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访问统计
月访问量

76

  • 内部: 1

  • 外部: 75

  • 国内: 69

  • 国外: 7

年访问量

2045

  • 内部: 5

  • 外部: 2040

  • 国内: 2006

  • 国外: 39

总访问量

10493

  • 内部: 82

  • 外部: 10411

  • 国内: 10247

  • 国外: 246

访问量
访问量
1. Effects of agricultural activities on the temporal variations of s.. [1602]
2. Sustainable Horizons [1204]
3. Global mapping reveals increase in lacustrine algal blooms over th.. [1124]
4. Human health risk assessment of antibiotic resistance associated w.. [891]
5. Water scarcity assessments in the past, present, and future [796]
6. Facile synthesis of promising phosphorus fertilizer from sewage sl.. [418]
7. Global water resources and the role of groundwater in a resilient .. [352]
8. Hydrogeology of the Pearl River Delta, southern China [310]
9. MIL-53(Fe) incorporated in the lamellar BiOBr: Promoting the visib.. [261]
10. Epistemological dimensions of the water-energy-food nexus approach.. [246]
11. Deceleration of China's human water use and its key drivers [244]
12. Concerns about phytoplankton bloom trends in global lakes [235]
13. The Water-Energy Nexus of Megacities Extends Beyond Geographic Bou.. [229]
14. Challenges in operationalizing the water-energy-food nexus [228]
15. Occurrence and distribution of antibiotics in groundwater, surface.. [227]
16. Statistical Analysis of Extreme Events in Precipitation, Stream Di.. [220]
17. Development of fresh groundwater lens in coastal reclaimed islands [207]
18. Alleviating water scarcity and poverty in drylands through telecou.. [207]
19. Transcriptomic Responses of Bisphenol S Predict Involvement of Imm.. [200]
20. Managing the energy-water-food nexus for sustainable development [197]
21. Sulfadiazine biodegradation by Phanerochaete chrysosporium: Mechan.. [195]
22. Product characteristics and kinetics of sewage sludge pyrolysis dr.. [193]
23. A review of specific storage in aquifers [189]
24. An Integrated Modeling Approach to Study the Surface Water-Groundw.. [183]
25. Efficient detection and assessment of human exposure to trace anti.. [183]
26. Heavy metal contamination in surface sediments: A comprehensive, l.. [182]
27. Spatial-temporal distribution of microplastics in surface water an.. [182]
28. The comparative toxicities of BPA, BPB, BPS, BPF, and BPAF on the .. [182]
29. Adaptive Multirate Mass Transfer (aMMT) Model: A New Approach to U.. [180]
30. A simple and objective method to partition evapotranspiration into.. [178]
31. Evidence linking exposure of fish primary macrophages to antibioti.. [178]
32. Bisphenol S-induced chronic inflammatory stress in liver via perox.. [177]
33. Novel Calcium Oxide-Enhancement Phosphorus Recycling Technique thr.. [177]
34. Effect of low-level H2O2 and Fe(II) on the UV treatment of tetracy.. [177]
35. Sources and Dynamics of Dissolved Inorganic Carbon, Nitrogen, and .. [175]
36. Photolysis of enrofloxacin, pefloxacin and sulfaquinoxaline in aqu.. [174]
37. COVID-19 waste management: Effective and successful measures in Wu.. [173]
38. Amino-functionalized sewage sludge-derived biochar as sustainable .. [170]
39. Role of Groundwater in the Dryland Ecohydrological System: A Case .. [168]
40. A Modified Water-Table Fluctuation Method to Characterize Regional.. [167]
41. How much is global business sectors contributing to sustainable de.. [167]
42. 地下水污染物在高度非均质介质中的迁移过程:机理与数值模拟综述 [164]
43. Perfluorooctane Sulfonamide (PFOSA) Induces Cardiotoxicity via Ary.. [164]
44. In vivo actions of Bisphenol F on the reproductive neuroendocrine .. [163]
45. Hydrogeological constraints and opportunities for “Sponge City” .. [163]
46. A comprehensive graphical modeling platform designed for integrate.. [162]
47. The in vivo action of chronic bisphenol F showing potential immune.. [162]
48. Anthropogenic transformation of Yangtze Plain freshwater lakes: pa.. [161]
49. Co-transport of biogenic nano-hydroxyapatite and Pb(II) in saturat.. [161]
