学习与工作经历：

胡正华，男，博士，教授，博士生导师。2007年获南京农业大学农学博士学位，2007-2010南京信息工程大学应用气象学院博士后， 2011-2012美国耶鲁大学森林与环境学院博士后。 2001年7月至今，南京信息工程大学（2002年，讲师；2008年，副教授；2014年，教授、博导）。

学术兼职：

中国农业资源与区划学会农业灾害风险专业委员会理事(2016.11--)；

《干旱地区农业研究》编委、Scientific Reports编委；

国家自然科学基金、教育部博士点基金、中国博士后基金等项目通讯评审专家；

Global Change Biology, Global Ecology and Biogeography, Science of the Total Environment, Agricultural and Forest Meteorology, Journal of Environmental Management, Chemosphere, Theoretical and Applied Climatology, GCB-Bioenergy, Soil & Tillage Research, Plant and Soil, Natural Hazards, International Journal of Disaster Risk Reduction, Journal of Environmental Sciences, 生态学报、中国环境科学等20余种期刊审稿人。

研究领域：

气候变化响应及应对；

温室气体排放与减排；

气象灾害风险评估。

科研：

科研项目:

20.  国家自然科学基金面上项目(42375114) “不同类型水稻非结构性碳水化合物积累与转运对[CO₂]和温度升高的响应”，2024.1-2027.12，主持人。

19.  国家自然科学基金面上项目(42071023) “大气CO₂浓度和温度升高对稻瘟病的影响及机理研究”，2021.1-2024.12，主持人。

18.  国家自然科学基金面上项目(41775152) “不同CO₂浓度升高水平对稻田CH₄产生和排放的影响”，2018.1-2021.12，主持人。

17.  国家自然科学基金面上项目(41175136) “地表UV-B增强与O3升高对农田地-气碳氮交换的复合影响”，2012.1-2015.12，主持人。

16.   国家自然科学基金青年项目 (40605029)“紫外辐射增强对土壤-作物系统N2O排放的影响”，2007.1-2009.12，主持人。

15.   国家自然科学基金重点项目(41530533)“稻麦作物生长和产量形成对大气CO2浓度渐增和骤增的响应及机制”，2016.1-2020.12，子课题负责人。

14.  公益性(气象)行业科研专项重大项目专题(GYHY201506001-06)“我国北方农业干旱灾害风险时空变化特征”，2015.1-2018.12，主持人。

13.  公益性(气象)行业科研专项课题(GYHY201306046)“冬小麦土壤水分平衡模型分量计算方法研究”，2013.1-2015.12，主持人。 

12. 江苏省碳达峰碳中和科技创新专项资金（农业农村领域关键技术攻关）项目（BE2023398）“旱作农田土壤高效固碳减排关键技术创新与应用”，2023-2027.3，课题负责人。

11. 不同生态修复方法对固碳效果的评价研究，江苏省******勘查局，2023.10-2024.6，负责人。

10.  共保联治工作现状分析及推进思路研究，南京市生态环境保护科学研究院，2022，主持人。

9.  生态文明建设的路径与成效分析—以黄柏山林场为例，黄柏山生态文明教育中心，2022，主持人。

8.  马达加斯加植被对气候变化的响应，中国科学院大气物理研究所，2020，主持人。

7.  江苏省“青蓝工程”中青年学术带头人项目，2014 . 6 -2017. 6，主持人。 

6.  江苏省“六大人才高峰”高层次人才项目“农田土壤呼吸对温度升高和降水变化的响应及机理研究”，2015.1 -2017.12，主持人。 

5.  中国博士后科学基金一等资助项目 “大气氮沉降对森林土壤温室气体排放的影响”，2008.1-2009.12，主持人。 

4.  中国科学院大气物理研究所委托项目“中国陆地生态系统碳源汇预测与碳汇潜力评估”，2011.6-2013.12，主持人。 

3.   土壤与农业可持续发展国家重点实验室开放课题“北亚热带森林土壤呼吸对大气氮沉降的响应及机理研究”，2009.1-2011.12，主持人。 

2.   中国气象局农业气象保障与应用技术重点实验室课题“气候变化对河南主要作物需水量的影响”，2010.1-2011.12，主持人。 

1.   中国气象局干旱气候变化与减灾重点实验室课题“干旱对石羊河流域草地生态系统的影响及评估技术研究”，2011.1-2012.12，主持人。 

著作：

2.   干旱监测、预警及灾害风险评估技术研究. 张存杰、张继权、胡正华、姚玉璧、范广洲. 2020.7.  气象出版社.

1.   生态规划导论. 王让会（主编）、胡正华（副主编）、李琪（副主编）. 2012. 气象出版社.

主要学术论文(*, 通讯作者)： 

102. Huang W, Wang YY*, Hu ZH*, Zhang Q, Shi JB, Wu ZR, Wang JX. Warming increased the promotion of atmospheric CO2 concentration on biological nitrogen fixation by changing the nifH gene community. Science of the Total Environment, 2025, 975: 179210.

101. Onyejuruwa A, Hu ZH*, Anosike C, Towfiqul Islam ARM, Madhushanka D. Assessment of WRF model simulations of extreme rainfall events in West Africa: a comprehensive review. Environmental Monitoring and Assessment, 2025, 197: 486.

100. Onyejuruwa A, Hu ZH*, Towfiqul Islam ARM, Olaniyan E, Than Oo K. Different microphysics parameterizations of hydrometeor pathways in WRF simulation: A case of two high rainfall events in Nigeria. Journal of Atmospheric and Solar-Terrestrial Physics, 2025, 268: 106455.

99. Onyejuruwa A, Hu ZH*, Towfiqul Islam ARM, Nyasulu M, Than Oo K. Seasonal precipitation changes in response to long-term aerosol anomalies: A case from West Africa. Physics and Chemistry of the Earth, 2025, 138: 103847.

