袁瑞強,男,1980年4月生,博士,山西大學環境與資源學院副教授。
研究方向,主講課程,人物經歷,科研成果,
研究方向
主要從事水循環、水環境與水資源領域的研究,研究方向包括同位素水文、地下水水射才芝文、生態水文和全球水文。主要關註:
(1)地下水可持續利用和保護問題。只項台漏綜合運用水文地球化學分析結契約位素技術和模型模擬方法,研究流域地下水流動系統堡蒸犁的補徑排過程,以及地質構造對流域地下水流動系統的影響和機理。地熱系統地下熱水資源形成機理。河流-含水層系統的相互作用。不同人類活動對流域主要水文過程和水環境產生的影響及作用機理。污染物和微生物在含水層內的分布和運移。
(2)陸面水循環過程與水文氣候問題。研究降水同位素的組成和變化,識別降水水汽來源及其氣候環境意義。研艱判鑽究陸面植被的蒸散發,及其對水循環的影響,對再料坑照全球變化的拳蘭回響和反饋。研究陸地水儲量變化和乾旱問題,揭示水文規律與氣候變化的關係。
主講課程
校本通識課:《我們的行星:地球》。
人物經歷
教育經歷棗遙凳
- 2008年-2011年,中國科學院地理科學與資源研究所獲理學博士學位;
- 2003年-2006年,中國海洋大學獲工學碩士學位;
- 1998年-2002年,太原理工大學獲工學學士學位。
工作經歷
- 2017年,美國亞利桑那大學水文與大氣科學系,訪問學者;
- 2014年,山西大學,副教授;
- 2009年,山西大學,講師;
- 2006年,山西大學,助教。
科研成果
發表論文
[1]Ruiqiang Yuan*, Meng Wang, Shiqin Wang, Xianfang Song, 2020.Water transfer imposes hydrochemical impacts on groundwater by altering the interaction of groundwater and surface water. Journal of Hydrology,583:124617.
[2]袁瑞強*, 張文新,王仕琴. 2020.飽和多孔介質中水流停滯對膠體吸附與解吸的影響. 環境科學研究, 33(2): 431-437.
[3]Ruiqiang Yuan*, Wenxin Zhang, Xin Tao, Shiqin Wang, Liang Zhang, 2020.Coupled effects of high pH and chemical heterogeneity on colloid retentionand release in saturated porous media.Colloids and Surfaces A,586:124285.
[4]Shiqin Wang, Yukun Hu,Ruiqiang Yuan, Wenzhao Feng, YunPan,Yonghui Yang, 2019. Ensuring water security, food security, and clean water in the North China Plain - conflicting strategies.Current Opinion in Environmental Sustainability,40:63–71
[5]Ruiqiang Yuan∗, Liling Chang, Hoshin Gupta, Guoyue Niu,2019.Climatic forcing for recent significant terrestrial drying and wetting.Advances in Water Resources,133:103425.
[6]Yuan, R.*, Tao, X., Yang, X., 2019.Carbon emission of urban passenger transportation in China from 2000 to 2014.Advances in Climate Change Research, 10(1): 59-67.
[7]袁瑞強*,呂嘉麗,王仕琴. 2019.受引黃影響的河流沉積物細菌群落季節變化.環境科學學報, 39(7):2190-2199.
[8]Zhu, Meijia,Shiqin Wang, Xiaole Kong, Wenbo Zheng, Wenzhao Feng,Xianfu Zhang,Ruiqiang Yuan, Xianfang Song,Matthias Sprenger, 2019.Interaction of Surface Water and Groundwater Influenced by Groundwater Over-Extraction, Waste Water Discharge and Water Transfer in Xiong’an New Area, China. Water,11(3), 539.
[9]袁瑞強*,牛漾聃, 王鵬,王仕琴. 2019.引黃對受水河段沉積物微生物群落的影響. 環境科學學報, 39(2):499-508.
[10]Long, Xiting,Zhang,Keneng,Yuan,Ruiqiang*,Zhang,Liang,Liu,Zhenling. 2019.Hydrogeochemical and Isotopic Constraints on the Pattern of a Deep Circulation Groundwater Flow System. Energies,12(3), 404; doi:10.3390/en12030404.
