Anecdotal case of regression in a clam with naturally acquired BTN. by Rachael M. Giersch (22331947)

The introduction of mutualisms into assembled communities increases their connectance and complexity while decreasing their richness. by Gui Araujo (22170819)

“…When they stop being introduced in further assembly events (i.e. introduced species do not carry any mutualistic interactions), their proportion slowly decreases with successive invasions. (B) Even though higher proportions of mutualism promote higher richness, introducing this type of interaction into already assembled large communities promotes a sudden drop in richness, while stopping mutualism promotes a slight boost in richness increase. …”

A) Right-hand layup gesture. B) Left-hand layup gesture. by María Benito-de-Pedro (22057468)

Flow chart of the literature search. by Xiaojuan Yang (794374)

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Funnel plot for scar thickness. by Xiaojuan Yang (794374)

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Network plot for VSS score. by Xiaojuan Yang (794374)

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Network plot for scar thickness. by Xiaojuan Yang (794374)

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Funnel plot for VSS score. by Xiaojuan Yang (794374)

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Characteristics of the included trials (n = 17). by Xiaojuan Yang (794374)

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Risk of bias graph. by Xiaojuan Yang (794374)

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Network plot for VAS score. by Xiaojuan Yang (794374)

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Funnel plot for VAS score. by Xiaojuan Yang (794374)

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Plot of the surface under the cumulative ranking curve for VAS score. by Xiaojuan Yang (794374)

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Plot of the surface under the cumulative ranking curve for scar thickness. by Xiaojuan Yang (794374)

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Plot of the surface under the cumulative ranking curve for VSS score. by Xiaojuan Yang (794374)

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High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

“…Furthermore, at 1100 °C, thermal conductivity decreased by 34.4%, and the density was only 242 kg/m³, the lowest density among SiO₂-based aerogel composites. …”

High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

“…Furthermore, at 1100 °C, thermal conductivity decreased by 34.4%, and the density was only 242 kg/m³, the lowest density among SiO₂-based aerogel composites. …”

High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

“…Furthermore, at 1100 °C, thermal conductivity decreased by 34.4%, and the density was only 242 kg/m³, the lowest density among SiO₂-based aerogel composites. …”

High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

“…Furthermore, at 1100 °C, thermal conductivity decreased by 34.4%, and the density was only 242 kg/m³, the lowest density among SiO₂-based aerogel composites. …”

High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

“…Furthermore, at 1100 °C, thermal conductivity decreased by 34.4%, and the density was only 242 kg/m³, the lowest density among SiO₂-based aerogel composites. …”