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气溶胶与大气环境遥感:
1. Xin Su, Lunche Wang*, Ming Zhang, Wenmin Qin, Muhammad Bilal. 2021. A High-Precision Aerosol Retrieval Algorithm (HiPARA) for Advanced Himawari Imager (AHI) data: Development and verification. Remote Sensing of Environment, doi: 10.1016/j.rse.2020.112221. (SCI, Top期刊, IF =9.8)
2. Lijie He, Lunche Wang*, Zhengqiang Li, Daoyang Jiang, Lin Sun, Dong Liu, Lei Liu, Rui Yao, Zhigao Zhou, Jing Wei. 2021. VIIRS Environmental Data Record and Deep Blue aerosol products: validation, comparison, and spatiotemporal variations from 2013 to 2018 in China. Atmospheric Environment, 250,118265, https://doi.org/10.1016/j.atmosenv.2021.118265. (SCI, Top期刊, IF = 4.039)
3. Ming Zhang, Shikuan Jin, Yingying Ma, Ruonan Fan, Lunche Wang, Wei Gong, Boming Liu. 2021. Haze events at different levels in winters: A comprehensive study of meteorological factors, Aerosol characteristics and direct radiative forcing in megacities of north and central China. Atmospheric Environment, 245, 118056, doi: 10.1016/j.atmosenv.2020.118056. (SCI, Top期刊, IF = 4.039)
4. Minghui Tao, Lu Gui, Rong Li, Lili Wang, Shengwen Liang, Qijie Li, Lunche Wang, Chao Yu, Liangfu Chen. 2021. Tracking prevailing dust aerosol over the air pollution in central China with integrated satellite and ground observations. Atmospheric Environment, 253, 118369, doi: 10.1016/j.atmosenv.2021.118369. (SCI, Top期刊, IF = 4.039)
5. Ling Zou, Sabine Griessbach, Lars Hoffmann, Bing Gong and Lunche Wang. 2020. Revisiting global satellite observations of stratospheric cirrus clouds. Atmospheric Chemistry and Physics, 20:9939–9959,https://doi.org/10.5194/acp-20-9939-2020. (SCI, Top期刊, IF =5.414)
6. Lijie He, Lunche Wang*, Bo Huang*, Jing Wei, Zhigao Zhou, Yang Zhong. 2020. Anthropogenic and meteorological drivers of 1980-2016 trend in aerosol optical and radiative properties over the Yangtze River Basin. Atmospheric Environment, doi: 10.1016/j.atmosenv.2019.117188. (SCI, Top期刊, IF = 4.039)
7. Minghui Tao, Jun Wang, Rong Li, Liangfu Chen, Xiaoguang Xu, Lunche Wang, Jinhua Tao, Zifeng Wang, Juan Xiang. 2020. Characterization of aerosol type over East Asia by 4.4 km Multi-angle Imaging SpectroRadiometer (MISR) product: first insight and general performance. Journal of Geophysical Research -Atmospheres, doi: 10.1029/2019JD031909. (SCI, Top期刊, IF =3.633)
8. Minghui Tao, Rong Li, Lili Wang, Feng Lan, Zifeng Wang, Jinhua Tao, Huizheng Che, Lunche Wang, Liangfu Chen. A critical view of long-term AVHRR aerosol data record in China: Retrieval frequency and heavy pollution. Atmospheric Environment, doi:10.1016/j.atmosenv.2019.117246. (SCI, Top期刊, IF = 4.039)
9. Lan Yu, Ming Zhang, Lunche Wang*, Wenmin Qin, Junli Li. 2019. Aerosol radiative effects from observations and modeling over the Yangtze River Basin, China from 2001 to 2015. International Journal of Climatology, 39 (8):3476-3491. (SCI, IF =3.928)
10. Jing Wei, Zhanqing Li, Lin Sun, Yiran Peng, Lunche Wang, 2019. An improved merge scheme for MODIS Collection 6.1 Dark Target and Deep Blue combined aerosol products. Atmospheric Environment, 202:315-327. (SCI, Top期刊, IF = 4.039)
11. Muhammad Bilal, Majid Nazeer, Janet Nichol, Zhongfeng Qiu, Lunche Wang, Max Bleiweiss, Xiaojing Shen, James Campbell, Simone Lolli. 2019. Evaluation of Terra-MODIS C6 and C6.1 Aerosol Products against Beijing, XiangHe, and Xinglong AERONET sites in China during 2004-2014. Remote Sensing, 11(5), 486; doi:10.3390/rs11050486.(SCI, IF =4.118)