[11]ZhangYuqin,WangGuangwei,WangShiqin,YuanRuiqiang,TangChangyuan,SongXianfang. 2018.Hydrochemical characteristics and geochemistry evolution of groundwater in the plain area of the Lake Baiyangdian watershed, North China Plain.Journal of Groundwater Science and Engineering, 6(3): 220-233.
[12]鄧新平,袁瑞強*,皮建高.2018.湖南兜率岩溶洞特徵及形成發育過程. 中國岩溶, 37(3): 462-467.
[13]袁瑞強*, 張文新,王鵬,王仕琴. 2018.孔隙空間對聚苯乙烯膠體滯留與釋放的影響.水土保持學報, 32(4): 339-345.
[14]袁瑞強*, 張文新,王鵬,王仕琴. 2018.引黃調水對汾河受水區水環境的影響.自然資源學報, 33(8): 1416-1426.
[15]Ruiqiang Yuan*, Shiqin Wang, Lihu Yang, Jianrong Liu, Peng Wang, Xianfang Song, 2018.Hydrologic processes of groundwater in a small monsoon-influenced mountainous watershed. Hydrology Research, 49(6): 2016-2029.
[16]Zhang, L.,Yuan, R., Song, X., Xia, J. 2018. Spatial variation of stable isotopic composition in surface waters of the Huai River basin, China and the regional hydrological implication. Hydrology Research, 49(5):1452-1466.
[17]Wang, S.,Yuan, R., Tang C., et al., 2018. Combination of CFCs and stable isotopes to characterize the mechanism of surface water-groundwater interaction in a headwater basin of the North China Plain. Hydrological Processes, 32(11): 1571-1587.
[18]王鵬,肖漢玉,袁瑞強,等.鄱陽湖入湖河口沉積物真菌群落結構.環境科學學報, 2018, 358(5): 1949-1956.
[19]袁瑞強*, 楊向龍,王鵬.太原城市客運交通碳排放.氣候變化研究快報, 2018, 7(1), 1-11
[20]袁瑞強*, 鄧新平.岩溶地下水特點與研究熱點.水資源研究, 2018, 7(1), 28-36.
[21]袁瑞強*, 王亞楠,王鵬,王仕琴,陳宇宏.降水集中度的變化特徵及影響因素分析——以山西為例.氣候變化研究進展, 2018, 14 (1): 11-20.
[22]Yuan, R.*, Wang, S., Wang, P., Song, X., Tang, C., 2017. Changes in flow and chemistry of groundwater heavily affected by human impacts in the Baiyangdian catchment of the North China Plain. Environmental Earth Sciences, 76(16): 571.
[23]Yuan, R.*, Song, X., 2017. The dataset of groundwater in the Baiyangdian Lake Catchment of China. Journal of Global Change Data & Discovery, 1(4): 460-463.
[24]梁慧雅, 翟德勤,孔曉樂,袁瑞強, 王仕琴.府河-白洋淀硝酸鹽來源判定及遷移轉化規律.中國生態農業學報, 2017, 25(8): 1236-1244.
[25]袁瑞強*, 郭威,王鵬,等.多孔介質表面化學異質性對膠體運移的影響.環境科學學報, 2017, 37(9): 3498-3504.
[26]袁瑞強*, 郭威,王鵬,等.高pH環境對膠體在飽和多孔介質中遷移的影響.中國環境科學, 2017, 37(9): 3392-3398.
[27]Wang, P., Chen, B.,Yuan, R., Li, C., Li, Y.. Characteristics of aquatic bacterial community and the influencing factors in an urban river. Science of the Total Environment, 2016, 569: 382-389.
[28]袁瑞強*, 郭威,王仕琴,王鵬.微生物在飽和多孔介質中的遷移.水資源研究. 2016, 5(4): 334-349.
[29]Wang Shiqin*, Tang Changyuan, Song Xianfang,Yuan Ruiqiang, Han Zhiwei, Pan Yun. Factors contributing to nitrate contamination in a groundwater recharge area of the North China Plain. Hydrological Processes, 2016, 30(13): 2271–2285.
