导师介绍

陈报章

    男,研究员,博士生导师,加拿大大不列颠哥哥伦比亚大学博士。现任生态环境部碳监测评估试点技术委员会委员,曾任中国国家气象局温室气体及碳中和监测评估中心首席科学家。曾就职于加拿大多伦多大学(University of Toronto)、大不列颠哥伦比亚大学University of British Columbia和昆特兰理工大学Kwantlen Polytechnic University(教授),2009 年入选中国科学院“杰出人才类计划”回国。陈报章研究员已主持或作为骨干成员参加完成了加拿大NSERCCFCAS 、中国国家自然科学基金、国家973863国家科技支撑重大项目、国家重点研发专项等10余项科研项目。研发了首个中国天空地双碳数字孪生模拟器、中国高时空分辨率碳同化系统(CT-China 3-GAS)以及高分辨嵌套式区域碳同化系统(RCAS),并实现了国家级准业务化运行以及省、市多尺度碳排放与碳汇的高精度核算应用;在Nature子刊、Science Bulletin 等期刊发表SCI学术论文百余篇。陈报章曾获中国地理学会第三届青年地理科技奖(1995)、江苏省优秀青年骨干教师(1996)、入选省“333高层次人才培养工程”中青年科学技术带头人(1998)、入选年江苏省委“双创计划”之“创新类人才”和“创新类团队”(2014);曾获国际工程学会优秀研究生IET奖和加拿大NSERCCGS奖学金(国家最高研究生奖学金)等20余项学术奖项。

  研究领域涉及碳同化系统、数据-模型同化、-气相互作用、表层地球系统模拟、定量遥感、空间尺度转换、生物地球化学循环和全球变化生态学等。

  主要学术成就构建、发展多个数值模拟模型、碳同化系统和数据-模型同化反演系统。主要包括如下几个方面:

  1)发展了适合中国陆地生态系统的平滑卡尔曼同化算法、滞后窗口和双向嵌套技术,集成构建了我国首个高时空分辨率碳同化反演系统(CarbonTracker-China,简称 CT-China), 并实现在国家气象卫星中心准业务化运行。发展了基于通量塔足迹分析和星地多源多尺度数据融合技术方法,并融合碳卫星观测数,提高陆地生态系统CO2通量的估测能力,为中国碳追踪系统提供了更高时空分辨率的先验碳通量数据。作为世界CT模型的三大系统之一,与欧洲和北美的CT系统相比,大大降低中国陆地生态系统碳收支的评估误差,纠正了北美和欧洲系统低估中国碳汇的错误。详细信息请浏览网页http://www.carbontracker.net/。在嵌套中国的全球同化系统CT-China的基础上研发了区域同化系统(RCAS regional carbon assimilation system),RCAS WRF-GHG V3.6.1 版本上研发,主要采用 FORTRAN Python 编写,主要特点可概括为:(1)实现多核并行计算,可以高效、高分辨率反演区域碳通量以及 CO2 浓度的时空演变过程; 2)该系统利用 POD4DVar 数据同化方法,实现了区域尺度碳排放源和 CO2 浓度的变分同化;(3)利用生态系统碳通量观测数据实时优化生态诊断模型中关键参数(光合参数和呼吸参数),实现自然碳通量和人为碳通量的同步优化;(4RCAS将多源卫星数据(GOSATOCO-2)的 CO2 柱浓度数据和地基观测数据引入到 WRF-GHG 温室气体大气传输模式,构造一套多源卫星-地基联合区域碳同化系统,提高区域碳源汇的反演精度;该系统具有同步反演区域高分辨率(1-5km)自然碳通量、人为碳排放以及 CO2 浓度的能力。 CT-ChinaRCAM结合, 可很好服务于国家碳达峰、碳中和行动有效性评价的重大需求。详细介绍见碳同化系统官方网站:http://www.carbontracker.cn/index.html

  2)研发了具有自主知识产权集成动态陆面过程模型(DLM: Dynamic Land Model) 该模型与遥感定量反演的地学物理参数融合,把树冠簇团指数(foliage clumping index)引入陆面过程模型中,优化了冠层内辐射传输的模拟,强化了土壤层-冻土层-冰雪层的水、热交换的模拟(面向用户,层数可变),较显著提高了陆地表层与大气之间的能量、物质(包括水、碳、氮等)交换过程的模拟精度。在改进陆面过程模型固有算法和优化模型参数的基础上,DLM加入了人文过程对陆-气能量和物质循环的影响。利用DLM能够开展全球变化背景下自然-人文耦合系统的集成陆面过程模拟及机理分析,进而区分自然、人文要素对生态环境和气候变化的贡献。在美国国家大气研究中心(NCAR)研发的CESM 1.0.3框架下,DLM替换CML,通过编译器(CPL7)与大气模型(CAM)、陆冰模型(SGLC)、海洋模型(POP2)和海冰模型(SICE)耦合形成中科院地球系统模式CAS ESMAS 1.0 (Chinese Academy Sciences, Earth System Modeling and Assimilation System 1.0)

  3)构建了一个一维大气传输模型 (VDSVertical Diffusion Scheme), 并用以定量评估大气“整流”效应及其年际变化.代表性成果发表在美国地球物理学会主办的Journal of Geophysics ResearchGeophysics Research Letters等杂志上,该模型为高精度CO2和同位素观测资料的合理解释和寻找“全球迷失的碳(missing carbon)”做出了重要贡献。

  4)构建了一个遥感反演的高分辨率下垫面地学物理参数驱动下的生态系统稳定碳同位素模型,并探讨了北方森林生态系统与大气CO2交换的动力学过程和环境要素对同位素分馏作用的影响机理,是理解碳源/汇机理过程和区分陆地碳汇/海洋碳汇的有效工具,相关的研究成果发表在Global Change Biology Plant, Cell and Environment 杂志上,引起了国际同行的关注。

  5)把生态系统稳定碳同位素模型与大气传输模型(VDS)耦合,在国际上首次连续模拟了陆地生态系统-大气之间的稳定碳同位素交换及其在大气边界层内传输的动态过程,代表性成果发表在Tellus杂志上。该方法是探讨大气稳定碳同位素整流效应、定量估算陆地和海洋对全球碳汇相对贡献的有效工具。

  6)构建了温室气体通量和浓度足迹(footprint)模型(SEAF: Simple Analytical Footprint model on Eulerian coordinates),该模型在空间异质性分析、评估、尺度扩展和如何合理解释全球通量网观测资料等方面的研究中发挥了重要作用,相关成果发表在Boundary-Layer MeteorologyGlobal Biogeochemical CyclesBiogeosciences 杂志上。该模拟方法被加拿大碳项目(CCPCanadian Carbon Program)确定为加拿大通量网内各观测站的常规评估方法。

  7)成功把遥感信息驱动下的定网格大小的EASS陆面过程模型与用于加大拿国家天气预报的超大型变网格大小的区域气候模型(GEM)混合编码(C++Fortran)耦合,具有超大型模型耦合、调试、并行运算的经验。使用在线耦合模型研究了碳、水和能量交换过程的尺度效应。在比较、评估、吸收现有几种国际上流行的尺度扩展方法的优点的基础上,提出了国家和大陆尺度上碳源汇研究中尺度扩展的理论和方法,发展了空间尺度转换的关键技术。代表性成果发表在Journal of Hydrometeorology杂志上。

  8)研发了区域痕量气体追踪系统(Tracers Tracker,简称TT)。该系统地基联网监测系统、多源卫星遥感反演监测系统、大气化学传输多模式模拟系统、陆面生态模拟系统和高效率-高精度数据同化反演系统于一体,实现大气痕量气体(温室气体、污染气体及污染物)时空动态分布和排放源、碳源汇实时追踪的双向同步优化,并在此基础上结合智能处理机制和三维GIS可视化技术,形成一个完备的高时空分辨率、高精度的痕量气体浓度和地面通量(源汇)强度的实时监测与预报分析平台,为碳中和监测评价、大气环境质量控制、污染与温室气体(CO2 CH4等)减排、污染-应对气候变化协调治理决策支持系统提供公里格网实时监测反演通量数据和科学支撑,为中国、省、市“双碳”目标、污染协同治理国家和地方政府需求提供服务。

在研科研项目:

  ·       国家自然科学基金重点项目(碳中和专项)“我国碳中和行动有效性监测评估系统构建中关键科学问题研究”,2022.01-2025.12,项目批准号:42141018 300万。

  ·       国家重点研发计划项目“高分辨率区域地球系统模式的研发及应用”之课题一“考虑人类活动的区域生态-生物地球化学模型研制”(课题编号:2018YFA0606001)课题负责人, 201805-202304月, 539万人民币