12. Muhammad Bilal, Janet E Nichol, Majid Nazeer, Yuan Shi, Lunche Wang, Raghavendra Kumar, Hung Chak Ho, Usman Mazhar, Max P Bleiweiss, Zhongfeng Qiu, Khaled Mohamed Khedher, Simone Lolli. 2019. Characteristics of Fine Particulate Matter (PM2. 5) over Urban, Suburban, and Rural Areas of Hong Kong. Atmosphere,10(9), 496, doi:10.3390/atmos10090496. (SCI, IF =2.046)
13. Minghui Tao, Jun Wang, Rong Lic, Lili Wang, Lunche Wang, Zifeng Wang, Jinhua Tao, Huizheng Che, Liangfu Chen. 2019. Performance of MODIS high-resolution MAIAC aerosol algorithm in China: Characterization and limitation. Atmospheric Environment, 213:159-169. (SCI, Top期刊, IF = 4.039)
14. Lijie He, Lunche Wang*, Aiwen Lin, Ming Zhang, Xiangao Xia, Minghui Tao, Hao Zhou. 2018. What drives changes in aerosol properties over the Yangtze River Basin in past four decades ? Atmospheric Environment, 190:269-283. (SCI, Top期刊, IF = 4.039)
15. Wenmin Qin, Ying Liu, Lunche Wang*, Aiwen Lin, Xiangao Xia, Huizheng Che, Muhammad Bilal and Ming Zhang. 2018. Characteristic and Driving Factors of Aerosol Optical Depth over Mainland China during 1980–2017. Remote Sensing, 10, 1064,doi:10.3390/rs10071064. (SCI, IF = 4.118)
16. Wenmin Qin, Lunche Wang*, Aiwen Lin, Ming Zhang and Muhammad Bilal. 2018. Improving the Estimation of Daily Aerosol Optical Depth and Aerosol Radiative Effect Using an Optimized Artificial Neural Network. Remote Sensing, 10, 1022, doi:10.3390/rs10071022. (SCI, IF = 4.118)
17. Miao Zhang, Lunche Wang*, Muhammad Bilal, Wei Gong*, Ziyue Zhang and Guangmeng Guo. 2018. The Characteristics of the Aerosol Optical Depth within the Lowest Aerosol Layer over the Tibetan Plateau from 2007 to 2014. Remote Sensing, 10, 696; doi:10.3390/rs10050696. (SCI, IF = 4.118 )
18. Lijie He, Lunche Wang*, Aiwen Lin*, Ming Zhang, Muhammad Bilal, Jing Wei. 2018. Performance of the NPP-VIIRS and aqua-MODIS Aerosol Optical Depth Products over the Yangtze River Basin. Remote Sensing. 10(1):117, doi:10.3390/rs10010117. (SCI, IF = 4.118, ESI高被引)
19. Jing Wei, Lin Sun, Yiran Peng, Lunche Wang, Zhaoyang Zhang, Muhammad Bilal, Yanci Ma. 2018. An improved high spatial resolution aerosol retrieval algorithm for MODIS images over land. Journal of Geophysical Research: Atmospheres, 123: 12291-12307. (SCI, Top期刊, IF =3.633)
20. Jing Wei, Bo Huang, Lin Sun, Zhaoyang Zhang, Lunche Wang, Muhammad Bilal. 2018. Verification, improvement and application of aerosol optical depths in China Part 1: Inter-comparison of NPP-VIIRS and Aqua-MODIS. Atmospheric Environment, 175:221-233. (SCI, Top期刊, IF = 4.039, ESI高被引)
21. Ming Zhang, Yi Wang, Yingying Ma, Lunche Wang, Wei Gong, Boming Liu. 2018. Spatial distribution and temporal variation of aerosol optical depth and radiative effect in South China and its adjacent area. Atmospheric Environment, 188:120-128. (SCI, Top期刊, IF = 4.039)
22. Tianhao Zhang, Zhongmin Zhu, Wei Gong, Zerun Zhu, Kun Sun, Lunche Wang, Yusi Huang, Feiyue Mao, Huanfeng Shen, Zhiwei Li, Kai Xu. 2018. Estimation of ultrahigh resolution PM2.5 concentrations in urban areas using 160 m Gaofen-1 AOD retrievals, Remote Sensing of Environment, 216:91-104. (SCI, Top期刊, IF = 8.218)
23. Jing Wei, Lin Sun, Bo Huang, Muhammad Bilal, Zhaoyang Zhang, Lunche Wang. 2017. A simple and universal aerosol retrieval algorithm for Landsat series images over complex surfaces. Journal of Geophysical Research: Atmospheres, 122, 13, 338-13355. (SCI, Top期刊, IF =3.633)
24. Lunche Wang*, Yisen Chen, Ying Niu, Germán Ariel Salazar, Wei Gong. 2017. Analysis of atmospheric turbidity in clear skies at Wuhan, Central China. Journal of Earth Science, 28(4): 729-738. (SCI, IF =1.784)
25. Lijie He, Lunche Wang*+, Aiwen Lin*, Ming Zhang, Muhammad Bilal, Minghui Tao. 2017. Aerosol Optical Properties and Associated Direct Radiative Forcing over the Yangtze River Basin during 2001-2015. Remote Sensing, 9(7), 746; doi:10.3390/rs9070746. (SCI, IF = 4.118)
