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      三峽水庫生態系統湖北省野外科學觀測研究站
       
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      發表科研論文
      首頁\科學研究
      學術論文
      2020-07-15 16:06  

      學術論文

      近年來,在三峽站監測數據的支撐下,三峽站成員已在Water Research、Science of the Total Environment、Ecological Engineering、Science China-Technological Sciences、《中國科學》、《水利學報》、《環境科學》等國內外期刊上發表論文200余篇,其中被SCI、EI收錄100余篇。在Web of Science中有關“Three  Gorge Reservoir”“Eutrophication”的前10篇被引論文中,依托觀測站監測數據發表的論文占據5篇,分別排第1、第3、第6、第8、第9名。在中國知網中以關鍵詞三峽水庫水華搜索相關文獻,依托觀測站發表論文占全部論文的29.5%;觀測站成員劉德富、楊正健、紀道斌分別排第1、第2、第3位。

      5年發表的部分論文清單如下:

      [1]Jin J, Wells S A, Liu D, et al. Thermal stratification and its relationship with water quality in the typical tributary bay of the Three Gorges Reservoir[J]. Water Supply, 2019, 19(3): 918-925.

      [2]Yang Z, Xu P, Liu D, et al. Hydrodynamic mechanisms underlying periodic algal blooms in the tributary bay of a subtropical reservoir[J]. Ecological Engineering, 2018, 120: 6-13.

      [3]Shi X, Jin Z, Liu Y, et al. Can age-0 Silver Carp cross laboratory waterfalls by leaping?[J]. Limnologica, 2018, 69: 67-71.

      [4]Ji D, Wells S A, Yang Z, et al. Impacts of water level rise on algal bloom prevention in the tributary of Three Gorges Reservoir, China[J]. Ecological engineering, 2017, 98: 70-81.

      [5]Cai L, Johnson D, Fang M, et al. Effects of feeding, digestion and fasting on the respiration and swimming capability of juvenile sterlet sturgeon (Acipenser ruthenus, Linnaeus 1758)[J]. Fish physiology and biochemistry, 2017, 43(1): 279-286.

      [6]Araya T, Jia M, Yang J, et al. Resin modified MIL-53 (Fe) MOF for improvement of photocatalytic performance[J]. Applied Catalysis B: Environmental, 2017, 203: 768-777.

      [7]Yang L, Liu D, Huang Y, et al. Isotope analysis of the nutrient supply in Xiangxi Bay of the Three Gorges Reservoir[J]. Ecological engineering, 2015, 77: 65-73.

      [8]Shi X, Chen Q, Liu D, et al. Juvenile silver carp Hypophthalmichthys molitrix swim faster in closed surface flow than open surface flow[J]. Environmental biology of fishes, 2014, 97(12): 1411-1416.

      [9]Shi X, Jiang W, Ye S, et al. Length–weight relationships of three fish species from the Yangtze River, China[J]. Journal of Applied Ichthyology, 2016, 32(6): 1303-1304.

      [10]Araya T, Quan S, Man-ke J, et al. Selective photocatalytic degradation of organic pollutants using a Water-Insoluble Zn–Schiff Base Complex[J]. Water, Air, & Soil Pollution, 2016, 227(8): 284.

      [11]Cui Y, Liu D, Zhang J, et al. Diel migration of Microcystis during an algal bloom event in the Three Gorges Reservoir, China[J]. Environmental Earth Sciences, 2016, 75(7): 616.

      [12]Dai L, Mao J, Wang Y, et al. Optimal operation of the Three Gorges Reservoir subject to the ecological water level of Dongting Lake[J]. Environmental Earth Sciences, 2016, 75(14): 1111.

      [13]Dai L, Zhang P, Wang Y, et al. Multi-objective optimization of cascade reservoirs using NSGA-II: A case study of the Three Gorges-Gezhouba cascade reservoirs in the middle Yangtze River, China[J]. Human and Ecological Risk Assessment: An International Journal, 2017, 23(4): 814-835.

      [14]Ding Y , Tang D , Dai H , et al. Human-Water Harmony Index: A new approach to assess the human water relationship[J]. Water Resources Management, 2014, 28(4):1061-1077.

