王佩，男，理學(xué)博士，現(xiàn)任北京師范大學(xué)自然資源學(xué)院副院長。

教育經(jīng)歷：

2009/09 – 2013/03，日本筑波大學(xué)生命與環(huán)境科學(xué)研究科，地球環(huán)境科學(xué)專業(yè)，獲理學(xué)博士學(xué)位，導(dǎo)師：山中勤。

2006/09 – 2009/03，北京師范大學(xué)資源學(xué)院，自然資源專業(yè)，獲理學(xué)碩士學(xué)位，導(dǎo)師：邱國玉。

1997/09 – 2001/03，甘肅農(nóng)業(yè)大學(xué)林學(xué)院，水土保持與荒漠化防治專業(yè)，獲農(nóng)學(xué)士學(xué)位。

工作經(jīng)歷：

2001.06-2006.09 河西學(xué)院,農(nóng)業(yè)與生物技術(shù)學(xué)院，助教。

2013.01-2013.09 北京師范大學(xué)自然資源學(xué)院，講師。

2013.09-2016.11 北京師范大學(xué)自然資源學(xué)院，副教授。

2018.11-2019.11 美國俄勒岡州立大學(xué)，訪問學(xué)者。

2016.11-2021.09 北京師范大學(xué)地理科學(xué)學(xué)部，副教授。

2021.09-     北京師范大學(xué)地理科學(xué)學(xué)部自然資源學(xué)院副院長，教授。

學(xué)術(shù)兼職：

1. 歐洲地理學(xué)會EGU 會員。

2. 亞洲通量觀測 Asia flux 會員。

3. 美國地球物理學(xué)會AGU 會員。

4. HESS期刊，Journal of hydrology, Agriculture and forest meterology 審稿人。

5.Water，編輯 。

6.Frontiersin Water（Section Water and Hydro-complexity），編輯。

7.中國生態(tài)學(xué)會會員。

8.AGU, EGU，會員。

 

主講課程：

本科生：環(huán)境地球化學(xué)，水資源監(jiān)測與管理

研究生：生態(tài)水文學(xué)，水資源規(guī)劃與管理，水系統(tǒng)模擬與優(yōu)化

招生領(lǐng)域：

博士研究生：學(xué)科專業(yè)：自然資源；研究方向：生態(tài)水文與陸表過程；考試科目：英語、自然地理學(xué)或水文學(xué)、生態(tài)學(xué)或土壤學(xué)

碩士研究生：學(xué)科專業(yè)：自然資源；研究方向：水土資源與生態(tài)恢復(fù)；考試科目：思想政治理論、英語、數(shù)學(xué)、自然地理學(xué)或水文學(xué)或土壤學(xué)

培養(yǎng)研究生情況：

培養(yǎng)研究生數(shù)十名。

 

 

研究領(lǐng)域：

生態(tài)水文學(xué)，同位素水文學(xué)、生物氣象學(xué)。

感興趣的方向：

1）蒸散發(fā)通量估算及組分分離

2）同位素示蹤

3）數(shù)值模擬

4）生態(tài)水文模型耦合及構(gòu)建 

承擔(dān)科研項目情況：

1. 主持國家自然基金委面上項目：灌叢化草地生態(tài)系統(tǒng)蒸散發(fā)及其組分的拆分與模擬研究（項目批準(zhǔn)號：42071034）

2. 主持國家自然基金委面上項目：植被冠層葉水同位素富集及數(shù)值模擬研究（項目批準(zhǔn)號：41671019）   

3. 主持國家青年自然基金委項目：半干旱區(qū)退耕草地蒸散發(fā)估算，分離及其檢驗的同位素示蹤及數(shù)值模擬（項目批準(zhǔn)號：41301014），2014-2016。

4.主持北師大新進教師項目：植物葉片水H2O18富集及數(shù)值模擬（項目批準(zhǔn)號：2013NT62）。

5. 黑河流域中下游生態(tài)水文過程的系統(tǒng)行為與調(diào)控研究 (編號: 912253003) 國家自然科學(xué)基金重大研究計劃， 2014-至今， （參加）。

6.黑河流域生態(tài)系統(tǒng)結(jié)構(gòu)特征與過程集成及生態(tài)情景研究 (編號: 91425301) 國家自然科學(xué)基金重大研究計劃， 2015-2018（參加）。 

