production over the terrestrial ecosystems in China. Ecological Modelling, 261-262, 80-92.

3.Peng J, Dong WJ, Yuan WP. 2013. Effects of increased CO on land water balance from 1850 to 1989. Theoretical and Applied Climatology, 111, 483-495.

4.John R, Chen JQ, Ou-Yang ZT, Xiao JF, Becker R, Samanta A, Ganguly S, Yuan WP and Batkhishig O. 2013, Vegetation response to extreme climate events on the Mongolian Plateau from 2000 to 2010. Environmental Research Letters, 8, iop.org/1748-9326/8/3/035033.

5.Li XL, Ziadi N, Belanger G, Yuan WP, Liang S, Xu H and Cai Z. 2013. Wheat grain Cd concentration and uptake as affected by timing of fertilizer N application. Canadian Journal of Soil Science, 93, 219-222.

6.Zhao X, Liang SL, Liu SH, Yuan WP, et al. 2013. The Global Land Surface Satellite (GLASS) remote sensing data processing system and products. Remote Sensing, 5, 2436-2450.

7.Wang HB, Ma MG, Wang XF, Yuan WP, et al. 2013. Seasonal variation of vegetation productivity over an alpine meadow in the Qinghai–Tibet Plateau in China: modeling the interactions of vegetation productivity, phenology, and the soil freeze–thaw process. Ecological Research, 28, 271-282.

8.Sun L, Liang SL, Yuan WP, Chen ZX. 2013. Improving a Penman–Monteith evapotranspiration model by incorporating soil moisture control on soil evaporation in semiarid areas. International Journal of Digital Earth, 6, 134-156.

9.Liang SL, Zhao X, LiuSH, Yuan WP, et al. 2013. A long-term Global LAnd Surface Satellite (GLASS) data-set for environmental studies. International Journal of Digital Earth, 6, 5-33.

2012年之前

1.Yuan WP, Liang SL, Liu SG, et al., 2012, Improving model parameter estimation using coupling relationships between vegetation production and ecosystem respiration. Ecological Modelling, 240, 29-40.

2.Yuan WP, Liu SG, Liang SL, et al., 2012, Estimations of evapotranspiration and water balance with uncertainty over the Yukon River Basin. Water Resources Management, 26, 2147-2157.

3.Yuan WP and Chan ZQ. 2012. Estimate of vegetation production of terrestrial ecosystem. In the book edited by Liang SL, Li XW and Wang JD: Advanced Remote Sensing, DOI: 10.1016/B978-0-12-385954-9.00016-2.

4.Wei T, Yang SL, Moore JC, Shi PJ, Cui XF, Duan QY, Xu B, Dai YJ, Yuan WP, et al. 2012. Developed and developing world responsibilities for historical climate change and CO mitigation. PNAS, 109, 12911-12915.

5.Niu SL, Luo YQ, Fei SF, Yuan WP, et al. 2012. Thermal optimality of net ecosystem exchange of carbon dioxide and underlying mechanisms. New Phytologist, 194, 775-783 (SCI, IF=6.645).

6.Huntzinger DN, (Yuan WP is one of the 19 coauthors). 2012. North American Carbon Program (NACP) regional interim synthesis: terrestrial biospheric model intercomparison. Ecological Modelling, 232, 144-157.

7.Peng J, Dong WJ, Yuan WP, Zhang Y. 2012. Responses of grassland and forest to temperature and precipitation changes in Northeast China. Advances in Atmospheric Sciences, 29, 1063-1077.

8.Yuan WP, Luo YQ, Li XL, et al., 2011, Redefinition and global estimation of basal ecosystem respiration rate. Global Biogeochemical Cycles, 25, GB4002, doi:10.1029/2011GB004150.

9.Yuan WP, Luo YQ, Liang SL, et al., 2011, Thermal adaptation of net ecosystem exchange. Biogeosciences, 8, 1453-1463.

10.Liu SG, (Yuan WP is one of the 17 coauthors). 2011. Simulating the impacts of disturbances on forest carbon cycling in North America: Processes, data, models, and challenges. Journal of Geophysical Research: Biogeosciences, 116, 1-22.

11.Liu SG, Tan ZX, Li ZP, Zhao SQ, Yuan WP. 2011. Are soils of Iowa USA currently a carbon sink or source? Simulated changes in SOC stock from 1972 to 2007. Agriculture Ecosystems & Environment, 140, 106-112.

12.Li XL, Yuan WP, Xu H, Cai ZC, Yagi K. 2011. Effect of timing and duration of midseason aeration on CH and N2O emissions from irrigated lowland rice paddies in China. Nutrient Cycling in Agroecosystems, 91, 293-305.

13.Yuan WP, Liu SG, Liu, HP, et al., 2010, Impacts of precipitation seasonality and ecosystem types on evapotranspiration in the Yukon River Basin, Alaska. Water Resources Research, 46, W02514, doi:10.1029/2009WR008119.

14.Yuan WP, Liu SG, Yu GR, et al., 2010, Global estimates of evapotranspiration and gross primary production based on MODIS and global meteorology data. Remote Sensing of Environment, 114, 1416-1431.

15.Yuan WP, Luo YQ, Richardson AD, et al., 2009, Latitudinal patterns of magnitude and interannual variability in net ecosystem exchange regulated by biological and environmental variables. Global Change Biology, 15, 2905-2920.

16.Yuan WP, Liu SG, Zhou GS et al. 2007. Deriving a light use efficiency model from eddy covariance flux data for predicting daily gross primary production across biomes. Agricultural and Forest Meteorology, 143, 189-207.

17.Yuan WP, Zhou GS, Wang YH et al. 2007. Simulating phenological characteristics of two dominant grass species in a semi-arid steppe ecosystem. Ecological Research, 22, 784-791.

18.Jia BR, Zhou GS, Yuan WP. 2006. Modeling and coupling of soil respiration and soil water content in fenced Leymus chinensis steppe, Inner Mongolia. Ecological Modeling, 201, 157-162.

19.Jia BR, Zhou GS, Wang FY, Wang YH, Yuan WP and Zhou L. 2006. Partitioning root and microbial contributions to soil respiration in Leymus chinensis populations. Soil Biology and Biochemistry, 38, 653-660.

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