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Visits

1. Application of biofertilizer containing Bacillus subtilis reduced .. [83]
2. Bacillus subtilis biofertilizer mitigating agricultural ammonia em.. [77]
3. 嗜根寡养单胞菌DSM 14405~T对高浓度Cr(Ⅵ)的抗性及其还原特性分析 [71]
4. 大麦虫幼虫肠道菌群对聚苯乙烯泡沫塑料降解 [60]
5. 合成微生物体系研究进展 [54]
6. Chitinophaga caeni sp nov., isolated from activated sludge [52]
7. 解淀粉芽孢杆菌生物有机肥防控土壤氨挥发 [52]
8. 全氟辛烷磺酸生物降解研究进展 [50]
9. Effective removal of antibiotic resistance genes and potential lin.. [48]
10. Niche differentiation of denitrifying anaerobic methane oxidizing .. [48]
11. Electron acceptors for anaerobic oxidation of methane drive microb.. [45]
12. Investigating the bacterial community and amoebae population in ru.. [45]
13. 碳纤维电极及其制备方法、双极室生物电化学设备 [43]
14. Bacterial Communities Changes during Food Waste Spoilage [42]
15. Purification and reuse of non-point source wastewater via Myriophy.. [42]
16. 污泥处理方法 [41]
17. 农田土壤氨挥发的过程和控制技术研究 [41]
18. 填料装置 [40]
19. 纤维微菌及其对含铬废水处理的应用 [40]
20. Linking N2O Emissions from Biofertilizer-Amended Soil of Tea Plant.. [40]
21. 防治滴灌灌水器堵塞的微生物控制方法 [39]
22. Enhancement of facultative anaerobic denitrifying communities by o.. [39]
23. Microbial Community Analyses Associated with Nine Varieties of Win.. [39]
24. Revealing Fungal Communities in Alpine Wetlands through Species Di.. [39]
25. Effect of Trichoderma viride biofertilizer on ammonia volatilizati.. [37]
26. Myriophyllum aquaticum-Based Surface Flow Constructed Wetlands for.. [37]
27. 用于富集培养厌氧氨氧化菌的装置 [36]
28. Dynamic variations of microbial community structure in Myriophyllu.. [36]
29. 一种提高苯系物细胞传感器检测效果的固定化方法 [35]
30. 脱氮装置 [35]
31. The adaptability of a wetland plant species Myriophyllum aquaticum.. [35]
32. 纳米膜覆盖对畜禽粪便好氧堆肥进程及恶臭气体排放的影响 [35]
33. Characterization of tetracycline-resistant microbiome in soil-plan.. [35]
34. Comprehensive assessment of free nitrous acid-based technology to .. [34]
35. Microbial community overlap between the phyllosphere and rhizosphe.. [34]
36. Realizing the role of N-acyl-homoserine lactone-mediated quorum se.. [33]
37. Performance and mechanisms of thermally treated bentonite for enha.. [32]
38. The Occurrence of Putative Nitric Oxide Dismutase (Nod) in an Alpi.. [32]
39. 一种适用于绿狐尾藻青贮的乳酸菌菌剂及其制备方法和应用 [32]
40. 三江平原湿地开垦对土壤微生物群落结构的影响 [32]
41. Characterization and transcriptomic analysis of a highly Cr(VI)-re.. [30]
42. 污泥处理装置 [29]
43. Unraveling Mechanisms and Impact of Microbial Recruitment on Oilse.. [27]
44. 义乌岩口水库汇水区水质时空变化及富营养化特征研究 [27]
45. 用于消除农村型黑臭水体的治理方法 [26]
46. Long- and short-chain AHLs affect AOA and AOB microbial community .. [26]
47. Abundance, rather than composition, of methane-cycling microbes ma.. [25]
48. 松嫩平原芦苇湿地退化与修复过程中土壤细菌和甲烷代谢微生物的群落结构 [25]
49. 嗜根寡养单胞菌DSM14405在还原六价铬中的应用 [24]
50. 一种利用马铃薯淀粉废水制备的微生物肥料及其方法 [24]
51. 一种利用木薯酒精废水生产的微生物肥料及其应用 [24]
