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 2022年收录论文  

1. Wang C , Jiang W , Deng Y , et al. Long time series water extent analysis for SDG 6.6.1 based on the GEE platform: A case study of Dongting Lake[J]. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2021, PP(99):1-1.

2. Huang W , Tang H , Xu P . OEC-RNN: Object-Oriented Delineation of Rooftops With Edges and Corners Using the Recurrent Neural Network From the Aerial Images[J]. IEEE Transactions on Geoscience and Remote Sensing, 2021, PP(99):1-12.

3. Sl A , Jl B , Jing Y , et al. Monthly prediction of tropical cyclone activity over the South China Sea using the FGOALS-f2 ensemble prediction system[J]. Atmospheric and Oceanic Science Letters, 2021, 15( 2).

4. Ye S , Ren S , Song C , et al. Spatial patterns of county-level arable land productive-capacity and its coordination with land-use intensity in mainland China[J]. Agriculture, Ecosystems & Environment, 2022, 326:107757-.

5. Ren S , Song C , Ye S , et al. The spatiotemporal variation in heavy metals in China's farmland soil over the past 20years: A meta-analysis[J]. Science of The Total Environment, 2022, 806:150322-.

6. Zhang Q , Shi R , Singh V P , et al. Droughts across China: Drought factors, prediction and impacts[J]. Science of The Total Environment, 2021, 803(4):150018.

7. Ye S , Song C , Gao P , et al. Visualizing clustering characteristics of multidimensional arable land quality indexes at the county level in mainland China[J]. Environment and Planning A, 2022, 54.

8. Huang Z . A Zoning Earthquake Casualty Prediction Model Based on Machine Learning[J]. Remote Sensing, 2021, 14.

9. Kda B , Cca B , Shi S , et al. Postearthquake situational awareness based on mobile phone signaling data: An example from the 2017 Jiuzhaigou earthquake - ScienceDirect.

10. Yu W , Yue Y , Wang F . The spatial-temporal coupling pattern of grain yield and fertilization in the North China plain[J]. Agricultural Systems, 2022, 196:103330-.

11. Yang N , Shi H , Tang H , et al. Geographical and temporal encoding for improving the estimation of PM2.5 concentrations in China using end-to-end gradient boosting[J]. Remote Sensing of Environment, 2022, 269:112828-.

12. He, Qian , et al. "90.Yan Z , Zhao H , Mei X . An improved conflicting-evidence combination method based on the redistribution of the basic probability assignment[J]. Applied Intelligence: The International Journal of Artificial Intelligence, Neural Networks, and Complex Problem-Solving Technologies, 2022(4):52.

13. Substantial increase of compound droughts and heatwaves in wheat growing seasons worldwide[J]. International Journal of Climatology, 2022.

14. Liu T , Shi P , Fang J , et al. Spatiotemporal variation in global floods with different affected areas and the contribution of influencing factors to flood-induced mortality (1985–2019). 2022.

15. Yu P , Zhou T , Luo H , et al. Interannual variation of gross primary production detected from optimal convolutional neural network at multi-timescale water stress[J]. Remote Sensing in Ecology and Conservation.

16. Shi H , Yang N , Tang H , et al. aSGD: Stochastic Gradient Descent with Adaptive Batch Size for Every Parameter[J]. Mathematics, 2022, 10.

17. Yue Y , Yang W , Wang L . Assessment of drought risk for winter wheat on the Huanghuaihai Plain under climate change using an EPIC model-based approach[J]. 国际数字地球学报(英文), 2022, 15(1):22.

18. Wu K , Wu J , Li Y . Mining typhoon victim information based on multi-source data fusion using social media data in China: a case study of the 2019 Super Typhoon Lekima[J].

19. Zhu X , Liu T , Xu K , et al. The impact of high temperature and drought stress on the yield of major staple crops in northern China[J]. Journal of environmental management, 2022, 314:115092.

20. Jga B , Shi S , Cca B , et al. A hybrid spatiotemporal convolution-based cellular automata model (ST-CA) for land-use/cover change simulation[J]. International Journal of Applied Earth Observation and Geoinformation, 110.

21. Meng M , Gong D , Zhu T , et al. Significant Association Between Winter North Atlantic SST and Spring NDVI Anomaly Over Eurasia[J]. Journal of Geophysical Research, D. Atmospheres: JGR, 2022(9):127.

22. Chen L , Yan Z , Li Q , et al. Flash Flood Risk Assessment and Driving Factors:A Case Study of the Yantanxi River Basin,Southeastern China[J]. 国际灾害风险科学学报:英文版, 2022, 13(2):14.

23. Tla B , Ying W , Hy C , et al. Using statistical functions and hydro-hydraulic models to develop human vulnerability curves for flash floods: The flash flood of the Taitou catchment (China) in 2016 - ScienceDirect[J]. International Journal of Disaster Risk Reduction, 2022.

24. Ji Z , Pan Y , Zhu X , et al. A generalized model to predict large-scale crop yields integrating satellite-based vegetation index time series and phenology metrics[J]. Ecological Indicators, 2022, 137:108759-.

25. Hui C , Ning L , Cheng C . Risk Assessment of Tsunamis Along the Chinese Coast Due to Earthquakes[J]. 国际灾害风险科学学报:英文版, 2022(002):013.

26. Evaluation and analysis of the projected population of China[J]. Scientific Reports, 2022, 12(1):1-13.

27. Li Q , Chen L , Yan Z , et al. Exploration of Copula Models Use in Risk Assessment for Freezing and Snow Events: A Case Study in Southern China[J]. Sustainability, 2022, 14.

28. Tang J , Yang S , Liu Y , et al. Typhoon Risk Perception: A Case Study of Typhoon Lekima in China[J]. 国际灾害风险科学学报:英文版, 2022(002):013.

29. Shen Q , Lin J , Yang J , et al. Exploring the Potential of Spatially Downscaled Solar-Induced Chlorophyll Fluorescence to Monitor Drought Effects on Gross Primary Production in Winter Wheat[J]. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2022, 15.

30. Zhang X , Cheng C . Temporal and Spatial Heterogeneity of PM 2.5 Related to Meteorological and Socioeconomic Factors across China during 2000–2018[J]. IJERPH, 2022, 19.

31. Chen J , Tang H , Chen W , et al. A Prediction Method of Ground Motion for Regions without Available Observation Data(LGB-FS)and Its Application to both Yangbi and Maduo Earthquakes in 2021[J]. 地球科学学刊:英文版, 2022, 33(4):16.

32. Zhao W , Wu J , Shen Q , et al. Estimation of the net primary productivity of winter wheat based on the near-infrared radiance of vegetation[J]. The Science of the total environment, 2022, 838(Pt 2):156090.

33. Li Y , Wu J , Tang R , et al. Vulnerability to Typhoons: A Comparison between Typhoon Hato (2017) and Typhoon Mangkhut (2018)[J]. Social Science Electronic Publishing.

34. Li Q , Chen L , Xu Y . Drought risk and water resources assessment in the Beijing-Tianjin-Hebei region, China[J]. Science of The Total Environment, 2022, 832:154915-.

35. Yu P , Zhou T , Luo H , et al. Global pattern of ecosystem respiration tendencies and its implications on terrestrial carbon sink potential[J]. 2021.

36. Fang W , Guo C , Han Y , et al. Impact of Tropical Cyclone Avoidance on Fishing Vessel Activity over Coastal China Based on Automatic Identification System Data during 2013–2018[J]. 国际灾害风险科学学报:英文版, 2022, 13(4):16.

37. He Y , Hu X , Xu W , et al. Increased probability and severity of compound dry and hot growing seasons over world's major croplands[J]. Science of the Total Environment, 2022:824.

38. Cheng C , Cushman S , Ho H , et al. Geographic Complexity: Concepts, Theories, and Practices[J]. ISPRS International Journal of Geo-Information, 2022, 11.

39. Drying in the low-latitude Atlantic Ocean contributed to terrestrial water storage depletion across Eurasia[J]. Nature Communications.

40. Xie Z , Zhu W , He B , et al. A background-free phenology index for improved monitoring of vegetation phenology[J]. Agricultural and Forest Meteorology, 2022, 315:108826-.

41. Increasing terrestrial ecosystem carbon release in response to autumn cooling and warming[J]. Nature Climate Change.

42. Bin H , Chen C , Shangrong L , et al. Worldwide impacts of atmospheric vapor pressure deficit on the interannual variability of terrestrial carbon sinks[J]. National Science Review.

43. Liu X , Yang S , Huang X , et al. Quantifying COVID-19 recovery process from a human mobility perspective: An intra-city study in Wuhan[J]. Cities (London, England), 2023, 132:104104.

44. Ye T, Liu W, Chen S, et al. Reducing livestock snow disaster risk in the Qinghai–Tibetan Plateau due to warming and socioeconomic development[J]. Science of The Total Environment, 2022, 813: 151869.

45. Tao L, Su Y, Fang X. Global carbon emission spatial pattern in 2030 under INDCs: using a gridding approach based on population and urbanization[J]. International Journal of Climate Change Strategies and Management, 2022, 14(1): 78-99.

46. Zhao M, Cheng C, Zhou Y, et al. A global dataset of annual urban extents (1992–2020) from harmonized nighttime lights[J]. Earth System Science Data, 2022, 14(2): 517-534.

47. Ning L X, Cheng C X, Cruz A M, et al. Exploring of the spatially varying completeness of a tsunami catalogue[J]. Natural Hazards, 2021: 1-22.

48. Zhang G, Xiao Y, Xiang M, et al. Structure and morphological characteristics of polygonal salt crust, the West Juyan Lake, China[J]. Geosciences Journal, 2021: 1-12.

49. Chen Y, Zhang G, Chen Z, et al. A warming climate may reduce health risks of hypoxia on the Qinghai-Tibet Plateau[J]. Sci Bulletin, 2022, 67: 341-4.

50. Deng Y, Jiang W, Wu Z, et al. Assessing surface water losses and gains under rapid urbanization for SDG 6.6. 1 using long-term Landsat imagery in the Guangdong-Hong Kong-Macao Greater Bay Area, China[J]. Remote Sensing, 2022, 14(4): 881.

51. Guo J, Yang X, Jiang W, et al. Sensitivity of Green-Up Date to Meteorological Indicators in Hulun Buir Grasslands of China[J]. Remote Sensing, 2022, 14(3): 670.

52. Liu Z, Tang H, Huang W. Building Outline Delineation From VHR Remote Sensing Images Using the Convolutional Recurrent Neural Network Embedded With Line Segment Information[J]. IEEE Transactions on Geoscience and Remote Sensing, 2022, 60: 1-13.

53. Chen J, Tang H. The hot zones of global M w≥ 5 earthquakes and their decadal migration during 1989–2019[J]. Arabian Journal of Geosciences, 2022, 15(7): 632.

54. Ji C, Tang H. Gross Floor Area Estimation from Monocular Optical Image Using the NoS R-CNN[J]. Remote Sensing, 2022, 14(7): 1567.

55. Chen J, Tang H, Ge J, et al. Rapid Assessment of Building Damage Using Multi-Source Data: A Case Study of April 2015 Nepal Earthquake[J]. Remote Sensing, 2022, 14(6): 1358.

56. Chen S, Liu W, Feng P, et al. Improving spatial disaggregation of crop yield by incorporating machine learning with multisource data: A case study of Chinese maize yield[J]. Remote Sensing, 2022, 14(10): 2340.

57. Huang X, Zhu W, Zhao C, et al. Phenological piecewise modelling is more conducive than whole-season modelling to winter wheat yield estimation based on remote sensing data[J]. European Journal of Remote Sensing, 2022, 55(1): 338-352.

58. Chen X, Tian F, Su Y. How did the late 1920s drought affect northern Chinese society?[J]. Weather and Climate Extremes, 2022, 36: 100451.

59. Dai J, Zhang G, Liu L, et al. Effects of efflorescence and subflorescence by different salts on soil physical properties and aeolian erosion[J]. Catena, 2022, 215: 106323.

60. Zhang G, Azorin-Molina C, Wang X, et al. Rapid urbanization induced daily maximum wind speed decline in metropolitan areas: A case study in the Yangtze River Delta (China)[J]. Urban Climate, 2022, 43: 101147.

62. Zhu W, He B, Xie Z, et al. Reconstruction of Vegetation Index Time Series Based on Self-Weighting Function Fitting from Curve Features[J]. Remote Sensing, 2022, 14(9): 2247.

63. Luo H, Zhou T, Yu P, et al. The forest recovery path after drought dependence on forest type and stock volume[J]. Environmental Research Letters, 2022, 17(5): 055006.

64. Luo Y, Zhang Z, Zhang L, et al. Developing High-Resolution Crop Maps for Major Crops in the European Union Based on Transductive Transfer Learning and Limited Ground Data[J]. Remote Sensing, 2022, 14(8): 1809.

65. Zhao J, Zhang Q, Wang D, et al. Machine learning-based evaluation of susceptibility to geological hazards in the Hengduan mountains region, China[J]. International Journal of Disaster Risk Science, 2022, 13(2): 305-316.

66. Zhang X, Cheng C, Zhao H. A health impact and economic loss assessment of O3 and PM2. 5 exposure in China From 2015 to 2020[J]. GeoHealth, 2022, 6(3): e2021GH000531.

67. Lin J, Shen Q, Wu J, et al. Assessing the Potential of Downscaled Far Red Solar-Induced Chlorophyll Fluorescence from the Canopy to Leaf Level for Drought Monitoring in Winter Wheat[J]. Remote Sensing, 2022, 14(6): 1357.

68. Qiao Y, Xu W, Meng C, et al. Increasingly dry/wet abrupt alternation events in a warmer world: Observed evidence from China during 1980–2019[J]. International Journal of Climatology, 2022, 42(12): 6429-6440.

69. Han Q, Sun S, Liu Z, et al. Accelerated exacerbation of global extreme heatwaves under warming scenarios[J]. International Journal of Climatology, 2022, 42(11): 5430-5441.

70. Zhang Q, Yuan R, Singh V P, et al. Dynamic vulnerability of ecological systems to climate changes across the Qinghai-Tibet Plateau, China[J]. Ecological Indicators, 2022, 134: 108483.

71. Wang G, Zhang Q, Luo M, et al. Fractional contribution of global warming and regional urbanization to intensifying regional heatwaves across Eurasia[J]. Climate Dynamics, 2022: 1-17.

72. Jia D, Cheng C, Shen S, et al. Multitask Deep Learning Framework for Spatiotemporal Fusion of NDVI[J]. IEEE Transactions on Geoscience and Remote Sensing, 2022, 60: 1-13.

73. Yang J, Li S, Zhu T, et al. Intraseasonal Melting of Northern Barents Sea Ice Forced by Circumpolar Clockwise-Propagating Atmospheric Waves during Early Summer[J]. Journal of Climate, 2022, 35(17): 5703-5718.

74. Tian F, Chen X, Su Y. Comparative Analysis of Extreme Drought Events and Social Impacts in Henan Province during the Middle Ming Dynasty[J]. Weather, Climate, and Society, 2022, 14(3): 1009-1021.

75. Bao W, Gong A, Zhao Y, et al. High-Precision Population Spatialization in Metropolises Based on Ensemble Learning: A Case Study of Beijing, China[J]. Remote Sensing, 2022, 14(15): 3654.

76. Zhang X, Yan B, Zhou Y, et al. Short-term health impacts related to ozone in China before and after implementation of policy measures: A systematic review and meta-analysis[J]. Science of The Total Environment, 2022: 157588.

77. Du R, Wu J, Yang J, et al. Global exacerbation of episodic local vegetation greenness decline since the 21st century[J]. Science of The Total Environment, 2022, 840: 156411.

78. Qiao Y, Xu W, Wu D, et al. Changes in the spatiotemporal patterns of dry/wet abrupt alternation frequency, duration, and severity in Mainland China, 1980–2019[J]. Science of The Total Environment, 2022, 838: 156521.

79. Zhang J, Wu H, Zhang Z, et al. Asian Rice Calendar Dynamics Detected by Remote Sensing and Their Climate Drivers[J]. Remote Sensing, 2022, 14(17): 4189.

80. Guo R, Zhu X, Zhang C, et al. Analysis of change in maize plantation distribution and its driving factors in Heilongjiang Province, China[J]. Remote Sensing, 2022, 14(15): 3590.

81. Hu Z, Wang G, Liu Y, et al. Analysis of Spatial and Temporal Variations of the Near-Surface Wind Regime and Their Influencing Factors in the Badain Jaran Desert, China[J]. Atmosphere, 2022, 13(8): 1316.

82. Ji Z, Pan Y, Zhu X, et al. Prediction of Corn Yield in the USA Corn Belt Using Satellite Data and Machine Learning: From an Evapotranspiration Perspective[J]. Agriculture, 2022, 12(8): 1263.

83. Han Q, Liu Z, Jia J, et al. Web‐Based Data to Quantify Meteorological and Geographical Effects on Heat Stroke: Case Study in China[J]. GeoHealth, 2022, 6(8): e2022GH000587.

84. Wu Y, Yang S, Wu J, et al. An Interacting Negative Feedback Mechanism in a Coupled Extreme Weather–Humans–Infrastructure System: A Case Study of the 2021 Winter Storm in Texas[J]. Frontiers in Physics, 2022: 572.

85. Li T, Singh V P, Zhao J, et al. Identification of degradation areas of ecological environment and degradation intensity assessment in the Yellow River Basin[J]. Frontiers in Earth Science, 2022: 1220.