7. 2006/09-2009/07，北京師范大學(xué)，在讀碩士研究生，作為主要參加人參于了國家重點基礎(chǔ)研究發(fā)展計劃（973 計劃）：北方干旱化與人類適應(yīng)項目第五課題“干旱化及其階段性轉(zhuǎn)折對我國糧食、水和土地資源安全的影響及適應(yīng)對策”（ 編號：2006CB400505）。

8. 本科生導(dǎo)師制導(dǎo)入制研究，北京師范大學(xué)教改項目（參加）。

9. 2008/01-2009/07，北京師范大學(xué)，在讀碩士研究生，作為主要參加人參于了國家自然科學(xué)基金面上項目，“半高寒區(qū)退耕草地的水分收支研究” (編號: 40771037)。

10. 2009/09 -2013/03，日本筑波大學(xué)，在讀博士研究生，完成博士論文“Study on leaf water isotopic enrichment and evapotranspiration flux partitioning for a temperate grassland ecosystem”。 

11. 青海湖流域關(guān)鍵帶碳水過程及其生態(tài)功能變化（41730854）國家自然科學(xué)基金重點項目（參加）。

調(diào)研和考察：

1、—2011.03.27-2011.04.12 災(zāi)區(qū)安居志愿者活動，甘肅隴南。

2、—2010-2011年度，植物葉片，莖，土壤水分，水蒸氣取樣及其同位素測定試驗研究。

3、—2010.10.20-27: 日本千曲川，富士川流域河川水，地下水水質(zhì)及同位素調(diào)查，并撰寫調(diào)查報告。

4、—2010.8.12-19: 日本富士山周邊泉水調(diào)查及其滯留時間估算。并撰寫調(diào)查報告。

5、—2009.11.18-22:日本長野縣管平高原河川水質(zhì)及其土地利用的調(diào)查。并撰寫報告。

6、—2007.07-2007.08內(nèi)蒙古牧民干旱保險支付意愿調(diào)查（北師大與日本廣島大學(xué)合作項目），向?qū)Ъ娣�譯。

軟著成果：

1. 王佩等. 2017 Soil-Plant-Atmosphere- Continuum with isotopic tracer software. (軟著編號： 1911812)

2. 王佩等. 2017 陸地生態(tài)系統(tǒng)水熱通量雙源模型. (軟著編號： 1911812)

發(fā)明授權(quán)專利 :

[1]鄧祥征, 劉宇, 李志慧, 劉偉, 白羽萍, 王佩. 一種氣候變化應(yīng)對策略的多主體建模方法[P]. 北京市: CN109146172B, 2021-10-15. 
 

 

出版專著：

1.氣候變化與區(qū)域水分收支：實測、遙感與模擬ISBN：9787030314031 作者：邱國玉等 出版社：科學(xué)出版社  撰寫第13章, 王佩 邱國玉 李瑞麗 氣候變化對涇河流域器皿蒸發(fā)量和流域干旱化的影響 

2.水與能：陸地蒸散發(fā)，熱環(huán)境，及其能量收支.ISBN：9787030314031 作者：邱國玉 等 出版社：科學(xué)出版社 王佩 撰寫 第三篇中 第11章 同位素方法。 

發(fā)表英文論文：

[1]Wang P*., Zhang, D., Xing, Y., Li, X-Y., Qiu, G., Wu, X., Sun, H., Xiong, Y., Wang, L., Integrating temperature gradient-based 3T and resistance-based models for simulating evapotranspiration and its components, Journal of Hydrology, 620, B,2023,129459, doi: https://doi.org/10.1016/j.jhydrol.2023.129459

[2]Wang P*, Siying Li, Qi Chen, Xiao-Yan Li, Shaomin Liu, Xiuchen Wu, Xiaofan Yang, Ziwei Xu；2022，A novel method for simulating the dynamics of the single and dual maize crop coefficients in an arid ecosystem, European Journal of Agronomy（2023），142,2023,126688. https://doi.org/10.1016/j.eja.2022.126688.

[3]Qi Chen, Yuhua Xing, Dapeng Zhang, Haitao Sun and Wang P* 2022，Water budget, biological water use, and the soil hydrological cycle across typical ecosystems of the Heihe River Basin. Water.

[4]Sun haitao, Wang P*, Qi Chen, Dapeng Zhang, Yuhua Xing. 2022, coupling the water use of Populus euphratica and Tamarix ramosissima and evapotranspiration partitioning in a desert riparian forest ecosystem. Agriculture and forest meteorology.