26. Muhammad Bilal, Janet E. Nichol and Lunche Wang. 2017. New customized methods for improvement of the MODIS C6 Dark Target and Deep Blue merged aerosol product. Remote Sensing of Environment, 197:115-124. (SCI, Top期刊, IF = 8.218)
27. Ming Zhang, Yingying Ma*, Wei Gong, Lunche Wang*, Xiangao Xia, Huizheng Che, Bo Hu, Boming Liu. 2017. Aerosol radiative effect in UV, VIS, NIR, and SW spectra under haze and high-humidity urban conditions. Atmospheric Environment, 166: 9-21.(SCI, Top期刊, IF =4.039)
28. Tianhao Zhang, Chao Zeng, Wei Gong, Lunche Wang*, Kun Sun, Huanfeng Shen, Zhongmin Zhu*, Zerun Zhu. 2017. Improving Spatial Coverage for Aqua MODIS AOD using NDVI-Based Multi-Temporal Regression Analysis. Remote Sensing 9(4), 340; doi:10.3390/rs9040340. (SCI, IF =4.118)
29. Minghui Tao, Zifeng Wang, Jinhua Tao, Liangfu Chen, Jun Wang, Can Hou, Lunche Wang, Xiaoguang Xu and Hao Zhu. 2017. How Do Aerosol Properties Affect the Temporal Variation of MODIS AOD Bias in Eastern China? Remote Sensing, 9, 800; doi:10.3390/rs9080800. (SCI, IF = 4.118)
30. Ming Zhang, Lunche Wang*, Wei Gong*, Yingying Ma and Boming Liu . 2017. Aerosol Optical Properties and Direct Radiative Effects over Central China. Remote Sensing, 9(10), 997; doi:10.3390/rs9100997. (SCI, IF =4.118)
31. Ming Zhang, Yingying Ma*, Lunche Wang*, Wei Gong, Bo Hu and Yifan Shi. 2017. Spatial-temporal characteristics of aerosol loading over the Yangtze River Basin during 2001-2015. International Journal of Climatology (SCI, IF = 3.928)
32. Aiwen Lin, Ling Zou, Lunche Wang*, Wei Gong, Hongji Zhu, Germán Ariel Salazar. 2016. Estimation of atmospheric turbidity coefficient over Zhengzhou during 1961-2013 using an improved hybrid model. Renewable Energy, 86:1134-1144 (SCI, Top期刊, IF =5.439 )
33. Ming Zhang, Wei Gong, Yingying Ma, Lunche Wang, Zhongyong Chen.2016 Transmission and division of total optical depth method: A universal calibration method for Sun photometric measurements. Geophysical Research Letters, 43:2974-2980. (SCI, Top期刊, IF =4.578)
34. Yingying Ma, Wei Gong, Lunche Wang, Ming Zhang, Zhongyong Chen, Jun Li, Jian Yang.2016 Inversion of the haze aerosol sky columnar AVSD in central China by combining multiple ground observation equipment. Optics Express, 24: 8170-8185. (SCI, IF =3. 561)
35. Lunche Wang*, Germán Ariel Salazar, Wei Gong*, Simao Peng, Ling Zou, Aiwen Lin. 2015. An improved method for estimating the Ångström turbidity coefficient β in Central China during 1961-2010. Energy, 81:67-73. (SCI, Top期刊, IF = 5.537)
36. Lunche Wang*, Wei Gong*, Ming Luo, Wenfeng Wang, Bo Hu, Ming Zhang. 2015. Comparison of different UV models for cloud effect study. Energy, 80: 695-705. (SCI, Top期刊, IF = 5.537)
37. Lunche Wang*, Wei Gong*, Xiangao Xia, Jun Zhu, Jun Li, Zhongmin Zhu. 2015. Long-term observations of aerosol optical properties at Wuhan, an urban site in Central China. Atmospheric Environment, 101: 94-102. (SCI, Top期刊, IF =4.039, ESI高被引)
38. Lunche Wang*, Wei Gong, Ramesh P. Singh, Xiangao Xia, Huizheng Che, Ming Zhang, Hong Lin. 2015. Aerosol Optical Properties over Mount Song, a Rural Site in Central China. Aerosol and Air Quality Research 15: 2051-2064 (SCI, IF =2.735)
39. Lunche Wang, Wei Gong*, Jun Li, Yingying Ma, Bo Hu. 2014. Empirical studies of cloud effects on ultraviolet radiation in Central China. International Journal of Climatology, 34: 2218–2228. (SCI, IF = 3.928)
太阳辐射与光伏发电:
1. Zhigao Zhou, Aiwen Lin, Lunche Wang, Wenmin Qin, Lin Zhao, Shao Sun, Yang Zhong, Lijie He, Feiyan Chen. 2021. Estimation of the losses in potential concentrated solar thermal power electricity production due to air pollution in China. Science of The Total Environment, 147214, doi: 10.1016/j.scitotenv.2021.147214. (SCI, Top期刊, IF =6.551)