52. Mitigation of Eutrophication in a Shallow Lake: The Influences of .. [24]
53. Engineering Microbial Consortia towards Bioremediation [24]
54. Genetic diversity of diazotrophs and total bacteria in the phyllos.. [23]
55. Seasonal variation of epiphytic bacteria in the phyllosphere of Gi.. [23]
56. 修复土壤的方法 [22]
57. Achieving efficient nitrogen removal from real sewage via nitrite .. [22]
58. The acetotrophic pathway dominates methane production in Zoige alp.. [22]
59. Application of Internal Carbon Source from Sewage Sludge: A Vital .. [22]
60. 基于水资源可持续发展与水生态文明建设的义乌“五水共治”新模式 [22]
61. Efficiency and mechanism of reducing ammonia volatilization in alk.. [22]
62. 用于消除湖库型黑臭水体的治理方法 [21]
63. Complex regulatory network allows Myriophyllum aquaticum to thrive.. [21]
64. 修复富营养化水体的装置 [20]
65. Biodegradation of expanded polystyrene and low-density polyethylen.. [20]
66. Microbial community changes in a full-scale wastewater treatment s.. [20]
67. “五水共治”措施对义乌江流域水污染负荷削减的定量分析 [20]
68. 一种利用绿狐尾藻处理污水厂尾水的方法 [19]
69. 一种消除河流型黑臭水体的方法 [19]
70. Enhancing nitrogen removal from anaerobically-digested swine waste.. [19]
71. 净化水体的装置 [18]
72. Disentangling Responses of the Subsurface Microbiome to Wetland St.. [18]
73. Mineralosphere Microbiome Leading to Changed Geochemical Propertie.. [17]
74. Comparative Genome Analysis Provides Molecular Evidence for Reclas.. [16]
75. Differences in soil microbial response to anthropogenic disturbanc.. [15]
76. Anaerobic degradation of xenobiotic organic contaminants (XOCs): T.. [15]
77. Transcriptomic Sequencing and Co-Expression Network Analysis on Ke.. [14]
78. 岩口水库上游农村点源污染问题解析及解决策略 [13]

Downloads

1. Linking N2O Emissions from Biofertilizer-Amended Soil of Tea Plant.. [21]
2. 碳纤维电极及其制备方法、双极室生物电化学设备 [20]
3. Chitinophaga caeni sp nov., isolated from activated sludge [20]
4. Electron acceptors for anaerobic oxidation of methane drive microb.. [20]
5. Investigating the bacterial community and amoebae population in ru.. [20]
6. 合成微生物体系研究进展 [20]
7. 一种适用于绿狐尾藻青贮的乳酸菌菌剂及其制备方法和应用 [19]
8. Enhancement of facultative anaerobic denitrifying communities by o.. [19]
9. 解淀粉芽孢杆菌生物有机肥防控土壤氨挥发 [19]
10. Effective removal of antibiotic resistance genes and potential lin.. [19]
11. 填料装置 [18]
12. 污泥处理方法 [18]
13. Bacterial Communities Changes during Food Waste Spoilage [18]
14. Microbial Community Analyses Associated with Nine Varieties of Win.. [18]
15. 大麦虫幼虫肠道菌群对聚苯乙烯泡沫塑料降解 [18]
16. 农田土壤氨挥发的过程和控制技术研究 [18]
17. 一种提高苯系物细胞传感器检测效果的固定化方法 [17]
18. 用于富集培养厌氧氨氧化菌的装置 [17]
19. Realizing the role of N-acyl-homoserine lactone-mediated quorum se.. [17]
20. Myriophyllum aquaticum-Based Surface Flow Constructed Wetlands for.. [16]
21. 全氟辛烷磺酸生物降解研究进展 [16]
22. Application of biofertilizer containing Bacillus subtilis reduced .. [16]
23. 纤维微菌及其对含铬废水处理的应用 [15]
24. Comprehensive assessment of free nitrous acid-based technology to .. [15]