  ·国家自然科学基金面上项目“大规模人类扰动对陆表能水通量影响的优化模拟及区域气候效应研究——以京津冀地区为例” (项目批准号:41977404),项目负责人,202001-202312月, 62万人民币。

  ·       国家自然科学基金项目“面向计算区域高分辨率光合与呼吸分量通量的碳同化技术研究 (批准号:41771114)”,项目负责人,2018.01- 2021.12,直接费用:70.00万元

  ·       国家重点研发计划项目“高分辨率全球陆面过程模式研发与应用(课题编号:2017YFA0604302)”之专题“土地利用与陆面物理扰动过程建模”,专题负责人, 2018.01-2021.12 100万人民币

已完成科研项目:

  ·       中国科学院对外合作重点项目“多源卫星-地基联合碳同化技术研究(GJHZ1803)”,项目负责人,2018.01-2020.12, 100万人民币

  ·       国家重点研发计划 “陆地生态系统碳源汇监测技术及指标体系之课题” (课题号:2017YFC0503904)之专题“植被-大气间碳同位素通量的连续观测技术和方法”,专题负责人, 2018.01-2020.12 60万人民币

  ·       资源与环境信息系统国家重点实验室自主创新项目“星--地多源碳排放检测数据融合同化和系统集成研究(O88RA901YA)”,项目负责人, 2016.01-2019.12 200万人民币

  ·       国家科技支撑项目“国家生态系统观测评估技术系统集成研究与示范项目”之“中国陆地生态系统生产力和蒸散发模拟产品”专题负责人, 2013.01-2016.12 50万人民币

  ·       国家自然科学基金项目中国涡度相关通量塔空间代表性评估与碳源/汇尺度扩展研究41271116/D010106),项目负责人,2013.01 – 2016.1275万人民币

  ·       国家863重点项目基于碳卫星的遥感定量监测应用技术研究多源碳观测数据融合与同化技术研究课题(2013AA122002)之全球碳观测数据同化系统子课题负责人, 2013.01-2015.12150万人民币

  ·       国家973项目《全球不同区域陆地生态系统碳源汇演变驱动机制及其优化计算研究》中基于高塔CO2浓度数据和遥感-模型同化的区域碳源/汇研究专题(2010CB950900, 专题负责人,2010.06 - 2014.12120万人民币

  ·       战略性先导科技专项应对气候变化的碳收支认证及相关问题之子课题基于GCM模式的全球同化系统XDA05040403),课题组长,2011.01-2015.12 300万人民币

  ·       中科院百人计划项目景观和区域尺度CO2源汇分布以及陆地生态系统碳氮循环耦合过程对气候变化的响应研究 O9W90020ZZ),课题负责人,2009.06-2014.06200万人民币

  ·       国家自然科学基金项目景观和区域尺度陆地生态系统碳水耦合循环机理过程与固碳能力研究41071059),项目负责人, 2011.01 - 2013.12 45万人民币,

  ·       国家科技支撑计划项目《重大自然灾害风险损失等级评估与风险制图技术》之风险损失等级评估研究专题,2008.01-2011.12,人民币180万,

  ·       “Adaptation of Asia-Pacific Forests to Climate Change” funded by Asia-Pacific Network for Sustainable Forest Management and Rehabilitation (APFNet), (Investigator), US$2,211,000)                                                                            May 2012 – Oct. 2013

  ·       “Flux footprint simulation for groundplot upscaling and verification of spatially-explicit ecosystem models for the Chibougamau (EOBS), Add-on Project for the Canadian Carbon Program (CCP), funded by Canadian Foundation for Climate and Atmosphere Sciences (CFCAS)

  ·       $4,000 (PI and the only proposal writer)                                        May 2008 – Sept. 2009

  ·       “Canadian Carbon Program”, funded by CFCAS                          Mar. 2007 – Sept. 2009

  ·        “Impact of nitrogen fertilization of coastal Douglas-fir stands in British Columbia on forest productivity, carbon sequestration and greenhouse gas emissions”, funded by Natural Sciences and Engineering Research Council of Canada (NSERC)

  ·       $267,170 (Investigator)                                                                      Jan. 2007 – Dec. 2009

  ·        “Nested Global Inversion for North America Carbon Sinks/Sources with δ13CO2 Constraint”, funded by CFCAS

  ·        $299,000 (Key Investigator and leading role in writing proposal)     Jul. 2006 – Jul. 2009

  ·        “Tall tower measurements of trace gases and stable isotope in Saskatchewan”, funded by CFCAS

  ·       $158,000 (Co-PI and leading role in writing proposal)                    Sept. 2005 - Mar. 2007

  ·       "Ecosystem-coupled, nested atmospheric inversion for carbon fluxes over Canada's landmass", funded by CFCAS

  ·       $389,065  (Key Investigator and leading role in writing proposal)    Oct. 2003 - Oct. 2006

  ·       "Carbon balance estimation at landscape level from atmospheric CO2 and isotope concentration measurements", funded by CFCAS

  ·        $148,160 (Co-PI and leading role in writing proposal)    Sept. 2001 - Jan. 2004

代表论著:

  5篇代表作

  Chen, B*, Kayiranga, A., Ge, M., Philippe Ciais, Zhang, H., Black, A., Xiao, X., Yuan, W., Zeng, Z., & Piao, S. (2023). Anthropogenic activities dominated tropical forest carbon balance in two contrary ways over the Greater Mekong Subregion in the 21st century. Global Change Biology, 29(12), 3421–3432. https://doi.org/10.1111/gcb.16688IF = 11.6,中科院分区一区

  Chen, B*, Fang, J., Piao, S., Philippe Ciais, T. Andrew Black, Wang, F. H., Niu, S., Zeng, Z., & Luo, Y. (2023). A meta‐analysis highlights globally widespread potassium limitation in terrestrial ecosystems. New Phytologist, https://doi.org/10.1111/nph.19294IF = 9.4,中科院分区一区

  Chen B*, Chen F, Ciais P, et al. Challenges to achieve carbon neutrality of China by 2060: status and perspectives[J]. Science Bulletin, 2022, 67(20): 2030-2035.9 IF = 18.9,中科院分区一区

  Chen B*, Chen F, Ciais P, et al. Challenges to achieve carbon neutrality of China by 2060: status and perspectives[J]. Science Bulletin, 2022, 67(20): 2030-2035.9 IF = 18.9,中科院分区一区

  Chen B*, Guang Xu, Nicholas C. Coops, Philippe Ciais, John L. Innes, Guangyu Wang, Ranga B. Myneni, Tongli Wang, Judi Krzyzanowski, Qinglin Li, Lin Cao, Ying Liu, Changes in vegetation photosynthetic activity trends across the Asia-Pacific region over the last three decades, Remote Sensing of Environment, 2014.03.25, 144: 28-41IF = 14.0,中科院JCR期刊分区一区)

一、专著与参编书籍

  4. 陈报章 著(2017),《陆地表层系统模拟与分析》58万字,科学出版社,1-390页。

  3. 陈报章、张慧芳 著(2015),《全球碳同化系统及其应用研究》34.2万字, 科学出版社, 1-169 页。

  2. Baozhang Chen, Coupled terrestrial carbon and water dynamics in terrestrial ecosystems: Contributions of remote sensing, InTech, 17579, 2012.06.13

  1. Chen J. M., Baozhang Chen, K. Higuchi, D. Chan, L. Huang, D. Worthy, A. Shashkov, Usefulness of Air CO2 Measurements at a Continental Site: Carbon Cycle Information at the Landscape Level Near Fraserdale, Ontario, 2005, In: Report of the 12th WMO/IAEA Meeting of Experts on CO2 Concentration and Related Tracer Measurement Techniques, Toronto, 2003.09, WMO/GAW No.161, pp.116-121

二、SCI论文

2023

  100. Adil Dilawar, Chen B.*, Zia Ul-Haq, Amir, M., Arshad, A., Hassan, M., Guo, M., Muhammad Shafeeque, Fang, J., Boyang, S., & Zhang, H. (2023). Investigating the Potential Climatic Effects of Atmospheric Pollution across China under the National Clean Air Action Plan. Remote Sensing, 15(8), 2084–2084. https://doi.org/10.3390/rs15082084IF = 5.217,中科院分区二区

  99. Chen, B*, Fang, J., Piao, S., Philippe Ciais, T. Andrew Black, Wang, F. H., Niu, S., Zeng, Z., & Luo, Y. (2023). A meta‐analysis highlights globally widespread potassium limitation in terrestrial ecosystems. New Phytologist. https://doi.org/10.1111/nph.19294IF = 9.4,中科院分区一区