86. Fan K, Zhang Q, Gu X, et al. Global soil moisture drought identification and responses to natural and anthropogenic forcings[J]. Journal of Hydrology, 2022, 610: 127993.

87. Ren Q, He C, Huang Q, et al. Impacts of urban expansion on natural habitats in global drylands[J]. Nature Sustainability, 2022, 5(10): 869-878.

88. Ren Q, He C, Huang Q, et al. Impacts of urban expansion on natural habitats in global drylands[J]. Nature Sustainability, 2022, 5(10): 869-878.

89. Wang D, Zhang Q, Singh V P, et al. Amplifying Meteorological Droughts Across Middle-and Low-Latitude Northern Hemisphere[J]. Frontiers in Earth Science, 2022, 10: 914232.

90. Liu X, Zhou T, Shi P, et al. Uncertainties of soil organic carbon stock estimation caused by paleoclimate and human footprint on the Qinghai Plateau[J]. Carbon Balance and Management, 2022, 17(1): 1-17.

91. Song J, Zhang Q, Wu W, et al. Amplifying flood risk across the lower Yellow River Basin, China, under shared socioeconomic pathways. Front[J]. Climate Change and Associated Impacts, 2023, 10: 18.

92. Zhou Y, Zhang Z, Rao J, et al. Predicting and mapping soil magnetic susceptibility in an agro-pastoral transitional zone: Influencing factors and implications[J]. Soil and Tillage Research, 2022, 219: 105352.

93. Deng Y, Jiang W, Wu Z, et al. Assessing and Characterizing Carbon Storage in Wetlands of the Guangdong–Hong Kong–Macau Greater Bay Area, China, During 1995–2020[J]. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2022, 15: 6110-6120.

94. Deng Y, Jiang W, Wu Z, et al. Assessing and Characterizing Carbon Storage in Wetlands of the Guangdong–Hong Kong–Macau Greater Bay Area, China, During 1995–2020[J]. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2022, 15: 6110-6120.

95. Li K, Zhao W, Peng R, et al. Multi-branch self-learning Vision Transformer (MSViT) for crop type mapping with Optical-SAR time-series[J]. Computers and Electronics in Agriculture, 2022, 203: 107497.

96. Zhu X, Xiao G, Wang S. Suitability evaluation of potential arable land in the Mediterranean region[J]. Journal of Environmental Management, 2022, 313: 115011.

97. Ge J, Tang H, Yang N, et al. Rapid identification of damaged buildings using incremental learning with transferred data from historical natural disaster cases[J]. ISPRS Journal of Photogrammetry and Remote Sensing, 2023, 195: 105-128.

98. Yang X, Zhu W, Zhao C. A Prediction Model for the Outbreak Date of Spring Pollen Allergy in Beijing Based on Satellite-Derived Phenological Characteristics of Vegetation Greenness[J]. Remote Sensing, 2022, 14(22): 5891.

99. Wang X, Jiang W, Peng K, et al. A framework for fine classification of urban wetlands based on random forest and knowledge rules: taking the wetland cities of Haikou and Yinchuan as examples[J]. GIScience & Remote Sensing, 2022, 59(1): 2144-2163.

100. Liao X, Xu W, Zhang J, et al. Analysis of affected population vulnerability to rainstorms and its induced floods at county level: A case study of Zhejiang Province, China[J]. International Journal of Disaster Risk Reduction, 2022, 75: 102976.

101. Ye Y, Li J, Fang X, et al. Reconstruction of cropland change in European countries using integrated multisource data since AD 1800[J]. Boreas, 2023, 52(1): 60-77.

102. Zhang C, Fang X, Ye Y, et al. A spatially explicit reconstruction of cropland cover in China around 1850 CE employing new land suitability based gridded allocation algorithm[J]. Quaternary International, 2022, 641: 62-73.

103. Wang F, Ye Y, Zhang C, et al. Reconstruction of cropland cover using historical literature in Northern China, Sui Dynasty, AD 609[J]. The Holocene, 2023, 33(3): 310-320.

104. Fan Y, Yang J, Li J, et al. Gain of one-month lead predicting spring rainfall over China: A comparison between FGOALS-f2 ensemble prediction system and its driving stretched-grid downscaling prediction system[J]. Atmospheric Research, 2023, 283: 106570.

105. Qi X, Yang J, Xue Y, et al. Subseasonal warming of surface soil enhances precipitation over the eastern Tibetan Plateau in early summer[J]. Journal of Geophysical Research: Atmospheres, 2022: e2022JD037250.

106. Lin T, Chen B, Zhang Z, et al. Horton’s law of stream widths in China and its association with climate[J]. Journal of Hydrology: Regional Studies, 2023, 45: 101309.

107. Wan J, Wang L, Yue Y, et al. Quickly Assess the Direct Loss of Houses Caused by a Typhoon-Rainstorm-Storm Surge–Flood Chain: Case of Haikou City[J]. Water, 2022, 14(19): 3037.

108. Yue Y, Geng L, Li M. The impact of climate change on aeolian desertification: A case of the agro-pastoral ecotone in northern China[J]. Science of The Total Environment, 2023, 859: 160126.

109. Bao W, Gong A, Zhang T, et al. Mapping Population Distribution with High Spatiotemporal Resolution in Beijing Using Baidu Heat Map Data[J]. Remote Sensing, 2023, 15(2): 458.

110. Xu C, Gong A, Liang L, et al. Vulnerability Assessment Method for Immovable Cultural Relics Based on Artificial Neural Networks—An Example of a Heavy Rainfall Event in Henan Province[J]. International Journal of Disaster Risk Science, 2023, 14(1): 41-51.

111. Zhang X, Osei F, Stein A, et al. Temporal and spatial evolution of short-term exposure to ozone pollution: Its health impacts in China based on a meta-analysis[J]. Journal of Cleaner Production, 2022, 373: 133938.

112. Pan Y, Yang J, Chen D, et al. Skillful seasonal prediction of summer wildfires over Central Asia[J]. Global and Planetary Change, 2023: 104043.

113. Ma H, Zhang G, Mao R, et al. Snow depth variability across the Qinghai Plateau and its influencing factors during 1980–2018[J]. International Journal of Climatology, 2023, 43(2): 1094-1111.

114. Chen D, Lu R, Liu X, et al. Holocene vegetation and climate reconstructions from pollen records in the Mu Us Sandy Land, China[J]. CATENA, 2023, 220: 106698.

115. Meng M, Gong D. Winter North Atlantic SST as a Precursor of Spring Eurasian Wildfire[J]. Geophysical Research Letters, 2022, 49(18): e2022GL099920.

116. He B, Zhong Z, Chen D, et al. Lengthening Dry Spells Intensify Summer Heatwaves[J]. Geophysical Research Letters, 2022, 49(19): e2022GL099647.

117. Li Z, Liu W, Ye T, et al. Observed and CMIP6 simulated occurrence and intensity of compound agroclimatic extremes over maize harvested areas in China[J]. Weather and Climate Extremes, 2022, 38: 100503.

118. Liu W, Li Z, Li Y, et al. Heterogeneous impacts of excessive wetness on maize yields in China: Evidence from statistical yields and process-based crop models[J]. Agricultural and Forest Meteorology, 2022, 327: 109205.

119. Liu Y, Liu W, Li Y, et al. Concurrent Precipitation Extremes Modulate the Response of Rice Transplanting Date to Preseason Temperature Extremes in China[J]. Earth's Future, 2023, 11(1): e2022EF002888.

120. Yang T, Li Z, Bai Y, et al. Residents’ Preferences for Rural Housing Disaster Insurance Attributes in Central and Western Tibet[J]. International Journal of Disaster Risk Science, 2023: 1-15.

121. Zhao W, Wu J, Shen Q, et al. Exploring the Ability of Solar-Induced Chlorophyll Fluorescence for Drought Monitoring Based on an Intelligent Irrigation Control System[J]. Remote Sensing, 2022, 14(23): 6157.

122. Tian F, Yang J H, Du R H, et al. Sustained vegetation greening enhanced ecosystem water-use efficiency in the Loess Plateau of China in recent 20 years[J]. Ecological Engineering, 2022, 184: 106768.

123. Li B, Gong A, Chen Z, et al. An Object-Oriented Method for Extracting Single-Object Aquaculture Ponds from 10 m Resolution Sentinel-2 Images on Google Earth Engine[J]. Remote Sensing, 2023, 15(3): 856.

124. Gao P, Xie Y, Song C, et al. Exploring detailed urban-rural development under intersecting population growth and food production scenarios: Trajectories for China’s most populous agricultural province to 2030[J]. Journal of Geographical Sciences, 2023, 33(2): 222-244.

125. Wang Y, Song C, Cheng C, et al. Modelling and evaluating the economy-resource-ecological environment system of a third-polar city using system dynamics and ranked weights-based coupling coordination degree model[J]. Cities, 2023, 133: 104151.

126. Liu X, Yang S, Huang X, et al. Quantifying Covid-19 Pandemic Recovery Through Human Mobility Perspective: An Intra-City Study with the One-Wave Complete Process in Wuhan[J]. Available at SSRN 4094253.

127. Huang J, Shen S, Zhao M, et al. Assessment of summer regional outdoor heat stress and regional comfort in the Beijing‐Tianjin‐Hebei agglomeration over the last 40 years[J]. GeoHealth, 2023: e2022GH000725.

128. Zheng X, Ma Q, Wang Y, et al. Assessing Impact of Temperature Variability of Climate Change on Mortality Based on Multiple GCM Projections in China[J]. Atmosphere, 2022, 13(11): 1775.

129. Zhao C, Pan Y, Teng Y, et al. Air Quality Improvement in China: Evidence from PM2. 5 Concentrations in Five Urban Agglomerations, 2000–2021[J]. Atmosphere, 2022, 13(11): 1839.

130. Zhang X, Wang Y, Qi J, et al. The effect of wind speed on hazy weather from the long-term trend of low visibility: A case study in the Beijing-Tianjin-Hebei region, China[J]. Atmospheric Pollution Research, 2023, 14(1): 101621.

131. Wang R, Guo L, Chen B, et al. Spatiotemporal variations and overflow risk analysis of the Salt Lake in the Hoh Xil Region using machine learning methods[J]. Frontiers in Earth Science, 2023, 10: 1084540.

132. Zhu T, Yang J, Wang B, et al. Boreal summer extratropical intraseasonal waves over the Eurasian continent and real-time monitoring metrics[J]. Journal of Climate, 2023: 1-52.

133. Wang J, Pan Y, Ji Z, et al. Fine-Scale Population Distributions Mapping Based on Remote Sensing and Social Sensing Data[C]//IGARSS 2022-2022 IEEE International Geoscience and Remote Sensing Symposium. IEEE, 2022: 4066-4069.

134. Liu Z, Tang H. Learning Sparse Geometric Features for Building Segmentation from Low-Resolution Remote-Sensing Images[J]. Remote Sensing, 2023, 15(7): 1741.

135. Feng L, Xu P, Tang H, et al. National-scale mapping of building footprints using feature super-resolution semantic segmentation of Sentinel-2 images[J]. GIScience & Remote Sensing, 2023, 60(1): 2196154.

136. 周晓雪,李楠,潘耀忠,孙莉昕.人工蜂群算法优化SVR的叶面积指数反演[J].遥感学报,2022,26(04):766-780.孙静琪,陈笑娟,李倩,高吉喆,张化,许映军.基于遥感技术的1988—2018年渤海海冰冰情时空变化特征[J].灾害学,2022,37(01):178-184+191.

137. 李倩楠,张杜娟,潘耀忠,代佳佳.MPSPNet和UNet网络下山东省高分辨耕地遥感提取[J].遥感学报,2023,27(02):471-491.

138. 梁瑾璠,赵晗萍,张家乐.应急物资供应链快速构建模式[J].中国安全科学学报,2022,32(04):135-140.DOI:10.16265/j.cnki.issn1003-3033.2022.04.020.

139. 王倩之,刘凯,汪明.NEX-GDDP降尺度数据对中国极端降水指数模拟能力的评估[J].气候变化研究进展,2022,18(01):31-43.

140. 骆玉川,张朝,张亮亮,曹娟.冬小麦物候的时空变化模拟及其气候驱动因素解析——基于改进的pDSSAT模型[J].中国科学:地球科学,2022,52(01):126-143.

141. 梁媛媛,孙鹏,张强.基于Copula函数的1977—2014年广东省年最大洪峰特征分析[J].水利水电技术(中英文),2022,53(02):1-17.DOI:10.13928/j.cnki.wrahe.2022.02.001.

142. 田丰,杨建华,刘雷震,武建军.地理学视角的干旱传播概念、特征与影响因素研究进展[J].地理科学进展,2022,41(01):173-184.

143. 董雪晨,龚道溢,王子晴.21世纪10年代初中国东部夏季小雨频次地形效应的趋势转折[J].科学通报,2022,67(02):184-192.

144. 葛家驿,杨乃森,唐宏,徐朋磊,纪超.端到端的梯度提升网络分类过程可视化[J].信号处理,2022,38(02):355-366.DOI:10.16798/j.issn.1003-0530.2022.02.015.

145. 陈小强,袁丽华,宋长青,程昌秀,曹丹萍,王翔宇,梁晓瑶,王元慧,易红.中美在中国周边地区的商品贸易发展及影响力对比[J].地理研究,2022,41(03):663-680.

146. 申泽西,张强,吴文欢,宋长青.青藏高原及横断山区地质灾害易发区空间格局及驱动因子[J].地理学报,2022,77(05):1211-1224.

147. 叶思菁,宋长青,程昌秀,高剑波,高培超,胡洛铭.UN Comtrade数据共享平台设计与实现[J].北京师范大学学报(自然科学版),2022,58(06):963-971.

148. 张世喆,朱秀芳,刘婷婷,徐昆,郭锐.气候变化下中国不同植被区总初级生产力对干旱的响应[J].生态学报,2022,42(08):3429-3440.

149. 吴翰,汪明,刘凯.基于夜间灯光遥感数据的汶川地震重灾区恢复状态评估[J].自然灾害学报,2022,31(02):66-76.DOI:10.13577/j.jnd.2022.0207.

150. 林婷婷,史培军,马春英,师凡雅,聂娟,陈波.最近邻河道相对高度及其在中国洪水淹没制图中的应用[J].北京师范大学学报(自然科学版),2022,58(02):300-309.

151. 宋金帛,张强,王港,吴文欢.珠江三角洲地区暴雨事件驱动因子研究[J].北京师范大学学报(自然科学版),2022,58(02):293-299.

152. 戴开璇,沈石,程昌秀,耿佳辰,张天媛.青藏高原城市洪涝缓解能力评估——以拉萨市为例[J].北京师范大学学报(自然科学版),2022,58(02):318-327.

153. 贺倩,汪明,刘凯.基于Logistic回归和MCMC方法评价地震滑坡敏感性[J].水土保持研究,2022,29(03):396-403+410.DOI:10.13869/j.cnki.rswc.2022.03.047.

154. 方伟华,王军,殷杰,曾鹏,张海霞,岳耀杰,董燕生,张继权.多灾种重大灾害情景构建与动态模拟有效支撑灾害风险评估与防范[J].中国减灾,2022(07):19-22.

155. 徐伟,刘凯,李碧雄,杜鹃,汪明.多灾种重大自然灾害承灾体脆弱性评估:指标、方法与结果[J].中国减灾,2022(07):16-18.

156. 邓雅文,侯鹏,蒋卫国,彭凯锋,荔琢,邓越.基于多特征指标和层次聚类分析的河源区范围自动划分方法研究[J].地球信息科学学报,2022,24(03):469-482.

157. 宋方静,方修琦.地理教育与国家安全教育刍议[J].地理教育,2022(S1):121-122.

158. 朱秀芳,李石波,石振君,任笑,程昌秀.异常气候条件下小麦估产方法研究[J].农业现代化研究,2022,43(02):328-339.DOI:10.13872/j.1000-0275.2022.0010.

159. 惠春,宁立新,程昌秀.中国东南沿海城市海啸灾害风险评估[J].自然灾害学报,2022,31(01):49-59.DOI:10.13577/j.jnd.2022.0105.

160. 董海燕,潘耀忠,朱秀芳,王金云.多因子贡献率权重的城市精细人口空间化方法:以北京市为例[J].北京师范大学学报(自然科学版),2022,58(01):135-142.

161. 乔灿灿,贾铎,程昌秀.祁连山不同类型植被物候变化及其对温度的响应[J].北京师范大学学报(自然科学版),2022,58(01):168-177.

162. 杨雯倩,史培军,张钢锋,杨胜利.西安高温热害人口暴露量及其受灾指数预估研究[J].自然灾害学报,2022,31(01):29-39.DOI:10.13577/j.jnd.2022.0103.

163. 杨雯倩,史培军,张钢锋,杨胜利.西安高温热害人口暴露量及其受灾指数预估研究[J].自然灾害学报,2022,31(01):29-39.DOI:10.13577/j.jnd.2022.0103.

164. 朱秀芳,刘莹,徐昆.基于雨养指示线的灌溉概率指数计算与验证[J].农业工程学报,2022,38(02):50-57.

165. 张世喆,朱秀芳,刘婷婷,徐昆,郭锐.基于多维Copula的中国干旱特征及危险性分析[J].干旱区地理,2022,45(02):333-345.

166. 张媛,孟耀斌,叶涛.我国Natech事件分布规律及涉水Natech事件致因分析[J].灾害学,2022,37(01):185-191.

167. 王霞,王瑛,林齐根,李宁,张馨仁,周笑影.气候变化背景下中国滑坡灾害人口风险评估[J].气候变化研究进展,2022,18(02):166-176.