[5]Wang, Pei*; Sun, Haitao; Li, Xiao-Yan; Song, Xin; Yang, Xiaofan; Wu, Xiuchen; Hu, Xia; Yao, Hongyun; Ma, Jingjing; Ma, Juanjuan。Seasonal variations in water flux compositions controlled by leaf development: isotopic insights at the canopy-atmosphere interface.International Journal of Biometeorology, 2021, 65(10): 1719-1732.

[6]Wang, Pei*; Ma, Jingjing; Ma, Juanjuan; Sun, Haitao; Chen, Qi。A Novel Approach for the Simulation of Reference Evapotranspiration and Its Partitioning.Agriculture-Basel, 2021, 11(5): 385.

[7]Li, Yuanqiao; Wu, Xiuchen*; Huang, Yongmei; Li, Xiaoyan; Shi, Fangzhong; Zhao, Shoudong; Yang, Yuting; Tian, Yuhong; Wang, Pei; Zhang, Shulei; Zhang, Cicheng; Wang, Yang; Xu, Chongyang; Zhao, Pengwu.Compensation effect of winter snow on larch growth in Northeast China.Climatic Change, 2021, 164(3-4): 54. （SCI, IF：4.134）

[8]Hao, Bingyan; Hartmann, Henrik; Li, Yuanqiao; Liu, Hongyan; Shi, Fangzhong; Yu, Kailiang; Li, Xiaoyan; Li, Zongshan; Wang, Pei; Allen, Craig D.; Wu, Xiuchen*.Precipitation Gradient Drives Divergent Relationship between Non-Structural Carbohydrates and Water Availability in Pinus tabulaeformis of Northern China.Forests, 2021, 12(2): 133. （SCI, IF：2.221）

[9]Ma, Wenchao*; Wei, Zhongwang; Wang, Pei; Asanuma, Jun.Transpiration and evaporation of grassland using land surface modelling.Hydrological Processes, 2020, 34(17): 3656-3668. （SCI, IF：2.221）

[10]Cui, Jiangpeng*; Tian, Lide*; Wei, Zhongwang; Huntingford, Chris; Wang, Pei; Cai, Zhongyin; Ma, Ning; Wang, Lixin.Quantifying the Controls on Evapotranspiration Partitioning in the Highest Alpine Meadow Ecosystem.Water Resources Research, 2020, 56(4). TOP SCI，Q1 IF: 5.24）

[11]Hu, Xia*; Li, Xiao-Yan; Li, Zong-Chao; Gao, Zhou; Wu, Xiu-chen; Wang, Pei; Lyu, Yan-Li; Liu, Lian-you.Linking 3-D soil macropores and root architecture to near saturated hydraulic conductivity of typical meadow soil types in the Qinghai Lake Watershed, northeastern Qinghai-Tibet Plateau.Catena, 2020, 185: 104287. 

[12]Chen, Bo; Ma, Chunying; Krajewski, Witold F.; Wang, Pei; Ren, Feipeng*.Logarithmic transformation and peak-discharge power-law analysis.Hydrology Research, 2020, 51(1): 65-76. （SCI IF：1.555）

[13]Li, Zong-Chao; Hu, Xia*; Li, Xiao-Yan; Huang, Yong-Mei; Wu, Xiu-Chen; Wang, Pei; Liu, Lian-You.Quantification of Soil Macropores at Different Slope Positions under Alpine Meadow Using Computed Tomography in the Qinghai Lake Watershed, NE Qinghai-Tibet.Eurasian Soil Science, 2019, 52(11): 1391-1401. SCI, IF：1.365)

[14]Xiong, Yu Jiu*; Zhao, Wen Li; Wang, Pei; Paw, Kyaw Tha U; Qiu, Guo Yu*.Simple and Applicable Method for Estimating Evapotranspiration and Its Components in Arid Regions.JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES, 2019, 124(17-18): 9963-9982. 

[15]Li Wei; Li Xiaoyan*; Huang Yongmei; Wang Pei; Zhang Cicheng.Spatial patch structure and adaptive strategy for desert shrub of Reaumuria soongorica in arid ecosystem of the Heihe River Basin.Journal of Geographical Sciences, 2019, 29(9): 1507-1525. 