  98. Chen, B*, Kayiranga, A., Ge, M., Philippe Ciais, Zhang, H., Black, A., Xiao, X., Yuan, W., Zeng, Z., & Piao, S. (2023). Anthropogenic activities dominated tropical forest carbon balance in two contrary ways over the Greater Mekong Subregion in the 21st century.Global Change Biology, 29(12), 3421–3432. https://doi.org/10.1111/gcb.16688IF = 11.6,中科院分区一区

  97. Fang, J., Chen, B*., Zhang, H., Adil Dilawar, Guo, M., Li, C., Liu, S., Tewekel Melese Gemechu, & Zhang, X. (2023). Global Evaluation and Intercomparison of XCO2 Retrievals from GOSAT, OCO-2, and TANSAT with TCCON. Remote Sensing, 15(20), 5073–5073. https://doi.org/10.3390/rs15205073IF = 5.217,中科院分区二区

  96. Sun, S., Song, Z., Chen, B., Wang, Y., Ran, X., Fang, Y., Lukas Van Zwieten, Hartley, I. P., Wang, Y., Li, Q., Wu, L., Liu, C., & Wang, H. (2023). Current and future potential soil organic carbon stocks of vegetated coastal ecosystems and their controls in the Bohai Rim Region, China. CATENA, 225, 107023–107023. https://doi.org/10.1016/j.catena.2023.107023IF = 6.367,中科院分区一区

2022

        95. Chen B*, Ke Y, Ciais P, et al. Inhibitive effects of recent exceeding air temperature optima of vegetation productivity and increasing water limitation on photosynthesis reversed global greening. Earth's Future, 2022, 10(11): e2022EF002788. IF = 7.495,中科院分区一区

         94. Dilawar A, Chen B*, Ashraf A, et al. Development of a GIS based hazard, exposure, and vulnerability analyzing method for monitoring drought risk at Karachi, Pakistan. Geomatics, Natural Hazards and Risk, 2022, 13(1): 1700-1720. IF = 4.1998,中科院分区三区

  93. Kayiranga A, Chen B*, Wang F, et al. Spatiotemporal variation in gross primary productivity and their responses to climate in the great lakes region of sub-Saharan Africa during 2001–2020. Sustainability, 2022, 14(5): 2610. IF = 3.9,中科院分区三区

  92. Chen B*, Comparison of the Two Most Common Phenology Algorithms Imbedded in Land Surface Models[J]. Journal of Geophysical Research: Atmospheres, 2022, 127(21): e2022JD037167. IF = 5.217,中科院分区二区

  91. Chen B*, Chen F, Ciais P, et al. Challenges to achieve carbon neutrality of China by 2060: status and perspectives[J]. Science Bulletin, 2022, 67(20): 2030-2035.9 IF = 18.9,中科院分区一区

  90.Hou, K., Zhang, L., Xu, X., Yang, F., Chen, B., Hu, W. (2022). Ambient temperatures associated with increased risk of motor vehicle crashes in New York and Chicago. Science of the total environment, 830, 154731. IF = 18.9,中科院分区一区

  89. Lu, H., Qin, Z., Lin, S., Chen, X., Chen, B., He, B., ... & Yuan, W.(2022). Large influence of atmospheric vapor pressure deficit on ecosystem production efficiency. Nature communications, 13(1), 1653. IF = 16.6中科院分区一区

2021

  88. Dilawar, A., Chen, B*., Arshad, A., Guo, L., Ehsan, M. I., Hussain, Y., Kayiranga, A., Measho, S., Zhang, H., Wang, F., Sun, X., & Ge, M. (2021). Towards Understanding Variability in Droughts in Response to Extreme Climate Conditions over the Different Agro-Ecological Zones of Pakistan. Sustainability, 13(12), 6910. https://doi.org/10.3390/su13126910 IF = 3.889,中科院分区三区

  87. Guo, L., Chen, B*., Zhang, H., & Fang, J. (2021). Prediction and Source Contribution Analysis of PM2.5 Using a Combined FLEXPART Model and Bayesian Method over the Beijing-Tianjin-Hebei Region in China. Atmosphere, 12(7), 860. https://doi.org/10.3390/atmos12070860IF =  2.397,中科院分区四区

  86. Li, J., & Chen, B* (2021). Optimal Solar Zenith Angle Definition for Combined Landsat-8 and Sentinel-2A/2B Data Angular Normalization Using Machine Learning Methods. remote sensing, 13(13), 2598–2598. https://doi.org/10.3390/rs13132598IF = 5.217,中科院分区二区

  85. Sun, S., Che, T., Gentine, P., Chen, Q., Wang, L., Zhang, Y., & Chen, B. (2021). Shallow groundwater inhibits soil respiration and favors carbon uptake in a wet alpine meadow ecosystem. Agricultural and Forest Meteorology, 297, 108254–108254. https://doi.org/10.1016/j.agrformet.2020.108254IF = 5.734,中科院分区一区

  84. Sun, S., Du, W., Song, Z., Zhang, D., Wu, X., Chen, B., & Wu, Y. (2021). Response of Gross Primary Productivity to Drought Time‐Scales Across China. Journal of Geophysical Research: Biogeosciences, 126(4). https://doi.org/10.1029/2020jg005953IF = 4.295,中科院分区三区

  83. Dilawar, A.; Chen, B*; Guo, L.; Liu, S.; Shafeeque, M.; Arshad, A.; Hussain, Y.; Qureshi, M.A.;

  Kayiranga, A.; Wang, F.; et al. Evaluation the WRF Model with Different Land Surface Schemes: Heat Wave Event Simulations and Its Relation to Pacific Variability over Coastal Region, Karachi, Pakistan. Sustainability 2021, 13, 12608. https://doi.org/10.3390/su132212608IF = 3.889,中科院分区三区

  82. Kayiranga A, Chen Baozhang*, Guo L, et al., Spatiotemporal variations of forest ecohydrological characteristics in the Lancang-Mekong region during 1992-2016 and 2020-2099 under different climate scenarios. Agricultural and Forest Meteorology, 2021, doi.org/10.1016/j.agrformet.2021.108662. SCI,IF = 5.7,中科院分区一区; T1

  81. Kayiranga A, Chen Baozhang* Zhang H , et al. Spatially explicit and multiscale ecosystem shift probabilities and risk severity assessments in the greater Mekong subregion over three decades. Science of The Total Environment, 2021, doi.org/10.1016/j.scitotenv.2021.149281. SCI, IF = 7.96,中科院分区一区; T1

  80. Dilawar, Adil, Baozhang Chen*, Yongyut Trisurat, Venus Tuankrua, Arfan Arshad, Yawar Hussain, Simon Measho et al. "Spatiotemporal shifts in thermal climate in responses to urban cover changes: a-case analysis of major cities in Punjab, Pakistan." Geomatics. Natural Hazards and Risk 12(1), 2021: 763-793.

  79. Measho, S., Chen, Baozhang*., Pellikka, P., Guo, L., Zhang, H., Cai, D., Sun, S., Kayiranga, A., Sun, X. and Ge, M., 2021. Assessment of Vegetation Dynamics and Ecosystem Resilience in the Context of Climate Change and Drought in the Horn of Africa. Remote Sensing, 13(9), p.1668. IF = 4.8, 中科院分区二);T2

  78. Baozhang Chen, Huifang Zhang, Tao Wang, Xiaoye Zhang, An atmospheric perspective on the carbon budgets of terrestrial ecosystems in China: progress and challenges. Science Bulletin, 2021, doi.org/10.1016/j.scib.2021.05.017. IF=11.78,中科院分区一区), T1

2020

  77.Sun S, Song Z, Chen X, Wang T, Zhang Y, Zhang D, Zhang H, Hao Q, Chen B*(通讯作者. Multimodel‐based analyses of evapotranspiration and its controls in China over the last three decades. Ecohydrology. 2020 Apr;13(3):e2195. 中科院分区:二区IF=2.77

  76. Li J, Chen B. Global Revisit Interval Analysis of Landsat-8-9 and Sentinel-2A-2B Data for Terrestrial Monitoring. Sensors. 2020;20(22):6631. 中科院分区:二区IF=3.3

  75. Measho, S., Chen, B*(通讯作者)., Pellikka, P., Trisurat, Y., Guo, L., Sun, S., & Zhang, H. (2020). Land use/land cover changes and associated impacts on water yield availability and variations in the Mereb‐Gash River Basin in the Horn of Africa. Journal of Geophysical Research: Biogeosciences, 125, e2020JG005632. https://doi.org/ 10.1029/2020JG005632. 中科院分区:二区IF=3.621