168. 刘婷婷,朱秀芳,郭锐,徐昆,张世喆.ERA5再分析降水数据在中国的适用性分析[J].干旱区地理,2022,45(01):66-79.

169. 黄承芳,李宁,张正涛,王芳,刘峰贵.灾害风险评估中区域经济暴露价值的估算研究——以青海省为例[J].灾害学,2022,37(01):205-210.

170. 田芳毓,陈旭东,苏筠.2005-2020年我国自然灾害救助应急响应时空分布特征及变化[J].灾害学,2022,37(02):190-196.

171. 苏筠,王静爱.北京师范大学中国地理课程思政发展历程与实践探索[J].北京师范大学学报(自然科学版),2022,58(03):517-522.

172. 汪怡,梁龙,孙延忠,宫阿都,刘颖慧,陈云浩.山西省不可移动文物洪涝灾害风险研究[J].自然灾害学报,2022,31(03):35-47.DOI:10.13577/j.jnd.2022.0304.

173. 黄崇福,张馨文.地理空间信息扩散技术实证研究——以四川省三台县洪水灾害为例[J].灾害学,2022,37(02):89-101.

174. 黄智卿,宫阿都.延安市1999—2019年植被覆盖时空变化特征[J].河北农业大学学报,2022,45(03):97-104.DOI:10.13320/j.cnki.jauh.2022.0049.

175. 李雪莹,许娅威,王峥,苏筠.青藏高原2000-2015年草地质量的时空变化研究[J].北京师范大学学报(自然科学版),2023,59(01):147-155.

176. 李雪莹,许娅威,王峥,苏筠.青藏高原2000-2015年草地质量的时空变化研究[J].北京师范大学学报(自然科学版),2023,59(01):147-155.

177. 郭春华,朱秀芳,张世喆,唐明秀,徐昆.基于CMIP6的中国未来高温危险性变化评估[J].地球信息科学学报,2022,24(07):1391-1405.

178. 王峥,程昌秀,李畅.时空Moran散点图及其在中国干旱时空聚集区识别中的应用[J].地球信息科学学报,2022,24(07):1301-1311.

179. 宁立新,惠春,程昌秀.基于完整目录数据的全球海啸时空分异研究[J].海洋学报,2022,44(07):122-136.

180. 沈石,程昌秀,杨春.空间数据库课程体系的问题与对策[J].地理信息世界,2022,29(03):26-30.

181. 谢一茹,高培超,叶思菁,沈石,张潇丹.面向土地变化模拟的CLUMondo模型:回顾与展望[J].地理信息世界,2022,29(03):7-12.

182. 曲书锋,张国明,刘连友,李力,肖雨婷,向明珠,孙煦然,韩旭娇.干涸尾闾湖盆区泥漠地表磨蚀释尘特征[J].中国沙漠,2022,42(04):81-88.

183. 贺倩,汪明,刘凯.基于机器学习的气温要素空间插值[J].高原气象,2022,41(03):733-748.

184. 杨婷婷,刘新立,白媛,叶涛.农业指数保险研究进展评述[J].北京师范大学学报(自然科学版),2022,58(03):501-510.

185. 史培军,刘连友.北京师范大学灾害风险科学研究回顾与展望[J].北京师范大学学报(自然科学版),2022,58(03):458-464.

186. 效存德,史培军,李小雁,张光辉,何春阳,陈晋,丑洁明,亢力强,刘宝元,延晓冬,杨晓帆,于德永,赵传峰,赵文武,张春来,张大勇,张强,张文生.地表过程与可持续发展研究进展与展望[J].北京师范大学学报(自然科学版),2022,58(03):476-490.

187. 张强,何昌原,申泽西,范科科.基于CiteSpace知识图谱的新疆水汽循环及其影响研究进展[J].北京师范大学学报(自然科学版),2022,58(03):491-500.

188. 耿佳辰,沈石,程昌秀.“十三五”时期黄河流域PM_(2.5)时空分布规律及多尺度社会经济影响机制分析[J].地球信息科学学报,2022,24(06):1163-1175.

189. 唐继婷,姚可桢,杨赛霓.网络大数据——自然灾害信息服务的新途径[J].中国减灾,2022(11):22-24.

190. 堵越,白敏,鲁瑞洁.青海湖湖东沙地全新世生物遗存及其环境意义[J].第四纪研究,2022,42(04):1027-1043.

191. 刘燕仪,王瑛,祝瑛琦,周笑影,罗进勇,张发芝.灾害遗址型旅游地的客源结构研究——汶川博物馆与九寨沟景区的对比分析[J].灾害学,2022,37(02):218-223.

192. 张湘雪,程昌秀,徐成东,肖革新,刘杨.基于贝叶斯时空层次模型(BSTHM)和地理探测器法(GeoDetector)对细菌性痢疾的环境风险评估[J].环境化学,2022,41(07):2193-2201.

193. 邹芷潇,程昌秀,沈石.社会经济及气象因素对水稻产量的影响研究——以三江平原为例[J].中国农业资源与区划,2022,43(04):24-30.

194. 霍佳璇,任梁,潘莹萍,赵瑾,向响,余程,孟德惠,王源源,鲁瑞洁,黄永梅.柴达木盆地荒漠植物功能性状及其对环境因子的响应[J].生态学报,2022,42(11):4494-4503.

195. 马罗,鲁瑞洁,陈东雪,刘瑛娜.河北坝上地区中晚全新世粒度端元分析及其环境意义[J].第四纪研究,2022,42(06):1554-1567.

196. 王昊煜,高培超,宋长青,程昌秀,叶思菁.基于遗传算法的土地利用优化研究进展:文献计量分析[J/OL].生态学报,2023(03):1-9

197. 郭红翔,朱文泉.社会经济统计数据空间化研究进展[J].地理学报,2022,77(10):2650-2667.

198. 赵涔良,朱文泉,郭红翔,陈力原,谢志英.北极气候和陆地环境变化对第一产业影响研究进展[J].地理学报,2022,77(11):2838-2861.

199. 唐明秀,孙劭,朱秀芳,张世喆,徐昆,郭春华.基于CMIP6的中国未来暴雨危险性变化评估[J].地球科学进展,2022,37(05):519-534.

200. 胡金鹏,金明,史培军.不同灌溉水平下陇东冬小麦干旱脆弱性评估[J].灾害学,2022,37(04):178-183.

201. 刘苇航,叶涛,史培军,陈说.气候变化对粮食生产风险的影响研究进展[J].自然灾害学报,2022,31(04):1-11.DOI:10.13577/j.jnd.2022.0401.

202. 李子轩,杜鹃,徐伟.基于机器学习的降雨—滑坡灾害链直接经济损失脆弱性评估[J].灾害学,2022,37(04):220-224.

203. 张欣然,徐伟.区域减灾能力研究:进展与挑战[J].水利水电技术(中英文),2023,54(03):47-58.DOI:10.13928/j.cnki.wrahe.2023.03.004.

204. 赵丹丹,徐伟.1990—2019年全球主要自然灾害大小灾损失及趋势对比[J/OL].灾害学:1-11[2023-04-17]

205. 赵志龙,李俊,方修琦,叶瑜.过去千年帝俄/苏联耕地面积重建数据集(1000-2000)[J].全球变化数据学报(中英文),2022,6(02):249-256+421-428.

206. 周沛芳,周涛,刘霞,张亚杰,徐艺心,罗惠,于佩鑫,张靖宙.青海省土壤有机碳估算及其不确定性分析[J].地理科学进展,2022,41(12):2327-2341.

207. 高培超,王昊煜,宋长青,程昌秀,沈石.多目标优化NSGA系列算法与地理决策:原理、现状与展望[J].地球信息科学学报,2023,25(01):25-39.

208. 朱昱,潘耀忠,张杜娟.基于深度卷积网络和分水岭分割的耕地地块识别方法[J].地球信息科学学报,2022,24(12):2389-2403.

209. 王瑛,邱星霖,李雨欣,陈笑娟,陈小雷.基于物候期的霜冻灾害林果减产风险评估:以河北省为例[J].中国农业气象,2022,43(10):821-831.

210. 凌子燕,蒋卫国,李金嵬,凌玉荣,彭凯锋,邓雅文,张泽.桂林市典型喀斯特区湿地生态网络研究[J].湿地科学,2022,20(06):739-746.

211. 耿治鹏,宋颉,王春林,蒋卫国,陈征.污染场地土壤重金属污染空间特征分析——以某搬迁电镀厂为例[J].环境工程技术学报,2023,13(01):295-302.

212. 包文轩,宫阿都,徐澯,李博艺,黄智卿.基于区域灾害系统论的广东省台风灾害风险评估——以“山竹”台风为例[J].北京师范大学学报(自然科学版),2023,59(01):94-103.

213. 马小燕, 毛睿, 冯星雅. 青藏高原高空的沙尘气溶胶[J]. 地理教育, 2022.



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1. Huang, Chengfang, et al. "Estimating economic impacts from future energy demand changes due to climate change and economic development in China." Journal of Cleaner Production 311 (2021): 127576.

2. Fan, Keke, et al. "The scenario-based variations and causes of future surface soil moisture across China in the twenty-first century." Environmental Research Letters 16.3 (2021): 034061.

3. Zhang, Junlin, et al. "Global mortality risk assessment from river flooding under climate change." Environmental Research Letters 16.6 (2021): 064036.

4. Zhu, Xiufang, et al. "Assessing the vulnerability and risk of maize to drought in China based on the AquaCrop model." Agricultural Systems 189 (2021): 103040.

5. Liu, Jiajia, et al. "Diverse roles of previous years’ water conditions in gross primary productivity in China." Remote Sensing 13.1 (2020): 58.

6. Wang, Guangpeng, et al. "Flood Risk Assessment of Subway Systems in Metropolitan Areas under Land Subsidence Scenario: A Case Study of Beijing." Remote Sensing 13.4 (2021): 637.

7. Huang, C. F. "Geospatial Information Diffusion Based on Self-Learning Discrete Regression." Journal of Environmental Informatics 2 (2021).

8. Shen, Zexi, et al. "Varying effects of mining development on ecological conditions and groundwater storage in dry region in Inner Mongolia of China." Journal of Hydrology 597 (2021): 125759.

9. Zhang, Ting , et al. "A topic model based framework for identifying the distribution of demand for relief supplies using social media data." International Journal of Geographical Information Science 35.11 (2021): 2216-2237.

10. Liu, Kai , et al. "An event-based probabilistic model of disruption risk to urban metro networks." Transportation Research Part A: Policy and Practice 147 (2021): 93-105.

11. Yao, Peng Juan, et al. "Changes in spring vegetation greenness over Siberia associated with weather disturbances during 1982–2015." International Journal of Climatology 41.9 (2021): 4698-4711.

12. He, Qian , et al. "Rapidly assessing earthquake-induced landslide susceptibility on a global scale using random forest." Geomorphology 391 (2021): 107889.

13. Liu, Junzhi, et al. "Mapping diurnal cycles of precipitation over China through clustering." Journal of Hydrology 592 (2021): 125804.

14. Zhu, Xiufang, et al. "Effects of drought on vegetation productivity of farmland ecosystems in the drylands of northern China." Remote Sensing 13.6 (2021): 1179.

15. Shen, Zexi, et al. "Station‐based non‐linear regression downscaling approach: A new monthly precipitation downscaling technique." International Journal of Climatology 41.13 (2021): 5879-5898.

16. Sun, Yijie, et al. "Decadal shift of the influence of Arctic Oscillation on dust weather frequency in spring over the Middle East during 1974–2019." International Journal of Climatology 42.4 (2022): 2440-2454.

17. Zhang, Xiangxue, et al. "Determinant Powers of Socioeconomic Factors and Their Interactive Impacts on Particulate Matter Pollution in North China." International journal of environmental research and public health 18.12 (2021): 6261.

18. Qin, Lianjie, et al. "Land use and land cover play weak roles in typhoon economic losses at the county level." Geomatics, Natural Hazards and Risk 12.1 (2021): 1287-1297.

19. Zhang, Xiangxue, et al. "Spatial pattern of the population casualty rate caused by super typhoon Lekima and quantification of the interactive effects of potential impact factors." BMC public health 21.1 (2021): 1-11.

20. Ding, Zhiyong , et al. "Holocene moisture variability and its lagged response to summer insolation revealed by eolian deposits in the Lake Qinghai Basin, NE Tibetan Plateau." Paleoceanography and Paleoclimatology 36.3 (2021): e2020PA004085.

21. Li, Yuxin, et al. "Impact of economic development levels on the mortality rates of Asian earthquakes." International Journal of Disaster Risk Reduction 62 (2021): 102409.

22. Tang, Jiting, Yang, Saini, Wang ,Weiping. "Social media-based disaster research: Development, trends, and obstacles." International journal of disaster risk reduction 55 (2021): 102095.

23. Deng, Zhifei, et al. "Pure risk premium rating of debris flows based on a dynamic run-out model: a case study in Anzhou, China." Natural Hazards 106.1 (2021): 235-253.

24. Fang, Weihua, and Haixia Zhang. "Zonation and scaling of tropical cyclone hazards based on spatial clustering for coastal China." Natural Hazards 109.1 (2021): 1271-1295.

25. Ma, Zice, et al. "Characterization and Evaluation of MODIS-Derived Crop Water Stress Index (CWSI) for Monitoring Drought from 2001 to 2017 over Inner Mongolia." Sustainability 13.2 (2021): 916.

26. Wang, Xiangyu, et al. "Cross-national perspectives on using Sustainable Development Goals (SDGs) indicators for monitoring sustainable development: A database and Analysis." Chinese Geographical Science 31.4 (2021): 600-610.

27. Zong, Qi, et al. "Changes in dust activity in spring over East Asia under a Global Warming Scenario." Asia-Pacific Journal of Atmospheric Sciences 57.4 (2021): 839-850.

28. Cheng, Changxiu, et al. "Spatiotemporal patterns of the daily relative risk of COVID-19 in China." Journal of Geographical Sciences (2021).

29. Zhang, Xiangxue, et al. "Spatiotemporal variations in the incidence of bacillary dysentery and long-term effects associated with meteorological and socioeconomic factors in China from 2013 to 2017." Science of the Total Environment 755 (2021): 142626.

30. Zhang, Xiangxue, et al. "Natural and socioeconomic factors and their interactive effects on house collapse caused by typhoon Mangkhut." International Journal of Disaster Risk Science 12.1 (2021): 121-130.

31. Qiao, Cancan, et al. "Vegetation phenology in the Qilian mountains and its response to temperature from 1982 to 2014." Remote Sensing 13.2 (2021): 286.

32. Zhang, Ting , et al. "The spatial transformation process and critical time node detection in global extreme high temperature clusters." Earth and Space Science 8.2 (2021): e2020EA001282.

33. Zhang, Ting, et al. "A topic model based framework for identifying the distribution of demand for relief supplies using social media data." International Journal of Geographical Information Science 35.11 (2021): 2216-2237.

34. Jia, Duo, et al. "A hybrid deep learning-based spatiotemporal fusion method for combining satellite images with different resolutions." Remote Sensing 13.4 (2021): 645.

35. Zhang, Xiangxue, et al. "Determinant Powers of Socioeconomic Factors and Their Interactive Impacts on Particulate Matter Pollution in North China." International journal of environmental research and public health 18.12 (2021): 6261.

36. Zhang, Xiangxue, et al. "Spatial pattern of the population casualty rate caused by super typhoon Lekima and quantification of the interactive effects of potential impact factors." BMC public health 21.1 (2021): 1-11.

37. Ning, Lixin , et al. "Exploring the Dynamics of Global Plate Motion Based on the Granger Causality Test." Applied Sciences 11.17 (2021): 7853.

38. Zhang, Ting, and Cheng, Changxiu. "Temporal and spatial evolution and influencing factors of public sentiment in natural disasters—a case study of typhoon haiyan." ISPRS International Journal of Geo-Information 10.5 (2021): 299.

39. Zou, Zhixiao , et al. "The Complex Nonlinear Coupling Causal Patterns Between PM2. 5 and Meteorological Factors in Tibetan Plateau: A Case Study in Xining." IEEE Access 9 (2021): 150373-150382.

40. Hui, Chun, et al. "The Effect of the Wenchuan and Lushan Earthquakes on the Size Distribution of Earthquakes along the Longmenshan Fault." Applied Sciences 11.18 (2021): 8534.

41. Zhang, Diyang, et al. "Comparison of the HYDE cropland data over the past millennium with regional historical evidence from Germany." Regional Environmental Change 21.1 (2021): 1-15.

42. Gong, Adu , et al. "A Spatio-Temporal Brightness Temperature Prediction Method for Forest Fire Detection with MODIS Data: A Case Study in San Diego." Remote Sensing 13.15 (2021): 2900.

43. Xia, Haiping, et al. "Modeling Daily Temperatures Via a Phenology-Based Annual Temperature Cycle Model." IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 14 (2021): 6219-6229.

44. Guo, Lanlan, et al. "Links between global terrestrial water storage and large-scale modes of climatic variability." Journal of Hydrology 598 (2021): 126419.

45. Jiang, Zijie, et al. "Surface water extraction and dynamic analysis of Baiyangdian Lake based on the Google Earth Engine platform using sentinel-1 for reporting SDG 6.6. 1 indicators." Water 13.2 (2021): 138.

