論文專著：

發表英文論文：    

[1]Yan jiahui, Li Qiang*, Hu Linan, Wang Jiaqi, Zhou Qihai,Zhong Juxin. Response of microbial communities and their metabolic functions to calcareous succession process. Science of the Total Environment, 2022, 825: 154020.

[2]Hu Linan, Li Qiang*, Yan Jiahui, Liu Chun, Zhong Juxin. Vegetation restoration facilitates belowground microbial network complexity and recalcitrant soil organic carbon storage in southwest China karst region. Science of The Total Environment, 2022, 820: 153137.

[3]Li Qiang*, Song Ang, Yang Hui, Muller WEG. Impact of rocky desertification control on soil bacterial community in karst graben basin, southwestern China. Frontiers in Microbiology, , 2021, 12(2021): 636405.

[4]Lan Gaoyong, Liu Chun, Wang Hua, Cao Jianhua, Tang Wei, Li Qiang*, Hu Bill X. Linking soil redistribution to soil organic carbon using 210Pb ex along different complex toposequences in a karst region, southwest China. Catena, 2021, 202(2021): 105239.

[5]Liang Yueming; Pan Fujing; Cao Jianhua; Zhu Meina; Liu Shang; Song Ang; Li Qiang. Bacterial succession in karst calcareous soils derived from different development stages from in southwest China. Polish Journal of Environmental Studies, 2021, 30(3): 1-12.  

[6]Zhou, Junbo; Jin, Zhenjiang*; Leng, Meng; Xiao, Xiaoyi; Wang, Xiaotong; Pan, Fujing; Li, Qiang.INVESTIGATION OF SOIL BACTERIAL COMMUNITIES AND FUNCTIONALITIES WITHIN TYPICAL KARST PADDY FIELD SOILS IN SOUTHERN CHINA. Fresenius Environmental Bulletin, 2021, 30(4): 3537-3548.

[7]Lan Gaoyong, Liu Chun, Wang Hua, Tang Wei, Wu Xia, Yang Hui, Tu Linling, Hu Bill X, Cao Jianhua, Li Qiang. The effect of land use change and soil redistribution on soil organic carbon dynamics in karst graben basin of China. Journal of Soils and Sediments, 2021, 21:2511-2524.

[8]Li Qiang*,Huang Yadan,Xin Shenglin,Li Zhongyi. Comparative analysis of bacterioplankton assemblages from two subtropical karst reservoirs of southwestern China with contrasting trophic status. Scientific Reports, , 2020, 10(2020): 22296.

[9]Chen Jiyu; Li Qiang*; He Qiufang; Schröder Heinz C.; Lu Zujun*; Yuan Daoxian.Influence of CO2/HCO3- on microbial communities in two karst caves with high CO2.Journal of Earth Science, 2020.

[10]Jiangmei Qiu; Jianhua Cao; Gaoyong Lan; Yueming Liang; Hua WAng; Qiang Li*.The Influence of Land Use Patterns on Soil Bacterial Community Structure in the Karst Graben Basin of Yunnan Province, China.Forests, 2019, 11(51).

[11]Yang, Hui; Zhang, Peng; Zhu, Tongbin*; Li, Qiang; Cao, Jianhua.The Characteristics of Soil C, N, and P Stoichiometric Ratios as Affected by Geological Background in a Karst Graben Area, Southwest China.Forests, 2019, 10(7): 601.    

[12]Mueller, Werner E G; Tolba, Emad; Wang, Shunfeng; Li, Qiang; Neufurth, Meik; Ackermann, Maximilian; Munoz Espi, Rafael; Schroeder, Heinz C; Wang, Xiaohong*.Transformation of Construction Cement to a Self-Healing Hybrid Binder.International Journal of Molecular Sciences, 2019, 20(12): 2948.

[13]Qiu Jiangmei, Cao Jianhua, Lan Gaoyong, Liang Yueming, Wang Hua, Li Qiang. The Influence of Land Use Patterns on Soil Bacterial Community Structure in the Karst Graben Basin of Yunnan Province, China. Forests, 2020, 11(1): 51.

[14]Huang Yadna, Li Qiang*. Karst biogeochemistry in China: past, present and future. Environmental Earth Sciences, 2019, 2019(78): 450.