      [15]Fan D, Huang Y, Song L, et al. Prediction of chlorophyll a concentration using HJ-1 satellite imagery for Xiangxi Bay in Three Gorges Reservoir[J]. Water Science and Engineering, 2014, 7(1): 70-80.

      [16]Fang M, Cai L, Gao Y, et al. Swimming and recovery abilities of Juvenile Chinese Sturgeon Acipenser sinensis[J]. Transactions of the American Fisheries Society, 2017, 146(6): 1186-1192.

      [17]Gao Z, Andersson H.I., Dai H, Jiang F, Zhao L. A new Eulerian-Lagrangian agent method to model fish paths in a vertical slot fishway[J]. Ecological Engineering, 2016,88: 217-225.

      [18]Hu T, Mao J, Zhang P, et al. Hydrological utilization of satellite precipitation estimates in a data-scarce lake region[J]. Water Science and Technology-Water Supply, 2018,18(5): 1581-1589.

      [19]Hu X, Gao Y, Shi X. Numerical study on characteristics of supercavitating flow around the variable-lateral-force cavitator[J]. China Ocean Engineering, 2017, 31(1): 123-129.

      [20]Huang Y, Zhang P, Liu D, et al. Nutrient spatial pattern of the upstream, mainstream and tributaries of the Three Gorges Reservoir in China[J]. Environmental monitoring and assessment, 2014, 186(10): 6833-6847.

      [21]Huang Y, Fan D, Liu D, et al. Nutrient estimation by HJ-1 satellite imagery of Xiangxi Bay, Three Gorges Reservoir, China[J]. Environmental Earth Sciences, 2016, 75(8): 633.

      [22]Jin J, Wells S A, Liu D, et al. Effects of water level fluctuation on thermal stratification in a typical tributary bay of Three Gorges Reservoir, China[J]. PeerJ, 2019, 7: 6925.

      [23]Li M, Wang S, Tian X, et al. Improving nutritional quality of wheat grain through foliar zinc combined with macronutrients[J]. Agronomy Journal, 2018, 110(1): 38-46.

      [24]Li R, Song X, Huang Y, et al. Visible-light photocatalytic degradation of azo dyes in water by Ag3PO4: An unusual dependency between adsorption and the degradation rate on pH value[J]. Journal of Molecular Catalysis A: Chemical, 2016, 421: 57-65.

      [25]Lin C, Dai H, Shi X, et al. An experimental study on fish attraction using a fish barge model[J]. Fisheries Research, 2019,210: 181-188.

      [26]Long L , Xu H , Ji D, et al. Characteristic of the water temperature lag in Three Gorges Reservoir and its effect on the water temperature structure of tributaries[J]. Environmental Earth Sciences, 2016, 75(22):1459.

      [27]Long L, Ji D, Liu D, et al. Effect of cascading reservoirs on the flow variation and thermal regime in the lower reaches of the Jinsha River[J]. Water, 2019, 11(5): 1008.

      [28]Long L,Ji D,Yang Z, et al. Density-driven water circulation in a typical tributary of the Three Gorges Reservoir, China[J]. River Research and Applications, 2019 35(7): 833-843.

      [29]Lu J, Dai H. Effect of submerged vegetation on solute transport in an open channel using large eddy simulation[J]. Advances in Water Resources, 2016,97: 87-99.

      [30]Lu J, Dai H. Large eddy simulation of flow and mass exchange in an embayment with or without vegetation[J]. Applied Mathematical Modelling, 2016,40(17-18): 7751-7767.

      [31]Lu J, Dai H. Numerical modeling of pollution transport in flexible vegetation[J]. Applied Mathematical Modelling, 2018,64: 93-105.

      [32]Lu J, Dai H. Three dimensional numerical modeling of flows and scalar transport in a vegetated channel[J]. Journal of Hydro-Environment Research, 2017,16: 27-33.

      [33]Lu L, Hou D, Fang Y, et al. Nickel based catalysts for highly efficient H2 evolution from wastewater in microbial electrolysis cells[J]. Electrochimica Acta, 2016, 206: 381-387.

