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1. Cross shelf transport of terrigenous organic matter in surface sed.. [205]
2. Contrasting bacterial and archaeal distributions reflecting differ.. [54]
3. MGII古菌在中国近海和河口的空间分布特征 [40]
4. Marine Group II Dominates Planktonic Archaea in Water Column of th.. [25]
5. Impacts of Freshwater and Seawater Mixing on the Production and De.. [24]
6. Molecular composition and spatial distribution of dissolved organi.. [20]
7. Population dynamics of methanogens and methanotrophs along the sal.. [19]
8. Thermoplasmatales and Methanogens: Potential Association with the .. [18]
9. Spatiotemporal distribution and source variations of hydrocarbons .. [18]
10. Sources and compositional distribution of organic carbon in surfac.. [17]
11. Changes in archaeal ether lipid composition in response to agricul.. [16]
12. Origin and preservation of archaeal intact polar tetraether lipids.. [16]
13. In-House Standard Method for Molecular Characterization of Dissolv.. [16]
14. Niche specificity and potential terrestrial organic carbon utiliza.. [16]
15. Phylogenetic Diversity of T4-Type Phages in Sediments from the Sub.. [15]
16. 海洋微型生物碳泵理论的发展与展望 [15]
17. The Distribution of Bathyarchaeota in Surface Sediments of the Pea.. [14]
18. Classification and Identification of Archaea Using Single-Cell Ram.. [14]
19. 泉古菌醇与绿素在东海陆架区的分布及关系研究 [13]
20. A nearly uniform distributional pattern of heterotrophic bacteria .. [12]
21. Insight Into the Pico- and Nano-Phytoplankton Communities in the D.. [12]
22. Branched GDGT production at elevated temperatures in anaerobic soi.. [12]
23. Alternative strategies of nutrient acquisition and energy conserva.. [12]
24. Interactions Between Marine Group II Archaea and Phytoplankton Rev.. [12]
25. Diverse biological sources of core and intact polar isoprenoid GDG.. [11]
26. Current progress and future trends in mass spectrometry-based arch.. [11]
27. Stratification of dissolved organic matter in the upper 2000 m wat.. [11]
28. Environmental factors shaping the archaeal community structure and.. [11]
29. Novel Sulfolobus Virus with an Exceptional Capsid Architecture [10]
30. Influence of Seasonal Temperature Variation and pH Disparity on bG.. [10]
31. Active Anaerobic Archaeal Methanotrophs in Recently Emerged Cold S.. [10]
32. Deterministic Factors Determine the Comammox Community Composition.. [10]
33. Evolving paradigms in biological carbon cycling in the ocean [9]
34. Tectonomicrobiology: A new paradigm for geobiological research [9]
35. 古菌、生命树和真核细胞的功能演化 [9]
36. Characterization of the Exometabolome of Nitrosopumilus maritimus .. [9]
37. A Novel Approach to Characterize the Lipidome of Marine Archaeon N.. [9]
38. Bio-Organic Geochemistry research in China: Advances, opportunitie.. [8]
39. Evaluating Production of Cyclopentyl Tetraethers by Marine Group I.. [8]
40. 季节温度变化及土壤pH差异对土壤bGDGTs温度指标的影响 [8]
41. Marine Group II Euryarchaeota Contribute to the Archaeal Lipid Poo.. [8]
42. Spatial and temporal variations of bacterioplankton in the Chesape.. [8]
43. Spectral characteristics of dissolved organic matter in sediment p.. [8]
44. Estuarine gradients dictate spatiotemporal variations of microbiom.. [8]
45. 理工科本科生人才培养激励机制研究——基于某大学海洋专业学生学习动机.. [8]
46. Distributions and Sources of Glycerol Dialkyl Glycerol Tetraethers.. [7]
47. Spatiotemporal variation of organic geochemical properties since t.. [7]
48. Impact of Terrestrial Input on Deep-Sea Benthic Archaeal Community.. [7]