[15]Shi Yu; Ruoxue He; Ang song; Yadan Huang*; Zhenjiang Jin; Yueming Liang; Qiang Li*; Xiaohong Wang; Werner E. G. Müller; Jianhua Cao. Spatial and temporal dynamics of bacterioplankton community composition in a subtropical dammed karst river of southwestern China. MicrobiologyOpen, , 2019, 2019(e849): 1-18.

[16]Li Qiang，Liu Chang，Wang Xiaohong，Jin Zhenjiang，Ang Song，Liang Yueming,Cao Jianhua, Muller Werner EG. Influence of Altered Microbes on Soil Organic Carbon Availability in Karst Agricultural Soils Contaminated by Pb-Zn Tailings. Frontiers in Microbiology, 2018, 9(2): 2062.

[17]SONG Ang; LIANG Yue ming; LI Qiang*.Influence of precipitation on bacterial structure in a typical karst spring, SW China. Journal of Groundwater Science and Engineering, 2018, (03): 193-204.

[18]Wang, Xiaohong*; Ackermann, Maximilian; Neufurth, Meik; Wang, Shunfeng; Li, Qiang; Feng, Qingling; Schroeder, Heinz C; Mueller, Werner E G. Restoration of Impaired Metabolic Energy Balance (ATP Pool) and Tube Formation Potential of Endothelial Cells under "high glucose", Diabetic Conditions by the Bioinorganic Polymer Polyphosphate.Polymers, 2017, 9(11): 575.

[19]Li Qiang*,Song Ang,Peng Wenjie，Jin Zhenjiang，Mueller Werner EG，Wang Xiaohong. Contribution of aerobic anoxygenic phototrophic bacteria to total organic carbon pool in aquatic system of subtropical karst catchments, Southwest China: evidence from hydrochemical and microbiological study. FEMS Microbiology Ecology, 2017, 93(6): fix065.

[20]Zhongyi Li, Zhenjiang Jin, Qiang Li*.Changes in land use and their effects on soil properties in Huixian karst wetland system. Polish Journal of Environmental Studies,, 2017, 26(2): 1-9.

[21]Li, Qiang*; He, Yuanyuan; Li, Zhongyi. The promoting effect of soil carbonic anhydrase on the limestone dissolution rate in SW China.Carbonates and Evaporites, 2017, 32(2): 147-154.

[22]Li Qiang，Wang Xiaohong，Korzhev Michael，Schroder Heinz C，Link Thorben，Tahir Muhammad Nawaz，Diehl-Seifert Barbel，Muller Werner EG. Potential biological role of laccase from the sponge Suberites domuncula as an antibacterial defense component. Biochimica et Biophysica Acta-General Subjects, 2015, 1850(1): 118-128.

[23]Qiang Li, Yuanyuan He, Zhongyi Li. The promoting effect of soil carbonic anhydrase on the limestone dissolution rate in SW China. Carbonates Evaporites. DOI 10.1007/s13146-015-0281-2.

[24]Qiang Li*, Hua Wang, Zhenjiang Jin, Wenbin Xiong, Xia Wu,Ying Zhang, Chang Liu. The carbon isotope fractionation in the atmosphere–soil–spring system associated with CO2-fixation bacteria at Yaji karst experimental site in Guilin, SW China. Environmental Earth Sciences, 2015, 74(6), 5393-5401.

[25]Qiang Li*, Qingjing Hu, Chaolan Zhang, Werner E. G. Muller,Heinz C. Schroder，Zhongyi Li, Ying Zhang, Chang Liu, Zhenjiang Jin. The effect of toxicity of heavy metals contained in tailing sands on the organic carbon metabolic activity of soil microorganisms from different land use types in the karst region. Environ Earth Sciences, 2015, 74(9), 6747-6756.

[26]Jin Z, Li Z, Li Q*, Hu Q, Yang R, Tang H, Li G. Canonical correspondence analysis of soil heavy metal pollution, microflora and enzyme activities in the Pb–Zn mine tailing dam collapse area of Sidi village, SW China. Environmental Earth Sciences, 2015,73(1), 267-274.

[27]Werner E. G. Müller*; Li Qiang; Heinz C Schröder; Natalie Hönig; Daoxian Yuan; Vlad A. Grebenjuk; Francesca Mussino; Marco Giovine; Xiaohong Wang*. Carbonic anhydrase: a key regulatory and detoxifying enzyme for Karst plants. Planta, 2014, 239(1): 213-229.  