98. He H, Li DD Wu ZR, Wu Z, Hu ZH*, Yang SY*. Assessment of the straw and biochar application on greenhouse gas emissions and yield in paddy fields under intermittent and controlled irrigation patterns. Agriculture, Ecosystems and Environment, 2024, 359: 108745.

97. Wang YY, Hu ZH*, Gu BT, Xing JJ, Liu C, Liu TW, Zhao SM, Zhang XY, Zhu LY, Xu ZQ. Role of methanogenesis and methanotrophy in CH4 fluxes from rice paddies under elevated CO2 concentration and elevated temperature. Science of the Total Environment, 2024, 951: 175466.

96. He H, Wu ZR, Wang YY, Liu C, Chen MJ, Qu KX, Li M, Zhao J, Hu ZH*, Li Q*. Elevated CO2 results in modified N2O emissions from paddy rice fields. Nutrient Cycling in Agroecosystems, 2024, doi: 10.1007/s10705-024-10366-5.

95. He H, Liu C, Wu ZR, Chen MJ, Qu KX, Zhao J, Wang YY, Hu ZH*, Li Q*. Responses of rice photosynthesis and yield to elevated CO2 concentrations: A quantitative analysis via chlorophyll fluorescence technology. Journal of Soil Science and Plant Nutrition, 2024, doi: 10.1007/s42729-024-01890-y.

94. He H, Wu ZR, Liu C, Jiang QQ, Ke HN, Cao YM, Li Q, Hu ZH*. An elevated CO2 concentration improves the photosynthetic efficiency and grain yield of rice plants but concurrently increases the nitrogen fertilizer. Journal of Soil Science and Plant Nutrition, 2024, doi: 10.1007/s42729-024-01760-7.

93. He H, Chen MJ, Li M, Qu KX, Dang HH, Li Q, Hu ZH*, Zhang Q*. Impact of climate change on the potential allocation of resources of rice cultivation in Yangtze‑Huai Rivers region: a case study of Anhui Province, China. Theoretical and Applied Climatology, 2024, doi: 10.1007/s00704-024-05037-y.

92. Chen JN, Luo M, Xiao QT*, Jiang ML, Shang DY, Qiu YG, Liu ZJ, Hu ZH*. Large variations of dissolved carbon occurred in small ponds within an agricultural watershed. Science of the Total Environment, 2024, 953: 176161.

91. Li Q*, Dai XY, Hu ZH, Towfiqul Islam ARM*, Karim MR, Fahim CS, et al. Spatiotemporal trend analysis of hydroclimatic variables and their probable causes of changes in a hoar basin. Theoretical and Applied Climatology, 2024, 155: 7413-7432.

90. Huang Y*, Sun WJ, Hu ZH. Individual grain mass of inbred rice cultivars does not benefit from elevated [CO2]. Environmental and Experimental Botany, 2024, 226: 105888.

89. Ding XL*, Yang DQ, Hu ZH, Shen LD, Zhang W, Zhu XF, et al. Gradual and abrupt increase in atmospheric CO2 concentrations trigger divergent responses of microbial necromass accumulation in paddy soils. Applied Soil Ecology, 2024, 202: 105587.

88. Xiao QT, Zhou Y, Luo JH*, Hu C, Duan HT, Qiu YG, Zhang M, Hu ZH, Xiao W. Low carbon dioxide emissions from aquaculture farm of lake revealed by long-term measurements. Agriculture, Ecosystems and Environment, 2024, 363: 108851.

87. Randriatsara HHH, Hu ZH*, Xu XY*, Ayugi B,  Sian KTCLK, Mumo R, Ongoma V, Holtanova E. Performance evaluation of CMIP6 HighResMIP models in simulating precipitation over Madagascar. International Journal of Climatology, 2023, doi: 10.1002/joc.8153.

86. He H, Dang HH, Liu C, Wang YY, Wu ZR, Hu ZH*, Li Q*. Optimizing delayed sowing date decreases methane emissions from paddies and ensures the comprehensive benefits of rice production. European Journal of Agronomy, 2023, 151: 127001.

85. Wang YY, Hu ZH*, He SQ, Jing Q, Shen LD,Liu C, Wu ZR, Huang W, et al. Linear relationship between CH4 fuxes and atmospheric CO2 concentration levels controlled by rice biomass and soil methanogenic communities. Nutrient Cycling in Agroecosystems, 2023, doi: 10.1007/s10705-023-10299-5.

84. Abdoussalami A, Hu ZH*, A.R.M. Towfiqul Islam*, Djae BA. Role of social network on banana farmer’s adaptation to climate change and land productivity in Ngazidja island, Comoros archipelago. Environment, Development and Sustainability, doi: 10.1007/s10668-023-03626-x.

83. Wu ZR, Wang YY, Liu C, Hu ZH*, Yin N, Wei ZW, A.R.M. Towfiqul Islam, Li Q, Chen ST. Elevated CO₂ concentrations increase carbon sinks in paddy felds: an in situ four‑year feld experiment. Nutrient Cycling in Agroecosystems, 2023, doi: 10.1007/s10705-023-10308-7.

82.  Abdoussalami A, Hu ZH*, A.R.M. Towfiqul Islam*, Wu ZR. Climate change and its impacts on banana production: a systematic analysis. Environment, Development and Sustainability, doi: 10.1007/s10668-023-03168-2.

81. Wang YY, Hu ZH*, Shen LD, Lu GH, Cao R, Zheng KZ, Liu C, Wu ZR, He SQ. Different characteristics of soil CH₄ emissions and methanogenic communities in paddy fields under gradually and abruptly elevated CO₂ concentrations. Soil Biology and Biochemistry, 2023, 180: 108993.

80. Wu ZR, Wang YY, Liu C, Yin N, Hu ZH*, Shen LD, A.R.M. Towfiqul Islam, Wei ZW, Chen ST. Characteristics of soil N₂O emission and N₂O-producing microbial communities in paddy fields under elevated CO₂ concentrations. Environmental Pollution, 2023, 318: 120872.