46. Peng, Kaifeng, et al. "Evaluating the potential impacts of land use changes on ecosystem service value under multiple scenarios in support of SDG reporting: A case study of the Wuhan urban agglomeration." Journal of Cleaner Production 307 (2021): 127321.

47. Zhang, Jianxin , et al. "Downscaling groundwater storage data in China to a 1-km resolution using machine learning methods." Remote Sensing 13.3 (2021): 523.

48. Li, Kaiwen , et al. "Robustness of the Chinese power grid to cascading failures under attack and defense strategies." International Journal of Critical Infrastructure Protection 33 (2021): 100432.

49. Wang, Qianzhi, et al. "A River Flood and Earthquake Risk Assessment of Railway Assets along the Belt and Road." International Journal of Disaster Risk Science 12.4 (2021): 553-567.

50. Liu, Kai , et al. "Increasing costs to Chinese railway infrastructure by extreme precipitation in a warmer world." Transportation Research Part D: Transport and Environment 93 (2021): 102797.

51. Liu, Ka , et al. "An event-based probabilistic model of disruption risk to urban metro networks." Transportation Research Part A: Policy and Practice 147 (2021): 93-105.

52. Ding, Zhiyong, et al. "Asymmetric trends of extreme temperature over the Loess Plateau during 1998–2018." International Journal of Climatology 41 (2021): E1663-E1685.

53. Ding, Zhiyong , et al. "Holocene moisture variability and its lagged response to summer insolation revealed by eolian deposits in the Lake Qinghai Basin, NE Tibetan Plateau." Paleoceanography and Paleoclimatology 36.3 (2021): e2020PA004085.

54. Ding, Zhiyong, et al. "Early-Mid Holocene climatic changes inferred from colors of eolian deposits in the Mu Us Desert." Geoderma 401 (2021): 115172.

55. Wang, Lindong, et al. "Holocene aeolian activity in the Ganzihe sandy land, Qinghai Lake basin." Quaternary International 598 (2021): 56-65.

56. Zong, Qi, et al. "Changes in dust activity in spring over East Asia under a Global Warming Scenario." Asia-Pacific Journal of Atmospheric Sciences 57.4 (2021): 839-850.

57. Mao, Rui, et al. "Increasing difference in interannual summertime surface air temperature between interior East Antarctica and the Antarctic Peninsula under future climate scenarios." Geophysical Research Letters 48.16 (2021): e2020GL092031.

58. Ji, Zhonglin, et al. "Prediction of crop yield using phenological information extracted from remote sensing vegetation index." Sensors 21.4 (2021): 1406.

59. Chen, Xudong, et al. "Social impacts of extreme drought event in Guanzhong area, Shaanxi Province, during 1928–1931." Climatic Change 164.3 (2021): 1-19.

60. Su, Yun, et al. "The Relationship between Temperature Changes and Peacemaking Events between Farming and Nomadic Groups in Northern China over the Past 2000 Years." Weather, Climate, and Society 13.2 (2021): 327-339.

61. Liu, Chang, and Su, Yun. "Classification of China's county administrative units based on carbon emissions from energy consumption and economic indicators." International Journal of Global Warming 23.3 (2021): 255-273.

62. 陈说, 叶涛, 刘苇航, 王爱慧. NEX-GDDP和CMIP5对青藏高原地区近地面气象场历史和未来模拟的评估与偏差校正. 高原气象, 2021, 40(2): 1-15.

63. 赵佳琪, 张强, 朱秀迪, 申泽西, 余慧倩. 中国旱灾风险定量评估. 生态学报, 41(03): 1-11.

64. 苏筠, 陈旭东, 田芳毓. 1928~1929年河南旱灾时空范围与社会影响过程重建. 第四纪研究, 2021, 41(02): 600-611.

65. 陈宇, 王瑛, 刘庆爱, 陈笑娟, 周轶. 基于土地利用的山洪灾害损失评估模型研究. 自然灾害学报, 2021, 30(02): 52-59.

66. 刘莹, 朱秀芳, 徐昆, 陈令仪, 郭锐. 干旱对灌溉和雨养农田生态系统生产力的影响对比分析. 遥感技术与应用, 2021, 36(02): 381-390.

67. 张馨仁, 王瑛, 刘天雪, 陈宇. 山洪灾害建筑物脆弱性曲线研究进展. 山地学报, 2021, 39(3): 356-366.

68. 李雨欣, 王瑛, 马庆媛, 刘天雪, 司丽丽, 俞海洋. 基于DTW与K-means算法的河北场雨及雨型分区特征研究. 地球信息科学学报, 2021, 23(5): 860-868.

69. 陈旭东, 田芳毓, 陈思颖, 苏筠. 1929—1930年中国极端冷冬事件的重建. 古地理学报, 2021, 23(05): 1048-1060.

70. 黄崇福, 田雯, 王润东. 在救灾智联网中推测信息孤岛救助需求强度的空间信息扩散模型. 自然灾害学报, 2021, 30(02): 1-13.

71. 梁瑾璠, 赵晗萍, 张家乐. 应急物资供应链快速构建模式研究. 中国安全科学学报, 2021.

72. 梁媛媛, 孙鹏, 张强. 基于Copula函数的1977—2014年广东省年最大洪峰特征分析. 水利水电技术, 2021.

73. 孙静琪, 陈笑娟, 李倩, 高吉喆, 张化, 许映军. 基于遥感技术的近30年渤海海冰冰情时空变化特征. 灾害学, 2021, 37(01).

74. 郑大川, 周杰, 李思雨, 陶军, 顾卫. 耕地和林地土壤动物群落组成和多样性的差异——中国区域的整合分析. 生态学报, 2021, 17: 1-10.

75. 周笑影, 王瑛, 郑超, 李兴宇, 董正雷. 大棚种植户的洪涝灾害风险认知度及影响因素研究——以山东省为例. 灾害学, 2021, 36(03): 215-220.

76. 李石波, 朱秀芳, 侯陈瑶, 郭锐, 刘莹. 基于趋势产量和干旱指数的河南省冬小麦单产估算. 麦类作物学报, 2021, 41(04): 508-516.

77. 程昌秀, 沈石, 李强坤. 黄河流域人地系统研究的大数据支撑与方法探索.中国科学基金,2021,35(04):529-536.

78. 宁立新, 梁晓瑶, 程昌秀. 京津冀地区生态系统健康评估及时空变化.生态科学,2021,40(06):1-12.

79. 方修琦. 社会-生态弹性视角下的历史气候变化影响社会发展机制.第四纪研究,2021,41(02):577-588.

80. 方修琦. 灾害文化的历史继承性.史学集刊,2021(02):10-14.

81. 杨雨晴, 宫阿都, 张玉红, 陈艳玲. 1980-2015年扎龙湿地景观动态变化分析.北京师范大学学报(自然科学版),2021,57(05):624-630.

82. 陈东雪, 鲁瑞洁, 丁之勇, 刘小槺. 青海湖湖东沙地河湖-风成沉积记录的中晚全新世以来环境变化.中国沙漠,2021,41(06):99-110.

83. 刘荔昀, 鲁瑞洁, 丁之勇, 王磊鑫, 刘小槺. 黄土高原气候变化特征及原因分析.地球环境学报,2021,12(06):615-631.

84. 夏兴生, 赵希振, 汤童, 潘耀忠. Hargreaves公式在中国农业区的年内回归修正.排灌机械工程学报,2021,39(01):81-88.

85. 陶乐, 苏筠, 康媛. 明清时期中国东部高温事件年表重建和分析.古地理学报,2021,23(02):449-460.

86. 苏筠, 陈旭东, 田芳毓. 1928~1929年河南旱灾时空范围与社会影响过程重建.第四纪研究,2021,41(02):600-611.

87. 陈旭东, 田芳毓, 陈思颖, 苏筠. 1929—1930年中国极端冷冬事件的重建.古地理学报,2021,23(05):1048-1060.

88. 郑大川, 周杰, 李思雨, 陶军, 顾卫. 耕地和林地土壤动物群落组成和多样性的差异——中国区域的整合分析. 生态学报, 2021,41(17):6718-6727.

89. 李悦, 吴吉东, 周扬. 1978—2018年中国事故灾难死亡人口时空分布特征.安全与环境工程, 2021, 28(05):43-50.

90. 刘伊萌, 杨赛霓, 王运涛, 刘晓燕, 张馨文, 朱羽遥. 基于CADDIES-2D模型的北京城区暴雨洪涝模拟及验证分析. 水电能源科学, 2021,39(11):107-110+92.

91. 韩继冲, 张朝, 曹娟. 基于逻辑回归的地震滑坡易发性评价——以汶川地震、鲁甸地震为例.灾害学, 2021, 36(02):193-199.

92. 赵佳琪,张强,朱秀迪,申泽西,余慧倩.中国旱灾风险定量评估.生态学报,2021,41(03):1021-1031.

93. 蒋嘉锐, 朱文泉, 乔琨, 江源. 基于Sentinel-2数据的天山山地针叶林识别方法研究.遥感技术与应用, 2021, 36(04):847-856.

94. 张慧, 赵涔良, 朱文泉. 基于多源数据产品集成分类制作的青藏高原现状植被图.北京师范大学学报(自然科学版), 2021, 57(06):816-824.

95. 夏兴生, 潘耀忠, 朱秀芳, 张锦水. 中国综合农业分区下的Ångström -Prescott公式系数逐月校正与优选.地理学报, 2021, 76(04):888-902.

96. 刘莹, 朱秀芳, 徐昆, 陈令仪, 郭锐. 干旱对灌溉和雨养农田生态系统生产力的影响对比分析.遥感技术与应用, 2021, 36(02):381-390.

97. 刘莹, 朱秀芳, 徐昆, 陈令仪, 郭锐. 干旱对灌溉和雨养农田生态系统生产力的影响对比分析.遥感技术与应用, 2021, 36(02):381-390.

98. 李石波, 朱秀芳, 侯陈瑶, 郭锐, 刘莹. 基于趋势单产和干旱指数的河南省冬小麦单产估算.麦类作物学报, 2021, 41(04):508-516.



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1. Bai, Xuemei, et al. "Cities: Build networks and share plans to emerge stronger from COVID-19." (2020): 517-520.

2. Luo, Yuchuan, et al. "ChinaCropPhen1km: a high-resolution crop phenological dataset for three staple crops in China during 2000–2015 based on leaf area index (LAI) products." Earth System Science Data 12.1 (2020): 197-214.

3. Huang, Chengfang, et al. "Assessment of the economic cascading effect on future climate change in China: Evidence from agricultural direct damage." Journal of Cleaner Production 276 (2020): 123951.

4. Liu, Yuan, et al. "The central trend in crop yields under climate change in China: A systematic review." Science of the Total Environment 704 (2020): 135355.

5. Wang, Gang, et al. "Double increase in precipitation extremes across China in a 1.5° C/2.0° C warmer climate." Science of The Total Environment 746 (2020): 140807.

6. Wu, Yaqiao, et al. "Performance of heat-health warning systems in Shanghai evaluated by using local heat-related illness data." Science of the total environment 715 (2020): 136883.

7. Yan, Yu, et al. "Variability of sea ice area in the Bohai Sea from 1958 to 2015." Science of the Total Environment 709 (2020): 136164.

8. Zhang, Liangliang, et al. "Optimizing genotype-environment-management interactions for maize farmers to adapt to climate change in different agro-ecological zones across China." Science of the Total Environment 728 (2020): 138614.

9. Zhang, Xiangxue, et al. "Spatiotemporal heterogeneity of PM2. 5 and its relationship with urbanization in North China from 2000 to 2017." Science of the Total Environment 744 (2020): 140925.

10. Zhu, Xiufang, et al. "Mapping abandoned farmland in China using time series MODIS NDVI." Science of The Total Environment 755 (2021): 142651.

11. Liu, Yuan, et al. "Climate change effects on agricultural production: The regional and sectoral economic consequences in china." Earth's Future 8.9 (2020): e2020EF001617.

12. Zhou, Siyuan, et al. "An observational study of the effects of aerosols on diurnal variation of heavy rainfall and associated clouds over Beijing–Tianjin–Hebei." Atmospheric Chemistry and Physics 20.9 (2020): 5211-5229.

13. Zhang, Zhao, et al. "Improving regional wheat yields estimations by multi-step-assimilating of a crop model with multi-source data." Agricultural and Forest Meteorology 290 (2020): 107993.

14. Zheng, Yongjie, et al. "Wintertime precipitation in eastern China and relation to the Madden-Julian oscillation: Spatiotemporal properties, impacts and causes." Journal of Hydrology 582 (2020): 124477.

15. Zhou, Lingfeng, et al. "A frequency-domain nonstationary multi-site rainfall generator for use in hydrological impact assessment." Journal of Hydrology 585 (2020): 124770.

16. Zhou, Lingfeng, et al. "Uncertainty-based metal budget assessment at the watershed scale: Implications for environmental management practices." Journal of Hydrology 584 (2020): 124699.

17. Shen, Zexi, et al. "Varying effects of mining development on ecological conditions and groundwater storage in dry region in Inner Mongolia of China." Journal of Hydrology 597 (2021): 125759.

18. Shen, Shi, et al. "The coupling impact of climate change on streamflow complexity in the headwater area of the northeastern Tibetan Plateau across multiple timescales." Journal of Hydrology 588 (2020): 124996.

19. Zhang, Jing , et al. "A remote sensing-based scheme to improve regional crop model calibration at sub-model component level." Agricultural Systems 181 (2020): 102814.

20. Gu, Xihui, et al. "The changing nature and projection of floods across Australia." Journal of Hydrology 584 (2020): 124703.

21. Feng, Shuyun, et al. "A global quantitation of factors affecting evapotranspiration variability." Journal of Hydrology 584 (2020): 124688.

22. Liu, Yong, et al. "Dust storm susceptibility on different land surface types in arid and semiarid regions of northern China." Atmospheric Research 243 (2020): 105031.

23. Cao, Juan, et al. "Identifying the contributions of multi-source data for winter wheat yield prediction in China." Remote Sensing 12.5 (2020): 750.

24. Jia, Duo, et al. "A novel deep learning-based spatiotemporal fusion method for combining satellite images with different resolutions using a two-stream convolutional neural network." Remote Sensing 12.4 (2020): 698.

25. Han, Jichong, et al. "Prediction of winter wheat yield based on multi-source data and machine learning in China." Remote Sensing 12.2 (2020): 236.

26. Jia, Duo, et al. "A novel deep learning-based spatiotemporal fusion method for combining satellite images with different resolutions using a two-stream convolutional neural network." Remote Sensing 12.4 (2020): 698.

27. Jiang, Jingchao, et al. "Obtaining urban waterlogging depths from video images using synthetic image data." Remote Sensing 12.6 (2020): 1014.

28. Wang, Guangpeng, et al. "Impact of expansion pattern of built-up land in floodplains on flood vulnerability: A case study in the North China Plain area." Remote Sensing 12.19 (2020): 3172.

29. Zhang, Liangliang, et al. "Combining optical, fluorescence, thermal satellite, and environmental data to predict county-level maize yield in China using machine learning approaches." Remote Sensing 12.1 (2019): 21.

30. Zhang, Qiang, et al. "Variable urbanization warming effects across metropolitans of China and relevant driving factors." Remote Sensing 12.9 (2020): 1500.

31. Wu, Xiaojing, et al. "An overview of clustering methods for geo-referenced time series: From one-way clustering to co-and tri-clustering." International journal of geographical information science 34.9 (2020): 1822-1848.

32. Fang, Xiuqi, et al. "Methodology for credibility assessment of historical global LUCC datasets." Science China Earth Sciences 63.7 (2020): 1013-1025.

33. Wu, Xiaojing, et al. "Spatio-temporal differentiation of spring phenology in China driven by temperatures and photoperiod from 1979 to 2018." Science China Earth Sciences 63.10 (2020): 1485-1498.

34. Ye, Tao, et al. "Quantifying livestock vulnerability to snow disasters in the Tibetan Plateau: Comparing different modeling techniques for prediction." International Journal of Disaster Risk Reduction 48 (2020): 101578.

35. Zheng, Hao, et al. "Evaluating seismic risk in small and medium-sized cities with the modified vulnerability index method, a case study in Jiangyou City, China." Bulletin of Earthquake Engineering 18.4 (2020): 1303-1319.

36. He, Jia , et al. "To what extent did changes in temperature affect China's socioeconomic development from the Western Han Dynasty to the Five Dynasties period?." Journal of Quaternary Science 35.3 (2020): 433-443.

37. Luo, Yuchuan, et al. "Identifying the spatiotemporal changes of annual harvesting areas for three staple crops in China by integrating multi-data sources." Environmental Research Letters 15.7 (2020): 074003.

38. Huang, Chongfu. "Two judging criteria to check validity of a model for filling gaps caused by incomplete geospatial data." Environmental Research 186 (2020): 109401.

39. Feng, Xingya, et al. "Increased dust aerosols in the high troposphere over the Tibetan Plateau from 1990s to 2000s." Journal of Geophysical Research: Atmospheres 125.13 (2020): e2020JD032807.

40. Chen, Jin , et al. "Deep learning of the aftershock hysteresis effect based on the elastic dislocation theory." Natural Hazards and Earth System Sciences 20.11 (2020): 3117-3134.

41. Cao, Juan, et al. "Damage evaluation of soybean chilling injury based on Google Earth Engine (GEE) and crop modelling." Journal of Geographical Sciences 30.8 (2020): 1249-1265.

42. Cao, Juan, et al. "Multi-geohazards susceptibility mapping based on machine learning—a case study in Jiuzhaigou, China." Natural Hazards 102.3 (2020): 851-871.

