Feature importance of the extracted characteristics from the simulation using Mean Decrease in Impurity (MDI). by Simon Bin Akter (17951860)

RTs (in ms, bars) and ACC (in%, line) across time points, with 95% confidence interval. by Marcel F. Hinss (14675457)

Subjects:

RTs (in ms, bars) and ACC (in %, line) across all tasks, with 95% confidence interval. by Marcel F. Hinss (14675457)

Subjects:

Distribution of capillary blood volume per device across all phases. by Harika Dasari (18145735)

Lick latency across trial types. by Alice Berners-Lee (15354255)

Loss of nsp14-ExoN activity decreases recombination frequency and alters recombination junction patterns across the genome. by Jennifer Gribble (10005444)

Venn diagram illustrating common and unique DEPs across group comparisons. by Miao Cheng (4348510)

Association across weeks to treatment for three genera. by Katrine Carlsen (5477300)

Subjects:

SST Trends across the MHI and 12 intertidal study sites, 2004–2019. by Rebecca J. Ward (9872202)

Subjects: “…invertebrate communities across…”

Baseline characteristics across conventional cigarette use status. by Erfan Tasdighi (9144667)

Subjects:

Sales price for burned and unburned structures across years. by Erin Conlisk (163376)

Subjects:

Significant results of the MR analysis. by Nikolina Pleić (18858220)

Example feature distribution differences across datasets. by Daniel A. Adler (12468970)

Table_4_Anticyclonic Eddy Driving Significant Changes in Prokaryotic and Eukaryotic Communities in the South China Sea.XLSX by Fulin Sun (4276096)

“…An obvious effect of the ACE was the increase in abundance and depth distribution of small photosynthetic and heterotrophic bacteria, such as SAR11, Prochlorococcus, Rhodospirillales and Oceanospirillales. While ACE decreased the relative abundance of nutrient-rich phytoplankton (Bacillariophyta and Mamiellophyceae), resulted in more growth space for other eukaryotes that prefer oligotrophic environment (especially Fungi, Dictyochophyceae, and Synurophyceae). …”

Table_1_Anticyclonic Eddy Driving Significant Changes in Prokaryotic and Eukaryotic Communities in the South China Sea.XLSX by Fulin Sun (4276096)

“…An obvious effect of the ACE was the increase in abundance and depth distribution of small photosynthetic and heterotrophic bacteria, such as SAR11, Prochlorococcus, Rhodospirillales and Oceanospirillales. While ACE decreased the relative abundance of nutrient-rich phytoplankton (Bacillariophyta and Mamiellophyceae), resulted in more growth space for other eukaryotes that prefer oligotrophic environment (especially Fungi, Dictyochophyceae, and Synurophyceae). …”

Table_4_Anticyclonic Eddy Driving Significant Changes in Prokaryotic and Eukaryotic Communities in the South China Sea.XLSX by Fulin Sun (4276096)

“…An obvious effect of the ACE was the increase in abundance and depth distribution of small photosynthetic and heterotrophic bacteria, such as SAR11, Prochlorococcus, Rhodospirillales and Oceanospirillales. While ACE decreased the relative abundance of nutrient-rich phytoplankton (Bacillariophyta and Mamiellophyceae), resulted in more growth space for other eukaryotes that prefer oligotrophic environment (especially Fungi, Dictyochophyceae, and Synurophyceae). …”

Table_2_Anticyclonic Eddy Driving Significant Changes in Prokaryotic and Eukaryotic Communities in the South China Sea.XLSX by Fulin Sun (4276096)

“…An obvious effect of the ACE was the increase in abundance and depth distribution of small photosynthetic and heterotrophic bacteria, such as SAR11, Prochlorococcus, Rhodospirillales and Oceanospirillales. While ACE decreased the relative abundance of nutrient-rich phytoplankton (Bacillariophyta and Mamiellophyceae), resulted in more growth space for other eukaryotes that prefer oligotrophic environment (especially Fungi, Dictyochophyceae, and Synurophyceae). …”

Table_3_Anticyclonic Eddy Driving Significant Changes in Prokaryotic and Eukaryotic Communities in the South China Sea.XLSX by Fulin Sun (4276096)

“…An obvious effect of the ACE was the increase in abundance and depth distribution of small photosynthetic and heterotrophic bacteria, such as SAR11, Prochlorococcus, Rhodospirillales and Oceanospirillales. While ACE decreased the relative abundance of nutrient-rich phytoplankton (Bacillariophyta and Mamiellophyceae), resulted in more growth space for other eukaryotes that prefer oligotrophic environment (especially Fungi, Dictyochophyceae, and Synurophyceae). …”

Table_1_Anticyclonic Eddy Driving Significant Changes in Prokaryotic and Eukaryotic Communities in the South China Sea.XLSX by Fulin Sun (4276096)

“…An obvious effect of the ACE was the increase in abundance and depth distribution of small photosynthetic and heterotrophic bacteria, such as SAR11, Prochlorococcus, Rhodospirillales and Oceanospirillales. While ACE decreased the relative abundance of nutrient-rich phytoplankton (Bacillariophyta and Mamiellophyceae), resulted in more growth space for other eukaryotes that prefer oligotrophic environment (especially Fungi, Dictyochophyceae, and Synurophyceae). …”

Table_2_Anticyclonic Eddy Driving Significant Changes in Prokaryotic and Eukaryotic Communities in the South China Sea.XLSX by Fulin Sun (4276096)

“…An obvious effect of the ACE was the increase in abundance and depth distribution of small photosynthetic and heterotrophic bacteria, such as SAR11, Prochlorococcus, Rhodospirillales and Oceanospirillales. While ACE decreased the relative abundance of nutrient-rich phytoplankton (Bacillariophyta and Mamiellophyceae), resulted in more growth space for other eukaryotes that prefer oligotrophic environment (especially Fungi, Dictyochophyceae, and Synurophyceae). …”