  74. Kayiranga A, Baozhang Chen*(通讯作者), Trisurat Y, Ndayisaba F, Sun S, Tuankrua V, et al. Water use efficiency based multi‐scale assessment of eco‐hydrological resilience to ecosystem shifts over the continent of Africa during 1992‐2015. J Geophys Res Biogeosciences n.d.:e2020JG005749.中科院分区:二区IF=3.621

  73. Guo L, Baozhang Chen*(通讯作者), Zhang H, Zhang Y. A new approach combining a simplified FLEXPART model and a Bayesian-RAT method for forecasting PM 10 and PM 2.5. Environ Sci Pollut Res 2020;27:2165–83.中科院分区:三区IF=3.00

  72. Ge M, Baozhang Chen*(通讯作者). Characteristics of δD and δ18O of Reclaimed Mine Soil Water Profile and Its Source Water Bodies in a Coal Mining Subsidence Area with High Groundwater Level—A Case Study from the Longdong Coal Mining Subsidence Area in Jiangsu Province, China. Water 2020;12:274. 中科院分区:三区,IF=2.544

  71. Usoltsev, V.A.; Baozhang Chen**(通讯作者), Shobairi, S.O.R.; Tsepordey, I.S.; Chasovskikh, V.P.; Anees, S.A. Patterns for Populus spp. Stand Biomass in Gradients of Winter Temperature and Precipitation of Eurasia. Forests 2020, 11, 906. (中科院分区:二区,IF=2.453

  70. Fei Wang,Baozhang Chen*(通讯作者), Xiaofeng Lina, Huifang Zhang, Solar-induced chlorophyll fluorescence as an indicator for determining the end date of the vegetation growing season, Ecological Indicators, 109, 2020(2), 105755. 中科院JCR期刊分区二区

2019

  69. Lifeng Guo, Baozhang Chen**(通讯作者), Huifang Zhang & Yanhu Zhang,  A new approach combining a simplified FLEXPART model and a Bayesian-RAT method for forecasting PM10 and PM2.5, Environmental Science and Pollution Research, 2019 (11), DOI 10.1007/s11356-019-06605-w. 中科院JCR期刊分区三区

  68.  Yawen Kong, Baozhang Chen**(通讯作者) and Simon Measho,  Spatio-Temporal Consistency Evaluation of XCO2 Retrievals from GOSAT and OCO-2 Based on TCCON and Model Data for Joint Utilization in Carbon Cycle Research, Atmosphere 2019, 10, 354; doi:10.3390/atmos10070354. 中科院JCR期刊分区三区

  67. Guangyu Wang, Oliver Z. Ma, Liguo Wang, Anil Shrestha,  Baozhang Chen, Feng Mi,  Shirong Liu, Xiaomin Guo,  Sarah Eshpeter,  John L. Innes . Local perceptions of the conversion of cropland to forestland program in Jiangxi, Shaanxi, and Sichuan, China, Journal of Forest Research,2019, DOI 10.1007/s11676-018-0870-8, https://doi.org/10.1007/s11676-018-0870-8

  66. Oliver Z. Ma, Guangyu Wang, Guibin Wang, Liguo Wang, Baozhang Chen, Feng Mi, Anil Shrestha, Sarah Eshpeter, Yong Pang, Shirong Liu, Xiaomin Guo & John L. Innes,  (2019) Technical efficiency analysis of the conversion of cropland to forestland program in Jiangxi, Shaanxi, and Sichuan, International Journal of Sustainable Development & World Ecology, DOI: 10.1080/13504509.2019.1620379

  65. Huiyu Jin, Baozhang Chen*(通讯作者), Shaobo Sun, Huifang Zhang, Simon Measho, Xiaofeng Lin and Lifeng Guo, Spatially Explicit Modeling of Coupled Water and Carbon Processes Using a Distributed Ecohydrological Model in the Upper Heihe Watershed, China Water, 2019, 11(6), 1242; https://doi.org/10.3390/w11061242 (registering DOI) - 13 June 2019. 中科院JCR期刊分区三区

  64. Xiaofeng Lin  Baozhang Chen*(通讯作者), Huifang Zhang, Fei Wang, Jing Chen, Lifeng Guo and Yawen KongEffects of the Temporal Aggregation and Meteorological Conditions on the Parameter Robustness of OCO-2 SIF-Based and LUE-Based GPP Models for CroplandsRemote Sensing, 2019, 11(11), 1328; DOI 10.13140/RG.2.2.18967.27042. 中科院JCR期刊分区二区

  63. Lu L, Chen B*(通讯作者), Guo L, et al. A regional data assimilation system for estimating CO surface flux from atmospheric mixing ratio observations—a case study of Xuzhou, China[J]. Environmental Science and Pollution Research, 20192),DOI10.1007/s11356-019-04246-7. 中科院JCR期刊分区三区

  62. Xu G, Chen B*. Generating a series of land covers by assimilating the existing land cover maps[J]. ISPRS Journal of Photogrammetry and Remote Sensing, 2019, 147: 206-214. 中科院JCR期刊分区一区

  61. Measho S, Chen B*(通讯作者), Trisurat Y, et al. Spatio-Temporal Analysis of Vegetation Dynamics as a Response to Climate Variability and Drought Patterns in the Semiarid Region, Eritrea[J]. Remote Sensing, 2019, 11(6): 724. 中科院JCR期刊分区二区

2018

  60.  Li L, Chen B*(通讯作者), Zhang Y, et al. Retrieval of Daily PM2. 5 Concentrations Using Nonlinear Methods: A Case Study of the Beijing–Tianjin–Hebei Region, China [J]. Remote Sensing, 2018, 10(12): 2006. 中科院JCR期刊分区二区

  59. Lijiang Lu, Baozhang Chen*(通讯作者), Lifeng Guo, Huifang Zhang, Yanpeng Li. A regional data assimilation system for estimating CO surface flux from atmospheric mixing ratio observations—a case study of Xuzhou, China [J]. Environmental Science and Pollution Research, 2019: 1-10. 中科院JCR期刊分区三区

  58. Shaobo Sun, Zhaoliang Songa, Xiuchen Wub, Tiejun Wang, Yuntao Wu, Wenli Du,Tao Ched, Chunlin Huangd, Xuejun Zhang, Bo Ping, Xiaofeng Line, Pan Lie, Yaoxian Yange, Baozhang Chen*(通讯作者). Spatio-temporal variations in water use efficiency and its drivers in China over the last three decades, Ecological Indicators, 2018, 943): 292-304. 中科院JCR期刊分区二区

  57. Lifeng Guo, Baozhang Chen*(通讯作者), Huifang Zhang Guang Xu, Lijiang Lu, Xiaofeng Lin, Yawen Kong, Fei WangYanpeng Li. Improving PM2.5 Forecasting and Emission Estimation Based on the Bayesian Optimization Method and the Coupled FLEXPART-WRF Model, Atmosphere 2018, 9(11), 428; https://doi.org/10.3390/atmos9110428. 中科院JCR期刊分区四区

2017

  56. Xue Wang, Kun Tan,Baozhang Chen,  Peijun Du 2017, Assessing the Spatiotemporal Variation and Impact Factors of Net Primary Productivity in China, Scientific RepoRts, 2017, 7:44415, DOI: 10.1038/srep44415. 中科院JCR期刊分区二区

  

  55. Yang D, Zhang H, Liu Y, Chen B. Monitoring Carbon Dioxide from Space:Retrieval Algorithm and Flux Inversion Based on GOSAT Data and Using CarbonTracker-China[J]. Advances in Atmospheric Sciences 2017, 34(8):965-976. 中科院JCR期刊分区四区

  54. KONG Yawen, ZHANG Xiuzhi, SHENG Lifang, CHEN Baozhang Validation and application of multi-source altimeter wave data in China’s offshore areasActa Oceanol. Sin., 2016, Vol. 35, No. 11, P. 86–96.