[16]Wang Pei*; Li Xiaoyan; Tong Yaqin; Huang Yongmei; Yang Xiaofan; Wu Xiuchen.Vegetation dynamics dominate the energy flux partitioning across typical ecosystem in the Heihe River Basin: Observation with numerical modeling.Journal of Geographical Sciences, 2019, 29(9): 1565-1577. 

[17]Ma, Yu Jun*; Li, Xiao Yan; Liu, Lei; Yang, Xiao Fan; Wu, Xiu Chen; Wang, Pei; Lin, Henry; Zhang, Guang Hui; Miao, Chi Yuan.Evapotranspiration and its dominant controls along an elevation gradient in the Qinghai Lake watershed, northeast Qinghai-Tibet Plateau.Journal of Hydrology, 2019, 575: 257-268. 

[18]Wang, Pei*; Deng, Yujing; Wei, Zhongwang.Modeling Investigation of Diurnal Variations in Water Flux and Its Components with Stable Isotopic Tracers.Atmosphere, 2019, 10(7): 403. 

[19]Wu, Xiuchen*; Guo, Weichao; Liu, Hongyan*; Li, Xiaoyan; Peng, Changhui; Allen, Craig D; Zhang, Cicheng; Wang, Pei; Pei, Tingting; Ma, Yujun; Tian, Yuhong; Song, Zhaoliang; Zhu, Wenquan; Wang, Yang; Li, Zongshan; Chen, Deliang.Exposures to temperature beyond threshold disproportionately reduce vegetation growth in the northern hemisphere.National Science Review, 2019, 6(4): 786-795. 

[20]Wu, Xiuchen*; Li, Xiaoyan; Chen, Yunhao*; Bai, Yan; Tong, Yaqin; Wang, Pei; Liu, Hongyan; Wang, Mengjie; Shi, Fangzhong; Zhang, Cicheng; Huang, Yongmei; Ma, Yujun; Hu, Xia; Shi, Chunming.Atmospheric Water Demand Dominates Daily Variations in Water Use Efficiency in Alpine Meadows, Northeastern Tibetan Plateau.JOURNAL OF GEOPHYSICAL RESEARCH-BIOGEOSCIENCES, 2019, 124(7): 2174-2185. 

[21]Bai, Yan; Li, Xiaoyan*; Zhou, Sha; Yang, Xiaofan; Yu, Kailiang; Wang, Mengjie; Liu, Shaomin; Wang, Pei; Wu, Xiuchen; Wang, Xiaochen; Zhang, Cicheng; Shi, Fangzhong; Wang, Yang; Wu, Yinan.Quantifying plant transpiration and canopy conductance using eddy flux data: An underlying water use efficiency method.Agricultural and Forest Meteorology, 2019, 271: 375-384. 

[22]Wang, Pei*; Deng, Yujing; Li, Xiao Yan; Wei, Zhongwang; Hu, Xia; Tian, Fei; Wu, Xiuchen; Huang, Yongmei; Ma, Yu Jun; Zhang, Cicheng; Wang, Yang; Li, Engui; Wang, Jiaqi.Dynamical effects of plastic mulch on evapotranspiration partitioning in a mulched agriculture ecosystem: Measurement with numerical modeling.Agricultural and Forest Meteorology, 2019, 268: 98-108. 

[23]Hu, Xia*; Li, Xiao Yan; Wang, Pei; Liu, Yong; Wu, Xiu Chen; Li, Zong Chao; Zhao, Yun Duo; Cheng, Ya Qian; Guo, Lan Lan; Lyu, Yan Li; Liu, Lian You.Influence of exclosure on CT-measured soil macropores and root architecture in a shrub-encroached grassland in northern China.Soil and Tillage Research, 2019, 187: 21-30. 

[24]Li, Engui; Tong, Yaqin; Huang, Yongmei*; Li, Xiaoyan; Wang, Pei; Chen, Huiying; Yang, Chongyao.Responses of two desert riparian species to fluctuating groundwater depths in hyperarid areas of Northwest China.Ecohydrology, 2019, 12(3): UNSP e2078. 

[25]Hu, Xia*; Li, Xiao Yan; Guo, Lan Lan; Liu, Yong; Wang, Pei; Zhao, Yun Duo; Cheng, Ya Qian; Lyu, Yan Li; Liu, Lian You.Influence of shrub roots on soil macropores using X-ray computed tomography in a shrub-encroached grassland in Northern China.Journal of Soils and Sediments, 2019, 19(4): 1970-1980. 