[28]Mueller, Werner E. G.*; Link, Thorben; Li, Qiang; Schroeder, Heinz C.; Batel, Renato; Blazina, Maria; Grebenjuk, Vladislav A.; Wang, Xiaohong*.A novel TiO2-assisted magnetic nanoparticle separator for treatment and inactivation of bacterial contaminants in aquatic systems.RSC Advances, 2014, 4(89): 48267-48275. 

[29]Li Qiang*; Li Zhongyi; Jianhong Liang; Yuanyuan He; Jianhua Cao; Qingjing Hu.δ13C Characteristics of Soil Organic Carbon in Hilly Karst Area. Polish Journal of Environmental Studies, 2014, 23(6): 1483-1489.

[30]Q Li*, JH Liang, YY He, QJ Hu, S Yu. Effect of land use on soil enzyme activities at karst area  in Nanchuan, Chongqing, Southwest China. Plant, Soil and Environment, 2014, 60 (1): 15-20.

[31]Li Qiang*, Li Zhongyi, Jianhong Liang, Yuanyuan He, Jianhua Cao, Qingjing Hu. δ 13C Characteristics of Soil Organic Carbon in Hilly Karst Area. Polish Journal of Environmental Studies, 2014, 23(6): 2345-2349.

[32]Li Qiang*; Cao Jianhua; Yu Longjiang; Li Maoteng; Liao Jinjing; Gan Lu. Effects on physiological characteristics of Lonicera japonica Thunb and the role of exogenous calcium under drought stress. Plant Omics Journal , 2012, 5(1): 1-5.

[33]Li Qiang*. Modern calcite-precipitating experiment of algae and isotope imbalance. Carbonates and Evaporites. 2010, 25(2):127-131.

[34]Li Qiang*. Hydrochemical Response of Epikarst Spring to Rainfall: Implications of Nutrition Element Loss and Groundwater Pollution. Polish Journal of Environmental Studies, 2010, 19(2): 441-448.

[35]Li Q*, Cao J, Yu L. Biogeochemical effect of karst soil on the element contents in the leaves of two species of Flos Lonicerae. Plant Soil and Environment, 2008, 54(11), 486-492.

[36] Li Qiang*; Sun Hailong; Han Jun; Liu Zaihua; Yu Longjiang. High-resolution study on the hydrochemical variations caused by the dilution of precipitation in the epikarst spring: an example spring of Landiantang at Nongla, Mashan, China. Environmental Geology and Water Sciences, , 2008, 54(2), 347-354.

[37]LI Qiang; YU Long-jiang; DENG Yan; LI Wei; LI Mao-teng; CAO Jian-hua*.Leaf epidermal characters of Lonicera japonica and Lonicera confuse and their ecology adaptation.Journal of Forestry Research, 2007, 18(2): 103-108.   

[38]Liu Zaihua*; Li Qiang; Sun Hailong; Wang Jinliang.Seasonal, diurnal and storm-scale hydrochemical variations of typical epikarst springs in subtropical karst areas of SW China: Soil CO2 and dilution effects.Journal of Hydrology, 2007, 337(1-2): 207-223.

[39]Liu ZH*; Li Q; Sun HL; Liao CJ; Li HJ; Wang JL; Wu KY.Diurnal variations of hydrochemistry in a travertine-depositing stream at Baishuitai, Yunnan, SW China.Aquatic Geochemistry, 2006, 12(2): 103-121.

[40]Liu Z*; Groves C; Yuan D; Meiman J; Jiang G; He S; Qiang Li.Hydrochemical variations during flood pulses in the south-west China peak cluster karst: impacts of CaCO3–H2O–CO2 interactions.Hydrological Processes, 2004, 18(13): 2423-2437. 

[41]Liu Z*; Zhang M; Li Q; You S.Hydrochemical and isotope characteristics of spring water and travertine in the Baishuitai area (SW China) and their meaning for paleoenvironmental reconstruction.ENVIRONMENTAL GEOLOGY, 2003, 44(6): 698-704.

發表中文期刊論文：

[1]王若帆, 趙良杰, 李強, 吉勤克補子, 焦恒, 江峰, 陳剛. 黔中洋水背斜分散排泄系統地下水化學特征[J]. 中國巖溶, 2023, 42 (04): 733-741.