79. Ren BJ, Shen LD*, Liu X, Jin JH, Huang HC, Tian MH, Yang YL, Yang WT, Liu JQ, Geng CY, Wu HS, Hu ZH*. Effect of gradual increase of atmospheric CO₂ concentration on nitrification potential and communities of ammonia oxidizers in paddy fields. Journal of Environmental Management, 2023, 325: 116597.

78. Bai YN, Yang WT, Zhu HL, Jin JH, Tian MH, Hu ZH*, Shen LD*. Positive response of nitrite-dependent anaerobic methane oxidation to both gradual and abrupt increases of atmospheric CO₂ concentration in paddy soils. Agriculture, Ecosystems and Environment, 2023, 343: 108291.

77. Yang K, Huang Y, Lv CH, Yang JR, Yu LF, Hu ZH, Sun WJ, Zhang Q*. Does elevated CO₂ cause human malnutrition? A new understanding from small and slow CO₂ change across generations in rice grain quality. Environmental and Experimental Botany, 2023, 208: 105236.

76. Yang K*, Huang Y, Yang JR, Yu LF, Hu ZH, Sun WJ, Zhang Q*. The determiner of photosynthetic acclimation induced by biochemical limitation under elevated CO₂ in japonica rice. Journal of Plant Physiology, 2023, 280: 153889.

75. Liu C, Wu ZR, Hu ZH*, Yin N, A.R.M. Towfiqul Islam, Wei ZW. Characteristics and influencing factors of carbon fluxes in winter wheat fields under elevated CO₂ concentration. Environmental Pollution, 2022, 307: 119480.

74. Randriatsara HHH, Hu ZH*, Xu XY*, Ayugi B, Sian KTCLK, Mumo R, Ongoma V. Evaluation of gridded precipitation datasets over Madagascar. International Journal of Climatology, 2022, doi:10.1002/joc.7628.

73. Wang YY, Hu ZH*, Liu C, Wu ZR, Chen ST. Methane emissions in japonica rice paddy fields under different elevated CO₂ concentrations. Nutrient Cycling in Agroecosystems, 2022, 122: 173-189.

72. Liu X, Shen LD*, Yang WT, Tian MH, Jin JH, Yang YL, Liu JQ, Hu ZH*, Wu HS. Effect of elevated atmospheric CO₂ concentration on the activity, abundance and community composition of aerobic methanotrophs in paddy soils. Applied Soil Ecology, 2022, 170: 104301.

71. Randriatsara HHH, Hu ZH*, Ayugi B,  Makula EK, Vuguziga F, Nkunzimana A. Interannual characteristics of rainfall over Madagascar and its relationship with the Indian Ocean sea surface temperature variation. Theoretical and Applied Climatology, 2022, doi: 10.1007/s00704-022-03950-8.

70. Huang J, Chen JH, Zhang FM*, Hu ZH*. Spatial-temporal changes in risk of climate-related yield reduction of winter wheat during 1973-2014 in Anhui province, southeast China. Theoretical and Applied Climatology, 2022, 148: 49-63.

69. Xiao QT, Duan HT*, Qin BQ, Hu ZH, Zhang M, Qi TC, Lee XH. Eutrophication and temperature drive large variability in carbon dioxide from China’s Lake Taihu. Limnology and Oceanography, 2022.

68. Mallick J*, Islam, ARMT*, Gonosri G, Islam HMT, Rana Y, Hu ZH, Bhat SA, Pal SC, Ismail ZB. Spatiotemporal trends of temperature extremes in Bangladesh under changing climate using multi-statistical techniques. Theoretical and Applied Climatology, 2022, 147: 307-324.

67. Chen ST*, Zhang MM, Zou JW, Hu ZH. Relationship between basal soil respiration and the temperature sensitivity of soil respiration and their key controlling factors across terrestrial ecosystems. Journal of Soils and Sediments, 2022, 22:769–781.

66. Sha HM, Li Q*, Sun XP, Hu ZH, Qiao YF, Ma WH, Wang XY. Effects of warming and drought stress on winter wheat in Jiangsu Province, China. Agronomy Journal, 2022, 114: 2056-2068.

65. Lv CH, Huang Y*, Yang K, Yang JR, Cao PP, Hu ZH, Sun WJ, Yu LF. Multiyear CO₂ elevation improves PSII efficiency in a japonica rice cultivar. Crop Science, 2022, doi: 10.1002/csc2.20642.

64. Lv CH, Huang Y*, Sun WJ, Yu LF, Hu ZH. Elevated [CO₂] raises the temperature optimum of photosynthesis and thus promotes net photosynthesis of winter wheat and rice. Physiologia Plantarum, 2022, 174: e13757.

63. Wang YY, Hu ZH*, Shen LD*, Liu C, A.R.M. Towfiqul Islam, Wu ZR, Dang HH, Chen ST. The process of methanogenesis in paddy fields under different elevated CO₂ concentrations. Science of the Total Environment, 2021, 773: 145629.

62. Xiao QT, Hu ZH*, Hu C, A.R.M. TowfiqulIslamd, Bian H, Chen ST, Liu C, Lee XH. A highly agricultural river network in Jurong Reservoir watershed as significant CO₂ and CH₄ sources. Science of the Total Environment, 2021, 769: 144558.

61. Hu ZH*, Wu ZR, A.R.M. Towfiqul Islam, You XY, Liu C, Li Q, Zhang XS. Spatiotemporal characteristics and risk assessment of agricultural drought disasters during the winter wheat-growing season on the Huang-Huai-Hai Plain, China. Theoretical and Applied Climatology, 2021, 143: 1393-1407.

60. Hu ZH*, Wu ZR, Zhang YX, Li Q, A.R.M. Towfiqul Islam*, Pan CC. Risk assessment of drought disaster in summer maize cultivated areas of the Huang-Huai-Hai Plain, eastern China. Environmental Monitoring and Assessment, 2021, 193: 441.