25. Effect of Trichoderma viride biofertilizer on ammonia volatilizati.. [15]
26. The adaptability of a wetland plant species Myriophyllum aquaticum.. [15]
27. Microbial community overlap between the phyllosphere and rhizosphe.. [15]
28. 纳米膜覆盖对畜禽粪便好氧堆肥进程及恶臭气体排放的影响 [15]
29. 脱氮装置 [14]
30. 嗜根寡养单胞菌DSM14405在还原六价铬中的应用 [14]
31. 一种利用木薯酒精废水生产的微生物肥料及其应用 [14]
32. Dynamic variations of microbial community structure in Myriophyllu.. [14]
33. Niche differentiation of denitrifying anaerobic methane oxidizing .. [14]
34. 一种利用马铃薯淀粉废水制备的微生物肥料及其方法 [13]
35. 嗜根寡养单胞菌DSM 14405~T对高浓度Cr(Ⅵ)的抗性及其还原特性分析 [13]
36. 基于水资源可持续发展与水生态文明建设的义乌“五水共治”新模式 [13]
37. Efficiency and mechanism of reducing ammonia volatilization in alk.. [13]
38. Purification and reuse of non-point source wastewater via Myriophy.. [12]
39. The Occurrence of Putative Nitric Oxide Dismutase (Nod) in an Alpi.. [12]
40. 三江平原湿地开垦对土壤微生物群落结构的影响 [12]
41. Abundance, rather than composition, of methane-cycling microbes ma.. [12]
42. Long- and short-chain AHLs affect AOA and AOB microbial community .. [12]
43. 修复富营养化水体的装置 [11]
44. Revealing Fungal Communities in Alpine Wetlands through Species Di.. [11]
45. Performance and mechanisms of thermally treated bentonite for enha.. [10]
46. 修复土壤的方法 [10]
47. Achieving efficient nitrogen removal from real sewage via nitrite .. [10]
48. Genetic diversity of diazotrophs and total bacteria in the phyllos.. [10]
49. The acetotrophic pathway dominates methane production in Zoige alp.. [10]
50. Disentangling Responses of the Subsurface Microbiome to Wetland St.. [10]
51. “五水共治”措施对义乌江流域水污染负荷削减的定量分析 [10]
52. Engineering Microbial Consortia towards Bioremediation [10]
53. 污泥处理装置 [9]
54. Bacillus subtilis biofertilizer mitigating agricultural ammonia em.. [9]
55. Microbial community changes in a full-scale wastewater treatment s.. [9]
56. Unraveling Mechanisms and Impact of Microbial Recruitment on Oilse.. [9]
57. 松嫩平原芦苇湿地退化与修复过程中土壤细菌和甲烷代谢微生物的群落结构 [9]
58. 义乌岩口水库汇水区水质时空变化及富营养化特征研究 [9]
59. Characterization and transcriptomic analysis of a highly Cr(VI)-re.. [8]
60. Mitigation of Eutrophication in a Shallow Lake: The Influences of .. [8]
61. Characterization of tetracycline-resistant microbiome in soil-plan.. [7]
62. Differences in soil microbial response to anthropogenic disturbanc.. [6]
63. Biodegradation of expanded polystyrene and low-density polyethylen.. [6]
64. Application of Internal Carbon Source from Sewage Sludge: A Vital .. [5]
65. 岩口水库上游农村点源污染问题解析及解决策略 [5]
66. 净化水体的装置 [4]
67. Comparative Genome Analysis Provides Molecular Evidence for Reclas.. [4]
68. Enhancing nitrogen removal from anaerobically-digested swine waste.. [4]
69. Mineralosphere Microbiome Leading to Changed Geochemical Propertie.. [4]
70. Complex regulatory network allows Myriophyllum aquaticum to thrive.. [3]
71. Transcriptomic Sequencing and Co-Expression Network Analysis on Ke.. [2]