[2]胥嬌, 李強. 石灰土演替過程中顆粒態有機質和礦物結合態有機質的微生物群落特征[J]. 微生物學報, 2023, 63 (06): 2153-2172.

[3]李強. 流域尺度巖溶碳循環過程——“巖溶作用與碳中和”專欄特邀主編寄語[J]. 地球學報, 2022, 43 (04): 421-424.

[4]蒲俊宇, 李忠義, 鐘菊新, 靳振江, 唐紅琴, 韋彩會, 董文斌, 何鐵光, 李強. 綠肥配施氮肥對巖溶區稻田土壤微生物群落的影響[J]. 微生物學報, 2022, 62 (06): 2417-2432.

[5]李強. 巖溶土壤有機碳庫分配、更新及其維持的微生物機制[J]. 微生物學報, 2022, 62 (06): 2188-2197.

[6]童凌晨, 李強, 岳鵬鵬. 基于CiteSpace的喀斯特土壤有機碳研究進展[J]. 廣西師范大學學報(自然科學版), 2022, 40 (04): 22-34.

[7]何若雪, 李強, 于奭, 孫平安. 異養細菌作用下巖溶水體惰性有機碳變化及其環境影響因素分析[J]. 地球學報, 2022, 43 (04): 438-448.

[8]鐘菊新,唐紅琴,何鐵光,李忠義,李強.基于文獻計量法的土壤細菌研究進展[J].中國農機化學報,2021,42(12):228-236.

[9]鐘菊新,唐紅琴,李忠義,董文斌,韋彩會,李強,何鐵光.綠肥配施化肥對巖溶區水稻土壤細菌群落結構的影響[J].植物營養與肥料學報,2021,27(10):1746-1756.

[10]嚴嘉慧,周岐海,胡林安,鐘菊新,李強.不同演替階段巖溶石灰土可培養細菌的群落特征[J].微生物學報,2021,61(06):1666-1680.

[11]李強.土地利用方式對巖溶斷陷盆地土壤細菌和真核生物群落結構的影響[J].地球學報,2021,42(03):417-425.

[12]嚴嘉慧,周岐海,蔣云偉,陳濟宇,李強,李忠義.長期不同施肥措施下巖溶水稻土可培養細菌群落變化及其主要影響因素[J].微生物學通報,2020,47(09):2833-2847.

[13]邱江梅,曹建華,李強.云南巖溶斷陷盆地土地利用方式對叢枝菌根真菌群落結構的影響[J].微生物學通報,2020,47(09):2771-2788.

[14]王若帆,吉勤克補子,李強,趙良杰,焦恒,易瑞.貴州六志巖溶大泉系統地下水化學及同位素特征[J].西部探礦工程,2020,32(06):186-192.

[15]陳濟宇,陸祖軍,賀秋芳,李強.不同二氧化碳濃度巖溶洞穴可培養細菌群落特征——以重慶雪玉洞和水鳴洞為例[J].中國巖溶,2020,39(02):264-274.

[16]張雙雙,靳振江,賈遠航,李強.巖溶區與非巖溶區3種土地利用方式下土壤細菌群落結構比較[J].中國巖溶,2019,38(02):164-172.

[17]鐘亮,李強.基于CiteSpace軟件分析2017年度巖溶學研究熱點[J].桂林理工大學學報,2018,38(04):768-776.

[18]潘復靜,靳振江,梁月明,李強,李臻.喀斯特地區不同類型石灰土的生態化學計量特征[J].桂林理工大學學報,2018,38(04):738-743.

[19]李強,黃雅丹,何若雪,于奭,宋昂,曹建華.巖溶水體惰性有機碳含量及其存在機理[J].巖礦測試,2018,37(05):475-478.

[20]張雙雙,靳振江,賈遠航,李強.巖溶地區不同土地利用方式土壤固碳細菌群落結構特征[J].環境科學,2019,40(01):412-420.

[21]辛勝林,梁月明,彭文杰,宋昂,靳振江,朱美娜,李強.亞熱帶典型巖溶水庫細菌豐度和細菌生產力及其與環境因子的關系[J].環境科學,2018,39(12):5647-5656.