59. Liu C, Hu ZH*, Kong R, Yu LF, Wang YY, Chen ST, Zhang XS. Hyperspectral characteristics and leaf area index monitoring of rice (Oryza sativa L.) under carbon dioxide concentration enrichment. Spectroscopy Letters, 2021, doi: 10.1080/00387010.2021.1894177.

58. Tian MH, Shen LD*, Liu X, Bai YN, Hu ZH*, Jin JH, Feng YF, Liu Y, Yang WT, Yang YL, Liu JQ. Response of nitrite-dependent anaerobic methanotrophs to elevated atmospheric CO2 concentration in paddy fields. Science of the Total Environment, 2021, 801: 149785.

57. Huang J, Zhou LM, Zhang FM*, Hu ZH*, Tian HW. Responses of yield variability of summer maize in Henan province, north China, to large-scale atmospheric circulation anomalies. Theoretical and Applied Climatology, 2021, doi:10.1007/s00704-020-03504-w.

56. Xiao QT, Liu ZJ, Hu ZH, Wang W, Zhang M, Xiao W, Duan HT*. Notable changes of carbon dioxide in a eutrophic lake caused by water diversion. Journal of Hydrology, 2021, 603: 127064.

55. Shen LD *, Yang YL, Liu JQ, Hu ZH, Tian MH, Yang WT, Jin JH, Wang HY, Wang YY, Wu HS. Different responses of ammonia-oxidizing archaea and bacteria in paddy soils to elevated CO2 concentration. Environmental Pollution, 2021, 286: 117558.

54. Chen ST*, Zhu DW, Lu YY, Hu ZH, Sun WJ. Effects of agricultural management regimes on rotating cropland ecosystem respiration and its components in Southeast China. 2021. Agricultural and Forest Meteorology, 308-309: 108580.

53. Kang HX, Zhu T, Zhang Y, Ke XR, Sun WJ, Hu ZH, Zhu XG, Shen HH, Huang Y, Tang YH*.  Elevated CO2 enhances dynamic photosynthesis in rice and wheat. Frontiers in Plant Science, 2021, 12: 727374.

52. Chen ST*, Wang J, Zhang TT, Hu ZH, Zhou GY. Warming and straw application increased soil respiration during the different growing seasons by changing crop biomass and leaf area index in a winter wheat-soybean rotation cropland. Geoderma, 2021, 391: 114985.

51. Islam HMT, Islam ARMT*, Abdullah M, Shahid S, Tasnuva A, Kamruzzaman M, Hu ZH, Elbeltagi A, Kabir MM, Salam MA, Ibrahim SM. Spatiotemporal changes and modulations of extreme climatic indices in monsoon-dominated climate region linkage with large-scale atmospheric oscillation. Atmospheric Research, 2021, 264: 105840.

50. Ding SC, Yao XW, Wang J, Deng XM, Zhang MM, Long JL, Chen ST*, Hu ZH, Wang D, Wang YL, Wang J, Zhang TT. Relationships between soil respiration and hyperspectral vegetation indexes and crop characteristics under different warming and straw application modes. Environmental Science and Pollution Research, 2021, 28: 40756–40770.

49. Nahar Jerin J, Touhidul Islam H M, Towfiqul Islam A R M*, Shahid S*, Hu ZH, Abbasi Badhan M, Chu RH, Elbeltagi A. Spatiotemporal trends in reference evapotranspiration and its driving factors in Bangladesh. Theoretical and Applied Climatology, 2021, doi:10.1007/s00704-021-03566-4.

48. Ghose B, Towfiqul Islam A R M*, Touhidul Islam H M, Hasanuzzaman Md, Huang J, Hu ZH, Moniruzzaman Md, Gustave W, Karim M, Ibrahim S M. Rain‑fed fice yield fluctuation to climatic anomalies in Bangladesh. International Journal of Plant Production, 2021, doi:10.1007/s42106-021-00131-x.

47. Ghose B, Towfiqul Islam A R M*, Kamruzzaman M, Moniruzzaman Md, Hu ZH. Climate-induced rice yield anomalies linked to large-scale atmospheric circulation in Bangladesh using multi-statistical modeling. Theoretical and Applied Climatology, 2021, doi: 10.1007/s00704-021-03584-2.

46. Rahman MB, Salam R, Towfiqul Islam A R M*, Tasnuva A, Haque U, Shahid S, Hu ZH, Mallick J*. Appraising the historical and projected spatiotemporal changes in the heat index in Bangladesh. Theoretical and Applied Climatology, 2021, doi: 10.1007/s00704-021-03705-x.

45. Yang K, Yang JR, Lv CH, Cao PP, Deng X, Wang YJ, Sun WJ, Yu LF, Hu ZH, Huang Y*. Reduced mesophyll conductance induces photosynthetic acclimation of japonica rice under elevated CO2. Environmental and Experimental Botany, 2021, 190: 104590.

44. Mallick J*, Towfiqual Islam ARM*, Ghose B, Islam HMT, Rana Y, Hu ZH, Bhat SA, Chandra Pal S, Ismail ZB. Spatiotemporal trends of temperature extremes in Bangladesh under changing climate using multi-statistical techniques. Theoretical and Applied Climatology, 2021, doi: 10.1007/s00704-021-03828-1.

43. Xu YF, Li T, Shen SH*, Xu GD, Abu Reza Md Towfiqul Islam, Hu ZH*. Effects of cyclic variability in Pacific decadal oscillation on winter wheat production in China. International Journal of Climatology, 2021, 41(4): 2239-2252.

42.  Liu C, Hu ZH*, A.R.M. Towfiqul Islam, Kong R, Yu LF, Wang YY, Chen ST, Zhang XS. Hyperspectral characteristics and inversion model estimation of winter-wheat under different elevated CO₂ concentrations. International Journal of Remote Sensing, 2020, doi:10.1080/01431161.2020.1823038.