[30]龍西亭,袁瑞強*, 皮建高,孫錫良,劉長明.長沙淺層地熱能資源調查與評價.自然資源學報. 2016, 31(1): 163-176.
[31]袁瑞強*, 龍西亭,王鵬,宋獻方.氯離子質量平衡法套用問題芻議.水文. 2015, 35(4): 7-13.
[32]袁瑞強*, 龍西亭,王鵬,宋獻方.山西省降水量時空變化及預測.自然資源學報. 2015, 30(4): 651-663.
[33]袁瑞強*, 龍西亭,王鵬,王仕琴,宋獻方.白洋淀流域地下水更新速率.地理科學進展. 2015, 34(3): 381-388.
[34]孔曉樂, 王仕琴*,趙煥,袁瑞強. 華北低平原區地下水中氟分布特徵及形成原因:以南皮縣為例.環境科學. 2015, 36(11): 4051-4059.
[35]龍西亭,袁瑞強*, 鄧新平,李芳,皮景,李紅磊.汝城乾熱岩地熱資源研究.科技導報. 2015, 33(19): 68-73.
[36]王鵬*, 齊述華,袁瑞強. 贛江流域土地利用方式對無機氮的影響.環境科學學報. 2015, 35(3):826-835.
[37]Wang Shiqin, Tang Changyuan*, Song Xianfang, Wang Qinxue, Zhang Yinghua,Yuan Ruiqiang. The impacts of a linear wastewater reservoir on groundwater recharge and geochemical evolution in a semi-arid area of the Lake Baiyangdian watershed, North China Plain. Science of the Total Environment, 2014, 482–483(1): 325-335.
[38]馮蕊,袁瑞強*. 基於t-SNE的晉北礦區地下水水質評價.環境科學學報, 2014, 34(10): 2540-2546.
[39]Ruiqiang Yuan∗, X.Song, D.Han, Liang Zhang, Shiqin Wang.Upward recharge through groundwater depression cone in piedmont plain of North China Plain. Journal of Hydrology, 2013, 500: 1-11.
[40]Wang Shiqin, Tang Changyuan*, Song Xianfang,Yuan Ruiqiang, Wang Qinxue, Zhang Yinghua. Using major ions and δ15N–NO3- to identify nitrate sources and fate in an alluvial aquifer. Environmental Science:Processes & Impacts, 2013, 15(7):1430-1443.
[41]王鵬, 宋獻方*,袁瑞強, 韓冬梅,張應華,張兵.基於氫氧穩定同位素的華北農田夏玉米耗水規律研究.自然資源學報. 2013, 28(3):481-491.
[42]Yuan, R., Song, X., Han, D., et al. Rate and Historical Change of Direct Recharge from Precipitation Constrained by Unsaturated Zone Profiles of Chloride and Oxygen-18 in Dry River Bed. Hydrological Processes, 2012, 26(9): 1291-1301.
[43]Yang Lihu, Song Xianfang*, Zhang Yinghua,Yuan Ruiqiang, Ma Yin, Han Dongmei, Bu Hongmei. A Hydrochemical Framework and Water Quality Assessment of River Water in the Upper Reaches of the Huai River Basin, China, Environmental Earth Sciences, 2012, 67(7): 2141-2153.
[44]袁瑞強, 宋獻方*,王鵬,張應華,王仕琴,唐常源.白洋淀滲漏對周邊地下水的影響.水科學進展. 2012, 23(6): 751-756.(2012-11-01)
[45]Yuan, R., Song, X., Zhang, Y., et al. Using major ions and stabie isotopes to characterize recharge regime of a fault-influenced aquifer in Beiyishui River Watershed, North China Plain. Journal of Hydrology, 2011, 405(3-4): 512-521.
[46]Zhang Liang, Song Xianfang*, Xia Jun,Yuan Ruiqiang, Zhang Yongyong, Liu Xin, Han Dongmei. Major element chemistry of the Huai River basin, China. Applied Geochemistry, 2011, 26: 293-300.