  53. Shaobo Sun, Baozhang Chen*(通讯作者), Quanqin Shao, Jing Chen, Jiyuan Liu, Xuejun Zhang, Huifang Zhang, Xiaofeng Lin, Modeling evapotranspiration over China’s landmass from 1979-2012 using multi-land surface models:  Evaluations and analyses, Journal of Hydrometeorology, 2017, 18(4) DOI: 10.1175/JHM-D-16-0212.11185-120. 中科院JCR期刊分区二区

  52. Xiaofeng Lin, Baozhang Chen*(通讯作者), Jing Chen, Huifang Zhang, Shaobo Sun, Guang Xu, Lifeng Guo, Mengyu Ge, Junfeng Qu, Lijuan Li, Yawen Kong, Season al fluctuations of photosynthetic parameters for light use efficiency models and the impacts on gross primary production estimation, Agricultural and Forest Meteorology, 2017.01.19, 236: 22-35中科院JCR期刊分区一区

2016

  51. Shaobo Sun, Baozhang Chen*(通讯作者), Jing Chen, Mingliang Che, Huifang Zhang,  Comparison of remotely-sensed and modeled soil moisture using CLM4.0 with in situ measurements in the central Tibetan Plateau area, Cold Regions Science and Technology, 2016.09.01, DOI 10.1016/j.coldregions.2016.06.005129: 31-44. 中科院JCR期刊分区三区

  50. Shaobo Sun, Baozhang Chen*(通讯作者), Mengyu Ge, Junfeng Qu, Tao Che, Huifang Zhang, Xiaofeng Lin, Dawn Che, Zhou Ziyuan, Lifeng Guo, Bingyang Wang, Improvin g soil organic carbon parameterization of land surface model for cold regions in the Northeastern Tibetan Plateau, China, Ecological Modelling, 2016.06.24, 33 0: 1-15. 中科院JCR期刊分区三区

  49. Baozhang Chen*(通讯作者), Guang Xu,  Nicholas C. Coops,  Philippe Ciais,  RangaB.Myneni,  Satellite-observed changes in terrestrial vegetation growth trends across the Asia-Pacific region associated with land cover and climate from 1982 to 2011,  International Journal of Digital Earth,2016.05.19, 9(11): 1055-1076. 中科院JCR期刊分区三区

  48. Xiang Zhang, Baozhang Chen*(通讯作者), Hongdong Fan, Jilei Huang, Hui Zhao, Soi l Moisture Retrieval over a Semiarid Area by Means of PCA Dimensionality Reduction, Canadian Journal of Remote Sensing, 2016.04.08, 42(2): 136-144. 中科院JCR期刊分区三区

  47. Fei Jiang, Jing M. Chen, Lingxi Zhou, Weimin Ju, Huifang Zhang, Toshinobu Machida, Philippe Ciais, Wouter Peters, Hengmao Wang, Baozhang Chen, Lixin Liu, Chunhua Zhang, Hidekazu Matsueda, Yousuke Sawa, A comprehensive estimate of recent carbon sinks in China using both top-down and bottom-up approaches, Scientific Reports, 2016.02.29, 6. 中科院JCR期刊分区二区

2015

  46 Xiang Zhang, Baozhang Chen*(通讯作者), Hongdong Fan, Jilei Huang, Hui Zhao, Th e Potential Use of Multi-Band SAR Data for Soil Moisture Retrieval over Bare Agricultural Areas:  Heber,  China, Remote Sensing, 2015.12.23, 8(1): 7-20.中科院JCR期刊分区二区

  45. Xianming Dou, Baozhang Chen*(通讯作者), T. Andrew Black, Rachhpal S. Jassal, Mingliang Che, Impact of Nitrogen Fertilization on Forest Carbon Sequestration and Water Loss in a Chronosequence of Three Douglas-Fir Stands in the Pacific Northwest, Forests, 2015.06.01, 6(6): 1897-1921

  44. Colin J Ferster, JA Tony Trofymow, Nicholas C Coops, Baozhang Chen, Thomas Andrew Black, Comparison of carbon-stock changes, eddy covariance carbon fluxes and model estimates in coastal Douglas-fir stands in British Columbia, Forest Ecosystems, 2015.05.07, 2(1): 13. 中科院JCR期刊分区二区

  43. Huifang Zhang, Baozhang Chen*(通讯作者), Guang Xu, Jianwu Yan, Mingliang Che, Jing Chen, Shifeng Fang, Xiaofeng Lin, Shaobo Sun, Comparing simulated atmospheric carbon dioxide concentration with GOSAT retrievals, Science Bulletin, 2015.02.01, 60(3): 380-386. 中科院JCR期刊分区三区

2014

  42. Janwu Yan, Jiyuan Liu, Baozhang Chen*(通讯作者), Min Feng, Shifeng Fang, Guang Xu, Huifang Zhang, Dawn Che, Wei Liang, Yunfeng Hu, W. H. Kuang, Huimin Wang, Changes in the Land Surface Energy Budget in Eastern China over the Past Three Decades:  Contributions of Land-Cover Change and Climate Change, Journal of Climate, 2014.12.01, 27(24): 9233-9252. 中科院JCR期刊分区二区

  41. Baozhang Chen*(通讯作者), Huifang Zhang, Nicholas C. Coops, Dongjie Fu, Douglas E. J. Worthy, Guang Xu, T. Andy Black, Assessing scalar concentration footprint climatology and land surface impacts on tall-tower CO2 concentration measurements in the boreal forest of central Saskatchewan, Canada, Theoretical and applied climatology, 2014.10.15, 118(1-2): 115-132. 中科院JCR期刊分区三区

  40. Mingliang Che, Baozhang Chen*(通讯作者), Huifang Zhang, Shifeng Fang, Guang Xu, Xiaofeng Lin, Yuchen Wang, A New Equation for Deriving Vegetation Phenophase from Time Series of Leaf Area Index (LAI) Data, Remote Sensing, 2014.06.17, 6(6): 5650-5670. 中科院JCR期刊分区二区

  39. Guang Xu, Hairong Zhang , Baozhang Chen*(通讯作者), Huifang Zhang, Jianwu Yan, Jing Chen, Mingliang Che, Xiaofeng Lin, Xianming Dou, A Bayesian Based Method to Generate a Synergetic Land-Cover Map from Existing Land-Cover Products, Remote Sensing, 2014.06.16, 6(6): 5589-5613. 中科院JCR期刊分区二区

  38. H.F. Zhang, Baozhang Chen*(通讯作者), I. T. van der Laan-Luijkx, T. Machida, H. Matsueda, Y. Sawa, Y. Fukuyama, C. Labuschagne, R. Langenfelds, M. van der Schoot, G. Xu, J. W. Yan, L. X. Zhou, P. P. Tans, W. Peters, Estimating Asian terrestrial carbon fluxes from CONTRAIL aircraft and surface CO2 observations for the period 2006-2010, Atmospheric Chemistry and Physics, 2014.06.11, 14(11): 5807-5824中科院JCR期刊分区一区

  37. Mingliang Che, Baozhang Chen*(通讯作者), John L. Innes, Guangyu Wang, Xianming Dou, Tianmo Zhou, Huifang Zhang, Jianwu Yan, Guang Xu, Hongwei Zhao, Spatial and temporal variations in the end date of the vegetationgrowing season throughout the Qinghai–Tibetan Plateau from 1982 to 2011, Agricultural and Forest Meteorology, 2014.06.01, 189-190: 81-90中科院JCR期刊分区一区

  36. Jing Chen, Huifang Zhang*, Zirui Liu, Mingliang Che, Baozhang Chen*(通讯作者), Evaluating parameter adjustment in MODIS gross primary production algorithm based on eddy covariance tower measurements, Remote Sensing, 2014.04.14, 6(4): 3321-3348. 中科院JCR期刊分区二区

  35. Guang Xu, Huifang Zhang*, Baozhang Chen*(通讯作者), Hairong Zhang, John L. Innes, Guangyu Wang, Jianwu Yan, Yonghong Zheng, Zaichun Zhu, Ranga B. Myneni, Changes in Vegetation Growth Dynamics and Relations with Climate over China's Landmass from 1982 to 2011, Remote Sensing, 2014.04.01, 6(4): 3263-3283. 中科院JCR期刊分区二区

  34.Baozhang Chen*(通讯作者), Guang Xu, Nicholas C. Coops, Philippe Ciais, John L. Innes, Guangyu Wang, Ranga B. Myneni, Tongli Wang, Judi Krzyzanowski, Qinglin Li, Lin Cao, Ying Liu, Changes in vegetation photosynthetic activity trends across the Asia-Pacific region over the last three decades, Remote Sensing of Environment, 2014.03.25, 144: 28-41中科院JCR期刊分区一区

  33. H. F. Zhang, Baozhang Chen*(通讯作者), I. T. van der Laan?Luijkx, G. Xu, J. W. Yan, L. X. Zhou, Y. Fukuyama, P. P. Tans, W. Peters, Net terrestrial CO2 exchange over China during 2001-2010 estimated with an ensemble data assimilation system for atmospheric CO2, Journal of Geophysical Research, 2014.03.20, 119(6): 3500-3515. 中科院JCR期刊分区二区

  32. Dongjie Fu, Baozhang Chen*(通讯作者), Huifang Zhang, Juan Wang, T. Andy Black, Brian Amiro, Gil Bohrer, Paul Bolstad, Richard Coulter, Faiz Rahmani, Allison Dunn, McCaughey Harry, Tilden Meyers, Shashi Verma, Estimating landscape net ecosystem exchange at high spatial–temporal resolution based on Landsat data,  an improved upscaling model framework,  and eddy covariance flux measurements, Remote Sensing of Environment, 2014.02.05, 141: 90-104中科院JCR期刊分区一区