2. Hejin Fang, Wenmin Qin, Lunche Wang, Ming Zhang and Xuefang Yang. 2020. Solar Brightening/Dimming over China’s Mainland: Effects of Atmospheric Aerosols, Anthropogenic Emissions and Meteorological Conditions. Remote Sensing, 13, 88. https://doi.org/10.3390/rs13010088. (SCI, IF =4.509)
3. Wenmin Qin, Lunche Wang*, Christian A. Gueymard, Muhammad Bilal, Aiwen Lin, Jing Wei, Ming Zhang, XuefangYang. Constructing a gridded direct normal irradiance dataset in China during 1981-2014. Renewable and Sustainable Energy Reviews, 131, 110004, doi: 10.1016/j.rser.2020.110004. (SCI, Top期刊, IF = 12.11)
4. Wenmin Qin, Lunche Wang*, Jing Wei, Bo Hu, Xun Liang.2020. A novel efficient broadband model to derive daily surface solar Ultraviolet radiation (0.280-0.400μm). Science of the Total Environment, 735, 139513, doi: 10.1016/j.scitotenv.2020.139513. (SCI, Top期刊, IF =6.551)
5. Zhigao Zhou, Aiwen Lin*, Lunche Wang*, Wenmin Qin, Yang zhong, Lijie He. 2020. Trends in downward surface shortwave radiation from Multi-source data over China during 1984-2015. International Journal of Climatology, DOI: 10.1002/joc.6408(SCI, IF =3.928)
6. Lan Yu, Ming Zhang*, Lunche Wang*, Wenmin Qin, Yunbo Lu, Junli Li. 2020. Clear-sky solar radiation changes over Arid and Semi-arid Areas in China and their determining factors during 2001-2015. Atmospheric Environment, doi: 10.1016/j.atmosenv.2019.117198. (SCI, Top期刊, IF = 4.039)
7. Ziyan Wang, Ming Zhang*, Lunche Wang, Wenmin Qin, Yingying Ma, Wei Gong, Lan Yu. 2020. Investigating the all-sky surface solar radiation and its influencing factors in the Yangtze River Basin in recent four decades. Atmospheric Environment, 244, 117888, doi: 10.1016/j.atmosenv.2020.117888. (SCI, Top期刊, IF = 4.039)
8. Lan Yu, Ming Zhang, Lunche Wang*, Yunbo Lu, Junli Li.2020.Effects of aerosols and water vapour on spatial-temporal variations of the clear-sky surface solar radiation in China. Atmospheric Research 248 ,105162 (SCI, IF =4.676)
9. Lunche Wang, Yunbo Lu, Ling Zou, Lan Feng, Jing Wei, Wenmin Qin, Zigeng Niu. 2019. Prediction of diffuse solar radiation based on multiple variables in China. Renewable and Sustainable Energy Reviews, 94: 168-182. (SCI, Top期刊, IF = 12.11)
10. Wenmin Qin, Lunche Wang*, Ming Zhang, Zigeng Niu, Ming Luo, Aiwen Lin, Bo Hu. 2019. First effort for constructing a high density photosynthetically active radiation dataset during 1961-2014 in China, Journal of Climate, 32:2761-2780. (SCI, Top期刊, IF = 5.707)
城市气象与生态环境:
1. Xin Li, Wenyou Fan, Lunche Wang*, Ming Luo, Rui Yao, Shaoqiang Wang, Lizhe Wang. 2021. Effect of urban expansion on atmospheric humidity in Beijing-Tianjin-Hebei urban agglomeration. Science of the Total Environment, 759, 144305, doi10.1016/j.scitotenv.2020.144305. (SCI, Top期刊, IF =6.551)
2. Rui Yao, Lunche Wang*, Xin Huang, Xiaojun Wu, Liu Yang, Zigeng Niu. 2021. Assessing the urbanization’s contribution to warming in China’s Mainland using satellite estimated air temperature data. Progress in Physical Geography, doi:10.1177/0309133321988850. (SCI, IF=3.488)
3. Rui Yao, Lunche Wang*, Xin Huang, Yuting Liu, Zigeng Niu, Shaoqiang Wang, Lizhe Wang. 2021. Long-term trends of surface and canopy layer urban heat island intensity in 272 cities in the mainland of China. Science of the Total Environment, doi: 10.1016/j.scitotenv.2021.145607 (SCI, Top期刊, IF =6.551)
4. Xiaojun Wu, Lunche Wang*, Rui Yao, Ming Luo, Shaoqiang Wang, Lizhe Wang. 2020. Quantitatively evaluating the effect of urbanization on heat waves in China. Science of the Total Environment, 731, 138857, doi: 10.1016/j.scitotenv.2020.138857. (SCI, Top期刊, IF =6.551)