43. Liu, Yanxin, and Yan, Xiaodong. "Comparison of regional droughts impacts and social responses in the historical China: A case study of the Han dynasty." Physics and Chemistry of the Earth, Parts A/B/C 117 (2020): 102854.

44. Qiu, Weiteng, and Yan, Xiaodong. "The trend of heatwave events in the Northern Hemisphere." Physics and Chemistry of the Earth, Parts A/B/C 116 (2020): 102855.

45. Hui, Chun, et al. "Multifractal characteristics of seismogenic systems and b values in the Taiwan seismic region." ISPRS International Journal of Geo-Information 9.6 (2020): 384.

46. Qin, Lianjie, et al. "Typhoon track change–based emergency shelter location–allocation model: a case study of Wenchang in Hainan province, China." Injury prevention 26.3 (2020): 196-203.

47. Chen, Bo, et al. "Intensive versus extensive events? Insights from cumulative flood-induced mortality over the globe, 1976–2016." International Journal of Disaster Risk Science 11.4 (2020): 441-451.

48. Liu, Yimeng, et al. "Variability in Regional Ecological Vulnerability: A Case Study of Sichuan Province, China." International Journal of Disaster Risk Science 11.6 (2020): 696-708.

49. Wu, Wen, et al. "Methodology and assessment of proxy-based VS30 estimation in Sichuan Province, China." International Journal of Disaster Risk Science 11.1 (2020): 133-144.

50. Zhang, Jing , et al. "Rainfall-Related Weather Indices for Three Main Crops in China." International Journal of Disaster Risk Science 11.4 (2020): 466-483.

51. Chen, Bo, et al. "Logarithmic transformation and peak-discharge power-law analysis." Hydrology Research 51.1 (2020): 65-76.

52. Liu, Jingyu, et al. "Evaluating extreme precipitation estimations based on the GPM IMERG products over the Yangtze River Basin, China." Geomatics, Natural Hazards and Risk 11.1 (2020): 601-618.

53. Liu, Wenhui, et al. "Daily Precipitation threshold for rainstorm and flood disaster in the mainland of China: an economic loss perspective." Sustainability 12.1 (2020): 407.

54. Wang, Guangpeng, et al. "Flood risk assessment based on fuzzy synthetic evaluation method in the Beijing-Tianjin-Hebei metropolitan area, China." Sustainability 12.4 (2020): 1451.

55. Luo, Yuchuan, et al. "Drivers of planting area and yield shifts for three staple crops across China, 1950-2013." Climate Research 80.2 (2020): 73-84.

56. Zhang, Liangliang, et al. "Optimizing genotype-environment-management interactions to ensure silage maize production in the Chinese Maize Belt." Climate Research 80.2 (2020): 133-146.

57. Luo, Zhenqi, et al. "Extreme hot days over three global mega‐regions: Historical fidelity and future projection." Atmospheric Science Letters 21.12 (2020): e1003.

58. 曹娟, 张朝, 张亮亮, 骆玉川, 李子悦, 陶福禄. 基于Google Earth Engine和作物模型快速评估低温冷害对大豆生产的影响. 地理学报, 2020, 75(09):1879-1892.

59. 程昌秀, 宋长青, 吴晓静, 沈石, 高培超, 叶思菁. 地理时空三向聚类分析方法的构建与实践. 地理学报, 2020, 75(05):904-916.

60. 范科科, 张强, 孙鹏, 宋长青, 余慧倩,朱秀迪, 申泽西. 青藏高原土壤水分变化对近地面气温的影响. 地理学报, 2020, 75(1):82-97.

61. 温庆志, 孙鹏, 张强, 姚蕊. 非平稳标准化降水蒸散指数构建及中国未来干旱时空格局. 地理学报, 2020, 75(07):1465-1482.

62. 徐昆, 朱秀芳, 刘莹, 郭锐, 陈令仪. 气候变化下干旱对中国玉米产量的影响. 农业工程学报, 2020, 36(11):149-158.

63. 郭锐, 朱秀芳, 李石波, 侯陈瑶. 山东省冬小麦单产监测与预报方法研究. 农业机械学报, 2020, 51(7):156-163.

64. 邬柯杰, 吴吉东, 叶梦琪. 社交媒体数据在自然灾害应急管理中的应用研究综述. 地理科学进展, 2020, 39(8):1412-1422.

65. 夏敏, 孙鹏, 姚蕊, 温庆志, 梁媛媛, 刘果镍. 淮河流域干旱时空演变特征及定量归因分析. 生态学报, 2020.

66. 张亮亮, 张朝, 曹娟, 李子悦, 陶福禄. GEE环境下的玉米低温冷害损失快速评估. 遥感学报, 2020, 24(10):1206-1220.

67. 刘伊萌, 杨赛霓, 倪维, 何锦彪. 生态斑块重要性综合评价方法研究——以四川省为例. 生态学报, 2020, 40(11):3602-3611.

68. 吴晓静, 程昌秀, 乔灿灿, 宋长青. 光温驱动下中国1979—2018年春季物候时空分异规律. 中国科学:地球科学, 2020, 1-15.

69. 胡毅鸿, 龚道溢, 毛睿, 杨静, 石晓雪. 北方农牧交错带春季风速年际变化的影响因子分析. 高原气象, 2020, 39(03):651-661.

70. 徐粒, 李倩, 王瑛, 黄靖玲, 许映军. 气候变化情景下泥石流危险性响应分析. 气候变化研究进展, 2020, 12.

71. 陈思颖,苏筠. 《云山日记》记录的太湖流域1308~1309年寒冬. 第四纪研究, 2020, 40(5):1193-1202.

72. 洪雨馨, 孙鹏, 汪军红. 降雨和前期含水量对大别山区不同作物坡面产流产沙的影响. 水土保持学报, 2020.

73. 方修琦, 赵琬一, 张成鹏, 张頔旸, 魏学琼, 邱维理, 叶瑜. 全球历史LUCC数据集数据可靠性的评估方法及评估案例. 中国科学: 地球科学, 2020, 50(7):1009-1020.

74. 张琨佳, 陈思颖, 苏筠. 公元1500—2000年印度尼西亚——菲律宾强火山喷发对中国中东部旱涝格局的影响. 古地理学报, 2020, 22(1):193-206.

75. 邓志飞, 刘吉夫, 郭兰兰, 李娇旸, 贾怡如. 粘土矿物组成对土体液化特性的影响研究进展. 灾害学, 2020 , 35(3):213-219.

76. 洪 畅, 韩旭娇, 戴佳栋, 刘连友, 张国明. 毛乌素沙地布寨淖尔下风向沙化湖滨地表沉积物理化特性. 中国沙漠, 2020, 40(2):86-93.

77. 黄承芳, 李宁, 张正涛, 刘远, 王芳. 新冠肺炎疫情冲击后的中国经济恢复发展预估. 灾害学, 2020, 35(4):210-214.

78. 黄靖玲, 徐粒, 周华真, 陈宇, 王瑛, 许映军. 基于历史灾害情景再现的小流域山洪风险研究. 灾害学, 2020, 35(03):194-200.

79. 张新龙, 杨赛霓, 贾梁. 中国极端高温未来情景下的公路暴露度分析. 灾害学, 2020, 35(02):224-229.

80. 龙爽, 郭正飞, 徐粒, 周华真, 方伟华, 许映军. 基于Google Earth Engine的中国植被覆盖度时空变化特征分析. 遥感技术与应用, 2020, 35(02):326-334.

81. 李骏明, 刘吉夫, 郭兰兰, 邓志飞, 贾怡如, 李娇旸. 基于道路通达性的高原地区震后应急救援方案研究. 自然灾害学报, 2020, 29(4):113-123.

82. 荔琢, 蒋卫国, 王文杰, 吕金霞, 陈征. 湿地退化风险评估方法及其应用——以天津市为例. 环境工程技术学报, 2020, 10(1):17-24.

83. Wang, Jinyun, Pan, Yaozhong, Ji, Zhonglin, Zhang, Dujuan. FINE-SCALE POPULATION DISTRIBUTIONS MAPPING BASED ON REMOTE SENSING AND SOCIAL SENSING DATA. IGARSS 2020, 2020, 4269(20203425).

84. Chen, Shuo, Liu, Weihang, Ye, Tao. Dataset of trend-preserving bias-corrected daily temperature, precipitation and wind from NEX-GDDP and CMIP5 over the Qinghai-Tibet Plateau. DATA IN BRIEF, 2020, 31:105733-105733.

85. Zhao, Jiaqi, Zhang, Qiang, Zhu, Xiudi, Shen, Zexi, Yu, Huiqian. Drought risk assessment in China: evaluation framework and influencing factors. Geography and Sustainability, 2020, 1:220-228.

86. 程昌秀, 宋长青, 吴晓静, 沈石, 高培超, 叶思菁. 地理时空三向聚类分析方法的构建与实践. 地理学报, 2020, 75(05):904-916.

87. 吴晓静, 程昌秀, 乔灿灿, 宋长青. 光温驱动下中国1979~2018年春季物候时空分异规律.中国科学:地球科学, 2020, 50(10):1386-1400.

88. 文彦君, 方修琦, 刘洋, 李屹凯. 18~19世纪之交华北平原的气候变化与粮价异常. 中国科学:地球科学, 2020, 50(01):122-133.

89. 方修琦, 赵琬一, 张成鹏, 张頔旸, 魏学琼, 邱维理, 叶瑜. 全球历史LUCC数据集数据可靠性的评估方法及评估案例.中国科学:地球科学, 2020, 50(07):1009-1020.

90. 方修琦, 刘健. 理解资源、环境与国家安全的三个维度. 地理教学, 2020(18):13-17+7.

91. 赵佳, 方修琦. 中学地理“粮食安全”情境教学历史案例开发. 地理教学, 2020(24):40-43+64.

92. 曾婷婷, 宫阿都, 陈艳玲, 杨雨晴. 基于历史相似案例空间推演的地震伤亡人口评估方法研究.地球信息科学学报, 2020, 22(11):2166-2176.

93. 王晓雅, 蒋卫国, 邓越, 蒋梓杰. 基于多重现期的京津冀小时极端降雨特征分析及致灾因子危险性评估. 地理研究, 2020, 39(11):2581-2592.

94. 彭凯锋, 蒋卫国, 侯鹏, 孙晨曦, 赵祥, 肖如林. 三江源国家公园植被时空变化及其影响因子. 生态学杂志, 2020, 39(10):3388-3396.

95. 黄承芳, 李宁, 张正涛, 刘远, 王芳. 新冠肺炎疫情冲击后的中国经济恢复发展预估. 灾害学, 2020, 35(04):210-214+221.

96. 陈曦, 李宁, 张正涛, 刘佳伟, 王芳. 全球热浪人口暴露度预估——基于热应力指数. 气候变化研究进展, 2020, 16(04):424-432.

97. 陈曦, 李宁, 黄承芳, 刘佳伟, 张正涛. 综合湿度和温度影响的中国未来热浪预估. 地理科学进展, 2020, 39(01):36-44.

98. 王芳, 李宁, 张正涛, 刘远, 陈曦, 黄承芳. 台风灾害间接损失评估模型中劳动力参数研究. 华南师范大学学报(自然科学版), 2020, 52(06):82-89.

99. 朱家彤, 刘凯, 汪明, 梁欣. 汶川地震极重灾区森林生态系统损失与恢复评估. 林业资源管理, 2020(02):154-160+180.

100. 段晨曦, 鲁瑞洁, 丁之勇, 刘畅. 行政村地名分布与自然地理要素关系的初探——以毛乌素沙地与黄土高原交界地区为例. 水土保持研究, 2020, 27(01):387-393.

101. 白敏, 鲁瑞洁, 丁之勇, 王琳栋. 青海湖湖东沙地粒度端元分析及其指示意义. 第四纪研究, 2020, 40(05):1203-1215.

102. 夏兴生, 朱秀芳, 潘耀忠, 张锦水. 地表太阳辐射经验值对参考作物需水量计算的影响. 农业机械学报, 2020, 51(02):254-266.

103. 张琨佳, 陈思颖, 苏筠. 公元1500—2000年印度尼西亚——菲律宾强火山喷发对中国中东部旱涝格局的影响. 古地理学报, 2020, 22(01):193-206.

104. 刘畅, 苏筠, 黎玲玲. 中国县域能源消费碳排放估算及其空间分布. 环境污染与防治, 2020, 42(01):113-119.

105. 陈思颖, 苏筠. 《云山日记》记录的太湖流域1308~1309年寒冬. 第四纪研究, 2020, 40(05):1193-1202.

106. 纪超,唐宏.全连接神经网络对原始特征空间剖分过程的可视化和编码.信号处理,2020,36(04):486-494.

107. 邬柯杰, 吴吉东, 叶梦琪. 社交媒体数据在自然灾害应急管理中的应用研究综述. 地理科学进展, 2020, 39(08):1412-1422.

108. 田丰, 武建军, 刘雷震, 杨建华. 1901-2015年华北平原干旱时空转移特征及热点区域探测. 干旱区资源与环境, 2020, 34(06):87-96.

109. 伍俊斌, 刘雷震, 田丰, 武建军. 面向重大洪涝灾害应急响应的灾情动态评估方法研究——以2018年8月山东寿光洪涝灾害为例. 北京师范大学学报(自然科学版), 2020, 56(06):846-855.

110. 杜若华, 刘雷震, 沈秋, 田丰, 陈梦, 武建军. 基于夜间灯光数据的灾后恢复重建动态监测——以鲁甸地震为例. 自然灾害学报, 2020, 29(06):59-69.

111. 黄靖玲, 徐粒, 周华真, 陈宇, 王瑛, 许映军. 基于历史灾害情景再现的小流域山洪风险研究. 灾害学, 2020, 35(03):194-200.

112. 徐粒, 李倩, 王瑛, 黄靖玲, 许映军. 气候变化情景下泥石流危险性响应分析. 气候变化研究进展, 2020, 16(04):415-423.

113. 龙爽, 郭正飞, 徐粒, 周华真, 方伟华, 许映军. 基于Google Earth Engine的中国植被覆盖度时空变化特征分析. 遥感技术与应用, 2020, 35(02):326-334.

114. 刘伊萌, 杨赛霓, 倪维, 何锦彪. 生态斑块重要性综合评价方法研究——以四川省为例. 生态学报, 2020, 40(11):3602-3611.

115. 张新龙,杨赛霓,贾梁.中国极端高温未来情景下的公路暴露度分析.灾害学,2020,35(02):224-229.

116. 张亮亮, 张朝, 曹娟, 李子悦, 陶福禄. GEE环境下的玉米低温冷害损失快速评估. 遥感学报, 2020, 24(10):1206-1220.

117. 曹娟, 张朝, 张亮亮, 骆玉川, 李子悦, 陶福禄. 基于Google Earth Engine和作物模型快速评估低温冷害对大豆生产的影响. 地理学报, 2020, 75(09):1879-1892.

118. 洪畅, 韩旭娇, 戴佳栋, 刘连友, 张国明. 毛乌素沙地布寨淖尔下风向沙化湖滨地表沉积物理化特性. 中国沙漠, 2020, 40(02):86-93.

119. 范科科, 张强, 孙鹏, 宋长青, 余慧倩, 朱秀迪, 申泽西. 青藏高原土壤水分变化对近地面气温的影响. 地理学报, 2020, 75(01):82-97.

120. 李雪莹, 朱文泉, 李培先, 谢志英, 赵涔良. 气候变暖背景下青藏高原草本植物物候变化空间换时间预测. 植物生态学报, 2020, 44(07): 742-751.

121. 徐昆, 朱秀芳, 刘莹, 郭锐, 陈令仪. 气候变化下干旱对中国玉米产量的影响.农业工程学报, 2020,36(11):149-158.

122. 夏兴生, 潘耀忠, 朱秀芳, 张锦水. 农业分区框架下Hargreaves-Samani公式的逐月回归修正. 农业机械学报, 2020, 51(03):258-267.

123. 徐昆, 朱秀芳, 刘莹, 侯陈瑶. 采用AquaCrop作物生长模型研究中国玉米干旱脆弱性. 农业工程学报, 2020, 36(01):154-161.

124. 郭锐, 朱秀芳, 李石波, 侯陈瑶. 山东省冬小麦单产监测与预报方法研究.农业机械学报, 2020, 51(07):156-163.

125. 刘婷婷, 朱秀芳, 刘莹, 徐昆. 我国主要粮食作物蓝水用水时序分布图制作. 中国农业资源与区划, 2020, 41(09): 93-103.



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1. Yu, Huiqian, et al. "Modified palmer drought severity index: model improvement and application." Environment international 130 (2019): 104951.

2. Yue ,Yaojie, et al. "A data‐mining‐based approach for aeolian desertification susceptibility assessment: A case‐study from Northern China." Land Degradation & Development 30.16 (2019): 1968-1983.

3. Chen, Bo, et al. "Spatial variability and temporal persistence of event runoff coefficients for cropland hillslopes." Water Resources Research 55.2 (2019): 1583-1597.

4. Shen, Zexi, et al. "Agricultural drought monitoring across Inner Mongolia, China: Model development, spatiotemporal patterns and impacts." Journal of Hydrology 571 (2019): 793-804.

5. Ding, Zhiyong, et al. "Spatiotemporal variations in extreme precipitation and their potential driving factors in non-monsoon regions of China during 1961–2017." Environmental Research Letters 14.2 (2019): 024005.

6. Fan, Keke, et al. "Spatiotemporal impact of soil moisture on air temperature across the Tibet Plateau." Science of the Total Environment 649 (2019): 1338-1348.