2013

  31. Jing Chen, Baozhang Chen*(通讯作者), T. Andrew Black, John L. Innes, Guangyu Wang, Gerard Kiely, Takashi Hirano, Georg Wohlfahrt, Comparison of terrestrial evapotranspiration estimates using the mass transfer and Penman-Monteith equations in land surface models, Journal of Geophysical Research, 2013.12.13,  118(4): 1715-1731. 中科院JCR期刊分区二区

  30. Dongjie Fu, Baozhang Chen*(通讯作者), Juan Wang, Xiaolin Zhu, Thomas Hilker, An Improved Image Fusion Approach Based on Enhanced Spatial and Temporal the Adaptive Reflectance Fusion Model, Remote Sensing, 2013.12.01, 5(12): 6346-6360. 中科院JCR期刊分区二区

  29. Jianwu Yan, Baozhang Chen*(通讯作者), Min Feng, John L. Innes, Guangyu Wang, Shifeng Fang, Guang Xu, Huifang Zhang, Dongjie Fu, Huimin Wang, Guirui Yu, Xiaomin Sun, Research on Land Surface Thermal-Hydrologic Exchange in Southern China under Future Climate and Land Cover Scenarios, Advances in Meteorology, 2013.01.01, 2013: 1-12

2012

  28. Baozhang Chen*(通讯作者), Nicholas C. Coops, Dongjie Fu, Hank A. Margoli, Brian .Amiro, Alan G. Barr, T. Andrew Black, M. Altaf Arain, Charles P.-A. Bourque, Lawrence B. Flanagan, Peter M. Lafleur, J. Harry McCaughey, Steven C. Wofsy, Characterizing spatial representativeness of flux tower eddy-covariance measurements across the Canadian Carbon Program Network using remote sensing and footprint analysis, Remote Sensing of Environment, 2012.06.03, 124: 742-755中科院JCR期刊分区一区

2011

  27. Wang Z., Grant R.F., Arain M.A., Chen B.N., Coops N.C., Hember R, KurzW.A., Price D.T., Stinson G., Trofymow J.A., Yeluripati J., Baozhang Chen, Eval uating weather effects on interannual variation in net ecosystem productivity of a coastal temperate forest landscape:  A model intercomparison, Ecological Modelling, 2011.07.11, 222(17): 3236-3249. 中科院JCR期刊分区三区

  26. Ferster C.J., Trofymow J.A., Coops N.C., Baozhang Chen, Black A.T., Gougeon A.F., Determination of ecosystem carbon-stock distributions in the flux footprint of an eddy-covariance tower in a coastal forest in British Columbia, Canadian journal of forest research, 2011.07.05, 41(7): 1380-1393

  25. Christian Brümmer, T. Andrew Black, Rachhpal S. Jassal, Nicholas J.Grant, David L. Spittlehouse, Baozhang Chen, Zoran Nesic, Brian D. Amiro, M. Altaf Arain, Alan G. Barr, Charles P.-A. Bourque, Carole Coursolle, Allison L. Dunn, Lawrence B. Flanagan, Elyn R. Humphreys, Peter M. Lafleur, Hank A. Margolis, J. Harry McCaughey, Steven C. Wofsy, How climate and vegetation type influence evapotranspiration and water use efficiency in Canadian forest,  peatland and grassland ecosystems, Agricultural and Forest Meteorology, 2011.05.14, 153: 14-30中科院JCR期刊分区一区

  24. Baozhang Chen*(通讯作者), Nicholas C. Coops, T. Andy Black, Rachhpal S. Jassal, Jing M. Chen, Mark Johnson, Modeling to discern nitrogen fertilization impacts on carbon sequestration in a Pacific Northwest Douglas-fir forest in the first post-fertilization year, Global Change Biology, 2011.03.01, 17(3): 14 42-1460中科院JCR期刊分区一区

  23. Baozhang Chen*(通讯作者), Nicholas C. Coops, Dongjie Fu, Hank A. Margolis, Brian D. Amiro, Alan G. Barr, T. Andrew Black, M. Altaf Arain, Charles P.-A. Bourque, Lawrence B. Flanagan, Peter M. Lafleur, J. Harry McCaughey, Steven C. Wofsy, Assessing eddy-covariance flux tower location bias across the Fluxnet-Canada Research Network based on remote sensing and footprint modelling, Agricultural and Forest Meteorology, 2011.01.15, 151(1):  87-100 中科院JCR期刊分区一区

2010

  22. Baozhang Chen*(通讯作者), Quansheng Ge, Dongjie Fu, Guirui Yu, Xiaomin Sun, Shaoqiang Wang, Huimin Wang, A data-model fusion approach for upscaling gross ecosystem productivity to the landscape scale based on remote sensing and flux footprint modelling, Biogeosciences, 2010.09.27, 7(9): 2943-2958. 中科院JCR期刊分区二区

2009

  21. Praveena Krishnan, T. Andrew Black, Rachhpal S. Jassal, Baozhang Chen, Zoran Nesic, Interannual variability of the carbon balance of three different-aged Douglas-fir stands in the Pacific Northwest, Journal of Geophysical Research:  Biogeosciences, 2009.11.24, 114(G4): 355-355. 中科院JCR期刊分区二区

  20. Baozhang Chen*(通讯作者), Coops N.C., Understanding of Coupled Terrestrial Carbon, Nitrogen and Water Dynamics-An Overview, Sensors, 2009.11.01, 9(11):  8624-8657.

  19. Eva van Gorsel, Nicolas Delpierre, Ray Leuning, Andy Black, J. William Munger, Steven Wofsy, Marc Aubinet, Christian Feigenwinter, Jason Beringer, Damien Bonal, Baozhang Chen, Jiquan Chen, Robert Clement, Kenneth J. Davis, Ankur R. Desai, Danilo Dragoni, Sophia Etzold, Thomas Grünwald, Lianhong Gu, Bernhard Heinesch, Lucy R. Hutyra, Wilma W.P. Jans, Werner Kutsch, B.E. Law, Monique Y. Leclerc, Ivan Mammarella, Leonardo Montagnani, Asko Noormets, Corinna Rebmann, Sonia Wharton, Estimating nocturnal ecosystem respiration from the vertical turbulent flux and change in storage of CO2, Agricultural and Forest Meteorology, 2009.08.04, 149(11): 1919-1930中科院JCR期刊分区一区

  18. Baozhang Chen*(通讯作者), T.A. Black, N.C. Coops, P. Krishnan, R. Jassal, C. Bruemmer, Z. Nesic, Seasonal controls on interannual variability in carbon dioxide exchange of a nearendof rotation Douglasfir stand in the Pacific Northwest,  1997–2006, Global Change Biology, 2009.08.01, 15(8): 1962-1981中科院JCR期刊分区一区

  17. Baozhang Chen*(通讯作者), T.A. Black, N.C. Coops, T. Hilker, T. Trofymow, K. Morgenstern, Assessing tower flux footprint climatology and scaling between remotely sensed and eddy covariance measurements, Boundary-Layer Meteorology, 2009.02.01, 130(2): 137-167. 中科院JCR期刊分区三区

2008

  16. Jassal R. S., T. A. Black, Baozhang Chen, R. Roy, Z. Nesic, D.L. Spittlehouse, A.J. Trofymow, N2O emissions and carbon sequestration in a nitrogenfertilized Douglas fir stand, Journal of Geophysical Research: Biogeosciences, 2008.12.01, 113(G4):  373-381. 中科院JCR期刊分区二区

  15. Thomas Hilker, Nicholas C. Coops, Forrest G. Hall, T. Andrew Black, Baozhang Chen, Praveena Krishnan, Michael A. Wulder, Piers J. Sellers, Elizabeth M. Middleton, Karl F. Huemmrich, A modeling approach for upscaling gross ecosystem production to the landscape scale using remote sensing data, Journal of Geophysical Research: Biogeosciences, 2008.09.01, 113(G3): 212-221. 中科院JCR期刊分区二区

  14. Baozhang Chen*(通讯作者), Jing M. Chen, Gang Mo, T. Andrew Black, Comparison of regional carbon flux estimates from CO2 concentration measurements and remote sensing based footprint integration, Global Biogeochemical Cycles, 2008.06.01, 22(2): 148-161中科院JCR期刊分区一区

2007

  13. Baozhang Chen*(通讯作者), Jing M. Chen, Weimin Ju, Remote sensing-based ecosystem–atmosphere simulation scheme (EASS)—Model formulation and test with multiple-year data, Ecological Modelling, 2007.12.16, 209(2): 277-300. 中科院JCR期刊分区三区

