Lane-changing rates. by Xiaoyu Cai (6840461)

The rate of consent to enrollment into the NO/AKI and MINDDS trials dropped significantly during COVID-19. by Josue D. Chirinos (11603568)

“…Statistical analysis revealed a statistically significant difference in enrollment inquiry responses between the two time frames (n = 1,334, P<0.001) and a difference in proportions of 19% (95% CI 12.88% to 25.12%).…”

DataSheet_1_Decreased feeding rates of the copepod Acartia tonsa when exposed to playback harbor traffic noise.pdf by Saskia Kühn (12507086)

“…</p>Results<p>We measured significantly decreased ingestion rates and clearance rates of A. tonsa when exposed to harbor noise compared to ambient conditions. …”

Significant pathways between WI and CO groups. by Xinyue Huang (5595572)

Significant pathways between MR and MS groups. by Xinyue Huang (5595572)

Linguistic variables for assessing importance and ratings. by Yu-Liang Feng (693647)

Semantic differential profile rating constructs. by Melissa Tan (4045742)

The three schizophrenia patient clusters visualized using functional connectivity matrices. To create the visualizations, we take all the windows belonging to a cluster and average... by Eloy Geenjaar (21533195)

Rarefaction curves of quality reads per sample at (A) phylum and (B) genus level operational taxonomic units (OTUs), in patient and control samples. by Duangnapa Roongpiboonsopit (12829198)

Subjects:

Simulated adoption rate by cost. by Fivita Stri (22478294)

Effects of A-Ghrelin on specific growth rate (SGR) and condition factor. by Mohammad Matinfar (21627374)

Statistically significant inter-call subtype correlations in Phase 1 and Phase 2. by Adithi Sundarakrishnan (14019881)

Subjects:

<i>E</i>. <i>coli</i> strains show significant variability in their growth and death dynamics. by Sabrin Hilau (13899783)

Table_1_Salinity significantly affects methane oxidation and methanotrophic community in Inner Mongolia lake sediments.XLSX 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_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. …”