41.  Wang YY, Hu ZH*, Liu C, A.R.M. Towfiqul Islam, Chen ST, Zhang XS, Zhou YP. Responses of CO₂ and N₂O emissions from soil-plant systems to simulated warming and acid rain in cropland. Journal of Soils and Sediments, 2020,  2021, 21: 1109-1126.

40.  A.R.M. Towfiqul Islam*, M. Siddiqur Rahman, Runa Khatun, Hu ZH. Spatiotemporal trends in the frequency of daily rainfall in Bangladesh during 1975-2017. Theoretical and Applied Climatology, 2020, doi: 10.1007/s00704-020-03244-x.

39.  Liu C, Hu ZH*, Yu LF, Chen ST, Liu XM. Response of photosynthetic characteristics and growth in rice and winter wheat to different elevated CO₂ concentrations. Photosynthetica, 2020, 58(5): 1130-1140.

38.  A.R.M. Towfiqul Islam*, Shen SH*, Yang SB, Hu ZH, M. Atiqur Rahman. Spatiotemporal rice yield variations and potential agro-adaptation strategies in Bangladesh: A biophysical modeling approach. Sustainable Production and Consumption, 2020, 24: 121-138.

37.  Wang YY, Hu ZH*, Shang DY, Xue Y, A.R.M. Towfiqul Islam, Chen ST. Effects of warming and elevated O₃ concentrations on N₂O emission and soil nitrification and denitrification rates in a wheat-soybean rotation cropland. Environmental Pollution, 2020, 257: 113556.

36.  Chen ST*, Zou JW, Hu ZH, Lu YY. Temporal and spatial variations in the mean residence time of soil organic carbon and their relationship with climatic, soil and vegetation drivers. Global and Planetary Change, 2020, 195: 103359.

35.  Xiao QT, Duan HT*, Qi TC, Hu ZH, Liu SD, Zhang M, Lee XH. Environmental investments decreased partial pressure of CO₂ in a small eutrophic urban lake: Evidence from long-term measurements. Environmental Pollution, 2020, 263: 114433.

34.  Chen ST*, Wang J, Zhang TT, Hu ZH. Climatic, soil, and vegetation controls of the temperature sensitivity (Q₁₀) of soil respiration across terrestrial biomes. Global Ecology and Conservation, 2020, 22: e00955.

33.  Xiao QT, Xu XF, Duan HT, Qi TC, Qin BQ, Lee XH, Hu ZH, Wang W, Xiao W, Zhang M. Eutrophic lake Taihu as a significant CO₂ source during 2000-2015. Water Research, 2020, 170: 115331.

32.  Hu ZH*, A.R.M. Towfiqul Islam, Chen ST, Hu BB, Shen SH, Wu YZ, Wang YP. Effects of warming and reduced precipitation on soil respiration and N₂O fluxes from winter wheat-soybean cropping systems. Geoderma, 2019, 337: 956-964.

31.  Wang YY, Hu ZH*, A.R.M. Towfiqul Islam*, Chen ST, Shang DY, Xue Y. Effect of warming and elevated O₃ concentration on CO₂ emission in a wheat-soybean rotation cropland. International Journal of Environmental Research and Public Health, 2019, 16:1755. doi:10.3390/ijerph16101755.

30.  Xiao QT, Hu ZH*, Fu CS, Bian H, Lee XH, Chen ST, Shang DY. Surface nitrous oxide concentrations and fluxes from water bodies of the agricultural watershed in Eastern China. Environmental Pollution, 2019, 251: 185-192.

29.  Huang J, Zhou LM, Zhang FM*, Hu ZH*. Quantifying the effect of temporal variability of agro-meteorological disasters on winter oilseed rape yield: a case study in Jiangsu province, southeast China. Environmental Monitoring and Assessment, 2019, 191: 276.

28.  Xu YF, Li T, Shen SH*, Hu ZH*. Assessment of CMIP5 models based on the interdecadal relationship between the PDO and winter temperature in China. Atmosphere, 2019, 10: 597. doi:10.3390/atmos10100597.

27.  Luo XS*, Zhang D, Hu ZH*, Liu C, Zhao Z, Sun WJ, Fang XK, Fan PP. Effects of elevated carbon dioxide on metal transport in soil-crop system: results from a field rice and wheat experiment. Journal of Soils and Sediments, 2019, doi.org/10.1007/s11368-019-02329-z.

26.  Huang J, Zhou LM, Zhang FM, Hu ZH*, Li Y*. Regional climate–yield relationship for winter oilseed rape in Jiangsu Province, Southeast China. International Journal of Plant Production, 2019, doi.org/10.1007/s42106-019-00038-8.

25.  Zhang H, Yao ZS, Ma L, Zheng XH*, Wang R, ......, Hu ZH, Han SH. Annual methane emissions from degraded alpine wetlands in the eastern Tibetan Plateau. Science of the Total Environment, 2019, 657: 1323-1333.

24.  Chen ST, Zou JW, Hu ZH, Lu YY. Climate and vegetation drivers of terrestrial carbon fluxes: A global data synthsis. Advances in Atmospheric Sciences, 2019, 36(7): 679-696.

23.  Islam ARMT*, Shen SH, Yang SB, Hu ZH, Chu RH. Assessing recent impacts of climate change on design water requirement of Boro rice season in Bangladesh. Theoretical and Applied Climatology, 2019, doi:10.1007/s00704-019-02818-8.

22.  Xiao QT, Xu XF, Zhang M, Duan HT*, Hu ZH, Wang W, Xiao W, Lee XH*. Coregulation of nitrous oxide emissions by nitrogen and temperature in China's third largest freshwater lake (Lake Taihu). Limnology and Oceanography, 2019, 64(3): 1070-1086.

21.  Huang J, Zhou LM, Zhang FM, Hu ZH*. Precipitation concentration in Jiangsu province, southeast China and its indicating function on the fluctuation of rice yield. Meteorology and Atmospheric Physics, 2018, doi.org/10.1007/s00703-018-0635-0.