[47]Song Xianfang*, Wang Peng, Yu Jingjie, Liu Xin, Liu Jianrong,Yuan Ruiqiang. Relationships between precipitation, soil water and groundwater at Chongling catchment with the typical vegetation cover in the Taihang mountainous region, China. Environmental Earth Sciences, 2011, 62(4): 787-796.
[48]王鵬, 宋獻方*,袁瑞強, 韓冬梅,張應華,張兵,李保國.基於Hydrus-1d模型的農田SPAC系統水分通量估算——以山西省運城市董村農場為例.地理研究. 2011, 30(4): 622-634.
[49]袁瑞強*, 宋獻方,劉貫群.現代黃河三角洲上部沖積平原降水入滲補給量研究.自然資源學報. 2010, 25(10): 1777-1785.
[50]Liu Guanqun*, Wang, J,Yuan, Ruiqiang, Sun B, Zhu L, Wang Y. Estimating the submarine groundwater and nutrients discharge of Yellow River delta with cross-section method. Water Sci Technol, 2010, 62(2): 394-402.
[51]袁瑞強, 劉貫群,宋獻方*.現代黃河三角洲淺層地下水對降水的回響.資源科學. 2009, 31(9): 1514-1521.
[52]袁瑞強*, 程芳琴.我國鹽湖資源綜合利用的探討.鹽湖研究, 2008, 16(1): 67-72.
[53]劉貫群*, 葉玉玲,袁瑞強, 韓曼,陳浩.近年膠州灣陸源SGD及其營養鹽輸送.海洋環境科學. 2007, 26(6): 510-513.
[54]袁瑞強, 劉貫群*,張賢良,高會旺.黃河三角洲淺層地下水中氫氧同位素的特徵.山東大學學報理學版, 2006, 41(5): 138-143.
[55]廖小青, 劉貫群*,袁瑞強, 葉玉玲.同位素測年新發展:81Kr測定古老地下水年齡理論.工程勘察, 2006, 2: 31-37.
[56]廖小青, 劉貫群*,袁瑞強, 葉玉玲,李玉瑛.黃河農場地區地下水入海量FEFLOW軟體數值模擬.海洋科學進展, 2005, 23(4): 446-451.
學術交流和會議論文
[1] Seminar on Evolution of Groundwater System in Large-size River Basins. September, 2011, Beijing, China.
Oral: Major Ion Chemistry of Shallow Groundwater in Alluvial Fans of the North China Plain.
Yuan, R., Song, X., Zhang, Y., et al., 2011. Major Ion Chemistry of Shallow Groundwater in Alluvial Fans of the North China Plain. In: Proceedings of Seminar on Evolution of Groundwater System in Large-size River Basins. Beijing China, September.
[2] 第九屆中國水論壇,中國,蘭州,2011年8月。
報告:基於乾河床非飽和帶氯離子和氧-18剖面的降水入滲補給速率研究。
[3] 第二屆水體穩定同位素研討會,中國,北京,2011年5月。
報告:基於氫氧穩定同位素和主要離子水化學的北易水流域淺層地下水補給機理研究。
科研項目
- 正在執行“洞庭湖上游平原區地下水水文地球化學演化與鐵污染研究”項目。
- 完成“汝城地熱水系統水循環機理研究”項目。
- 完成“引黃調水對汾河上游水環境的影響研究”項目(國家自然科學基金青年基金項目,編號41301033)。
[5]Ruiqiang Yuan∗, Liling Chang, Hoshin Gupta, Guoyue Niu,2019.Climatic forcing for recent significant terrestrial drying and wetting.Advances in Water Resources,133:103425.
[6]Yuan, R.*, Tao, X., Yang, X., 2019.Carbon emission of urban passenger transportation in China from 2000 to 2014.Advances in Climate Change Research, 10(1): 59-67.
[7]袁瑞強*,呂嘉麗,王仕琴. 2019.受引黃影響的河流沉積物細菌群落季節變化.環境科學學報, 39(7):2190-2199.