  12. Baozhang Chen*(通讯作者), J. M. Chen, Diurnal,  seasonal and interannual variability of carbon isotope discrimination at the canopy level in response to environmental factors in a boreal forest ecosystem, Plant,  cell & environment, 2007.10.01, 30(10): 1223-1239中科院JCR期刊分区一区

  11. Jing M. Chen, Baozhang Chen, Pieter Tans, Deriving daily carbon fluxes from hourly CO2 mixing ratios measured on the WLEF tall tower:  An upscaling methodology, Journal of Geophysical Research:  Biogeosciences, 2007.05.01, 112(G1): 393-398. 中科院JCR期刊分区二区

  10. Baozhang Chen*(通讯作者), Jing M. Chen, Gang Mo, Chiu-Wai Yuen, Hank Margolis, Kaz Higuchi, Douglas Chan, Modeling and scaling coupled energy, water, and carbon fluxes based on remote sensing:  an application to Canada’s landmass, Journal of Hydrometeorology, 2007.04.01, 8(2): 123-143. 中科院JCR期刊分区二区

2006

  9. Weimin Ju, Jing M. Chen, T. Andrew Black, Alan G. Barr, Jane Liu, Baozhang Chen, Modelling multi-year coupled carbon and water fluxes in a boreal aspen forest, Agricultural and Forest Meteorology, 2006.11.30, 140(1): 136-151中科院JCR期刊分区一区

  8. Baozhang Chen*(通讯作者), J. M. Chen, L. Huang, P. P. Tans, Simulating dynamics of δ13C of CO2 in the planetary boundary layer over a boreal forest region:  Covariation between surface fluxes and atmospheric mixing, Tellus B, 2006.11.01 58(5): 537-549. 中科院JCR期刊分区二区

  7. Baozhang Chen*(通讯作者), J. M. Chen, L. Huang, P. P. Tans, Modeling dynamics of stable carbon isotopic exchange between a boreal forest ecosystem and the atmosphere, Global Change Biology, 2006.10.01, 12(10): 1842-1867中科院JCR期刊分区一区

  6. Jing M. Chen, Baozhang Chen, Kaz Higuchi, Jane Liu, Douglas Chan, Douglas Worthy, Pieter Tans, Andy Black, Boreal ecosystems sequestered more carbon in warmer years, Geophysical research letters, 2006.05.01, 33(10): 229-237. 中科院JCR期刊分区二区

2005

  5. Kaz Higuchi, Alexander Shashkov, Douglas Chan, Nobuko Saigusa, S. Murayama, S. Yamamoto, Hiroaki Kondo, Jing M. Chen, Jane Liu, Baozhang Chen, Simulations of Seasonal and Inter-annual Variability of gross primary productivity at Takayama with BEPS Ecosystem Model, Agricultural and forest meteorology, 2005.12.15, 134(1) : 143-150中科院JCR期刊分区一区

  4. Baozhang Chen*(通讯作者), J. M. Chen, D. E. J. Worthy, Interannual variabilityin the atmospheric CO2 rectification over a boreal forest region, Journal of Geophysical Research: Atmospheres, 2005.08.27, 110(D16): 2227-2252. 中科院JCR期刊分区二区

2004

  3. Baozhang Chen*(通讯作者), Jing M. Chen, Jane Liu, Douglas Chan, Kaz Higuchi, Alexander Shashkov, A Vertical Diffusion Scheme to estimate the atmospheric rectifier effect, Journal of Geophysical Research, 2004.02.21, 109. 中科院JCR期刊分区二区

1997

  2. Baozhang Chen*(通讯作者), Qinhua Jiang, Antiquity of the earliest cultivated rice in central China and its implications, Economic Botany, 1997.07.01, 51(3 ): 307-310

1995

  1. Baozhang Chen*(通讯作者), Juzhong Zhang, Houyuan Lu, Discovery of rice phytolith in the Neolithic site at Jiahu in Henan Province and its significance , Chinese Science Bulletin, 1995.07.01, 40(14): 1186-1191

三、中文期刊论文

  47.陈美玲袁国富陈报章.耦合叶肉导度的陆面过程模型中最大叶肉导度参数的敏感性分析.生态学报202444().

  46.汪涛,王晓昳,陈报章.青藏高原碳汇现状及其未来趋势[J].中国科学:地球科学,2023,53(07):1506-1516.

  45. 宋柏泱,陈报章*.巴基斯坦瓜达尔港地区干旱灾害风险评估[J].地理研究,2022,41(08):2251-2264.

  44. 王菲,陈报章*,陈婧等.华北平原冬小麦——夏玉米轮作区DLMCLM5模型模拟对比研究[J].地理科学进展,2022,41(02):289-303.

  43.  林晓凤, 陈报章*. DLM-FvCB 模型光合能力关键参数季节性参数化方案及模拟效果评估 [J]. 地理科学,2022,42(7):1260-1271.[Lin Xiaofeng, Chen Baozhang. Seasonal parameterization scheme of key photosynthetic parameter and simulation effect evaluation of DLM-FvCB Model. Scientia Geographica Sinica,2022,42(7):1260- 1271.] doi: 10.13249/j.cnki.sgs.2022.07.013

  42. 陈报章,渠俊峰,葛梦玉,.徐州市水土流失时空变化研究[J].地球信息科学学报,2018,20(11):1622-1630. [ Chen B Z, Qu J F, Ge M Y, et al. Tempo-spatial analysis on soil erosion over Xuzhou City[J]. Journal of Geo-information Science, 2018,20(11):1622- 1630. ] DOI:10.12082/dqxxkx.2018.180091

  41. 丁愫,陈报章*,王瑾,等.2018.基于决策树的统计预报模型在臭氧浓度时空分布预测中的应用研究[J].环境科学学报,38(8):3229- 3242.

  40. 孙少波,陈报章*,车涛,等. 2017 青藏高原季节性冻土湿度模拟及参数优化———以黑河上游为例[ J 高原气象, 36(3): 643656 Sun Shaobo Chen Baozhang Che Tao et al 2017 Simulating the QinghaiTibetan Plateau seasonal frozen soil moisture and improving models parameters——— A case study in the upper reaches of Heihe River J Plateau Meteorology 36(3): 643656DOI: 10 7522 /j issn 10000534 2016 00059

  39. 张景文,咸月,陈报章.2017.南昌市移动源排放清单研究[J].环境科学学报,37 (5) :1855-1863

  38. 张景文, 陈报章*. 2017. 基于同位素分析研究禹城夏玉米水分来源, 水土保持学报,314):99-104

  37. 月, 赵有政, 王文斌, 陈报章*.  2017. 基于 GloBEIS 模型的徐州市天然源 VOCs 排放量估算, , 30(5):6-11

  36. 丁愫, 陈报章*, 城市医疗设施空间分布合理性评估, 地球信息科学学报, 2017.2.01, (02): 185-196

  35. 张婷慧,陈报章*王瑾,等.2017.基于 CAMx 的徐州市 2016 年冬季 PM2.5污染过程及来源分析[J].环境科学学报,37(10):39183925

  34. 张祥, 陈报章* 赵慧,等. 基于时序Sentinel -1A 析[ J] .遥感技术 用,2 17, 32( 2): 338 -3 .

  33. 王冰洋, 陈报章*, 孙少波, 周子渊, 杨志青, 刘禹淇, 张景文, 山东省禹城市夏玉米生长期水分利用特征分析, 水土保持学报, 2016.12.15, (06): 153-161

  32. 刘禹淇, 陈报章* 郭立峰, 刘莹, 南昌市固定燃烧点源大气污染物排放清单及特征, 环境科学学报, 2016.10.20

  31. 杨志青, 陈报章* 查天山, 贾昕, 城市绿地生态系统多角度高光谱光化学反射植被指数与光能利用率的关系, 植物生态学报, 2016.10.10, (10): 1077-1089

  30. 田向军, 陈报章*王雪梅, 张丽, 蔡兆男, 源碳观测数据融合与同化技术研究2014年度报告, 科技资讯, 2016.09.03, (25): 183

  29. 姚炳楠, 陈报章*车明亮, 鄱阳湖流域植被总初级生产力时空变化特征及其气候驱动因子分析, 植物学报, 2016.09.01, (05): 639-649

  28. 刘莹, 陈报章*陈婧, 许光, 千烟洲森林生态系统蒸散发模拟模型的适用性, 植物学报, 2016.03.01, 51(02): 226-234

  27. 徐博轩, 陈报章*许光, 陈婧, 车明亮, 基于叶面积指数估算植被总初级生产力, 生态学报, 2015.10.01, (12): 3546-3555

  26. 张慧芳, 陈报章*许光, 严建武, 车明亮, 陈婧, 房世峰, 林晓凤, 孙少波, 大气反演模型模拟的CO2浓度与GOSAT卫星观测值的对比, 科学通报, 2015.05.10, (13): 1235