20.  Zhang Q, Hu ZH. Assessment of drought during corn growing season in Northeast China. Theoretical and Applied Climatology, 2018,  doi.org/10.1007/s00704-018-2469-6.

19.  Zhang H, Yao ZS, Wang K, Zheng XH*, Ma L, ......, Hu ZH, Han SH. Annual N2O emissions from conventionally grazed typical alpine grass meadows in the eastern Qinghai-Tibetan Plateau. Science of the Total Environment, 2018, 625: 885-899.

18.  Huang J, Islam ARMT, Zhang FM, Hu ZH*. Spatiotemporal analysis the precipitation extremes affecting rice yield in Jiangsu province, southeast China. International Journal of Biometeorology, 2017, doi 10.1007/s00484-017-1372-7.

17.  Islam ARMT, Shen SH*, Hu ZH, Rahman MA. Drought hazard evaluation in Boro paddy cultivated areas of western Bangladesh at current and future climate change conditions. Advances in Meteorology, 2017, doi 10.1155/2017/3514381.

16.  Huang J, Lei YD, Zhang FM, Hu ZH*. Spatio-temporal analysis of meteorological disasters affecting rice, using multi-indices, in Jiangsu province, southeast China. Food Security, 2017, 9(4): 661-672. doi 10.1007/s12571-017-0689-8.

15.  Xiao QT, Zhang M*, Hu ZH, Gao YQ, Hu C, Liu C, Liu SD, Zhang Z, Zhao JY, Xiao W, Lee X*. Spatial variations of methane emission in a large shallow eutrophic lake in subtropical climate. Journal of Geophysical Research: Biogeosciences, 2017, doi 10.1002/2017JG003805.

14.  Luo XS*, Muleta D, Hu ZH, Tang HY, Zhao Z, Shen SH, Lee B. Inclusive development and agricultural adaptation to climate change. Current Opinion in Environmental Sustainability, 2017, 24: 78-83.

13.  Hu ZH*, Xiao QT, Yang JB, Xiao W, Wang W, Liu SD, Lee XH. Temporal dynamics and drivers of ecosystem metabolism in a large subtropical shallow lake (Lake Taihu). International Journal of Environmental Research and Public Health, 2015, 12: 3691-3706.

12.  Chen ST*, Wang YY, Hu ZH, Gao H. CO2 emissions from soil as influenced by amendments of different crop straws: Implications for priming effects. Catena, 2015, 131: 56-63.

11.  Chen ST, Zou JW*, Hu ZH, Chen HS, Lu YY. Global annual soil respiration in relation to climate, soil properties and vegetation characteristics: Summary of available data. Agricultural and Forest Meteorology, 2014, 198-199: 335-346.

10.  Hu ZH*, Cui HL, Chen ST, Shen SH, Li HM, Yang YP, Li CZ.  Soil respiration and N2O flux response to UV-B radiation and straw incorporation in a soybean-winter wheat rotation system. Water, Air, & Soil Pollution, 2013, 224:1394.

9.   Hu ZH*, Li HM, Chen ST, Yang YP.  Chlorophyll content and photosystem efficiency in soybean   exposed to supplemental ultraviolet-B radiation. Photosynthetica, 2013, 51: 151-157.

8.   Hu ZH*, Lin H,  Chen ST,  Shen SH, Zhang H, Sun YY. Soil respiration, nitrification, and denitrification in a wheat  farmland soil under different management.  Communications in Soil Science and Plant Analysis, 2013, 44: 3092 - 3102.

7.   Guo W, Hu ZH*. Effects of stolon severing on the expansion of Alternanthera philoxeroides from terrestrial to contaminated aquatic habitats.  Plant Species Biology, 2012, 7: 46-52.

6.   Chen ST*, Shen XS, Hu ZH, Chen HS, Shi YS, Liu Y. Effects of simulated acid rain on soil CO2 emission in a secondary forest in subtropical China.  Geoderma, 2012, 189-190: 65-71.

5.   Chen ST*, Hu ZH, Li HM, Ji YH, Yang YP.  Effects of elevated UV-B radiation on ecosystem and soil respiration in a winter wheat farmland. European Journal of Soil Biology, 2011, 47(1): 16-23.

4.   Hu ZH*, Jiang JY, Chen ST, Liu QH, Niu CP. Enhanced UV-B radiation reduced soil-soybean ecosystem respiration and nitrous oxide emissions. Nutrient Cycling in Agroecosystems, 2010, 87(1): 71-79.

3.   Hu ZH*, Jiang JY, Chen ST, Liu QH, Niu CP. Effects of enhanced UV-B radiation on N2O emission in a soil-winter wheat system. Water, Air, & Soil Pollution, 2010, 213: 493-499.

2.   Jiang JY, Hu ZH, Sun WJ, Huang Y*. Nitrous oxide emissions from Chinese cropland fertilized with a range of slow-release nitrogen compounds. Agriculture, Ecosystems and Environment, 2010, 135(3): 216-225.

1.   Hu ZH*, Yu MJ. Study on successions sequence of evergreen broad-leaved forest in Gutian Mountain of Zhejiang, Eastern China: species diversity.  Front. Biol. China, 2008, 3(1): 45-49.

 

43. 黄薇，王圆媛*，刘超，伍翥嵘，李 琪，胡正华*. 大气CO2浓度升高背景下优化施氮对淹水稻田CH4排放的影响. 农业环境科学学报, 2024, 43(7): 1666-1676.

42. 武熳秋, 商东耀, 帅斯樑, 曹琰梅, 柯浩楠, 胡正华*, 李 琪*. 大气CO2浓度缓增、骤增和不同施氮水平对稻田CH4排放的影响. 生态与农村环境学报, 2024, 40(2): 205-212.

41. 史家宾，王圆媛，曹琰梅，柯浩楠，武熳秋，刘超，肖启涛，胡正华*，李琪*. 农业小流域句容水库出入库水体CO2、CH4浓度与通量特征. 生态与农村环境学报, 2024, 40(11): 1485-1494.