[26]Fan, Ying; Li, Xiao Yan*; Huang, Heng; Wu, Xiu Chen; Yu, Kai Liang; Wei, Jun Qi; Zhang, Ci Cheng; Wang, Pei; Hu, Xia; D'Odorico, Paolo.Does phenology play a role in the feedbacks underlying shrub encroachment?.Science of the Total Environment, 2019, 657: 1064-1073. 

[27]Tong, Yaqin; Wang, Pei*; Li, Xiao Yan*; Wang, Lixin; Wu, Xiuchen; Shi, Fangzhong; Bai, Yan; Li, Engui; Wang, Jiaqi; Wang, Yang.Seasonality of the Transpiration Fraction and Its Controls Across Typical Ecosystems Within the Heihe River Basin.JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES, 2019, 124(3): 1277-1291. 

[28]Wang, Yang; Li, Xiaoyan*; Zhang, Cicheng; Wu, Xiuchen; Du, Enzai; Wu, Huawu; Yang, Xiaofan; Wang, Pei; Bai, Yan; Wu, Yinan; Huang, Yongmei.Responses of soil respiration to rainfall addition in a desert ecosystem: Linking physiological activities and rainfall pattern.Science of the Total Environment, 2019, 650: 3007-3016. 

[29]Zhang, Cicheng; Li, Xiao Yan; Wang, Yang; Wu, Huawu; Wang, Pei; Li, Wei; Bai, Yan; Li, Engui; Wang, Shuai; Miao, Chiyuan; Wu, Xiuchen*.Responses of two desert shrubs to simulated rainfall pulses in an arid environment, northwestern China.Plant and Soil, 2019, 435(1-2): 239-255. 

[30]Wu, Xiuchen; Li, Xiaoyan; Liu, Hongyan*; Ciais, Philippe; Li, Yuanqiao; Xu, Chongyang; Babst, Flurin; Guo, Weichao; Hao, Bingyan; Wang, Pei; Huang, Yongmei; Liu, Shaomin; Tian, Yuhong; He, Bin; Zhang, Cicheng.Uneven winter snow influence on tree growth across temperate China.Global Change Biology, 2019, 25(1): 144-154. 

[31]LiWei, X-Y Li, Y Huang, Wang P*, Zhang cicheng. 2019. Spatialpatch structure and adaptive strategy for the desert shrub Reaumuriasoongorica in the arid Heihe River Basin ecosystem. Journal of GeographicalSciences.  

[32]Shi F,Wu X*, Li X-Y, Wang P, X Yang,Y Li,X Jiang, T Pei, Y Bai, B Hao, C Zhang,Y. 2019. Seasonal Divergence Treegrowthvariability along drought gradient over Northeastern China. Forest.10(1),39.

[33]Ma, Yu-Jun; Li, Xiao-Yan*; Liu, Lei; Huang, Yong-Mei; Li, Zhou; Hu, Xia; Wu, Xiu-Chen; Yang, Xiao-Fan; Wang, Pei; Zhao, Shao-Jie; Zhang, Guang-Hui; Liu, Bao-Yuan.Measurements and Modeling of the Water Budget in Semiarid High-Altitude Qinghai Lake Basin, Northeast Qinghai-Tibet Plateau.JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES, 2018, 123(19): 10857-10871. 

[34]Wang, Pei*; Yamanaka, Tsutomu; Li, Xiao-Yan; Wu, Xiuchen; Chen, Bo; Liu, Yaping; Wei, Zhongwang; Ma, Wenchao.A multiple time scale modeling investigation of leaf water isotope enrichment in a temperate grassland ecosystem.Ecological Research, 2018, 33(5): 901-915. 

[35]Wang Pei*; Li Xiao Yan; Wang Lixin; Wu Xiuchen; Hu Xia; Fan Ying; Tong Yaqin.Divergent evapotranspiration partition dynamics between shrubs and grasses in a shrub-encroached steppe ecosystem.New Phytologist, 2018, 219(4): 1325-1337. 

[36]Li, Xiaoyan; Yang, Xiaofan; Ma, Yujun; Hu, Guangrong; Hu, Xia*; Wu, Xiuchen; Wang, Pei; Huang, Yongmei; Cui, Buli; Wei, Junqi.Qinghai Lake Basin Critical Zone Observatory on the Qinghai-Tibet Plateau.Vadose Zone Journal, 2018, 17(1): 180069. 