5. Rui Yao, Lunche Wang*, Xin Huang, Wei Gong, Xiangao Xia. 2019. Greening in rural areas increases the surface urban heat island intensity. Geophysical Research Letters, 46: 2204-2212. (SCI, Top期刊, IF = 4.578, ESI高被引论文)
6. Rui Yao, Jin Cao, Lunche Wang*, Wenwen Zhang, Xiaojun Wu. 2019. Urbanization effects on vegetation cover in major African cities during 2001-2017. International Journal of Applied Earth Observations and Geoinformation, 75:44-53. (SCI, Top期刊, IF =4.846)
7. Xuan Gui, Lunche Wang*, Rui Yao, Deqing Yu, Chang'an Li. 2019. Investigating the Urbanization Process and its Impact on Vegetation Change and Urban Heat Island in Wuhan, China. Environmental Science and Pollution Research, 26:30808–30825. (SCI, IF = 3.056)
8. Rui Yao, Lunche Wang*, Xin Huang*, Wenwen Zhang, Junli Li, Zigeng Niu. 2018. Interannual variations in surface urban heat island intensity and associated drivers in China. Journal of Environmental Management, 222: 86-94. (SCI, IF =4.865)
9. Rui Yao, Lunche Wang*, Xin Huang*, Ying Niu, Yisen Chen, Zigeng Niu. 2018. The influence of different data and method on estimating the surface urban heat island intensity. Ecological Indicators, 89:45-55. (SCI, IF =4.229)
10. Rui Yao, Lunche Wang*, Xin Huang*, Zigeng Niu, Hongfu Liu, Qing Wang. 2017. Temporal trends of surface urban heat islands and associated determinants in major Chinese cities. Science of the Total Environment,69:742-754. (SCI, Top期刊, IF =6.551)
11. Rui Yao, Lunche Wang*+, Xin Huang*, Xian Guo, Zigeng Niu, Hongfu Liu. 2017. Investigation of Urbanization Effects on Land Surface Phenology in Northeast China during 2001–2015. Remote Sensing, 9(1), 66; doi:10.3390/rs9010066 (SCI, IF = 4.118)
12. Rui Yao, Lunche Wang*, Xuan Gui, Yukun Zheng, Haoming Zhang, Xin Huang*. 2017. Urbanization effects on vegetation and surface urban heat islands in Yangtze River Basin, China. Remote Sensing, 9(6), 540; doi:10.3390/rs9060540 (SCI, IF = 4.118)
气候变化与作物产量:
1. Xiaojun Wu, Lunche Wang*, Rui Yao, Ming Luo, Xin Li. 2021. Identifying the dominant driving factors of heat waves in the North China Plain. Atmospheric Research, 252,105458, doi: 10.1016/j.atmosres.2021.105458. (SCI, IF =4.676)
2. Lunche Wang*, Yisen Chen, Xin-Zhong Liang, Ramesh P. Singh, Xinxin Chen. 2020. Effects of Atmospheric Pollutants on Agricultural Crop Yield in China. Journal of Earth Science, (SCI, IF =2.209)
3. Rui Yao, Lunche Wang*, Xin Huang, Liang Sun, Ruiqing Chen, Xiaojun Wu,Wei Zhang, and Zigeng Niu. 2021. A Robust Method for Filling the Gaps in MODIS and VIIRS Land Surface Temperature Data. IEEE Transactions on Geoscience and Remote Sensing, doi:10.1109/TGRS.2021.3053284. (SCI, Top期刊, IF = 5.855)
4. Rui Yao, Lunche Wang*, Shaoqiang Wang, Lizhe Wang, Jing Wei, Junli Li, Deqing Yu. A detailed comparison of MYD11 and MYD21 land surface temperature products in mainland China. International Journal of Digital Earth, doi: 10.1080/17538947.2019.1711211. (SCI, IF =3.985)
5. Rui Yao, Lunche Wang*, Xin Huang, Long Li, Jia Sun, Xiaojun Wu, Weixia Jiang. Developing a temporally accurate air temperature dataset for Mainland China. Science of the Total Environment, 706, 136037, doi: 10.1016/j.scitotenv.2019.136037. (SCI, Top期刊, IF =6.551)
6. Xinxin Chen, Lunche Wang*, Zigeng Niu, Ming Zhang, Chang'an Li, Jiarui Li. The effects of projected climate change and extreme climate on maize and rice in the Yangtze River Basin, China. Agricultural and Forest Meteorology,282-283, 107867, doi: 10.1016/j.agrformet.2019.107867. (SCI, Top期刊, IF =4.651)
