Decrease of injuries. by Petr Fulin (8380320)

Subjects:

Decrease of admissions and lead diagnoses. by Petr Fulin (8380320)

Subjects:

Image_2_Salinity significantly affects methane oxidation and methanotrophic community in Inner Mongolia lake sediments.JPEG by Shaohua Zhang (109533)

“…In addition, CH₄ oxidation rate and pmoA gene abundance decreased with increasing salinity, and salinity directly and indirectly affected CH₄ oxidation rate via regulating the community diversity. …”

Image_1_Salinity significantly affects methane oxidation and methanotrophic community in Inner Mongolia lake sediments.JPEG by Shaohua Zhang (109533)

“…In addition, CH₄ oxidation rate and pmoA gene abundance decreased with increasing salinity, and salinity directly and indirectly affected CH₄ oxidation rate via regulating the community diversity. …”

Image_4_Salinity significantly affects methane oxidation and methanotrophic community in Inner Mongolia lake sediments.JPEG by Shaohua Zhang (109533)

“…In addition, CH₄ oxidation rate and pmoA gene abundance decreased with increasing salinity, and salinity directly and indirectly affected CH₄ oxidation rate via regulating the community diversity. …”

Image_3_Salinity significantly affects methane oxidation and methanotrophic community in Inner Mongolia lake sediments.JPEG by Shaohua Zhang (109533)

“…In addition, CH₄ oxidation rate and pmoA gene abundance decreased with increasing salinity, and salinity directly and indirectly affected CH₄ oxidation rate via regulating the community diversity. …”

Image_5_Salinity significantly affects methane oxidation and methanotrophic community in Inner Mongolia lake sediments.JPEG by Shaohua Zhang (109533)

“…In addition, CH₄ oxidation rate and pmoA gene abundance decreased with increasing salinity, and salinity directly and indirectly affected CH₄ oxidation rate via regulating the community diversity. …”

Image_6_Salinity significantly affects methane oxidation and methanotrophic community in Inner Mongolia lake sediments.JPEG by Shaohua Zhang (109533)

“…In addition, CH₄ oxidation rate and pmoA gene abundance decreased with increasing salinity, and salinity directly and indirectly affected CH₄ oxidation rate via regulating the community diversity. …”

In the absence of <i>eIF4E1</i>, global translation activity decreases while virus accumulation increases. by Delyan Zafirov (17420106)

Image_3_Rhizosphere Microbial Communities Are Significantly Affected by Optimized Phosphorus Management in a Slope Farming System.JPEG by Qianxin Deng (11424451)

Image_1_Rhizosphere Microbial Communities Are Significantly Affected by Optimized Phosphorus Management in a Slope Farming System.JPEG by Qianxin Deng (11424451)

Image_4_Rhizosphere Microbial Communities Are Significantly Affected by Optimized Phosphorus Management in a Slope Farming System.JPEG by Qianxin Deng (11424451)

Image_6_Rhizosphere Microbial Communities Are Significantly Affected by Optimized Phosphorus Management in a Slope Farming System.JPEG by Qianxin Deng (11424451)

Image_2_Rhizosphere Microbial Communities Are Significantly Affected by Optimized Phosphorus Management in a Slope Farming System.JPEG by Qianxin Deng (11424451)

Image_5_Rhizosphere Microbial Communities Are Significantly Affected by Optimized Phosphorus Management in a Slope Farming System.JPEG by Qianxin Deng (11424451)

Table_1_Therapeutic Plateletpheresis in Patients With Thrombocytosis: Gender, Hemoglobin Before Apheresis Significantly Affect Collection Efficiency.XLSX by Hongqiang Jiang (1615555)

The top 10 putative metabolites with the largest negative fold change between normal and thin cows. by Bhuripit Saraphol (20855573)

Subjects:

The top 10 putative metabolites with the largest positive fold change between normal and thin cows. by Bhuripit Saraphol (20855573)

Subjects:

Image_4_Repeated Inoculation of Young Calves With Rumen Microbiota Does Not Significantly Modulate the Rumen Prokaryotic Microbiota Consistently but Decreases Diarrhea.TIF by Dengpan Bu (369549)

Image_1_Repeated Inoculation of Young Calves With Rumen Microbiota Does Not Significantly Modulate the Rumen Prokaryotic Microbiota Consistently but Decreases Diarrhea.TIF by Dengpan Bu (369549)