Selected headwater subcatchment for model calibration in the five river basins (refer to Fig 2 for gauge location). by Fazlul Karim (7225826)

Patterns of Variation at <i>Ustilago maydis</i> Virulence Clusters 2A and 19A Largely Reflect the Demographic History of Its Populations by Ronny Kellner (189885)

“…However, genetic variation of clusters 2A and 19A each resolve the large scale population structure of <i>U. maydis</i> indicating subpopulations with decreased gene flow. …”

Study area map showing river basins, drainage systems and weather monitoring stations (basemap source: ESRI, https://www.arcgis.com/home/item.html?id=2ef1306b93c9459ca7c7b4f872c070... by Fazlul Karim (7225826)

Change in Mean Anxiety Scores Over time by group. by Shaaista Budhani (21030221)

Detailed alveolar numbers for each animal. by David Haberthür (8407422)

Percentage of singletons and median clone size. by John M. Murray (150672)

Cells contributing to residual viremia. by John M. Murray (150672)

Normalized acinar volumes. by David Haberthür (8407422)

Detailed volume data (in mm³) for each animal. by David Haberthür (8407422)

Number and size of clonal populations. by John M. Murray (150672)

Fig 3 - by Fazlul Karim (7225826)

Details of alveolar density (number per mm³) per acinus volume for each animal. by David Haberthür (8407422)

Histograms of clonal sizes for the individual simulation with parameters as described in Fig 8. by John M. Murray (150672)

Mechanical loading decreased cortical porosity in <i>Bmpr1a</i> cKO bones. by Ayaka Iura (816567)

Flexible ureterorenoscopy and laser lithotripsy with regional anesthesia vs general anesthesia: A prospective randomized study by Murat Sahan (5139272)

Reservoir and pVL dynamics for the parameter set that best reproduced the year 11.4 ART clone profile. by John M. Murray (150672)

Enhancing the Performance of Nickel Electrocatalysts for the Oxygen Evolution Reaction Using Arrays of Self-Cleaning Linear Ridges by Alex J. G. Rea (18260020)

“…In general, persistent bubbles that grow on the surfaces of an electrode obstruct a portion of the electrochemically active surface area, resulting in a decreased overall efficiency. …”

Enhancing the Performance of Nickel Electrocatalysts for the Oxygen Evolution Reaction Using Arrays of Self-Cleaning Linear Ridges by Alex J. G. Rea (18260020)

“…In general, persistent bubbles that grow on the surfaces of an electrode obstruct a portion of the electrochemically active surface area, resulting in a decreased overall efficiency. …”

Enhancing the Performance of Nickel Electrocatalysts for the Oxygen Evolution Reaction Using Arrays of Self-Cleaning Linear Ridges by Alex J. G. Rea (18260020)

“…In general, persistent bubbles that grow on the surfaces of an electrode obstruct a portion of the electrochemically active surface area, resulting in a decreased overall efficiency. …”

Enhancing the Performance of Nickel Electrocatalysts for the Oxygen Evolution Reaction Using Arrays of Self-Cleaning Linear Ridges by Alex J. G. Rea (18260020)

“…In general, persistent bubbles that grow on the surfaces of an electrode obstruct a portion of the electrochemically active surface area, resulting in a decreased overall efficiency. …”