7. Zigeng Niu, Lunche Wang*, Jiarui Li, Rui Yao. 2020. Spatiotemporal variations in monthly relative humidity in China based on observations and CMIP5 models. International Journal of Climatology, doi: 10.1002/joc.6578 (SCI, IF =3.928)
8. Zigeng Niu, Lunche Wang*, Lulu Fang, Jiarui Li, Rui Yao. 2019. Analysis of spatiotemporal variability in temperature extremes in the Yellow and Yangtze river basins during 1961-2014 based on high-density gauge observations. International Journal of Climatology, doi: 10.1002/joc.6188. (SCI, IF =3.928)
9. Lifang Cui, Lunche Wang*, Sai Qu, Ramesh P. Singh, Zhongping Lai, Rui Yao. 2019. Spatiotemporal Extremes of Temperature and Precipitation during 1960-2015 in the Yangtze River Basin (China) and Impacts on vegetation dynamics. Theoretical and Applied Climatology, 136:675-692. (SCI, IF = 2.882)
10. Lifang Cui, Lunche Wang*, Ramesh P. Singh, Zhongping Lai, Liangliang Jiang, Rui Yao. 2018. Association analysis between spatiotemporal variation of vegetation greenness and precipitation/temperature in the Yangtze River Basin (China). Environmental Science and Pollution Research, 25(22): 21867-21878 (SCI, IF = 3.056)
11. Rui Yao, Lunche Wang*, Xin Huang*, Jiangping Chen, Jiarui Li, Zigeng Niu. 2018. Less sensitive of urban surface to climate variability than rural in Northern China. Science of the Total Environment, 628-629: 650-660. (SCI, Top期刊, IF =6.551)
12. Weizhe Chen, Chunju Huang, Lunche Wang. 2018. Climate Extremes and Their Impacts on Interannual Vegetation Variabilities: A Case Study in Hubei Province of Central China. Remote Sensing, 10(3):477,doi: 10.3390/rs10030477. (SCI, IF =4.118)
13. Zhengjia Liu, Yansui Liu, Sisi Wang, Xiujing Yang, Lunche Wang, Muhanmad Hasan Ali Baig, Wenfeng Chi, Zhaosheng Wang. 2018. Evaluation of spatial and temporal performances of ERA-Interim precipitation and temperature in mainland China, Journal of Climate, 31:4347-4365. (SCI, Top期刊, IF = 5.707)
14. Wenmin Qin, Aiwen Lin, Jian Fang, Lunche Wang, Man Li. 2017. Spatial and temporal evolution of community resilience to natural hazards in the coastal areas of China. Natural Hazards, 89(1): 331-349. (SCI, IF =2.319)
15. Lifang Cui, Lunche Wang*, Zhongping Lai, Qing Tian, Wen Liu, Jun Li. 2017. Innovative trend analysis of annual and seasonal air temperature and rainfall in the Yangtze River Basin, China during 1960–2015. Journal of Atmospheric and Solar-Terrestrial Physics, 164C: 48-59. (SCI, IF = 1.79)
16. Hao Zhou, Zhicai Luo, Natthachet Tangdamrongsub, Lunche Wang, Lijie He, Chuang Xu and Qiong Li, 2017. Characterizing Drought and Flood Events over the Yangtze River Basin Using the HUST-Grace2016 Solution and Ancillary Data. Remote Sens. 2017, 9(11), 1100; doi:10.3390/rs9111100. (SCI, IF =4.118 )
17. Aiwen Lin, Hongji Zhu, Lunche Wang*, Wei Gong, Ling Zou. 2016. Characteristics of long-term climate change and the ecological responses in Central China. Earth Interactions, 20: 1-24. (SCI, IF = 2.457)
流域地表格局与生态系统服务:
1. Liu Yang, Lunche Wang, Ming Zhang, Zigeng Niu, Rui Yao, Deqing Yu, Chang’an Li, Qiuhua He. 2021. Variation of water body in Dongting Lake from in situ measurements and MODIS observations in recent decades. International Journal of Digital Earth, doi: 10.1080/17538947.2021.1907464. (SCI, IF =3.097)
2. Xin Dai, Lunche Wang*, Minghui Tao, Chunbo Huang, Jia Sun, Shaoqiang Wang. 2021. Assessing the ecological balance between supply and demand of blue-green infrastructure. Journal of Environmental Management, 288, 112454, doi: 10.1016/j.jenvman.2021.112454. (SCI, Top期刊, IF =5.467)
3. Weixia Jiang, Lunche Wang, Ming Zhang, Rui Yao, Xinxin Chen, Xuan Gui, Jia Sun, Qian Cao.2021. Analysis of Drought Events and Their Impacts on Vegetation Productivity Based on the Integrated Surface Drought Index in the Hanjiang River Basin, China. Atmospheric Research (SCI, IF =4.676)