7. Zhang, Qiang, et al. "Is Himalayan-Tibetan Plateau “drying”? Historical estimations and future trends of surface soil moisture." Science of the Total Environment 658 (2019): 374-384.

8. Ding, Zhiyong, et al. "Geochemical characteristics of Holocene aeolian deposits east of Qinghai Lake, China, and their paleoclimatic implications." Science of the Total Environment 692 (2019): 917-929.

9. Liu, Xia, et al. "Models ignoring spatial heterogeneities of forest age will significantly overestimate the climate effects on litterfall in China." Science of the Total Environment 661 (2019): 492-503.

10. Zhu, Xiudi, et al. "Reconstruction of high spatial resolution surface air temperature data across China: A new geo-intelligent multisource data-based machine learning technique." Science of the Total Environment 665 (2019): 300-313.

11. Zhang, Qiang, et al. "A new statistical downscaling approach for global evaluation of the CMIP5 precipitation outputs: Model development and application." Science of the Total Environment 690 (2019): 1048-1067.

12. Liao, Xinli, et al. "Global exposure to rainstorms and the contribution rates of climate change and population change." Science of the Total Environment 663 (2019): 644-653.

13. Zhang, Yue, et al. "Assessment of future flash flood inundations in coastal regions under climate change scenarios—A case study of Hadahe River basin in northeastern China." Science of the Total Environment 693 (2019): 133550.

14. Yue, Yaojie, et al. "The potential global distribution and dynamics of wheat under multiple climate change scenarios." Science of the total environment 688 (2019): 1308-1318.

15. Ding, Zhiyong, et al. "Spatiotemporal variations in extreme precipitation and their potential driving factors in non-monsoon regions of China during 1961–2017." Environmental Research Letters 14.2 (2019): 024005.

16. Zhu, Xiudi, et al. "Impact of urbanization on hourly precipitation in Beijing, China: Spatiotemporal patterns and causes." Global and Planetary Change 172 (2019): 307-324.

17. Zhu, Xiudi, et al. "Impact of urbanization on hourly precipitation in Beijing, China: Spatiotemporal patterns and causes." Global and Planetary Change 172 (2019): 307-324.

18. Zhang, Qiang, et al. "Multisource data based agricultural drought monitoring and agricultural loss in China." Global and planetary change 172 (2019): 298-306.

19. Wu, Jidong, et al. "How earthquake-induced direct economic losses change with earthquake magnitude, asset value, residential building structural type and physical environment: An elasticity perspective." Journal of environmental management 231 (2019): 321-328.

20. Mao, Rui, et al. "The source contributions to the dust over the Tibetan Plateau: A modelling analysis." Atmospheric Environment 214 (2019): 116859.

21. Liu, Yang, et al. "Detection of the dispersion and residence of volcanic SO2 and sulfate aerosol from Nabro in 2011." Atmospheric Environment 197 (2019): 36-44.

22. Ye, Tao, et al. "Impacts of climate warming, cultivar shifts, and phenological dates on rice growth period length in China after correction for seasonal shift effects." Climatic Change 155.1 (2019): 127-143.

23. Gu, Xihui, et al. "Impact of urbanization on nonstationarity of annual and seasonal precipitation extremes in China." Journal of Hydrology 575 (2019): 638-655.

24. Shen, Zexi, et al. "Agricultural drought monitoring across Inner Mongolia, China: Model development, spatiotemporal patterns and impacts." Journal of Hydrology 571 (2019): 793-804.

25. Zhou, Lingfeng, et al. "A new framework for multi-site stochastic rainfall generator based on empirical orthogonal function analysis and Hilbert-Huang transform." Journal of Hydrology 575 (2019): 730-742.

26. Gu, Xihui, et al. "Intensification and expansion of soil moisture drying in warm season over Eurasia under global warming." Journal of Geophysical Research: Atmospheres 124.7 (2019): 3765-3782.

27. Qi, Xin, et al. "Roles of the tropical/extratropical intraseasonal oscillations on generating the heat wave over Yangtze River valley: A numerical study." Journal of Geophysical Research: Atmospheres 124.6 (2019): 3110-3123.

28. Yang, YanYan, et al. "Aerodynamic grain‐size distribution of blown sand." Sedimentology 66.2 (2019): 590-603.

29. Cao, Juan, et al. "Susceptibility assessment of landslides triggered by earthquakes in the Western Sichuan Plateau." Catena 175 (2019): 63-76.

30. Cao, Juan, et al. "Susceptibility assessment of landslides triggered by earthquakes in the Western Sichuan Plateau." Catena 175 (2019): 63-76.

31. Yang, YanYan, et al. "Aerodynamic grain‐size distribution of blown sand." Sedimentology 66.2 (2019): 590-603.

32. Zhang, Zhengtao, et al. "How to integrate labor disruption into an economic impact evaluation model for postdisaster recovery periods." Risk Analysis 39.11 (2019): 2443-2456.

33. Yue, Yaojie, et al. "Assessing wild fire risk in the United States using social media data." Journal of Risk Research 24.8 (2021): 972-986.

34. Zhang, Jing, et al. "Double-rice system simulation in a topographically diverse region—a remote-sensing-driven case study in Hunan Province of China." Remote Sensing 11.13 (2019): 1577.

35. Yue, Yaojie, et al. "Vulnerability of cotton subjected to hail damage." PloS one 14.1 (2019): e0210787.

36. Wu, Jidong, et al. "Energy and asset value elasticity of earthquake-induced direct economic losses." International Journal of Disaster Risk Reduction 33 (2019): 229-234.

37. Du, Juan, et al. "Different flooding behaviors due to varied urbanization levels within river basin: A case study from the Xiang River basin, China." International Journal of Disaster Risk Science 10.1 (2019): 89-102.

38. Tang, Rumei, et al. "Impact of economic development levels and disaster types on the short-term macroeconomic consequences of natural hazard-induced disasters in China." International Journal of Disaster Risk Science 10.3 (2019): 371-385.

39. Zhang, Zhengtao, et al. "How to integrate labor disruption into an economic impact evaluation model for postdisaster recovery periods." Risk Analysis 39.11 (2019): 2443-2456.

40. Li, Ning, et al. "The nonlinear relationship between temperature changes and economic development for individual provinces in China." Theoretical and Applied Climatology 137.3 (2019): 2477-2486.

41. Zheng, Hao, et al. "Evaluating seismic risk in small and medium-sized cities with the modified vulnerability index method, a case study in Jiangyou City, China." Bulletin of Earthquake Engineering 18.4 (2020): 1303-1319.

42. Wang, Ming, et al. "Increasing the lateral capacity of dry joint flat-stone masonry structures using inexpensive retrofitting techniques." Bulletin of Earthquake Engineering 17.1 (2019): 391-411.

43. Ye, Tao , et al. "Event-based probabilistic risk assessment of livestock snow disasters in the Qinghai–Tibetan Plateau." Natural Hazards and Earth System Sciences 19.3 (2019): 697-713.

44. Xiao, Guofeng, et al. "Extraction and analysis of abandoned farmland: A case study of Qingyun and Wudi counties in Shandong Province." Journal of Geographical Sciences 29.4 (2019): 581-597.

45. Jiang, Qinghua, et al. "The spatial-temporal patterns of heatwave hazard impacts on wheat in northern China under extreme climate scenarios." Geomatics, Natural Hazards and Risk 10.1 (2019): 2346-2367.

46. Wang, Ming, et al. "Increasing the lateral capacity of dry joint flat-stone masonry structures using inexpensive retrofitting techniques." Bulletin of Earthquake Engineering 17.1 (2019): 391-411.

47. Wang, Ming, et al. "Increasing the lateral capacity of dry joint flat-stone masonry structures using inexpensive retrofitting techniques." Bulletin of Earthquake Engineering 17.1 (2019): 391-411.

48. Wang, Ming, et al. "Shake table tests on the two-storey dry-joint stone masonry structures reinforced with timber laces and steel wires." Bulletin of Earthquake Engineering 17.4 (2019): 2199-2218.

49. Ye, Mengqi, et al. "Historical and future changes in asset value and GDP in areas exposed to tropical cyclones in China." Weather, Climate, and Society 11.2 (2019): 307-319.

50. Wang, Cailin, et al. "Emerging trends and new developments in disaster research after the 2008 Wenchuan earthquake." International journal of environmental research and public health 16.1 (2019): 29.

51. Chen, Xi, et al. "Global heat wave hazard considering humidity effects during the 21st century." International journal of environmental research and public health 16.9 (2019): 1513.

52. Yuan, Lihua, et al. "Spatial associations between NDVI and environmental factors in the Heihe River Basin." Journal of Geographical Sciences 29.9 (2019): 1548-1564.

53. Xiao, Guofeng, et al. "Extraction and analysis of abandoned farmland: A case study of Qingyun and Wudi counties in Shandong Province." Journal of Geographical Sciences 29.4 (2019): 581-597.

54. Ma, Yunjia, et al. "Hierarchical supplement location-allocation optimization for disaster supply warehouses in the Beijing–Tianjin–Hebei region of China." Geomatics, Natural Hazards and Risk 10.1 (2019): 102-117.

55. Ma, Yunjia, et al. "Emergency shelters location-allocation problem concerning uncertainty and limited resources: a multi-objective optimization with a case study in the Central area of Beijing, China." Geomatics, Natural Hazards and Risk (2019). GEOMATICS NATURAL HAZARDS AND RISK, 2019, 10(1), 1242-1266.

56. Yang, Jing, et al. "Spatial-temporal distribution characteristics of global seismic clusters and associated spatial factors." Chinese Geographical Science 29.4 (2019): 614-625.

57. Yang, Jing, et al. "Spatial-temporal distribution characteristics of global seismic clusters and associated spatial factors." Chinese Geographical Science 29.4 (2019): 614-625.

58. Zhuge, Wenyi , et al. "Spatial-Temporal Pattern of Human-Induced Land Degradation in Northern China in the Past 3 Decades—RESTREND Approach." International Journal of Environmental Research and Public Health 16.13 (2019): 2258.

59. Wang, Fangping, et al. "Understanding individual-level protective responses to air pollution warning: a case study of Beijing, China." Human and Ecological Risk Assessment: An International Journal 25.6 (2019): 1473-1487.

60. Zhang, Lingyan, et al. "Spatial pattern of surface water quality in China and its driving factors—implication for the environment sustainability." Human and Ecological Risk Assessment: An International Journal (2018).

61. Qin, Lianjie, et al. "Typhoon track change–based emergency shelter location–allocation model: a case study of Wenchang in Hainan province, China." Injury prevention 26.3 (2020): 196-203.

62. Zhang, Zhengtao, et al. "Allocating assistance after a catastrophe based on the dynamic assessment of indirect economic losses." Natural Hazards 99.1 (2019): 17-37.

63. Ma, Yunjia, et al. "Site selection models in natural disaster shelters: a review." Sustainability 11.2 (2019): 399.

64. Yan, Yu, et al. "Monitoring the characteristics of the Bohai Sea ice using high-resolution geostationary ocean color imager (GOCI) data." Sustainability 11.3 (2019): 777.

65. Xu, Wei, et al. "Quantitative Multi-Hazard Risk Assessment of Crop Loss in the Yangtze River Delta Region of China." Sustainability 11.3 (2019): 922.

66. Wang, Ran, et al. "Global spatial distributions of and trends in rice exposure to high temperature." Sustainability 11.22 (2019): 6271.

67. Zhang, Mingkong , et al. "A method to assess and reduce pollutant emissions of logistic transportation under adverse weather." Sustainability 11.21 (2019): 5961.

68. Guo, Hao, et al. "Quantifying farmers’ initiatives and capacity to cope with drought: A case study of Xinghe county in semi-arid China." Sustainability 11.7 (2019): 1848.

69. Wu, Wangyang, et al. "Erosion-deposition characteristics and fencing life of straw checkerboard in alpine sandy lands." Environmental Engineering Science 36.1 (2019): 60-70.

70. Cheng, Changxiu, et al. "Assessing the intensity of the population affected by a complex natural disaster using social media data." ISPRS International Journal of Geo-Information 8.8 (2019): 358.

71. Tao, Jun, et al. "Effects of continuous application flue-gas desulfurization gypsum and brackish ice on soil chemical properties and maize growth in a saline soil in coastal area of China." Soil Science and Plant Nutrition 65.1 (2019): 82-89.

72. Yang, Jingi, et al. "Visual analysis of the evolution and focus in landslide research field." Journal of Mountain Science 16.5 (2019): 991-1004.

73. Du, Juan , et al. "Spatiotemporal variability and trends in the hydrology of the Xiang River basin, China: extreme precipitation and streamflow." Arabian Journal of Geosciences 12.18 (2019): 1-12.

74. Yan, Yu, et al. "The in situ observation of modelled sea ice drift characteristics in the Bohai Sea." Acta Oceanologica Sinica 38.3 (2019): 17-25.

75. Qi, Xin, and Yang, Jing. "Extended-range prediction of a heat wave event over the Yangtze River Valley: Role of intraseasonal signals." Atmospheric and Oceanic Science Letters 12.6 (2019): 451-457.

76. Huang, Chongfu and Huang, Yundong. The validity of geospatial information diffusion, Risk Analysis Based on Data and Crisis Response Beyond Knowledge--Proceedings of the 7th International Conference on Risk Analysis and Crisis Response (Athens, Greece, 15-19 October 2019), Eds. Chongfu Huang and Zoe Nivolianitou, Boca Raton, USA: CRC Press, 1-8.

77. Tian, Wen, and Huang, Chongfu. A Python approach to collecting disaster data for the Internet of Intelligences, Risk Analysis Based on Data and Crisis Response Beyond Knowledge--Proceedings of the 7th International Conference on Risk Analysis and Crisis Response (Athens, Greece, 15-19 October 2019), Eds.Chongfu Huang and Zoe Nivolianitou, Boca Raton, USA: CRC Press, 196-202.

78. Wang, Rundong and Huang, Chongfu. Improvement of risk communication in the Internet of Intelligences, Risk Analysis Based on Data and Crisis Response Beyond Knowledge--Proceedings of the 7th International Conference on Risk Analysis and Crisis Response (Athens, Greece, 15-19 October 2019), Eds. Chongfu Huang and Zoe Nivolianitou, Boca Raton, USA: CRC Press, 458-463.

79. Yin, Yiran, and Huang, Chongfu. An approach to comply the geospatial information diffusion filling in gap units in Internet of intelligences for emergency rescue, Risk Analysis Based on Data and Crisis Response Beyond Knowledge--Proceedings of the 7th International Conference on Risk Analysis and Crisis Response (Athens, Greece, 15-19 October 2019), Eds. Chongfu Huang and Zoe Nivolianitou, Boca Raton, USA: CRC Press, 464-470.

80. 余慧倩, 张强, 孙鹏, 宋长青. 干旱强度与干旱历时对华北冬小麦产量影响研究. 地理学报, 2019, 74(1), 87-102.

81. 吴子璇, 张强, 宋长青, 张芬, 朱秀迪, 孙鹏, 范科科, 余慧倩, 申泽西. 珠三角城市化对气温时空差异性影响研究. 地理学报, 2019, 74(11), 2342-2357.

82. 范科科, 张强, 孙鹏, 宋长青, 朱秀迪, 申泽西. 青藏高原土壤湿度变化、影响因子及未来预估研究. 地理学报, 2019, 74(3), 520-533.

83. 余慧倩, 张强, 孙鹏, 宋长青. 干旱强度及发生时间对华北平原五省冬小麦产量影响. 地理学报, 2019, 74(1), 87-102.

84. 范科科, 张强, 孙鹏, 宋长青, 余慧倩, 朱秀迪, 申泽西. 青藏高原土壤水分变化对地表气温的影响. 地理学报, 2019, 74(9), 1-16.

85. 胡毅鸿, 龚道溢, 毛睿. 中国北方农牧交错带春季风速的年际变化与冬季海温的关系. 地理科学进展, 2019, 38(5), 709-717.

86. 刘丽, 李宁, 张正涛. 中国省域尺度17部门资本存量的时空特征分析. 地理科学进展, 2019, 38(4), 546-555.

87. 黄文琳, 张强, 孔冬冬, 顾西辉, 孙鹏, 胡畔. 1982-2013年内蒙古地区植被物候对干旱变化的响应. 生态学报, 2019, 39(13), 4953-4965.

88. 夏敏, 孙鹏, 张强, 姚蕊, 王友贞, 温庆志. 基于SPEI指数的淮河流域干旱时空演变特征及影响研究. 生态学报, 2019, 39(10), 3643-3654.

89. 张亮亮, 张朝, 张静, 冯博彦. 基于CERES-Rice模型的湖南省一季稻极端高温损失评估及适应性措施. 生态学报, 2019, 39(17), 6293-6303.

90. 周洪奎, 武建军, 李小涵, 刘雷震, 杨建华, 韩忻忆. 基于同化数据的标准化土壤湿度指数监测农业干旱的适宜性研究. 生态学报, 2019, 39(6), 2191-2202.

91. 陈茜, 李强强, 唐伟, 王祯祎, 陶军, 许映军, 顾卫. 不同栽培模式对中小型土壤动物多样性的影响. 中国生态农业学报, 2019, 27(8), 1147-1156.

92. 韩旭娇, 张国明, 雷洁等. 干涸湖床不同类型盐土地表净风吹蚀实验研究. 干旱区研究, 2019, (1), 31.