49. Active Anaerobic Archaeal Methanotrophs in Recently Emerged Cold S.. [7]
50. 海洋浮游古菌MGⅡ的研究进展 [7]
51. The Evolution Pathway of Ammonia-Oxidizing Archaea Shaped by Major.. [7]
52. "三泵集成"打造海洋CO2负排放生态工程 [7]
53. In situ identification of environmental microorganisms with Raman .. [7]
54. Deterministic processes dominate archaeal community assembly from .. [7]
55. Localized high abundance of Marine Group II archaea in the subtrop.. [6]
56. 中国土壤bGDGTs化合物的季节变化特征及对MBT/CBT作为温度指标的影响 [6]
57. Lipidomics in archaeal membrane adaptation to environmental stress.. [6]
58. Vertical Stratification of Dissolved Organic Matter Linked to Dist.. [6]
59. Global scale production of brGDGTs by benthic marine bacteria: Imp.. [6]
60. Diversity, distribution, and functional potentials of magroviruses.. [6]
61. High variability in organic carbon sources and microbial activitie.. [6]
62. Lipidomic diversity and proxy implications of archaea from cold se.. [6]
63. Lipidomic chemotaxonomy aligned with phylogeny of Halobacteria [6]
64. Ultrastructural insights into cellular organization, energy storag.. [6]
65. Archaea, the tree of life, and cellular evolution in eukaryotes [5]
66. Establishing a terrestrial proxy based on fluorescent dissolved or.. [5]
67. Phylogenetic analyses with systematic taxon sampling show that mit.. [5]
68. Distinct Distribution of Archaea From Soil to Freshwater to Estuar.. [5]
69. 甘油四醚类化合物的高分辨质谱表征 [5]
70. A holistic genome dataset of bacteria, archaea and viruses of the .. [5]
71. 理工科本科生人才培养激励机制研究——基于某大学海洋专业学生学习动机.. [5]
72. Virus impacted community adaptation in oligotrophic groundwater en.. [5]
73. Disentangling Effects of Sea Surface Temperature and Water Depth o.. [5]
74. Novel order-level lineage of ammonia-oxidizing archaea widespread .. [5]
75. Editorial: Ecology, Metabolism and Evolution of Archaea-Perspectiv.. [4]
76. Changes of organic matter composition in surface sediments from th.. [4]
77. Biosynthesis of Hybrid Neutral Lipids with Archaeal and Eukaryotic.. [4]
78. A moderately thermophilic origin of a novel family of marine group.. [4]
79. Potential influence of bacterial community structure on the distri.. [4]
80. Oxygen-driven divergence of marine group II archaea reflected by t.. [4]
81. RSPSSL: A novel high-fidelity Raman spectral preprocessing scheme .. [4]
82. Strong linkage between benthic oxygen uptake and bacterial tetraet.. [4]
83. 高校书院院系协同育人模式研究——以某高校为例 [4]
84. Anomalous Phylogenetic Behavior of Ribosomal Proteins in Metagenom.. [3]
85. 实施海洋负排放践行碳中和战略 [3]
86. Linking Bacterial Communities to Optical-Derived Properties of Por.. [3]
87. Editorial: Carbon storage by marine microorganisms for carbon neut.. [3]
88. The production of diverse brGDGTs by an Acidobacterium providing a.. [3]
89. Eco-engineering approaches for ocean negative carbon emission [3]
90. Complete Genome Sequence of Stutzerimonas stutzeri Strain SOCE 002.. [3]
91. 基于Web of Science的中国海洋学科发展现象与研究热点分析 [3]
92. Gene inversion led to the emergence of brackish archaeal heterotro.. [3]
93. 海洋微生物学复合型人才培养实验课程改革探究 [2]
94. 云南腾冲热海地球科学野外教学资源及实习基地建设 [2]
95. Publisher Correction: Size-fractionated microbiome observed during.. [2]
96. 古菌:生命的奥秘 [2]
97. Metagenomic insights into microbial adaptation to the salinity gra.. [2]
98. Application of single-cell Raman-deuterium isotope probing to reve.. [2]
99. 珠江口外东澳岛海域MGⅠ古菌和藻类的昼夜变化关系的研究 [1]
100. Editorial: Carbon storage by marine microorganisms for carbon neut.. [1]
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