[37]Hu Xia*; Li Zongchao; Li Xiaoyan; Wang Pei; Zhao Yunduo; Liu Lianyou; Lu Yanli.Soil Macropore Structure Characterized by X-Ray Computed Tomography Under Different Land Uses in the Qinghai Lake Watershed, Qinghai-Tibet Plateau.Pedosphere, 2018, 28(3): 478-487. 

[38]Shi, Fangzhong; Wu, Xiuchen*; Li, Xiaoyan*; Chen, Deliang; Liu, Hongyan; Liu, Shaomin; Hu, Xia; He, Bin; Shi, Chunming; Wang, Pei; Mao, Rui; Ma, Yujun; Huang, Yongmei.Weakening Relationship Between Vegetation Growth Over the Tibetan Plateau and Large-Scale Climate Variability.Journal of Geophysical Research-Biogeosciences, 2018, 123(4): 1247-1259. （SCI, IF：3.484）

[39]Wu, Xiuchen; Liu, Hongyan; Li, Xiaoyan*; Ciais, Philippe; Babst, Flurin; Guo, Weichao; Zhang, Cicheng; Magliulo, Vincenzo; Pavelka, Marian; Liu, Shaomin; Huang, Yongmei; Wang, Pei; Shi, Chunming; Ma, Yujun.Differentiating drought legacy effects on vegetation growth over the temperate Northern Hemisphere.Global Change Biology, 2018, 24(1): 504-516. 

[40]Bai Yan; Li Xiaoyan*; Liu Shaomin; Wang Pei.Modelling diurnal and seasonal hysteresis phenomena of canopy conductance in an oasis forest ecosystem.Agricultural and Forest Meteorology, 2017, 246: 98-110. 

[41]Zhang, Cicheng; Li, Xiaoyan*; Wu, Huawu; Wang, Pei; Wang, Yang; Wu, Xiuchen; Li, Wei; Huang, Yongmei.Differences in water-use strategies along an aridity gradient between two coexisting desert shrubs (Reaumuria soongorica and Nitraria sphaerocarpa): isotopic approaches with physiological evidence.Plant and Soil, 2017, 419(1-2): 169-187. 

[42]Tian Fei; Feng Xiaoming*; Zhang Lu; Fu Bojie; Wang Shuai; Lv Yihe; Wang Pei.Effects of revegetation on soil moisture under different precipitation gradients in the Loess Plateau, China.Hydrology Research: An International Journal , 2017, 48(5): 1378-1390. 

[43]Wu Xiuchen*; Liu Hongyan; Li Xiaoyan*; Piao Shilong; Ciais Philippe; Guo Weichao; Yin Yi; Poulter Ben; Peng Changhui; Viovy Nicolas; Vuichard Nicolas; Wang Pei; Huang Yongmei.Higher temperature variability reduces temperature sensitivity of vegetation growth in Northern Hemisphere.Geophysical Research Letters, 2017, 44(12): 6173-6181. 

[44]Pei Tingting; Wu Xiuchen; Li Xiaoyan; Zhang Yu; Shi Fangzhong; Ma Yujun; Wang Pei; Zhang Cicheng.Seasonal divergence in the sensitivity of evapotranspiration to climate and vegetation growth in the Yellow River Basin, China.JOURNAL OF GEOPHYSICAL RESEARCH-BIOGEOSCIENCES, 2017, 122(1): 103-118. 

[45]Li Xiao Yan*; Ma Yu Jun; Huang Yong Mei; Hu Xia; Wu Xiu Chen; Wang Pei; Li Guang Yong; Zhang Si Yi; Wu Hua Wu; Jiang Zhi Yun; Cui Bu Li; Liu Lei.Evaporation and surface energy budget over the largest high-altitude saline lake on the Qinghai-Tibet Plateau.JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES, 2016, 121(18): 10470-10485. 

[46]Pei Wang*; Xiao-Yan Li; Yongmei Huang; Shaomin Liu; Ziwei Xu; Xiuchen Wu; Yu-Jun Ma.Numerical modeling the isotopic composition of evapotranspiration in an arid artificial oasis cropland ecosystem with high-frequency water vapor isotope measurement.Agricultural and Forest Meteorology.2016，230–231, 79-88.

[47]Pei Wang*; Tstomu Yamanaka; Xiao-Yan Li; Zhongwang Wei.Partitioning evapotranspiration in a temperate grassland ecosystem: Numerical modeling with isotopic tracers.Agricultural and Forest Meteorology, 2015, 208: 16-31. 