4. Lingyun Lv, Lunche Wang*, Chang’an, Hui Li, Xinsheng Wang and Shaoqiang Wang. 2020. Formation Mechanism for Upland Low-Relief Surface Landscapes in the Three Gorges Region, China. Remote Sensing, 12(23), 3899; https://doi.org/10.3390/rs12233899. (SCI, IF =4.509)
5. Liu Yang, Lunche Wang*, Deqing Yu, Rui Yao, Chang'an Li, Qiuhua He, Shaoqiang Wang, LizheWang. 2020. Four decades of wetland changes in Dongting Lake using Landsat observations during 1978-2018. Journal of Hydrology, 587, 124954, doi: 10.1016/j.jhydrol.2020.124954. (SCI, Top期刊, IF =4.5)
6. Sai Qu, Lunche Wang*, Aiwen Lin, Deqing Yu, Moxi Yuan, Chang’an Li. 2020. Distinguishing the impacts of climate change and anthropogenic factors on vegetation dynamics in the Yangtze River Basin, China. Ecological Indicators, 108, 105724. (SCI, IF =4.229)
7. Moxi Yuan, Lunche Wang*, Aiwen Lin, Zhengjia Liu, Qingjun Li, Sai Qu. 2020. Vegetation green up under the influence of daily minimum temperature and urbanization in the Yellow River Basin, China. Ecological Indicators, 108, 105760. (SCI, IF =4.229)
8. Wei Zhang, Lunche Wang*, Feifei Xiang, Wenmin Qin, Weixia Jiang. 2020. Vegetation dynamics and the relations with climate change at multiple time scales in the Yangtze River and Yellow River Basin, China. Ecological Indicators, 110, 105892. (SCI, IF =4.229)
9. Xin Dai, Lunche Wang*, Chunbo Huang, Lulu Fang, Shaoqiang Wang, Lizhe Wang. 2020. Spatio-temporal variations of ecosystem services in the Urban Agglomerations in the middle reaches of the Yangtze River, China. Ecological Indicators, 115,106394. (SCI, IF =4.229)
10. Weixia Jiang, Lunche Wang*, Lan Feng, Ming Zhang, Rui Yao. 2020. Drought characteristics and its impact on changes in surface vegetation from 1981 to 2015 in the Yangtze River Basin, China. International Journal of Climatology, DOI: 10.1002/joc.6403(SCI, IF =3.928)
11. Moxi Yuan, Lin Zhao, Aiwen Lin, Lunche Wang, Qingjun Li, Dunxian She, Sai Qu. Impacts of preseason drought on vegetation spring phenology across the Northeast China Transect. Science of the Total Environment, 735, 140297, doi: 10.1016/j.scitotenv.2020.140297. (SCI, Top期刊, IF =6.551)
12. Jiayang Zhao, Hui Li, Xiaobin Cai, Fang Chen, Lunche Wang, Deqing Yu, Chang'an Li. 2020. Long-term (2002–2017) impacts of Danjiangkou dam on thermal regimes of downstream Han River (China) using Landsat thermal infrared imagery. Journal of Hydrology, 589, 125135, doi: 10.1016/j.jhydrol.2020.125135. (SCI, Top期刊, IF =4.5)
13. Chunbo Huang, Yixue Zeng, Lunche Wang, Shaoqiang Wang. Responses of soil nutrients to vegetation restoration in China. Regional Environmental Change, doi:10.1007/s10113-020-01679-6. (SCI, IF =3.481)
14. Jia Sun, Shuo Shi, Jian Yang, Wei Gong, Feng Qiu, Lunche Wang, Lin Du, Biwu Chen. 2019. Wavelength selection of the multispectral lidar system for estimating leaf chlorophyll and water contents through the PROSPECT model, Agricultural and Forest Meteorology, 266–267: 43-52. (SCI, Top期刊, IF = 4.651)
15. Rui Yao, Lunche Wang*, Xin Huang*, Xinxin Chen, Zhengjia Liu. 2019. Increased spatial heterogeneity in vegetation greenness due to vegetation greening in mainland China. Ecological Indicators, 99:240-250 (SCI, IF =4.229)
16. Moxi Yuan, Lunche Wang*, Aiwen Lin, Zhengjia Liu, Sai Qu. 2019. Variations in Land Surface Phenology and Their Response to Climate change in Yangtze River Basin during 1982-2015. Theoretical and Applied Climatology, 137:1659-1674. (SCI, IF =2.882)