[8]Zhu, Meijia,Shiqin Wang, Xiaole Kong, Wenbo Zheng, Wenzhao Feng,Xianfu Zhang,Ruiqiang Yuan, Xianfang Song,Matthias Sprenger, 2019.Interaction of Surface Water and Groundwater Influenced by Groundwater Over-Extraction, Waste Water Discharge and Water Transfer in Xiong’an New Area, China. Water,11(3), 539.
[9]袁瑞強*,牛漾聃, 王鵬,王仕琴. 2019.引黃對受水河段沉積物微生物群落的影響. 環境科學學報, 39(2):499-508.
[10]Long, Xiting,Zhang,Keneng,Yuan,Ruiqiang*,Zhang,Liang,Liu,Zhenling. 2019.Hydrogeochemical and Isotopic Constraints on the Pattern of a Deep Circulation Groundwater Flow System. Energies,12(3), 404; doi:10.3390/en12030404.
[11]ZhangYuqin,WangGuangwei,WangShiqin,YuanRuiqiang,TangChangyuan,SongXianfang. 2018.Hydrochemical characteristics and geochemistry evolution of groundwater in the plain area of the Lake Baiyangdian watershed, North China Plain.Journal of Groundwater Science and Engineering, 6(3): 220-233.
[12]鄧新平,袁瑞強*,皮建高.2018.湖南兜率岩溶洞特徵及形成發育過程. 中國岩溶, 37(3): 462-467.
[13]袁瑞強*, 張文新,王鵬,王仕琴. 2018.孔隙空間對聚苯乙烯膠體滯留與釋放的影響.水土保持學報, 32(4): 339-345.
[14]袁瑞強*, 張文新,王鵬,王仕琴. 2018.引黃調水對汾河受水區水環境的影響.自然資源學報, 33(8): 1416-1426.
[15]Ruiqiang Yuan*, Shiqin Wang, Lihu Yang, Jianrong Liu, Peng Wang, Xianfang Song, 2018.Hydrologic processes of groundwater in a small monsoon-influenced mountainous watershed. Hydrology Research, 49(6): 2016-2029.
[16]Zhang, L.,Yuan, R., Song, X., Xia, J. 2018. Spatial variation of stable isotopic composition in surface waters of the Huai River basin, China and the regional hydrological implication. Hydrology Research, 49(5):1452-1466.
[17]Wang, S.,Yuan, R., Tang C., et al., 2018. Combination of CFCs and stable isotopes to characterize the mechanism of surface water-groundwater interaction in a headwater basin of the North China Plain. Hydrological Processes, 32(11): 1571-1587.
[18]王鵬,肖漢玉,袁瑞強,等.鄱陽湖入湖河口沉積物真菌群落結構.環境科學學報, 2018, 358(5): 1949-1956.
[19]袁瑞強*, 楊向龍,王鵬.太原城市客運交通碳排放.氣候變化研究快報, 2018, 7(1), 1-11
[20]袁瑞強*, 鄧新平.岩溶地下水特點與研究熱點.水資源研究, 2018, 7(1), 28-36.
[21]袁瑞強*, 王亞楠,王鵬,王仕琴,陳宇宏.降水集中度的變化特徵及影響因素分析——以山西為例.氣候變化研究進展, 2018, 14 (1): 11-20.
[22]Yuan, R.*, Wang, S., Wang, P., Song, X., Tang, C., 2017. Changes in flow and chemistry of groundwater heavily affected by human impacts in the Baiyangdian catchment of the North China Plain. Environmental Earth Sciences, 76(16): 571.
[23]Yuan, R.*, Song, X., 2017. The dataset of groundwater in the Baiyangdian Lake Catchment of China. Journal of Global Change Data & Discovery, 1(4): 460-463.
[24]梁慧雅, 翟德勤,孔曉樂,袁瑞強, 王仕琴.府河-白洋淀硝酸鹽來源判定及遷移轉化規律.中國生態農業學報, 2017, 25(8): 1236-1244.
[25]袁瑞強*, 郭威,王鵬,等.多孔介質表面化學異質性對膠體運移的影響.環境科學學報, 2017, 37(9): 3498-3504.