93. 周凌峰, 孟耀斌, 逯超, 伍甘霖, 张东妮, 蒋飞红. 流域尺度重金属行为模拟及其对不同气象因子的响应特征研究. 农业环境科学学报, 2019, 38(5), 1112-1120.

94. 周凌峰, 孟耀斌, 逯超, 伍甘霖, 张东妮, 宋昊政, 吴丹. 天气发生器MulGETS和k-NN对区域历史气象场特征重现能力的比较. 中国农业气象, 2019, 40(06), 341-349.

95. 黄承芳, 李宁, 刘丽, 刘远, 张正涛, 陈曦. 气候变化下农业领域的国际文献特征与热点演变: 基于CiteSpace V的文献计量分析. 中国农业气象, 2019, 40(8), 477-488.

96. 赵亚茹, 周俊菊, 雷莉, 向鹃, 黄美华, 冯炜, 朱国锋, 魏伟, 王静爱. 基于InVEST模型的石羊河上游产水量驱动因素识别. 生态学杂志, 2019, DOI: 10.13292/j.1000-4890.201912.017.

97. 韩旭娇, 张国明, 刘连友等. 呼伦湖西南部咸水湖干涸湖滨带沉积物粒度特征. 中国沙漠, 2019, 39(2), 158-165.

98. 饶品增, 蒋卫国, 王晓雅, 陈坤. 基于MODIS数据的洪涝灾害分析研究——以2017年洞庭湖区洪水为例. 灾害学, 2019, 34(1), 203-207.

99. 吴竞妍, 倪维 ,杨赛霓. 中国综合减灾示范社区的发展演变与创建成效评价. 灾害学, 2019, (3), 35.

100. 陈柳彤, 龙爽, 俞海洋. 河北省雷电灾害风险区划研究. 灾害学, 2019, (3), 36.

101. 曹诗嘉, 侯静惟, 方伟华. 基于站点实测风速的中国台风大风重现期估计. 灾害学, 2019, (1), 41.

102. 刘远, 李宁, 张正涛. 台风“艾云尼”动态间接经济损失评估. 灾害学, 2019, 34(3), 178-183.

103. 冯介玲, 李宁, 刘丽. 基于混合Coupla模型的灾害相关结构分析——以内蒙古中部强沙尘暴为例, 灾害学, 2019, 34(3), 216-220.

104. 王然, 江耀, 张安宇, 高原, 王静爱. 农作物自然灾害暴露研究进展. 灾害学, 2019, 34(2), 215-221.

105. 侯陈瑶, 朱秀芳, 孙丹一, 徐昆, 刘莹. 基于随机森林的旱灾损失模型构建与应用--以河南省雨养小麦为例. 灾害学, 2019, 34(4), 210-215.

106. 王晓雅, 蒋卫国, 邓越, 蒋梓杰. “山竹”台风影响地区的小时降雨动态变化及危险性动态评估. 灾害学, 2019, 34(3), 202-208.

107. 侯陈瑶, 朱秀芳, 肖名忠, 肖国峰, 陈昌为. 基于游程理论和Copula函数的辽宁省农业气象干旱特征研究. 灾害学, 2019, 34(2), 222-227.

108. 张明空, 胡小兵, 王静爱. 考虑火灾动态扩散过程的高层建筑疏散路径研究. 中国安全科学学报, 2019, 29(03), 32-38.

109. 侯静惟, 方伟华, 程锰, 叶妍婷, 吴鹏, 韩轶男. 基于Copula函数的海南热带气旋风雨联合概率特征分析. 自然灾害学报, 2019, 28(3), 54-64.

110. 申泽西, 张强, 孙鹏, 刘春玲, 宋长青. 基于站点的非线性回归降尺度模型及其在CMIP5降水产品降尺度分析中的应用. 北京师范大学学报(自然科学版), 2019, 55(4), 513-522.

111. 周凌峰, 孟耀斌, 逯超, 伍甘霖, 张东妮, 张朝. 基于EOF和HHT的多站点降雨场随机模拟方法研究. 北京师范大学学报(自然科学版), 2019, 55(02), 263-271.

112. 曹乐瑶, 周涛, 罗惠, 李铮, 徐培培, 刘霞. 森林覆盖率在森林生长对气候干旱响应上的调节作用. 北京师范大学学报(自然科学版), 2019, 55(02), 240-247.

113. 孙玉燕, 孙鹏, 姚蕊, 张强, 王友贞. 1961-2014年淮河流域极端气温时空特征及区域响应. 中山大学学报自然科学版, 2019, 58(1), 1-11.

114. 王旖旎, 杜鹃, 徐伟. 辽宁省农业气象干旱灾情时空特征分析.国土与自然资源研究, 2019, (02), 85-91.

115. 黄崇福. 借助背景数据的地理空间信息扩散技术. Journal of Risk Analysis and Crisis Response, 2019, 9(1), 2-10.

116. 张婷, 程昌秀. 顾及空间集聚程度的中国高温灾害危险性评价. 地球信息科学学报, 6(2019):10.



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1. Zhang, Zhengtao, et al. "Analysis of the economic ripple effect of the United States on the world due to future climate change." Earth's Future 6.6 (2018): 828-840.

2. Deng, Yue, et al. "Change in intensity and frequency of extreme precipitation and its possible teleconnection with large‐scale climate index over the China from 1960 to 2015." Journal of Geophysical Research: Atmospheres 123.4 (2018): 2068-2081.

3. Li, Yijia, et al. "Linking livestock snow disaster mortality and environmental stressors in the Qinghai-Tibetan Plateau: Quantification based on generalized additive models." Science of the Total Environment 625 (2018): 87-95.

4. Chen, Yi, et al. "Impacts of heat stress on leaf area index and growth duration of winter wheat in the North China Plain." Field Crops Research 222 (2018): 230-237.

5. Wu, Yaoyao, et al. "Quantifying the similarity in perceptions of multiple stakeholders in Dingcheng, China, on agricultural drought risk governance." Sustainability 10.9 (2018): 3219.

6. Yue, Yaojie, et al. "An EPIC model-based wheat drought risk assessment using new climate scenarios in China." Climatic change 147.3 (2018): 539-553.

7. Meng, Yaobin, et al. "A heavy metal module coupled with the SWAT model and its preliminary application in a mine-impacted watershed in China." Science of the Total Environment 613 (2018): 1207-1219.

8. Yang, YanYan , et al. "Aerodynamic grain‐size distribution of blown sand." Sedimentology 66.2 (2019): 590-603.

9. Ye, Yanting, and Fang, Weihua. "Estimation of the compound hazard severity of tropical cyclones over coastal China during 1949–2011 with copula function." Natural Hazards 93.2 (2018): 887-903.

10. Liu, Yang, et al. "Extreme phenophase delays and their relationship with natural forcings in Beijing over the past 260 years." International journal of biometeorology 62.7 (2018): 1229-1239.

11. He, Xin, et al. "Historical earthquakes and their socioeconomic consequences in China: 1950–2017." International journal of environmental research and public health 15.12 (2018): 2728.

12. Niu, Xiaonan, et al. "Satellite scheduling of large areal tasks for rapid response to natural disaster using a multi-objective genetic algorithm." International journal of disaster risk reduction 28 (2018): 813-825.

13. Liu, Xiaokang, et al. "Holocene water-level changes inferred from a section of fluvio-lacustrine sediments in the southeastern Mu Us Desert, China." Quaternary International 469 (2018): 58-67.

14. Liu, Xiaokang, et al. "Holocene resistant substrate and their roles in ecological safety of the Mu Us sandy land, Northern China." Catena 165 (2018): 92-99.

15. Wang, Weiping, et al. "An approach for cascading effects within critical infrastructure systems." Physica A: Statistical Mechanics and its Applications 510 (2018): 164-177.

16. Xu, Wei, et al. "A multi-objective optimization based method for evaluating earthquake shelter location–allocation." Geomatics, Natural Hazards and Risk 9.1 (2018): 662-677.

17. Shen, Shi, et al. "Spatial distribution patterns of global natural disasters based on biclustering." Natural hazards 92.3 (2018): 1809-1820.

18. Shen, Shi, et al. "Visualized analysis of developing trends and hot topics in natural disaster research." PloS one 13.1 (2018): e0191250.

19. Yang, S., et al. "Visual analysis of the evolution and focus of agricultural drought research on crops." International Agricultural Engineering Journal 27.2 (2018): 348-352.

20. Yang, Saini, et al. "Criticality ranking for components of a transportation network at risk from tropical cyclones." International journal of disaster risk reduction 28 (2018): 43-55.

21. Zhang, Qiang, et al. "The impact of tropical cyclones on extreme precipitation over coastal and inland areas of China and its association to ENSO." Journal of Climate 31.5 (2018): 1865-1880.

22. Zhang, Qiang, et al. "Is the Pearl River basin, China, drying or wetting? Seasonal variations, causes and implications." Global and Planetary Change 166 (2018): 48-61.

23. Zhang, Qiang, et al. "Evaluation of ecological instream flow considering hydrological alterations in the Yellow River basin, China." Global and Planetary Change 160 (2018): 61-74.

24. Zhang, Qiang, et al. "Tropical cyclonic rainfall in China: Changing properties, seasonality, and causes." Journal of Geophysical Research: Atmospheres 123.9 (2018): 4476-4489.

25. Zhang, Qiang, et al. "More frequent flooding? Changes in flood frequency in the Pearl River basin, China, since 1951 and over the past 1000 years." Hydrology and Earth System Sciences 22.5 (2018): 2637-2653.

26. Zhang, Qiang, et al. "Nonparametric integrated agrometeorological drought monitoring: Model development and application." Journal of Geophysical Research: Atmospheres 123.1 (2018): 73-88.

27. Zhang, Qiang, et al. "Evaluation of remotely sensed and reanalysis soil moisture against in situ observations on the Himalayan‐Tibetan Plateau." Journal of Geophysical Research: Atmospheres 123.14 (2018): 7132-7148.

28. Zhang, Qiang, et al. "Vegetation phenology on the Qinghai-Tibetan Plateau and its response to climate change (1982–2013)." Agricultural and forest meteorology 248 (2018): 408-417.

29. Hu, Pan, et al. "Flood-induced mortality across the globe: Spatiotemporal pattern and influencing factors." Science of the Total Environment 643 (2018): 171-182.

30. Wang, Ming, et al. "Increasing the lateral capacity of dry joint flat-stone masonry structures using inexpensive retrofitting techniques." Bulletin of Earthquake Engineering 17.1 (2019): 391-411.

31. Wang, Ming, et al. "In-plane cyclic tests of seismic retrofits of rubble-stone masonry walls." Bulletin of Earthquake Engineering 16.5 (2018): 1941-1959.

32. Gao, Miaoni, et al. "Are peak summer sultry heat wave days over the Yangtze–Huaihe River basin predictable?" Journal of Climate 31.6 (2018): 2185-2196.

33. Qin, Lianjie, et al. "A river channel extraction method for urban environments based on terrain transition lines." Water Resources Research 54.7 (2018): 4887-4900.

34. Liu, Kai, et al. "Vulnerability analysis of an urban gas pipeline network considering pipeline-road dependency." International Journal of Critical Infrastructure Protection 23 (2018): 79-89.

35. Liu, Kai, et al. "Susceptibility of existing and planned Chinese railway system subjected to rainfall-induced multi-hazards." Transportation Research Part A: Policy and Practice 117 (2018): 214-226.

36. Jia, Kai, et al. "Spectral matching based on discrete particle swarm optimization: A new method for terrestrial water body extraction using multi-temporal Landsat 8 images." Remote Sensing of Environment 209 (2018): 1-18.

37. Zhang, Junlin, et al. "Spatial distribution estimates of the urban population using DSM and DEM data in China." ISPRS International Journal of Geo-Information 7.11 (2018): 435.

38. Du, Juan, et al. "Different flooding behaviors due to varied urbanization levels within river basin: A case study from the Xiang River basin, China." International Journal of Disaster Risk Science 10.1 (2019): 89-102.

39. Yuan, Jixing, et al. "A New Analysis Model to the Tropical Cyclone Disaster Combining Weibo Topic Heat with Population Location." International Society for Photogrammetry And Remote Sensing, (2018):2179-2183.

40. Wang, Jingmei, et al. "Hazard Assessment of Landslide Disaster in Fujian Province Based on Fuzzy Mathematics." ISPRS-International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences 42 (2018): 1733-1738.

41. Wu, Jidong, et al. "Economic development and declining vulnerability to climate-related disasters in China." Environmental Research Letters 13.3 (2018): 034013.

42. Yu, Huiqian, et al. "Impact of droughts on winter wheat yield in different growth stages during 2001–2016 in Eastern China." International Journal of Disaster Risk Science 9.3 (2018): 376-391.

43. Luo, Hui, et al. "Stock volume dependency of forest drought responses in yunnan, china." Forests 9.4 (2018): 209.

44. Wang, Fangping, et al. "Understanding individual-level protective responses to air pollution warning: a case study of Beijing, China." Human and Ecological Risk Assessment: An International Journal 25.6 (2019): 1473-1487.

45. Huang, Chongfu, and Huang, Yundong. "An information diffusion technique to assess integrated hazard risks." Environmental research 161 (2018): 104-113.

46. Tan, Chenyan, and Fang, Weihua. "Mapping the wind hazard of global tropical cyclones with parametric wind field models by considering the effects of local factors." International Journal of Disaster Risk Science 9.1 (2018): 86-99.

47. Wang, Cailin, et al. "Application of the hidden Markov model in a dynamic risk assessment of rainstorms in Dalian, China." Stochastic Environmental Research and Risk Assessment 32.7 (2018): 2045-2056.

48. Wang, Cailin, et al. "Quantifying the spatial ripple effect of the Bohai Sea ice disaster in the winter of 2009/2010 in 31 provinces of China." Geomatics, Natural Hazards and Risk 9.1 (2018): 986-1005.

49. Zhang, Anyu, et al. "Spatiotemporal changes of hazard intensity-adjusted population exposure to multiple hazards in Tibet during 1982–2015." International Journal of Disaster Risk Science 9.4 (2018): 541-554.

50. Wang, Cailin, et al. "Quantifying the spatial ripple effect of the Bohai Sea ice disaster in the winter of 2009/2010 in 31 provinces of China." Geomatics, Natural Hazards and Risk 9.1 (2018): 986-1005.

51. shen, Shi, et al. "Persistence and corresponding time scales of soil moisture dynamics during summer in the Babao River Basin, Northwest China." Journal of Geophysical Research: Atmospheres 123.17 (2018): 8936-8948.

52. Shen, Shi, et al. "Spatial distribution patterns of global natural disasters based on biclustering." Natural hazards 92.3 (2018): 1809-1820.

53. Shen, Shi, et al. "Visualized analysis of developing trends and hot topics in natural disaster research." PloS one 13.1 (2018): e0191250.

54. Ye, Sijing, et al. "RDCRMG: A raster dataset clean & reconstitution multi-grid architecture for remote sensing monitoring of vegetation dryness." Remote Sensing 10.9 (2018): 1376.

55. Liu, Yang, et al. "Extreme phenophase delays and their relationship with natural forcings in Beijing over the past 260 years." International journal of biometeorology 62.7 (2018): 1229-1239.

56. Jia, Dan, et al. "Complexity of factors influencing the spatiotemporal distribution of archaeological settlements in northeast China over the past millennium." Quaternary Research 89.2 (2018): 413-424.

57. Guo, Lanlan, et al. "Trends in atmospheric particles and their light extinction performance between 1980 and 2015 in Beijing, China." Chemosphere 205 (2018): 52-61.

58. Deng, Yue, et al. "Change in intensity and frequency of extreme precipitation and its possible teleconnection with large‐scale climate index over the China from 1960 to 2015." Journal of Geophysical Research: Atmospheres 123.4 (2018): 2068-2081.

59. Chen, Zheng, et al. "The impact of precipitation deficit and urbanization on variations in water storage in the Beijing-Tianjin-Hebei urban agglomeration." Remote Sensing 10.1 (2017): 4.

60. Rao, Pinzeng, et al. "Dynamic change analysis of surface water in the Yangtze River Basin based on MODIS products." Remote Sensing 10.7 (2018): 1025.

61. Jia, Kai, et al. "Spectral matching based on discrete particle swarm optimization: A new method for terrestrial water body extraction using multi-temporal Landsat 8 images." Remote Sensing of Environment 209 (2018): 1-18.

62. Wang, Xiaoya, et al. "Analysis of the dynamic changes of the Baiyangdian Lake surface based on a complex water extraction method." Water 10.11 (2018): 1616.

63. Feng, Jieling, et al. "How to apply the dependence structure analysis to extreme temperature and precipitation for disaster risk assessment." Theoretical and applied climatology 133.1 (2018): 297-305.

64. Wang, Ming, et al. "In-plane cyclic tests of seismic retrofits of rubble-stone masonry walls." Bulletin of Earthquake Engineering 16.5 (2018): 1941-1959.

65. Liu, Kai, et al. "Vulnerability analysis of an urban gas pipeline network considering pipeline-road dependency." International Journal of Critical Infrastructure Protection 23 (2018): 79-89.

66. Liu, Kai, and Xiaoyong Yan. "Current-flow efficiency of networks." Physica A: Statistical Mechanics and its Applications 492 (2018): 463-471.

67. Liu, Kai, et al. "A comprehensive risk analysis of transportation networks affected by rainfall‐induced multihazards." Risk analysis 38.8 (2018): 1618-1633.