[22]朱美娜,梁月明,劉暢,靳振江,李強.巖溶石灰土微生物豐度的影響因素及其指示意義[J].生態環境學報,2018,27(03):484-490.

[23]黃炳惠,李強,房君佳,曹建華,靳振江,彭文杰,盧曉漩,梁月明.CO_2濃度梯度對兩種巖溶微藻碳酸酐酶活性的影響[J].中國巖溶,2018,37(01):91-100.

[24]彭文杰,李強,宋昂,靳振江.五里峽水庫初級生產力對水氣界面二氧化碳和甲烷排放速率時空變化的影響[J].環境科學,2018,39(06):2673-2679.

[25]房君佳,李強,劉暢,靳振江,梁月明,黃炳惠,盧曉漩,彭文杰.鉛鋅尾礦砂污染下的巖溶土壤微生物群落碳源代謝特征[J].環境科學,2018,39(05):2420-2430.

[26]盧曉漩,李強,靳振江,彭文杰,房君佳,黃炳惠,宋昂.桂林五里峽水庫豐水期溶解有機碳特征[J].環境科學,2018,39(05):2075-2085.

[27]梁月明,李強,潘復靜.巖溶區不同恢復階段檵木根際土壤生態化學計量學特征[J].水土保持通報,2017,37(05):123-127.

[28]李強,蒲俊兵,黃妮,杜紅梅,祁向坤,王力,楊慧.斷陷盆地生態環境地質分異及石漠化演變機理的研究途徑[J].地球科學進展,2017,32(09):899-907.

[29]盧曉漩,彭文杰,李強,房君佳,靳振江,宋昂,黃炳惠,于奭.巖溶區水庫冬季溶解有機質組成特征及來源:以桂林五里峽水庫為例[J].環境科學,2017,38(10):4120-4129.

[30]李強.基于文獻計量學分析2016年度巖溶學研究熱點[J].地球科學進展,2017,32(05):535-545.

[31]宋昂,彭文杰,何若雪,靳振江,盧曉漩,房君佳,黃炳慧,李強.好氧不產氧光合細菌反饋作用下的五里峽水庫壩前水體化學特征研究[J].巖礦測試,2017,36(02):171-179.

[32]方芳,靳振江,李強,孫德偉,蒙芳艷,湯華峰,黃炳富,李敏,張煜,張歆,馮行積.巖溶區與非巖溶區土壤有機碳、養分及特征元素對比[J].桂林理工大學學報,2016,36(03):550-556.

[33]黃雅丹,靳振江,李強,劉暢.17β-雌二醇對巖溶稻田土壤微生物群落的影響[J].生態環境學報,2016,25(10):1721-1726.

[34]李強,靳振江.巖溶生物地球化學研究的進展與問題[J].中國巖溶,2016,35(04):349-356.

[35]劉暢,黃雅丹,張瑩,靳振江,梁月明,宋昂,王騰,郭佳怡,李強.培養條件下雙酚A對稻田土壤微生物群落特征的影響[J].環境科學,2016,37(11):4380-4388.

[36]張瑩,劉暢,宋昂,靳振江,李強.基于典范對應分析的會仙巖溶濕地土壤理化性質與土壤酶活性關系研究[J].中國巖溶,2016,35(01):11-18.

[37]靳振江,曾鴻鵠,李強,程亞平,湯華峰,李敏,黃炳富.起源喀斯特溶洞濕地稻田與旱地土壤的微生物數量、生物量及土壤酶活性比較[J].環境科學,2016,37(01):335-341.

[38]張瑩,李強.是“巖溶碳匯”還是“巖溶碳通量”?[J].中國巖溶,2015,34(06):539-542.

[39]李強,胡清菁,張超蘭,靳振江,曹建華.基于土壤酶總體活性評價鉛鋅尾礦砂坍塌區土壤重金屬污染[J].生態環境學報,2014,23(11):1839-1844.

[40]靳振江,湯華峰,李敏,黃炳富,李強,張家喻,黎桂文.典型巖溶土壤微生物豐度與多樣性及其對碳循環的指示意義[J].環境科學,2014,35(11):4284-4290.

[41]胡清菁,張超蘭,靳振江,曹建華,李強.鉛鋅礦尾砂重金屬污染物對不同土地利用類型土壤性質影響的典范對應分析[J].巖礦測試,2014,33(05):714-722.