40. 陈嘉宁，肖启涛*，刘臻婧，肖薇，谢晖，罗菊花，邱银国，胡正华*，段洪涛. 典型农业流域不同类型池塘水体CO2排放特征. 湖泊科学, 2024, 36(1): 88-98.

39. 任丽雯，王兴涛，胡正华*，刘明春，王大为. 石羊河流域植被生态质量时空变化动态监测. 中国农业气象, 2023, 44(3):193-205.

38. 韦兆伟，陈若谷，殷楠，柯浩楠，沙雅晴，赵峻池，李琪，胡正华*. 基于稻瘟病的水稻抗逆性对CO₂浓度和温度升高的响应. 应用生态学报, 2023, 34(6): 1563-1571.

37. 高田田，谢晖*，万能胜，熊竹阳，胡正华*，赖锡军. 巢湖典型农村流域面源氮磷污染模拟及来源解析. 农业环境科学学报, 2022, 41(11): 2428-2438.

36. 刘臻婧，肖启涛*，胡正华*，张弥，王伟，肖薇．太湖竺山湾甲烷扩散通量及其驱动机制．中国环境科学, 2022, 42(1): 393-401.

35. 党慧慧，刘超，夏晔，伍翥嵘，王圆媛，胡正华^*，陈书涛．不同CO₂浓度和施氮水平对麦田CO₂净通量的影响．南京信息工程大学学报(自然科学版), 2022, 14(1): 77-87.

34. 肖启涛*，廖远珊，刘臻婧，胡正华．藻型湖泊溶解有机碳特征及其对甲烷排放的影响. 南京信息工程大学学报(自然科学版), 2022, 14(1): 21-31.

33. 姬艺珍，郭伟*，胡正华*， 王雁，闫世明，葛艳斌，王小兰. 基于积累速率的汾渭平原秋冬季PM2.5污染特征及影响因素分析. 环境科学学报, 2021, 41(9): 3673-3682.

32. 郭小璇，王凯*，李磊，张寒，马磊，姚志生，张伟，胡正华*，郑循华. 若尔盖高原高寒草甸地表能量交换和蒸散研究[J].中国农业气象, 2021, 42(8): 642-656.

31.  姜倩倩，刘超，胡正华*，于凌飞，杨再强，陈书涛. 不同CO₂浓度升高和氮肥水平对水稻叶绿素荧光特性的影响. 生态学报, 2021, 41(12): 4953-4962.

30. 姬艺珍，郭伟*，胡正华*，王雁，闫世明，王小兰. 太原市PM_2.5积累特征及重污染天气成因分析. 环境科学学报, 2021, 41(3): 853-862.

29. 党慧慧，刘超，伍翥嵘，王圆媛，胡正华*，李琪，陈书涛. 不同播期粳稻稻田甲烷排放及综合效益研究. 生态环境学报, 2021, 30(7): 1436-1446.

28.  刘臻婧，肖启涛*，胡正华*，张弥，王伟，肖薇. 引江济太对太湖贡湖湾氧化亚氮通量的影响. 中国环境科学, 2020, 40(12): 5229-5236.

27.  薛颖，徐希燕*，胡正华*，贾根锁，张潇艳，马薇. 亚洲热带森林减少的增温效应及其影响机制. 中国农业气象, 2020, 41(4): 191-200.

26.  张艺玄，胡正华*. 长江中下游地区近60年暴雨变化特征研究. 气候与环境研究, 2019,24(6): 755-768.  

25.  范佩佩，冯芳，刘超，孙文娟，于凌飞，柯浩楠，陈书涛，胡正华*. 不同CO2浓度升高水平对粳稻叶片荧光特性的影响. 应用生态学报, 2019, 30(11): 3735-3744.

24.  尤新媛，胡正华*，张雪松，申双和，番聪聪，黄进，李琪，张琪. 基于作物水分亏缺指数的江苏省冬小麦生长季干旱时空特征. 江苏农业科学, 2019, 47(2): 243-249.

23.  夏晔, 胡正华*, 刘超, 刘晓萌, 于凌飞, 张琳, 孙文娟, 尤钰杰. 不同大气CO2浓度升高与施氮互作对冬小麦光合与生长的影响. 农业现代化研究, 2019, 40(2): 333-341.

22.  冯芳，范佩佩，刘超，孙文娟，于凌飞，曹琰梅，陈书涛，胡正华*. 水稻叶绿素荧光特性对CO2浓度升高的代际响应研究. 生态环境学报, 2019, 28(3): 463-471.

21.  商东耀，肖启涛，胡正华*，谢燕红，黄文晶，张弥. 富营养化湖区CH4排放特征及其影响因素. 环境科学, 2018, 39(11): 5227-5236.

20.  孙文娟*, 张晨希, 刘晓萌, 刘超, 陈健, 胡正华*. 不同CO2浓度升高水平对粳稻灌浆速率的影响[J]. 农业现代化研究, 2018, 39(1): 148-154.

19.  刘晓萌，于凌飞，黄耀，孙文娟*，刘超，陈健，胡正华*. CO2浓度升高下粳稻叶片光合作用对光强变化的响应. 生态学杂志, 2018, 37(4): 1051-1057.

18.  番聪聪，胡正华*，黄进，申双和，尤新媛. 河北省夏玉米生长季干旱时空特征及对夏玉米产量的影响. 江苏农业科学, 2018, 46(10): 69-74.

17.  卞航，胡正华*，冯芳，肖启涛，谢燕红，徐足飞，李旭辉. 句容水库农田小流域N2O浓度特征. 生态学杂志, 2018, 37(4): 1164-1171.

16.  吴杨周，陈健，胡正华*，谢燕，陈书涛，张雪松，申双和*，陈曦. 水分减少与增温处理对冬小麦生物量和土壤呼吸的影响. 环境科学, 2016, 37(1): 280-287.

15.  王亚萍，胡正华*，张雪松，吴杨周，陈书涛，谢燕，申双和. 土壤水分胁迫对冬小麦根系分布规律的影响. 江苏农业科学, 2016, 44(11): 67-71.