[48]Pei Wang*; Yongmei Huang; Xiao-Yan Li; Wenwu Zhao; Ge sun.Plant status controlling the water/energy fluxand seasonal variation in isotope composition of evapotranspiration for atemperate grassland ecosystem.加拿大第四屆“變化環(huán)境下的森林與水”國際會議, Canada, 2015-07-05 to 2015-07-09. 

[49]Pei Wang*.Evapotranspiration flux partitioning using an Iso-SPAC model in a temperate grassland ecosystem.2014 AGU-Fall Meeting, 2014-12-15 to 2014-12-19. 

[50]Pei,Wang*; Tsutomu,Yamanaka.Application of a two- source model for partitioning evapotranspiration and assessing its controls in temperate grasslands in central Japan.Ecohydrology, 2014, 7(2): 345-353. 

[51]Pei Wang*.Study on Leaf Water Isotopic Enrichment and Evapotranspiration Flux Partitioning for a Temperate Grassland Ecosystem.Graduate School of Life and Environmental Sciences, Doctor, University of Tsukuba, 2013-01-03. 

[52]Shakti, P. C., Pradhananga, D., Pomeroy, J., Ma, W., & Wang, Pei. 2013. An Overview of Glaciers Distribution in the Nepal Himalaya. Hydro Nepal: Journal of Water, Energy & Environment, (13).

[53]Pei Wang*; Tsutomu Yamanaka; Guoyu Qiu.Causes of decreased reference evapotranspiration and pan evaporation in the Jinghe River catchment, northern China.ENVIRONMENTALIST, 2012, 32(1): 1-10. 

[54]Tian, Fei; Qiu, Guo Yu*; Yang, Yong Hui; Xiong, Yu Jiu; Wang, Pei.Studies on the Relationships Between Land Surface Temperature and Environmental Factors in an Inland River Catchment Based on Geographically Weighted Regression and MODIS Data.IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2012, 5(3): 687-698. 

[55]XiaoHua Yang*; JingFeng Huang; YaoPing Wu; JianWen Wang; Pei Wang; XiaoMing Wang; Alfredo R. Huete。Estimating biophysical parameters of rice with remote sensing data using support vector machines.SCIENCE CHINA-LIFE SCIENCES, 2011, 54(3): 272-281. 

發(fā)表中文論文：

[1]邢宇華, 張大鵬, 李思穎, 王佩. 三溫模型和基于阻抗蒸散發(fā)模型的整合與模擬分析[J]. 北京林業(yè)大學(xué)學(xué)報, 2024, 46 (04): 115-126. 

[2]馬晶晶, 王佩*, 鄧鈺婧, 馬娟娟, 孫海濤, 陳奇. 青海湖流域高寒草甸季節(jié)凍土土壤溫濕變化特征[J]. 土壤, 2022, 54 (03): 619-628. 

[3]鄧鈺婧, 李小雁, 胡霞, 吳秀臣, 王佩. 高寒草甸生態(tài)系統(tǒng)降雨事件對不同深度土壤碳釋放的試驗分析[J]. 生態(tài)學(xué)報, 2022, 42 (08): 3315-3324. 

[4]冉屹立, 熊育久, 趙文利, 王佩, 王蓓, 曹英杰. 氫氧同位素測量差異及誤差來源分析[J]. 干旱區(qū)資源與環(huán)境, 2021, 35 (01): 176-181. 

[5]王佩, 李小雁, 童雅琴, 黃永梅, 楊曉帆, 吳秀臣. 植被動態(tài)控制黑河流域典型生態(tài)系統(tǒng)能量分配——觀測及數(shù)值模擬（英文）[J]. Journal of Geographical Sciences, 2019, 29 (09): 1565-1577. 

[6]李煒, 李小雁, 黃永梅, 王佩, 張賜成. 黑河流域干旱生態(tài)系統(tǒng)紅砂荒漠空間斑塊結(jié)構(gòu)及其生態(tài)適應(yīng)策略（英文）[J]. Journal of Geographical Sciences, 2019, 29 (09): 1507-1526.

[7]童雅琴, 王佩, 李小雁, 張賜成, 白巖. 黑河流域高寒草甸生態(tài)系統(tǒng)水分收支及蒸散發(fā)拆分研究[J]. 生態(tài)學(xué)報, 2018, 38 (20): 7400-7411.