[42]靳振江,程亞平,李強,曾鴻鵠,羅堃,黃靜云,陸文體,唐志琴.會仙喀斯特溶洞濕地、稻田和旱田土壤有機碳含量及其與養分的關系[J].濕地科學,2014,12(04):485-490.DOI:10.13248/j.cnki.wetlandsci.2014.04.012.

[43]李強,靳振江,李忠義,羅堃,唐志琴,黃靜云,陸文體.巖溶地貌部位對土壤微生物豐度與酶活性的影響[J].水土保持通報,2014,34(03):50-54.

[44]胡清菁,王培,華磊,曹建華,李強.Cd~(2+)脅迫下小球藻(Chlorella vulgaris)對巖溶水HCO_3~-、Ca~(2+)利用研究——以桂林寨底地下河為例[J].中國巖溶,2014,33(02):123-128.

[45]李強,李忠義,靳振江,羅堃,唐志琴,黃靜云,陸文體.基于典范對應分析的鉛鋅礦尾砂壩坍塌污染土壤特征研究[J].地質論評,2014,60(02):443-448.

[46]趙春紅,李強,梁永平,許亮,王維泰,盧海平,唐春雷.北京西山黑龍關泉域巖溶水系統邊界與水文地質性質[J].地球科學進展,2014,29(03):412-419.

[47]李強,靳振江,楊榮梅.典范對應分析在重金屬污染區土壤性質及土壤酶活性關系中的應用——以陽朔縣思的村為例[J].熱帶地理,2014,34(01):14-19.

[48]何媛媛,李強,曹建華,梁建宏,朱敏潔.不同土地利用類型下土壤碳酸酐酶剖面分異特征研究[J].中國巖溶,2013,32(04):365-370.

[49]李強.水利工程對巖溶水體碳循環的影響[J].中國巖溶,2013,32(03):253-257.

[50]靳振江,李強,黃靜云,鄧麗君,陸文體,黃美輝,唐志琴,唐顯治,羅堃,楊帥,吳瓊敏.典型巖溶生態系統土壤酶活性、微生物數量、有機碳含量及其相關性——以丫吉巖溶試驗場為例[J].農業環境科學學報,2013,32(02):307-313.

[51]劉文,蔣世云,李強,張夏輝,催曉舉.酚類抑制劑抗5-脂氧合酶的分子對接研究[J].生物技術通訊,2012,23(04):527-531.

[52]李強,何媛媛,曹建華,梁建宏,朱敏潔.植物碳酸酐酶對巖溶作用的影響及其生態效應[J].生態環境學報,2011,20(12):1867-1871.

[53]李強,曹建華,余龍江,栗茂騰,廖金晶,甘露.干旱脅迫過程中外源鈣對忍冬光合生理的影響[J].生態環境學報,2010,19(10):2291-2296.

[54]李強.碳酸酐酶及多肽類生物大分子與巖溶動力學理論的思考[J].中國巖溶,2010,29(03):253-257.

[55]何師意,Michele L,章程,汪進良,李強.高精度地下水示蹤技術及其應用——以毛村地下河流域為例[J].地球學報,2009,30(05):673-678.

[56]王華,張遠明,覃嘉銘,李強,楊琰.攀枝花龍洞煤礦地下水運移的同位素研究[J].地球學報,2008,29(06):725-728.

[57]王華,李強,覃嘉銘,林玉山,應啟和.~(210)Pb測年方法在巖溶碳酸鹽沉積物中的應用研究[J].地球學報,2008,29(06):719-724.

[58]王麗麗,孫海龍,李強,張艷梅.水分脅迫對黃荊葉片生理生化特性的影響[J].廣西農業科學,2008(02):152-154.

[59]李強,余龍江,鄧艷,李為,栗茂騰,曹建華.忍冬和華南忍冬葉表皮掃描電鏡觀察及其生態適應性研究(英文)[J].Journal of Forestry Research,2007(02):103-108+166-167.

[60]李強,鄧艷,余龍江,劉玉,曹建華.兩種忍冬屬植物葉表皮掃描電鏡觀察及其生態適應性的研究[J].廣西植物,2007(02):146-151.

[61]王華,李強,楊琰,覃嘉銘,馮玉梅,涂林玲,應啟和.鈣華測年中不同方法的對比研究[J].巖礦測試,2006(04):306-310.