  25. 王小辉, 陈报章*张慧芳, 省级碳清单不确定性分析——基于陕西省2000-20 12年碳排放测算, 干旱区资源与环境, 2015.01.01, (07): 7-11

  24. 车明亮, 陈报章*王瑛, 郭祥云, 全球植被动力学模型研究综述, 应用生态学报, 2014.01.01, 25(1): 263-271

  23. 严建武, 陈报章*房世峰, 张慧芳, 付东杰, 薛晔, 植被指数对旱灾的响应研究——以中国西南地区2009—2010年特大干旱为例, 遥感学报, 2012.07.25, (04): 720-737

  22. 薛晔, 陈报章*黄崇福, 严建武, 多灾种综合风险评估软层次模型, 地理科学进展, 2012.01.01, (03): 353-360

  21. 陈报章, 仲崇庆, 自然灾害风险损失等级评估的初步研究, 灾害学, 2010.09, 25(3): 1-5

  20. 陈报章, 河南贾湖遗址植硅石组合及其在环境考古学上的意义, 微体古生物学报, 2001, 18(2): 101-106

  19. 陈报章, 河南舞阳贾湖遗址八千年前稻作遗存的发现及古文化生态学研究(摘要), 农业考古,1998, 18(1):  400

  18. 陈报章,水稻硅酸体的鉴定及在稻作起源与传播研究中的应用(摘要), 农业考古, 1998, 18(1): 401

  17. 陈报章, 中国栽培稻究竟起源于何时何地——对河南贾湖遗址发现8000年前栽培稻遗存的思考.农业考古, 1997, 17(1):59-62

  16. 陈报章, 植硅石分析与栽培稻起源研究.作物学报, 1997, 48(1): 116-120

  15. 陈报章, 苏北弶港地区埋藏潮沙体的发现与现代辐射状潮流沙脊群的成因.海洋通报, 1996, 15(5): 47-52

  14. 陈报章, 王象坤, 水稻颖壳植硅石与稻种起源研究.科学通报, 1995, 40(15): 1438

  13. 陈报章, 河南贾湖遗址出土炭化稻米与初步研究.农业考古, 1995, 15(3): 94-95

  12. 陈报章,  植物硅酸体分析在农业考古中的应用.农业考古, 1995, 15(3): 24-26+59

  11. 陈报章, 王象坤, 水稻颖壳硅石的初步研究及其意义, 中国水稻科学, 1995, 9(4): 242-245

  10. 陈报章, 王象坤, 张居中, 舞阳贾湖新石器时代遗址炭化稻米的发现、形态学研究及意义, 中国水稻科学, 1995, 15(3): 94-95

  9. 陈报章, 李从先, 业治铮, 冰后期长江三角洲北翼沉积及其环境演变, 海洋学报(中文版), 1995, 17(1): 64-75

  8. 陈报章, 张居中, 吕厚远, 河南贾湖新石器时代遗址水稻硅酸体的发现及意义, 科学通报, 1995, 40(4): 339-342

  7. 陈报章, 李从先, 业治铮, 黄海南部陆区全新世埋藏潮沙体.地理学报, 1995, 50(5): 447-458

  6. 陈报章, 李从先, 业治铮, 南黄海南部陆区全新世沉积研究.沉积学报, 1994, 12(2): 63-71

  5. 陈报章, 江苏省海洋国土资源与综合开发.资源科学, 1994, 16(6): 47-54

  4. 陈报章, 李从先, 业治铮, 黄海南部陆区冰后期沉积环境的演变, 海洋科学, 1993, 17(4): 58-63

  3. 陈报章, 江苏省地方性氟中毒流行病与区域环境.地域研究与开发, 1993, 17(4): 58-63

  2. 陈报章, 李从先, 业治铮. 长江三角洲北翼全新统底界和硬粘土层的讨论.海洋地质与第四纪地质, 1991, 12(2): 39-48

  1. 张明书, 刘健, 李浩, 陈报章. 海南岛周缘珊瑚礁的基本特征和成礁时代. 海洋地质与第四纪地质, 1990, 11(2): 27-45

五、中文专著

  2. 陈报章, 《陆地表层系统模型模拟与分析》, 科学出版社, 580000, 2017.03.01

  1. 陈报章, 张慧芳, 《中国碳同化系统及其应用研究》, 科学出版社, 342000, 2015.11.01

六、发明专利

  1陈报章,尤元品;一种具有自动校正功能的地物光谱多角度连续观测系统(专利号:ZL 2021 1 1481144.X)”,授 日: 20230714日,授 号: CN 114112939 B

  2陈报章,张慧芳;发明专利“基于卫星-地基CO2数据联合同化的碳源汇估测方法(专利号:ZL201510251620.7)”,授 日: 20180821日,授 号: CN 104834823 B。发明专利“基于卫星-地基CO2数据联合同化的碳源汇估测方法”构建了基于卫星柱浓度及地基站点观测数据为基础的卫星-地基CO2联合同化方法,改进了大气反演模型只能同化站点观测CO2浓度的缺陷,实现了多种来源CO2数据的联合同化,为精确的区域碳源/汇估算提供有效手段。

  3陈报章;正申请授权的发明专利同步反演高分辨率人为CO2排放与自然CO2通量的同化方法及系统(专利号:202210642075.4)”。20229月通过实质性审查。发明专利“同步反演高分辨率人为CO2排放与自然CO2通量的同化方法及系统”提供了一种同步反演高精度、高分辨率人为CO2排放与自然CO2通量的同化方法及系统。

  4陈报章;正申请授权的发明专利基于CO2/CO比率反演核算高分辨率人为CO2排放的方法及系统(专利号:202210640366.X)”。20236月通过实质性审查。发明专利“基于CO2/CO比率反演核算高分辨率人为CO2排放的方法及系统”提供的基于CO2/CO比率反演核算高分辨率人为CO2排放的方法及系统能够反演得到高分辨率人为CO2排放通量。

  5陈报章;正申请授权的发明专利碳同位素联合同化模型及甄别人为碳排放与自然碳通量区域同化系统的构建方法(专利号:202210642009.7)”。202210月通过实质性审查。发明专利“碳同位素联合同化模型及甄别人为碳排放与自然碳通量区域同化系统的构建方法”研发了一种碳同位素联合同化模型及甄别人为碳排放与自然碳通量区域同化系统的构建方法。研发了区域高分辨率同化系统,为精准评估碳中和行动有效性上发挥关键性作用。

  6陈报章;正申请授权的发明专利基于卫星柱浓度和4D-LETKF混合同化算法的碳卫星同化系统及其构建方法(专利号:202210667098.0)。20234月通过实质性审查。发明专利“基于卫星柱浓度和4D-LETKF混合同化算法的碳卫星同化系统及其构建方法”充分利用多源卫星柱浓度数据,通过4D-LETKF混合同化算法,实现全球多时次、超大数据流的碳卫星同化系统,获得全球2°×2.5°网格尺度、逐日优化的CO2通量反演数据和高精度的近地表和各层CO2浓度数据。

  七、软件著作权

  4. 陈报章 (中国科学院地理科学与资源研究所), “区域高分辨率人为CO2排放同化反演模型系统软件V1.0 (登记号:2022SR0696305), 中华人民共和国国家版权局, 20222

  3. 陈报章 (中国科学院地理科学与资源研究所), 区域碳同化反演模型系统软件V1.0 (登记号:2022SR0696304), 中华人民共和国国家版权局, 20226

  2. 陈报章 (中国科学院地理科学与资源研究所),《基于遥感的生态系统-大气模拟系统[简称EASS模型]V1.0(登记号:2012SR012680), 中华人民共和国国家版权局, 20122

  1. 陈报章 (中国科学院地理科学与资源研究所),《温室气体通量和浓度足迹模拟系统[简称Footprint模型]V1.0(登记号:2012SR012805), 中华人民共和国国家版权局, 20122月。

八、科技成果奖

  陈报章, 生态环境部科技进步二等奖,土地利用覆盖变化及其生态与气候效应监测模拟关键技术”, 证书编号:KJ2019-2-29-G06 2019.

招生专业:地图学与地理信息系统

招生方向:数据-模型同化,碳同化系统,碳循环模拟,大数据分析,地球表层系统模拟,定量遥感,全球变化生态学,

  生态水文学

联系方式010-64889574, Baozhang.Chen@igsnrr.ac.cn

更新日期:2023年11月2日