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Keyword [Deep-sea]
Result: 161 - 180 | Page: 9 of 10
161. Piezophilic Adaptive Mechanism Of Deep-sea Hyperthermophilic Piezophilic Archaeon Pyrococcus Yayanosii
162. Early Pleistocene Climate Changes Recorded By Deep-sea Sediments Of Site U1313in The North Atlantic
163. Aaptation Mechanism Of Deep-sea Bacterium Shewanella Piezotolerans WP3-anaerobic Respiratory System Response To Different Environmental And Regulatory Factors
164. The Environment Adapted Lifestyles Of Deep-sea Sediment Bacterium Pseudoalteromonas Sp.SM9913 And The Involved Physiological And Genetic Mechanisms
165. Secondary Metabolites And Bioactivities From Two Deep-Sea-Derived Fungi
166. Methodology Of Quality Management And Assessment Of Deep Sea Measuring Equipment
167. The Taxnomy Of Deep Sea Sponges From The West Pacific Ocean And Preliminary Study Of Their Molecular Phylogeny
168. Dynamic Response Analysis Of Coupled Parametric Vibration And Vortex-induced Vibration For Top-Tension Riser In Deep-sea
169. Analysis On Deep-sea Sediments’ Bearing Capacity Controlled By Subsidence Depth
170. The Investigation On Microbial Diversity Of Arctic Deep Sea Sediments
171. Construction Of Metagenomic Library Of Arctic Deep-sea Sediment And Identification Of A Novel Chitin Deacetylase Gene
172. Preliminary Studies On The Benthos From Deep-sea Hydrothermal Fields In Indian Ocean And East Pacific Rise
173. Archaeal Diversity And Community Structure In Marine Sediments From The Source Area Of Kuroshio
174. Isolation And Diversity Of Sulfur Oxidizing-Bacteria In Deep Sea Of South Atlantic
175. Simulation And Control For Motion And Force On Equivalent Depth Truncated Points Of Deep Sea Mooring Line
176. Study On The Propagation Model For The Deep-sea Internal Waves And Its Numerical Simulation
177. Cloning, Expression, And Characterization Of A Ph-Stable Xylanase From A Deep-Sea Microorganism, Demequina Sp.JK4
178. Cloning, Expression And Characterization Of Xylosidase And Xylanase From The Deep-sea Kocuria Sp.Mn22
179. Research On The Technologies Of Deep-sea Self-potential Method
180. The Diversity And Metabolic Pathway Analysis Of Uncultured Archaea From Deep-sea Environment
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