[62]李強,孫海龍,韓軍,劉再華,余龍江.降水對廣西馬山蘭電堂泉水化學動態變化觀測研究[J].水科學進展,2006(05):733-737.

[63]李強,孫海龍,何師意,姜光輝.桂林巖溶試驗場自然恢復過程中植物多樣性的變化[J].生命科學研究,2006(02):139-143.

[64]李強,李林立,余龍江.電子探針技術在金銀花品質鑒定中的應用[J].時珍國醫國藥,2006(06):924-925.

[65]李強,余龍江,鄧艷,劉玉.金銀花葉細胞中元素含量與其生境的生物地球化學研究[J].農業環境科學學報,2006(03):648-652.

[66]李強,孫海龍,賀秋芳,賈麗萍.自然降雨條件下巖溶區土壤鉀、氮流失及其對泉水水化學的影響——以廣西馬山弄拉為例[J].農業環境科學學報,2006(02):467-470.

[67]劉再華,吳孔運,汪進良,李強,孫海龍,韓軍.非巖溶流水中碳酸鹽巖試塊的侵蝕速率及其控制因素:以湖南郴州禮家洞為例[J].地球化學,2006(01):103-110.

[68]李強,靳振江,孫海龍.現代藻類碳酸鈣沉積試驗及其同位素不平衡現象[J].中國巖溶,2005(04):261-264.

[69]劉再華,李強,孫海龍,汪進良,吳孔運.云南白水臺鈣華水池中水化學日變化及其生物控制的發現[J].水文地質工程地質,2005(06):10-15.

[70]何尋陽,李強.表層巖溶帶巖溶泉的水化學動態變化及其環境效應——以馬山弄拉蘭電堂為例[J].廣西師范大學學報(自然科學版),2005(02):103-106.

[71]李強,孫海龍,何師意,姜光輝,吳孔運,汪勁良.桂林巖溶試驗場植物多樣性恢復及其水、氣效應[J].熱帶地理,2005(01):5-9.

[72]章程,袁道先,李強,汪進良.典型表層巖溶動力系統的環境敏感性研究——以廣西馬山縣弄拉峰叢洼地為例[J].水文地質工程地質,2005(01):78-80.

[73]劉再華,李強,汪進良,吳孔運,孫海龍,梁永平.桂林巖溶試驗場鉆孔水化學暴雨動態和垂向變化解譯[J].中國巖溶,2004(03):3-10.

[74]鄧艷,蔣忠誠,曹建華,李強,藍芙寧.弄拉典型峰叢巖溶區青岡櫟葉片形態特征及對環境的適應[J].廣西植物,2004(04):317-322+331-386.

[75]劉再華,張美良,游省易,李強,孫海龍,汪進良,吳孔運.碳酸鈣沉積溪流中地球化學指標的空間分布和日變化特征:以云南白水臺為例[J].地球化學,2004(03):269-278.

[76]游省易,李強,劉再華.云南白水臺鈣華景區水的物理化學動態變化研究[J].中國巖溶,2003(02):29-36.

[77]李強,路鴻海,靳振江,趙曉慧.云南白水臺生態旅游資源開發模式研究[J].廣西師范學院學報(自然科學版),2002(04):48-52.

[78]劉再華,游省易,李強,張美良.云南白水臺鈣華景區的水化學和碳氧同位素特征及其在古環境重建研究中的意義[J].第四紀研究,2002(05):459-467.

[79]李強,戴亞南,游省易,劉再華.云南白水臺鈣華沉積成因及主要沉積類型研究[J].中國巖溶,2002(03):27-30.

[80]戴亞南,游省易,李強,劉再華.云南白水臺泉華臺地旅游業可持續發展淺析[J].中國巖溶,2002(03):76-81.

發表會議論文：

[1]李強; 張如放. 中國西南石漠化地質災害發育現狀與防治對策建議[C].2016年中國-東盟防災減災與可持續發展專家論壇論文集.[出版者不詳],2016:273-277.

[2]李強; 孫海龍; 賀秋芳; 賈麗萍. 自然降雨條件下巖溶區土壤鉀、氮流失及其對泉水水化學的影響——以廣西馬山弄拉為例[C].首屆全國農業環境科學學術研討會論文集.[出版者不詳],2005:343-346.