      [34]Luo Y, Zhao X, Xu T, et al. Bioaccumulation of heavy metals in the lotus root of rural ponds in the middle reaches of the Yangtze River[J]. Journal of soils and sediments, 2017, 17(10): 2557-2565.

      [35]Ma J, Liu D, Wells S A, et al. Modeling density currents in a typical tributary of the Three Gorges Reservoir, China[J]. Ecological Modelling, 2015, 296: 113-125.

      [36]Mao J, Dai L, Zeng Q, Dai H. Simulation and Evaluation of Control Methods for Thermal Stratification Reduction in Large Artificial Lakes[J]. Journal of Vibration Engineering & Technologies, 2015,3(1): 1-12.

      [37]Mao J, Jiang D, Dai H. Spatial–temporal hydrodynamic and algal bloom modelling analysis of a reservoir tributary embayment[J]. Journal of Hydro-Environment Research, 2015, 9(2): 200-215.

      [38]Mao J Q, Zhang P P, Dai L Q, Dai H C, Hu T F. Optimal operation of a multi-reservoir system for environmental water demand of a river-connected lake. Hydrology Research, 2016,47(S1): 206-224.

      [39]Zhang M, Chen F, Chen S , et al. The soil seed bank of a rehabilitated draw-down zone and its similarity to standing vegetation in the Three Gorges Reservoir Area. Ecological Research, 2017, 32(6): 1011-1021.

      [40]Fang M,Cai L,Gao Y, et al. Swimming and recovery abilities of juvenile Chinese sturgeon Acipenser sinensis. Transactions of the American Fisheries Society, 2017, 146 (6) :1186-1192.

      [41]Newbold L, Shi X, Hou Y, et al. Swimming performance and behaviour of bighead carp (Hypophthalmichthys nobilis): application to fish passage and exclusion criteria[J]. Ecological engineering, 2016, 95: 690-698.

      [42]Song X, Li R, Xiang M, et al. Morphology and photodegradation performance of Ag3PO4 prepared by (NH4) 3PO4,(NH4) 2HPO4 and NH4H2PO4[J]. Ceramics International, 2017, 43(5): 4692-4701.

      [43]Sun Y, Tang D, Dai H, Liu P, et al. A real-time operation of the Three Gorges Reservoir with flood risk analysis[J]. Water Science and Technology-Water Supply, 2016,16(2): 551-562.

      [44]Tan J, Dai H, Gao Z. Fish species and hydropower projects in upper Yangtze River in China: impacts and rehabilitation[J]. Fresenius Environmental Bulletin, 2016,25(6): 1846-1857.

      [45]Wang C, Xiao S, Li Y, et al. Methane formation and consumption processes in Xiangxi Bay of the Three Gorges Reservoir[J]. Scientific reports, 2014, 4: 4449.

      [46]Wang, C, Wang M, et al. Thalli growth, propagule survival, and integrated physiological response to nitrogen stress of ramalina calicaris var. japonica in Shennongjia Mountain (China) [J]. Frontiers in Plant Science, 2018, 9: 568.

      [47]Wu C, Fang Y, Tirusew A, et al. Photochemical oxidation mechanism of microcystin-RR by pn heterojunction Ag/Ag2O-BiVO4[J]. Chinese Journal of Catalysis, 2017, 38(2): 192-198.

      [48]Wu P, Zhan F, Wang Z, et al. Comparison of horizontal and vertical electric field in the treatment of river sediment by electro-dewatering[J]. Drying Technology, 2019, 37(6): 770-780.

      [49]Shi X, Zhao S, Ding C, et al. Comparison of vertical and horizontal swimming behavior of the weather loach Misgurnus anguillicaudatus. Journal of Fish Biology, 2017, 91: 368–374

      [50]Yuan X, Zhou Y, Huang Y, et al. Effects of temperature and fatigue on the metabolism and swimming capacity of juvenile Chinese sturgeon (Acipenser sinensis). Fish Physiol Biochem, 2017, 24: 1-9.