[26]袁瑞強*, 郭威,王鵬,等.高pH環境對膠體在飽和多孔介質中遷移的影響.中國環境科學, 2017, 37(9): 3392-3398.
[27]Wang, P., Chen, B.,Yuan, R., Li, C., Li, Y.. Characteristics of aquatic bacterial community and the influencing factors in an urban river. Science of the Total Environment, 2016, 569: 382-389.
[28]袁瑞強*, 郭威,王仕琴,王鵬.微生物在飽和多孔介質中的遷移.水資源研究. 2016, 5(4): 334-349.
[29]Wang Shiqin*, Tang Changyuan, Song Xianfang,Yuan Ruiqiang, Han Zhiwei, Pan Yun. Factors contributing to nitrate contamination in a groundwater recharge area of the North China Plain. Hydrological Processes, 2016, 30(13): 2271–2285.
[30]龍西亭,袁瑞強*, 皮建高,孫錫良,劉長明.長沙淺層地熱能資源調查與評價.自然資源學報. 2016, 31(1): 163-176.
[31]袁瑞強*, 龍西亭,王鵬,宋獻方.氯離子質量平衡法套用問題芻議.水文. 2015, 35(4): 7-13.
[32]袁瑞強*, 龍西亭,王鵬,宋獻方.山西省降水量時空變化及預測.自然資源學報. 2015, 30(4): 651-663.
[33]袁瑞強*, 龍西亭,王鵬,王仕琴,宋獻方.白洋淀流域地下水更新速率.地理科學進展. 2015, 34(3): 381-388.
[34]孔曉樂, 王仕琴*,趙煥,袁瑞強. 華北低平原區地下水中氟分布特徵及形成原因:以南皮縣為例.環境科學. 2015, 36(11): 4051-4059.
[35]龍西亭,袁瑞強*, 鄧新平,李芳,皮景,李紅磊.汝城乾熱岩地熱資源研究.科技導報. 2015, 33(19): 68-73.
[36]王鵬*, 齊述華,袁瑞強. 贛江流域土地利用方式對無機氮的影響.環境科學學報. 2015, 35(3):826-835.
[37]Wang Shiqin, Tang Changyuan*, Song Xianfang, Wang Qinxue, Zhang Yinghua,Yuan Ruiqiang. The impacts of a linear wastewater reservoir on groundwater recharge and geochemical evolution in a semi-arid area of the Lake Baiyangdian watershed, North China Plain. Science of the Total Environment, 2014, 482–483(1): 325-335.
[38]馮蕊,袁瑞強*. 基於t-SNE的晉北礦區地下水水質評價.環境科學學報, 2014, 34(10): 2540-2546.
[39]Ruiqiang Yuan∗, X.Song, D.Han, Liang Zhang, Shiqin Wang.Upward recharge through groundwater depression cone in piedmont plain of North China Plain. Journal of Hydrology, 2013, 500: 1-11.
[40]Wang Shiqin, Tang Changyuan*, Song Xianfang,Yuan Ruiqiang, Wang Qinxue, Zhang Yinghua. Using major ions and δ15N–NO3- to identify nitrate sources and fate in an alluvial aquifer. Environmental Science:Processes & Impacts, 2013, 15(7):1430-1443.
[41]王鵬, 宋獻方*,袁瑞強, 韓冬梅,張應華,張兵.基於氫氧穩定同位素的華北農田夏玉米耗水規律研究.自然資源學報. 2013, 28(3):481-491.
[42]Yuan, R., Song, X., Han, D., et al. Rate and Historical Change of Direct Recharge from Precipitation Constrained by Unsaturated Zone Profiles of Chloride and Oxygen-18 in Dry River Bed. Hydrological Processes, 2012, 26(9): 1291-1301.
[43]Yang Lihu, Song Xianfang*, Zhang Yinghua,Yuan Ruiqiang, Ma Yin, Han Dongmei, Bu Hongmei. A Hydrochemical Framework and Water Quality Assessment of River Water in the Upper Reaches of the Huai River Basin, China, Environmental Earth Sciences, 2012, 67(7): 2141-2153.