50. Cardiotoxicity of PFOA, PFOS, and PFOSA in Early Life Stage Zebraf.. [161]
51. Urban water sustainability: framework and application [160]
52. The occurrence, potential toxicity, and toxicity mechanism of bisp.. [159]
53. Improvement of evaluation of water age and submarine groundwater d.. [159]
54. Assessing the interlinkage of green and blue water in an arid catc.. [158]
55. Assessing progress towards sustainable development in Shenzhen 200.. [158]
56. Analysis of groundwater resources in densely populated urban water.. [157]
57. Optimizing conjunctive use of surface water and groundwater for ir.. [156]
58. Quantifying nitrogen leaching response to fertilizer additions in .. [155]
59. Maternal exposure to environmental antibiotic mixture during gravi.. [155]
60. Review: Safe and sustainable groundwater supply in China [153]
61. Ecohydrology [152]
62. Hydrological Cycle in the Heihe River Basin and Its Implication fo.. [152]
63. LAGRANGIAN SOLVER FOR VECTOR FRACTIONAL DIFFUSION IN BOUNDED ANISO.. [152]
64. Persulfate activation by natural zeolite supported nanoscale zero-.. [150]
65. Occurrence of antibiotics in the main rivers of Shenzhen, China: A.. [150]
66. The Nexus of Water, Ecosystems, and Agriculture in Endorheic River.. [150]
67. The food-energy-water nexus: Transforming science for society [150]
68. An improved method for the calculation of unsaturated-saturated wa.. [150]
69. Doubling of annual forest carbon loss over the tropics during the .. [150]
70. Precipitation storm property distributions with heavy tails follow.. [149]
71. Analysis of Water Management Scenarios Using Coupled Hydrological .. [148]
72. Emission sources and full spectrum of health impacts of black carb.. [148]
73. Alkali metal-driven release behaviors of volatiles during sewage s.. [147]
74. Comparing the effects of humic acid and oxalic acid on Pb(II) immo.. [147]
75. Plans to protect China's depleted groundwater [147]
76. Integration of groundwater into China's south-north water transfer.. [146]
77. Quantifying fate and transport of nitrate in saturated soil system.. [146]
78. Groundwater-surface water exchanges and associated nutrient fluxes.. [145]
79. Optimization of management strategies for reducing nitrogen loadin.. [145]
80. Raman-deuterium isotope probing to study metabolic activities of s.. [145]
81. Predicting Regional Wastewater Treatment Plant Discharges Using Ma.. [145]
82. Application of fractional differential equation to interpret the d.. [144]
83. Effect of Calcium Hydroxide on the Pyrolysis Behavior of Sewage Sl.. [144]
84. Evaluation of Water and Energy Nexus in Wami Ruvu River Basin, Tan.. [143]
85. Carboxylated Nanodiamond-Enhanced Photocatalytic Membranes with Im.. [143]
86. Climate change, environmental impact, and human health [143]
87. An integrated ecohydrological modeling approach to exploring the d.. [142]
88. Groundwater Complexity in Urban Catchments: Shenzhen, Southern Chi.. [141]
89. Single and joint toxic effects of four antibiotics on some metabol.. [141]
90. Enhanced Cr(VI) removal from water using a green synthesized nanoc.. [140]
91. Seawater-groundwater exchange and nutrients carried by submarine g.. [139]
92. Macromolecular humic acid modified nano-hydroxyapatite for simulta.. [138]
93. Exploring spatial heterogeneity and temporal dynamics of human-hyd.. [137]
94. Hillslopes in Headwaters of Qinghai-Tibetan Plateau as Hotspots fo.. [137]
95. An empirical porosity-depth model for Earth's crust [136]
96. Comparison of Simulated Spatial Patterns Using Rain Gauge and Pola.. [133]
97. Numerical Simulations of Seasonally Oscillated Groundwater Dynamic.. [131]
98. Improving Estimation of Submarine Groundwater Discharge Using Radi.. [131]
99. Analysis of the groundwater flow system in a high-altitude headwat.. [130]
100. Application of Tempered-Stable Time Fractional-Derivative Model to.. [128]
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