      [51]Xiao S, Wang C, Wilkinson R J, et al. Theoretical model for diffusive greenhouse gas fluxes estimation across water-air interfaces measured with the static floating chamber method[J]. Atmospheric environment, 2016, 137: 45-52.

      [52]Shi X, Moller J S, Hojgaard J, et al. The angular position of a refuge affects escape responses in staghorn sculpin Leptocottus armatus. Journal of Fish Biology. 2017. 2434-2442

      [53]Shi X, Chen Q, Kynard B, et al. Preference by Juvenile Chinese Sucker Myxocyprinus Asiaticus, for Substrate color in zero vs. slow velocity regimes suggest a change in habitat preference of wild juveniles after damming the Yangtze river. River research and applications. 2017. 1–5.

      [54]Yang G, Zhang Q, Wan R, Lai X, et al. Lake hydrology, water quality and ecology impacts of altered river-lake interactions: advances in research on the middle Yangtze river[J]. Hydrology Research, 2016,47: 1-7.

      [55]Xi Y, Song Y, Liu H, et al. Selenium enhanced degradation of diesel by Erigeron annuus[J]. Journal of Soils and Sediments, 2018, 18(5):1906-1914.

      [56]Yuan X , Huang Y P , Cai L, et al. Zhou. Physiological responses to swimming fatigue in juvenile largemouth bronze gudgeon Coreius guichenoti[J]. Journal of Fish Biology, 2018, 92(4): 1192-1197. (IF= 1.702)

      [57]Yuan X, Zhou Y, Huang Y, et al. Effects of temperature and fatigue on the metabolism and swimming capacity of juvenile Chinese sturgeon (Acipenser sinensis)[J]. Fish physiology and biochemistry, 2017, 43(5): 1279-1287.

      [58]Zhang W, Chen J, Liu J, et al. Spatiotemporal variations of CO2 fluxes in a Cynodon-dominated riparian zone of the Three Gorges Reservoir (TGR), China[J]. Journal of Plant Ecology, 2018, 11(6): 877-886.

      [59]金志軍, 馬衛忠, 張袁寧, . 異齒裂腹魚通過魚道內流速障礙能力及行為[J]. 水利學報. 2018. (4)49:512-522.

      [60]郝文超, 王從鋒, 楊正健, . 氧化還原循環過程中沉積物磷的形態及遷移轉化規律[J]. 環境科學, 2019,(02): 1-14.

      [61]李欣, 宋林旭, 紀道斌, . 春季敏感時期三峽水庫典型支流沉積物-水界面氮釋放特性[J]. 環境科學, 2018,39(03): 1113-1121.

      [62]劉心愿, 宋林旭, 紀道斌, . 降雨對藍藻水華消退影響及其機制分析[J]. 環境科學, 2018,39(02): 774-782.

      [63]劉心愿, 宋林旭, 紀道斌, . 蓄水前后三峽庫區香溪河沉積物磷形態分布特征及釋放通量估算[J]. 環境科學, 2018,39(09): 4169-4178.

      [64]蘇青青, 劉德富, 紀道斌, . 蓄水期三峽水庫香溪河沉積物-水系統營養鹽分布特征[J]. 環境科學, 2018,39(05): 2135-2144.

      [65]蘇青青, 劉德富, 劉綠波, . 三峽水庫蓄水期支流水體營養鹽來源估算[J]. 中國環境科學, 2018,38(10): 3925-3932.

      [66]王煒, 張成, 雷丹, . 靜態浮箱法中不同擬合模型對水-氣界面通量估算的影響[J].長江流域資源與環境, 2018, 04: 900-906.

      [67]龍良紅, 徐慧, 紀道斌, .向家壩水庫水溫時空特征及其成因分析[J]. 長江流域資源與環境, 2017, 738-746.

      [68]徐慧, 龍良紅, 紀道斌, .三峽水庫神農溪2014年春季浮游藻類演替成因分析[J]. 微生物學報, 2017, 375-387.

      [69]胡曉,井沛然,黃利燕,石小濤.涵洞過魚通道典型擋板水力特性研究[J].長江科學院院報,2018,35(09):68-74.