17. Sai Qu, Lunche Wang*, Aiwen Lin, Hongji Zhu, Moxi Yuan. 2018. What drives the vegetation restoration in Yangtze River basin, China: climate change or anthropogenic factors? Ecological Indicators, 90:438-450 (SCI, IF =4.229)
18. Wenmin Qin, Lunche Wang*, Aiwen Lin*, Chao Yang & Hongji Zhu. 2018. Spatial-temporal evolution of the distribution pattern of Neolithic sites in Han River basin, China. Environmental Archaeology, DOI:10.1080/14614103.2018.1551505. (SCI, IF = 1.317)
19. Lunche Wang*, Ozgur Kisi, Mohammad Zounemat-Kermani, Hui Li. 2017. Pan evaporation modeling using six different heuristic computing methods in different climates of China. Journal of Hydrology, 544: 407-427. (SCI, Top期刊, IF =4.5)
20. Lunche Wang*, Ozgur Kisi, Bo Hu, Mohammad Zounemat-Kermani, Hui Li. 2017. Evaporation modelling using different machine learning techniques. International Journal of Climatology, 37: 1076-1092. (SCI, IF = 3.928)
21. Lunche Wang*, Zigeng Niu, Ozgur Kisi, Chang'an Li, Deqing Yu, Turgay Partal. 2017. Pan evaporation modeling using four different heuristic approaches. Computers and Electronics in Agriculture, 140:203-213. (SCI, IF = 3.171)
22. Lunche Wang*, Hongji Zhu*, Aiwen Lin*, Ling Zou, Wenmin Qin, Qiyong Du. 2017. Evaluation of the latest MODIS GPP products across multiple biomes using global eddy covariance flux data. Remote Sensing, 9, 418; doi:10.3390/rs9050418. (SCI, IF = 4.118 )
23. Hui Li, Qinglu Deng, Lunche Wang. 2017. Automatic Co-Registration of Digital Elevation Models Based on Centroids of Subwatersheds. IEEE Transactions on Geoscience and Remote Sensing, 55(11): 6639-6650. (SCI, Top期刊, IF = 5.63)
24. Xiaobin Guan, Huanfeng Shen, Wenxia Gan, Gang Yang, Lunche Wang, Xinghua Li and Liangpei Zhang, 2017. A 33-Year NPP Monitoring Study in Southwest China by the Fusion of Multi-Source Remote Sensing and Station Data. Remote Sens. 2017, 9(10), 1082; doi:10.3390/rs9101082. (SCI, IF =4.118 )
25. Hongji Zhu, Aiwen Lin*, Lunche Wang*+, Yu Xia, Ling Zou. 2016. Evaluation of MODIS Gross Primary Production across Multiple Biomes in China Using Eddy Covariance Flux Data. Remote Sensing, 8, 395; doi:10.3390/rs8050395 (SCI, IF =4.118 )
26. Wenfeng Wang, Xi Chen, Lunche Wang, Heng Zhang, Gang Yin, Yifan Zhang. 2016. Approaching the Truth of the Missing Carbon Sink. Polish Journal of Environmental Studies, 25(4): 1799-1802. (SCI, IF = 1.186)
27. Zhengjia Liu, Lunche Wang+, Sisi Wang. 2014. Comparison of Different GPP Models in China Using MODIS Image and ChinaFLUX Data. Remote Sensing, 6: 10215-10231. (SCI, IF =4.118)
28. Lunche Wang, Wei Gong*, Yingying Ma, Miao Zhang. 2013. Modeling regional vegetation NPP variations and their relationships with climatic parameters in Wuhan, China. Earth Interactions, 17 (4): 1-20. (SCI, IF = 2.457)
29. Wei Gong, Lunche Wang*, Aiwen Lin, Miao Zhang, 2012. Evaluating the monthly and interannual variation of net primary production in response to climate in Wuhan during 2001 to 2010, Geosciences Journal, 16(3):347-355. (SCI, IF = 1.49)
部分中文期刊文章:
余姝辰,王伦澈*,夏卫平,余德清,李长安,贺秋华. 2020. 清末以来洞庭湖区通江湖泊的时空演变. 地理学报, 75, 11:2346-2361.
方露露,王伦澈*,许德华,牛自耕,张明. 2020. 长江黄河流域生态系统服务变化及权衡协同关系研究. 地理研究, doi:dlyj2020-0044.
贺秋华,余德清,王伦澈*,李长安,余姝辰,邹娟. 2020. 近400多年下荆江河段古河道演变过程及特征.地球科学,45:1928-1936, doi: 10.3799/dqkx.2020.015.
崔利芳,王伦澈*,屈赛,邓利欢,王兆夺. 2020. 气温、降水量和人类活动对长江流域植被NDVI的影响研究. 地球科学, 45:1905-1917, doi:10.3799/dqkx.2019.171.
余姝辰,余德清,王伦澈,李长安,贺秋华,向菲菲. 2019. 三峡水库运行前后洞庭湖洲滩面积变化遥感认识. 地球科学,44(12):4275-4283.
向菲菲,王伦澈*,姚瑞,牛自耕. 2018. 三峡库区气候变化特征及其植被响应. 地球科学, 43(S1):42-52.
周志高,林爱文,王伦澈. 2017.长江中游城市群太阳辐射长期变化特征及其与气象要素的关系研究. 长江流域资源与环境,04:563-571.
段苗苗,马盈盈,龚威,王伦澈. 2015. 利用微波辐射计观测计算云衰减. 武汉大学学报(信息科学版), 12: 1606-1612.
王伦澈,龚威,张淼,马盈盈. 2013. 武汉地区植被NPP动态监测研究. 武汉大学学报(信息科学版), 05:548-552.
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