68. Liu, Kai, et al. "Susceptibility of existing and planned Chinese railway system subjected to rainfall-induced multi-hazards." Transportation Research Part A: Policy and Practice 117 (2018): 214-226..

69. Ding, Zhiyong, et al. "An analysis of changes in temperature extremes in the Three River Headwaters region of the Tibetan Plateau during 1961–2016." Atmospheric Research 209 (2018): 103-114.

70. Liu, Xiaokang, et al. "Holocene resistant substrate and their roles in ecological safety of the Mu Us sandy land, Northern China." Catena 165 (2018): 92-99.

71. Lu, Ruijie, et al. "A new find of macrofossils of Picea crassifolia Kom. In early–middle Holocene sediments of the Qinghai Lake basin and its paleoenvironmental significance." Quaternary Research 90.2 (2018): 310-320.

72. Meng, Yaobin, et al. "A heavy metal module coupled with the SWAT model and its preliminary application in a mine-impacted watershed in China." Science of the Total Environment 613 (2018): 1207-1219.

73. Sun, Peijun, et al. "Improving the upscaling of land cover maps by fusing uncertainty and spatial structure information." Photogrammetric Engineering & Remote Sensing 84.2 (2018): 87-100.

74. Su, Yun, et al. "Transmission pathways of China’s historical climate change impacts based on a food security framework." The Holocene 28.10 (2018): 1564-1573.

75. Niu, Xiaonan, et al. "Satellite scheduling of large areal tasks for rapid response to natural disaster using a multi-objective genetic algorithm." International journal of disaster risk reduction 28 (2018): 813-825.

76. Tang, Hong, et al. "Edge Dependent Chinese restaurant process for Very High Resolution (VHR) satellite image over-segmentation." Remote Sensing 10.10 (2018): 1519.

77. Tao, Jun, et al. "The effect of brackish ice mulching on soil salinity content and crop emergence in man-made, raised bed on saline soils." Eurasian Soil Science 51.6 (2018): 658-663.

78. Zhang, Xuelei, et al. "Using NDVI time series to diagnose vegetation recovery after major earthquake based on dynamic time warping and lower bound distance." Ecological indicators 94 (2018): 52-61.

79. Li, Congrong, Ming Wang, and Kai Liu. "A decadal evolution of landslides and debris flows after the Wenchuan earthquake." Geomorphology 323 (2018): 1-12.

80. Xie, Jun, et al. "Modeling sediment movement and channel response to rainfall variability after a major earthquake." Geomorphology 320 (2018): 18-32..

81. Li, Congrong, et al. "Topographic changes and their driving factors after 2008 Wenchuan earthquake." Geomorphology 311 (2018): 27-36.

82. Wu, Yaoyao, et al. "Quantifying the similarity in perceptions of multiple stakeholders in Dingcheng, China, on agricultural drought risk governance." Sustainability 10.9 (2018): 3219.

83. Wang, Cailin, et al. "Quantifying the spatial ripple effect of the Bohai Sea ice disaster in the winter of 2009/2010 in 31 provinces of China." Geomatics, Natural Hazards and Risk 9.1 (2018): 986-1005.

84. Wang, Cailin, et al. "Emerging trends and new developments in disaster research after the 2008 Wenchuan earthquake." International journal of environmental research and public health 16.1 (2019): 29.

85. So, Emily, and Platt, Stephen. "Earthquakes and their socio-economic Consequences." Encyclopedia of Earthquake Engineering (2014): 1-26..

86. Wu, Jidong, et al. "Development of an asset value map for disaster risk assessment in China by spatial disaggregation using ancillary remote sensing data." Risk analysis 38.1 (2018): 17-30.

87. Wang, Cailin, et al. "Application of the hidden Markov model in a dynamic risk assessment of rainstorms in Dalian, China." Stochastic Environmental Research and Risk Assessment 32.7 (2018): 2045-2056.

88. Liu, Leizhen, et al. "Relationship of root zone soil moisture with solar-induced chlorophyll fluorescence and vegetation indices in winter wheat: A comparative study based on continuous ground-measurements." Ecological Indicators 90 (2018): 9-17.

89. Liu, Leizhen, et al. "Evaluating the utility of solar-induced chlorophyll fluorescence for drought monitoring by comparison with NDVI derived from wheat canopy." Science of the Total Environment 625 (2018): 1208-1217.

90. Wang, Weiping, et al. "An approach for cascading effects within critical infrastructure systems." Physica A: Statistical Mechanics and its Applications 510 (2018): 164-177.

91. Yue, Yaojie, et al. "An EPIC model-based wheat drought risk assessment using new climate scenarios in China." Climatic change 147.3 (2018): 539-553.

92. Zhang, Lingyan, et al. "Mortality effects of heat waves vary by age and area: a multi-area study in China." Environmental Health 17.1 (2018): 1-12.

93. Chen, Yi, et al. "Impacts of heat stress on leaf area index and growth duration of winter wheat in the North China Plain." Field Crops Research 222 (2018): 230-237.

94. Wang, Chenzhi, et al. "Different response of human mortality to extreme temperatures (MoET) between rural and urban areas: A multi-scale study across China." Health & place 50 (2018): 119-129.

95. Wang, Chenzhi, et al. "Comparing different smoothing methods to detect double-cropping rice phenology based on LAI products–a case study in the Hunan province of China." International Journal of Remote Sensing 39.19 (2018): 6405-6428.

96. Zhang, Liangliang, et al. "Exposure, vulnerability, and adaptation of major maize-growing areas to extreme temperature." Natural Hazards 91.3 (2018): 1257-1272.

97. Tang, Wei, et al. "Sea ice desalination under gravity using microwave heating." Desalination 430 (2018): 159-164.

98. Zhang, Qiang, et al. "Vegetation phenology on the Qinghai-Tibetan Plateau and its response to climate change (1982–2013)." Agricultural and forest meteorology 248 (2018): 408-417.

99. Zhang, Qiang, et al. "Evaluation of ecological instream flow considering hydrological alterations in the Yellow River basin, China." Global and Planetary Change 160 (2018): 61-74.

100.Zhang, Qiang, et al. "Is the Pearl River basin, China, drying or wetting? Seasonal variations, causes and implications." Global and Planetary Change 166 (2018): 48-61.

101.Zhang, Qiang, et al. "More frequent flooding? Changes in flood frequency in the Pearl River basin, China, since 1951 and over the past 1000 years." Hydrology and Earth System Sciences 22.5 (2018): 2637-2653.

102.Yu, Huiqian, et al. "Impact of droughts on winter wheat yield in different growth stages during 2001–2016 in Eastern China." International Journal of Disaster Risk Science 9.3 (2018): 376-391.

103.Zhang, Qiang, et al. "The impact of tropical cyclones on extreme precipitation over coastal and inland areas of China and its association to ENSO." Journal of Climate 31.5 (2018): 1865-1880.

104.Zhang, Qiang, et al. "Nonparametric integrated agrometeorological drought monitoring: Model development and application." Journal of Geophysical Research: Atmospheres 123.1 (2018): 73-88.

105.Zhang, Qiang, et al. "Evaluation of remotely sensed and reanalysis soil moisture against in situ observations on the Himalayan‐Tibetan Plateau." Journal of Geophysical Research: Atmospheres 123.14 (2018): 7132-7148.

106.Zhang, Qiang, et al. "Tropical cyclonic rainfall in China: Changing properties, seasonality, and causes." Journal of Geophysical Research: Atmospheres 123.9 (2018): 4476-4489.

107.Zhao, Hanping, et al. "Red warning for air pollution in China: Exploring residents' perceptions of the first two red warnings in Beijing." Environmental research 161 (2018): 540-545.

108.Zhu, Wenquan, et al. "A comparative analysis of the spatio-temporal variation in the phenologies of two herbaceous species and associated climatic driving factors on the Tibetan Plateau." Agricultural and Forest Meteorology 248 (2018): 177-184.

109.Tang, Ke, et al. "An identification method for spring maize in northeast china based on spectral and phenological features." Remote Sensing 10.2 (2018): 193.

110.Sun, Zhangli, et al. "Drought evaluation using the GRACE terrestrial water storage deficit over the Yangtze River Basin, China." Science of the Total Environment 634 (2018): 727-738.

111.赵秀娟, 马运佳, 梁埔君, 秦连杰, 周洪建, 袁艺, 徐伟. 粒子群算法在地震灾害应急避难所选址中的应用:以云南省鲁甸县文屏镇为例. 北京师范大学学报(自然科学版), 2018, 2(54):217-223.

112.赵晗萍, 牛晨策, 张婷婷, 蔡思达. 不确定条件下的应急物流研究综述与展望(Review and Prospect of Emergency Logistics under Uncertainty Conditions). JOURNAL OF RISK ANALYSIS AND CRISIS RESPONSE, 2018, 2(8):101-109.

113.张正涛, 李宁, 冯介玲, 陈曦, 刘丽, 白扣. 从重建资金角度与效率角度定量评估灾后经济恢复力的变化. 灾害学, 2018, 4(33):211-216.

114.尹怡然, 黄崇福. 救灾智联网中地理空间信息扩散的编程研究. 一带一路背景下的风险分析和危机反应, 2018, 1(1):586-590.

115.吴瑶瑶, 郭浩, 王颖, 王静爱. 综合灾害风险防范凝聚力研究进展与展望. 灾害学, 2018, 33(4):217-222.

116.吴吉东, 王旭, 王菜林, 何鑫, 叶梦琪. 社会经济数据空间化现状与发展趋势. 地球信息科学学报, 2018, 9(20):1252-1262.09

117.吴吉东, 何鑫, 王菜林, 叶梦琪. 自然灾害损失分类及评估研究评述. 灾害学, 2018, 4(33):157-163.

118.吴吉东. 经济学视角的自然灾害损失评估理论与方法评述. 自然灾害学报, 2018, 3(27):188-196.

119.王旭, 吴吉东, 王菜林, 何鑫. 面向自然灾害风险分析的房屋价值空间化研究——以北京市为例. 北京师范大学学报 (自然科学版), 2018, 4(54):525-533.

120.王秋余, 黄崇福. 三台县洪水和地震综合风险的一个估计. 一带一路背景下的风险分析和危机反应, 2018, 1(1):80-185.

121.孙雁南, 黄崇福. 由 Leaflet 构建网络 GIS 支持的智联网. 一带一路背景下的风险分析和危机反应, 2018, 1(1):579-585.

122.潘小军, 黄崇福, 张领雁. 基于信息扩散技术的四川涪江流域综合风险评估. 一带一路背景下的风险分析和危机反应, 2018, 1(1):245-250.

123.马运佳, 赵秀娟, 秦连杰, 梁埔君, 袁艺, 徐伟. 多约束多目标的灾害避难所选址优化研究——以海南省文昌市为例. 灾害学, 2018, 1(33):218-224.

124.刘晓刚, 张文慧, 杨赛霓. 珠海市家庭自然灾害适应性行为及其影响因素. 灾害学, 2018, 3(33):29-36.

125.刘霞, 周涛, 吴昊, 徐培培, 罗惠, 曹乐瑶. 中国森林凋落物分解速率的空间格局及主控因子:基于最优线性混合模型. 北京师范大学学报(自然科学版), 2018, 4(54):553-560.

126.刘丽, 李宁, 张正涛, 冯介玲, 陈曦. 中国与主要发达国家对气候变化与经济领域科研论文贡献的文献计量分析——基于论文相对产出与影响指标. 气候变化研究进展, 2018, 3(14):325-330.

127.刘婧宇, 杜鹃, 徐伟, 杨雨蒙. 济南市公众对气候变化风险的感知及响应行为研究. 国土与自然资源研究, 2018, 1(2):45-50.

128.李宁, 刘丽, 张正涛, 冯介玲, 陈曦, 白扣. 气候变化经济影响研究热点的足迹可视化 : 整合被引文献和突现词. 地球科学进展, 2018, 8(33):865-873.

129.李静, 宫阿都, 陈艳玲, 王静梅, 曾婷婷. 森林过火区植被遥感参数的变化与恢复特征分析. 地球信息科学学报, 2018, 3(20):368-376.

130.黄崇福. 用信息扩散模型改进台风风险估计. 系统工程理论与实践, 2018, 9(38):2315-2325.

131.黄 崇 福. 地 震 风 险 感 知 的 智 能 数 学 描 述 方 式. JOURNAL OF RISK ANALYSIS AND CRISIS RESPONSE, 2018, 3(8):163-176.

132.黄崇福. 地理空间上的信息扩散及其在风险分析中的应用. 一带一路背景下的风险分析和危机反应, 2018, 1(1):1-7.

133.范科科, 张强, 史培军, 孙鹏, 余慧倩. 基于卫星遥感和再分析数据的青藏高原土壤湿度数据评估. 地理学报, 2018, 9(73):1778-1791.

134.丁之勇, 董义阳, 鲁瑞洁. 1960~2015年中国天山南、北坡与山区极端气温时空变化特征. 地理科学, 2018, 8(38):1379-1390.

135.戴佳栋, 张国明, 刘连友, 韩旭娇, 雷洁, 温海明. 干湖盆湖滨带不同类型盐土粒度特征分析. 北京师范大学学报(自然科学版), 2018, 53(2):420-425.

136.程昌秀等. 地理大数据为地理复杂性研究提供新机遇. 地理学报.8(2018):10.

137.范志欣, 方修琦, 苏筠. 全球碳排放格网化格局的变化. 气候变化研究进展, 14.5(2018):8.

138.方修琦, 马亚玲, 李晗孙白, 万金红, 叶瑜. 1939年海河流域洪涝灾害影响-响应的传递过程及其效应. 灾害学, 33.1(2018):7.

139.李静, 宫阿都, 陈艳玲, 王静梅, 曾婷婷. 森林过火区植被遥感参数的变化与恢复特征分析. 地球信息科学学报, 20.3(2018):9.

140.陈艳玲, 顾晓鹤, 宫阿都, 胡圣武. 基于遥感信息和WOFOST模型参数同化的冬小麦单产估算方法研究. 麦类作物学报, 38.9(2018):10.

141.邓越, 蒋卫国, 王文杰, 吕金霞, 陈坤. 城市扩张导致京津冀区域生境质量下降. 生态学报, 38.12(2018):10.

142.吕金霞, 蒋卫国, 王文杰, 陈坤, 邓越, 陈征, 荔琢. 近30年来京津冀地区湿地景观变化及其驱动因素.生态学报, 2018, 38(12):4492-4503.

143.邓越, 蒋卫国, 王晓雅, 吕金霞. MSWEP降水产品在中国大陆区域的精度评估. 水科学进展, 29.4(2018):10.

144.张雯, 李京, 陈云浩. 面向城市内涝消减的蓄水池尺寸优化模拟. 北京师范大学学报(自然科学版), 54.6(2018):10.

145.邵琦, 陈云浩, 李京. 基于卫星遥感和气象再分析资料的北京市PM_(2.5)浓度反演研究. 地理与地理信息科学, 34.3(2018):7.

146.李宁, 刘丽, 张正涛, 冯介玲, 陈曦, 白扣. 气候变化经济影响研究热点的足迹可视化:整合被引文献和突现词. 地球科学进展, 33.8(2018):9.

147.张正涛, 李宁, 冯介玲, 陈曦, 刘丽, 白扣. 从重建资金与效率角度定量评估灾后经济恢复力的变化——以武汉市“2016.07.06”暴雨洪涝灾害为例. 灾害学, 2018, 33(04):211-216.

148.丁之勇, 董义阳, 鲁瑞洁. 1960~2015年中国天山南、北坡与山区极端气温时空变化特征. 地理科学, 38.8(2018):12.

149.丁之勇, 鲁瑞洁, 刘畅, 段晨曦. 环青海湖地区气候变化特征及其季风环流因素. 地球科学进展, 33.3(2018):12.

150.杜婧, 鲁瑞洁, 刘小槺, 吕志强, 陈璐. 青海湖湖东沙地全新世风成沉积物磁化率特征及其环境意义. 海洋地质与第四纪地质, 038.002(2018):175-184.

151.何佳, 苏筠. 极端气候事件及重大灾害事件演化研究进展. 灾害学, 2018.

152.张滔, 唐宏. 基于google earth engine的京津冀2001~2015年植被覆盖变化与城镇扩张研究. 遥感技术与应用, 2018, 33(4), 7.

153.张雪蕾, 汪明, 曹寅雪, 刘凯, 洪超裕. 3种典型机器学习方法在灾害敏感性评估中的对比. 中国安全生产科学技术, 14.7(2018):7.

154.吴瑶瑶, 郭浩, 王颖, 王静爱. 综合灾害风险防范凝聚力研究进展与展望. 灾害学, 33.4(2018):6.

155.王旭, 吴吉东, 王菜林, 何鑫. 面向自然灾害风险分析的房屋价值空间化研究:以北京市为例. 北京师范大学学报(自然科学版), 54.4(2018):9.

156.李海宏, 吴吉东. 2007—2016年上海市暴雨特征及其与内涝灾情关系分析. 自然资源学报, 33.12(2018):13.

157.李楠, 朱秀芳, 潘耀忠, 詹培. 人工蜂群算法优化的SVM遥感影像分类. 遥感学报, 022.004(2018):559-569.

158.肖国峰, 朱秀芳, 侯陈瑶, 夏兴生. 撂荒耕地的提取与分析——以山东省庆云县和无棣县为例. 地理学报, 73.9(2018):16.

159.张鑫, 刘雷震, 赵文慧, 武建军. 冬小麦日光诱导叶绿素荧光的日变化规律探究. 北京师范大学学报(自然科学版), 54.5(2018):9.

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