[44]袁瑞強, 宋獻方*,王鵬,張應華,王仕琴,唐常源.白洋淀滲漏對周邊地下水的影響.水科學進展. 2012, 23(6): 751-756.(2012-11-01)
[45]Yuan, R., Song, X., Zhang, Y., et al. Using major ions and stabie isotopes to characterize recharge regime of a fault-influenced aquifer in Beiyishui River Watershed, North China Plain. Journal of Hydrology, 2011, 405(3-4): 512-521.
[46]Zhang Liang, Song Xianfang*, Xia Jun,Yuan Ruiqiang, Zhang Yongyong, Liu Xin, Han Dongmei. Major element chemistry of the Huai River basin, China. Applied Geochemistry, 2011, 26: 293-300.
[47]Song Xianfang*, Wang Peng, Yu Jingjie, Liu Xin, Liu Jianrong,Yuan Ruiqiang. Relationships between precipitation, soil water and groundwater at Chongling catchment with the typical vegetation cover in the Taihang mountainous region, China. Environmental Earth Sciences, 2011, 62(4): 787-796.
[48]王鵬, 宋獻方*,袁瑞強, 韓冬梅,張應華,張兵,李保國.基於Hydrus-1d模型的農田SPAC系統水分通量估算——以山西省運城市董村農場為例.地理研究. 2011, 30(4): 622-634.
[49]袁瑞強*, 宋獻方,劉貫群.現代黃河三角洲上部沖積平原降水入滲補給量研究.自然資源學報. 2010, 25(10): 1777-1785.
[50]Liu Guanqun*, Wang, J,Yuan, Ruiqiang, Sun B, Zhu L, Wang Y. Estimating the submarine groundwater and nutrients discharge of Yellow River delta with cross-section method. Water Sci Technol, 2010, 62(2): 394-402.
[51]袁瑞強, 劉貫群,宋獻方*.現代黃河三角洲淺層地下水對降水的回響.資源科學. 2009, 31(9): 1514-1521.
[52]袁瑞強*, 程芳琴.我國鹽湖資源綜合利用的探討.鹽湖研究, 2008, 16(1): 67-72.
[53]劉貫群*, 葉玉玲,袁瑞強, 韓曼,陳浩.近年膠州灣陸源SGD及其營養鹽輸送.海洋環境科學. 2007, 26(6): 510-513.
[54]袁瑞強, 劉貫群*,張賢良,高會旺.黃河三角洲淺層地下水中氫氧同位素的特徵.山東大學學報理學版, 2006, 41(5): 138-143.
[55]廖小青, 劉貫群*,袁瑞強, 葉玉玲.同位素測年新發展:81Kr測定古老地下水年齡理論.工程勘察, 2006, 2: 31-37.
[56]廖小青, 劉貫群*,袁瑞強, 葉玉玲,李玉瑛.黃河農場地區地下水入海量FEFLOW軟體數值模擬.海洋科學進展, 2005, 23(4): 446-451.
學術交流和會議論文
[1] Seminar on Evolution of Groundwater System in Large-size River Basins. September, 2011, Beijing, China.
Oral: Major Ion Chemistry of Shallow Groundwater in Alluvial Fans of the North China Plain.
Yuan, R., Song, X., Zhang, Y., et al., 2011. Major Ion Chemistry of Shallow Groundwater in Alluvial Fans of the North China Plain. In: Proceedings of Seminar on Evolution of Groundwater System in Large-size River Basins. Beijing China, September.
[2] 第九屆中國水論壇,中國,蘭州,2011年8月。
報告:基於乾河床非飽和帶氯離子和氧-18剖面的降水入滲補給速率研究。
[3] 第二屆水體穩定同位素研討會,中國,北京,2011年5月。
報告:基於氫氧穩定同位素和主要離子水化學的北易水流域淺層地下水補給機理研究。
科研項目
- 正在執行“洞庭湖上游平原區地下水水文地球化學演化與鐵污染研究”項目。
- 完成“汝城地熱水系統水循環機理研究”項目。
- 完成“引黃調水對汾河上游水環境的影響研究”項目(國家自然科學基金青年基金項目,編號41301033)。