[8]吳藝楠, 馬育軍, 劉文玲, 李小雁, 王佩. 基于BIOMOD的青海湖流域高原鼠兔分布模擬[J]. 動物學(xué)雜志, 2017, 52 (03): 390-402. 

[9]王佩*, 馬琪順, 王家琪, 黃潔鈺, 李煒, 張賜成. 溫帶草地蒸散發(fā)及波文比觀測與比較:渦動相關(guān)及波文比系統(tǒng)[J]. 草地學(xué)報, 2017, 25 (03): 453-459. 

[10]王芑丹, 楊溫馨, 黃潔鈺, 徐昆, 王佩*. 灌叢化的蒸散耗水效應(yīng)數(shù)值模擬研究——以內(nèi)蒙古灌叢化草原為例[J]. 植物生態(tài)學(xué)報, 2017, 41 (03): 348-358. 

[11]楊曉華, 吳耀平, 黃敬峰, 王建文, 王佩, 王曉鳴, HUETE Alfredo R.. 基于支持向量機的水稻生物物理參數(shù)遙感估算[J]. 中國科學(xué)(C輯:生命科學(xué)), 2009, 39 (11): 1080-1091. 

[12]謝芳, 邱國玉, 尹婧, 熊育久, 王佩. 涇河流域40年的土地利用/覆蓋變化分區(qū)對比研究[J]. 自然資源學(xué)報, 2009, 24 (08): 1354-1365. 

[13]邱國玉, 王佩, 謝芳. 在我國高校實行本科生導(dǎo)師制的探索與思考[J]. 中國大學(xué)教學(xué), 2008, (09): 25-27. 

[14]邱國玉, 尹婧, 熊育久, 趙少華, 王佩, 吳秀琴, 曾爽. 北方干旱化和土地利用變化對涇河流域徑流的影響[J]. 自然資源學(xué)報, 2008, (02): 211-218. 

[15]王佩, 邱國玉, 尹婧, 熊育久, 謝芳. 涇河流域溫度與器皿蒸發(fā)量時空特征及變化趨勢[J]. 干旱氣象, 2008, (01): 17-22. 

[16]王佩，張有富. 日光溫室甜玉米套種大白菜反季節(jié)高效栽培模式. 北方園藝,2006,(1).71-72

[17]王佩，陳葉，陳天仁. 紫蘇的栽培與利用. 中國農(nóng)村小康科技 .2004,(12)：28-29 

會議論文：

[1]2015,07,05-10：Canada，Kelowna，2015,Forest and Water international conference, Post oresentation：Plant status controlling the water/energy flux and seasonal variation in isotope composition of evapotranspiration for a temperate grassland ecosystem

[2]2013.12.05-19 美國AGU會議，美國，舊金山，post 發(fā)表：Evapotranspiration flux partitioning using an Iso-SPAC model in a temperate grassland ecosystem.

[3]2010.10.2-3：日本水文科學(xué)學(xué)術(shù)大會，日本, 筑波大學(xué)。　ポスタ發(fā)表：王佩 山中勤 中國北方乾燥している流域の蒸発散位とパン蒸発減少の要因の分析。

[4]2008, Oct 23-24: 1st Japan-China Graduate Student Forum, University of Tsukuba, Japan. Oral presentation: Pei Wang, Climate change and its impacts on reference evapotranspiration in Jinghe River basin.

[5]2009.11.22：第四屆京區(qū)地理學(xué)研究生論壇，北京大學(xué)，英杰學(xué)術(shù)交流中心。 口頭發(fā)表：王佩 涇河流域器皿蒸發(fā)原因分析。

[6]2008.7.13-15: 中國地理學(xué)年會學(xué)術(shù)年會，吉林長春。 口頭發(fā)表： 涇河流域器皿蒸發(fā)量變化趨勢及其影響因子分析。

榮譽獎勵：

1、2009-2012年度，國家留學(xué)基金委，獲得建設(shè)國家高水平大學(xué)公派項目，獎學(xué)金資助。

2、2009年度，北京師范大學(xué)，獲優(yōu)秀畢業(yè)生稱號。

3、2009年度，北京大學(xué)，第四屆京區(qū)地理學(xué)研究生論壇，獲優(yōu)秀論文獎。

4、2008年度，日本筑波大學(xué)，“第一屆中日研究生論壇”，獲發(fā)表鼓勵獎。