      [70]潘嬋娟, 黎睿, 湯顯強, . 三峽水庫蓄水至175 m后干流沉積物理化性質與磷形態分布特征[J]. 環境科學, 2018, 39(6): 2615-2623.

      [71]郝文超,王從鋒,楊正健,劉德富,紀道斌,趙萍,丹勇,胡子龍.氧化還原循環過程中沉積物磷的形態及遷移轉化規律[J].環境科學,2019,40(2):640-648.

      [72]胡曉, 余英俊, 魏永才, . 基于過魚效果評估的涵洞魚道堰式擋板性能研究與分析[J]. 長江流域資源與環境, 2019 (1): 14.

      [73]黃亞男, 紀道斌, 龍良紅, . 三峽庫區典型支流春季特征及其水華優勢種差異分析[J]. 長江流域資源與環境, 2017, 26(3): 461-470.

      [74]黃亞男,紀道斌,龍良紅,劉德富,宋林旭,蘇青青.三峽庫區典型支流春季特征及其水華優勢種差異分析[J].長江流域資源與環境,2017,26(3):461-470.

      [75]紀道斌, 曹巧麗, 謝濤, . 底部倒灌異重流運動特性試驗研究[J]. 武漢大學學報: 工學版, 2013, 46(3): 300-305.

      [76]李衛明, 艾志強, 劉德富, . 基于水電梯級開發的河流生態健康研究[J]. 長江流域資源與環境, 2016, 25(6): 957-964.

      [77]李欣, 紀道斌, 宋林旭, .香溪河沉積物-水界面的營養鹽交換特征[J].環境科學研究, 2017, 1212-1220.

      [78]李欣, 宋林旭, 紀道斌, . 春季敏感時期三峽水庫典型支流沉積物-水界面氮釋放特性[J]. 環境科學, 2018, 39(3): 1113-1121.

      [79]李欣,紀道斌,宋林旭,蘇青青,陳秀秀,劉德富.香溪河沉積物-水界面的營養鹽交換特征[J].環境科學研究,2017,30(8):1212-1220.

      [80]梁園園, 林晨宇, 陳廷, . 鰱幼魚在不同水流速度下的暴發-滑行行為策略[J]. 水生生物學報, 2016, 40(6): 1187-1193.

      [81]劉心愿, 宋林旭, 紀道斌, . 降雨對藍藻水華消退影響及其機制分析[J]. 環境科學, 2018, 39(2): 774-782.

      [82]劉心愿,宋林旭,紀道斌,.蓄水前后三峽庫區香溪河沉積物磷形態分布特征及釋放通量估算[J].環境科學,2018,39(9):4169-4178.

      [83]羅玉紅, 聶小倩, 李曉玲, . 香溪河沉積物, 間隙水的磷分布特征及釋放通量估算[J]. 環境科學, 2017, 38(6): 2345-2354.

      [84]羅玉紅, 聶小倩, 李曉玲, . 香溪河沉積物、間隙水的磷分布特征及釋放通量估算[J]. 環境科學, 2017, 36(8): 2345-2354.

      [85]石小濤,路波,白艷勤,胡運燊,羅佳,陳求穩,喬曄,劉德富.蚯蚓對瓦氏黃顙魚攝食達氏鰉卵的干擾實驗[J].生態學報,2015,35(4):1045-1050.

      [86]蘇青青,劉德富,紀道斌,宋林旭,崔玉潔,李欣,陳秀秀,劉心愿.蓄水期三峽水庫香溪河沉積物-水系統營養鹽分布特征[J].環境科學,2018,39(05):2135-2144.

      [87]蘇青青,劉德富,劉綠波,紀道斌,崔玉潔,宋林旭,李欣,陳秀秀.三峽水庫蓄水期支流水體營養鹽來源估算[J].中國環境科學,2018,38(10):3925-3932.

      [88]向經文, 王從鋒, 劉德富, . 葛洲壩船閘過魚時空特性研究[J]. 長江流域資源與環境, 2015 (3): 455-463.

      [89]張軍偉, 雷丹, 肖尚斌, . 三峽庫區香溪河秋末至中冬 CO2 CH4 分壓特征分析[J]. 環境科學, 2016, 37(8): 2924-2931.

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