14.  毛洋洋, 赵艳霞*, 张祎, 胡正华*. 五个常见日太阳总辐射模型在华北地区的有效性验证及分析. 中国农业气象, 2016, 37(5): 520-530.

13.  谢燕，陈曦，胡正华*，陈书涛，张寒，凌慧，申双和. 短期保护性耕作措施对大豆-冬小麦轮作系统温室气体排放的影响. 环境科学, 2016, 37(4): 1499-1506.

12.  吴杨周，胡正华*，李岑子，陈书涛，谢燕，肖启涛. 地表臭氧浓度升高对旱作农田N2O排放的影响. 环境科学, 2015, 36(2): 636-643.

11.  肖启涛，胡正华*，James Deng，肖薇，刘寿东，李旭辉. 杀菌剂对湖泊水体温室气体浓度分析的影响. 环境科学, 2014, 35(1): 356-364.

10.  潘莹，胡正华*，吴杨周，孙银银，盛露，陈书涛，肖启涛. 保护性耕作对后茬冬小麦土壤CO2和N2O排放的影响. 环境科学, 2014, 35(7): 2771-2776.

9.    潘莹，刘明春，胡正华*，陈书涛，盛露. 石羊河流域干旱变化特征及对牧草生产的影响. 干旱区资源与环境, 2014, 28(1): 109-114.

8.    盛露，刘明春，胡正华*，潘莹，崔海羚，陈书涛，李琪. 石羊河流域气候变化及对作物生育期的影响. 干旱地区农业研究, 2013, 31(5): 19-27.

7.    胡正华*，崔海羚，周迎平，陈书涛，申双和. 红外加热对大豆生态系统CO2排放的影响. 中国农业气象, 2013, 34(6): 636- 641.

6.    胡正华*，孙银银，李琪，陈书涛，张寒，史艳姝. 南京北郊春季地面臭氧与氮氧化物浓度特征. 环境工程学报, 2012, 6(6): 1995-2000.

5.    胡正华*，张寒，陈书涛，李琪，李涵茂，申双和. 氮沉降对林带土壤N2O和CH4通量的影响. 中国环境科学, 2011, 31(6): 892-897.

4.    胡正华*，凌慧，陈书涛，李琪，蒋静艳，牛传坡. UV-B增强对稻田呼吸速率、CH4和N2O排放的影响. 环境科学, 2011, 32(10): 3018-3022.

3.    胡正华*，李岑子，陈书涛，李涵茂，杨艳萍，申双和. 臭氧浓度升高对土壤-冬小麦系统CO2排放的影响. 环境科学, 2011, 32(1): 46-50.

2.    胡正华*，李涵茂，杨艳萍，陈书涛，李岑子，申双和.模拟氮沉降对北亚热带落叶阔叶林土壤呼吸的影响. 环境科学, 2010, 31(8): 1726-1732.

1.    胡正华*,钱海源, 于明坚. 古田山国家级自然保护区甜槠林优势种群生态位. 生态学报, 2009, 29(7): 3670-3677.

授权专利： 

1. 一种农田环境臭氧浓度自动调控装置. 发明专利, 专利号ZL 200910024655.1，第1发明人；

2. 可连续测定室外环境中紫外线强度的装置. 实用新型专利, 专利号ZL 200920036303.3, 第1发明人; 

3. 一种雾水和自动分类气溶胶的采集装置及其应用方法. 发明专利, 专利号ZL 201010107432.4, 第3发明人;

4. 一种野外条件下调控近地表降水量的系统. 发明专利, 专利号ZL201310580279.0, 第2发明人;

5. 一种快速测定土壤二氧化碳通量的装置及方法. 发明专利, 专利号ZL201310580402.9, 第2发明人.

荣誉：

江苏省“青蓝工程”中青年学术带头人； 

江苏省“六大人才高峰”高层次人才(B类)；  

江苏省优秀硕士学位论文指导教师； 

江苏省“青蓝工程”优秀青年骨干教师；

2023年度中国农业期刊优秀编委；

南京信息工程大学科学技术奖特等奖(排名第1)；

南京信息工程大学优秀研究生导师。

指导学生科创：

指导研究生与本科生科创：

1、指导江苏省研究生培养创新工程项目5项（2017级博士生王圆媛、2019级博士生刘超、2020级硕士生殷楠、2022级硕士生黄薇、2023级博士生何昊）。

2、指导江苏省大学生创新创业训练计划项目4项，其中重点项目1项（主持人陈健，现为中国林科院博士生）；一般项目3项（主持人王艺杰，现为中山大学博士生；主持人柯浩楠现为南信大硕士生、尤钰杰现为中国环科院硕士生；主持人刘淼，应用气象学本科生）。

人才培养（已毕业研究生）：

博士：张寒（联培）、王圆媛、刘超、徐忆菲、Randriatsara Herijaona Hani-Roge Hundilida、伍翥嵘。

硕士：李涵茂、杨燕萍、李岑子、郭伟、凌慧、孙银银、沈小帅、张寒、史艳姝、李珈凯（肄业出国）、崔海羚、周迎平、刘艳、肖启涛、潘莹、盛露、吴杨周、谢燕、段云峰、王亚萍、毛洋洋、刘超、卞航、番聪聪、尤新媛、Lopes Mendes Goncalves Suelly K、冯芳、范佩佩、夏晔、孔瑞、商东耀、薛颖、姜倩倩、姬艺珍、郭小璇、张艺玄、党慧慧、刘臻婧、殷楠、高田田、任丽雯、韦兆伟、陈若谷、曹琰梅、武熳秋、帅斯樑、柯浩楠。

研究生招生：

博士生：应用气象学、气象（专博）；

硕士生：应用气象学（学硕）、农业工程与信息技术（专硕）。

联系方式：

南京信息工程大学应用气象学院，尚贤楼509；

E-mail:zhhu@nuist.edu.cn