Correlation between soil moisture content and TVDI. by Yuxin Wei (11510974)

Integration of Metabolomics, Transcriptomics, and 16s rRNA Sequencing Reveals the Mechanism of Morus alba <i>L.</i> (Sangzhi) Alkaloids (SZ-A) in Improving Cholesterol Metabolism i... by Caina Li (4126462)

Subjects:

The schematic diagram of the change law of the internal pores of the sample during the freeze-thaw cycle. by Hongqi Wang (2208238)

Antimicrobial Activity of Glycyrrhizinic Acid Is pH-Dependent by Mathieu Joos (20331128)

“…The antimicrobial activity of the hydrogel cannot solely be attributed to the resulting pH decrease of the suspension, as the presence of GA significantly increases the activity. …”

Contents of ions in the soil samples. by Fang Zheng (54278)

“…This phenomenon results in an “S” distribution of the salt content inside the SC. At the end of the freeze-thaw cycle (FTC), the deformation of the saline soil increased with the decrease of the cold end temperature, and the alternating time between heat and cold did not produce significant changes in the deformation of the saline soil. …”

Global Land Use Change Impacts on Soil Nitrogen Availability and Environmental Losses by Jing Wang (6206297)

“…In contrast, reversing managed to natural ecosystems significantly increased NNM by 20% (9.7, 25.4%) and decreased NN by 89% (−125, −46%), indicating increasing N availability while decreasing potential N loss. …”

Livestock–Crop–Mushroom (LCM) Circular System: An Eco-Friendly Approach for Enhancing Plant Performance and Mitigating Microbiological Risks by Dong Liu (115204)

“…Both’St’ and’StM’ increased plant biomass, while with the latter, the crude protein content (+5.1%) and root biomass were also higher. …”

Test scheme. by Fang Zheng (54278)

“…This phenomenon results in an “S” distribution of the salt content inside the SC. At the end of the freeze-thaw cycle (FTC), the deformation of the saline soil increased with the decrease of the cold end temperature, and the alternating time between heat and cold did not produce significant changes in the deformation of the saline soil. …”

Basic physical properties of the soil samples. by Fang Zheng (54278)

“…This phenomenon results in an “S” distribution of the salt content inside the SC. At the end of the freeze-thaw cycle (FTC), the deformation of the saline soil increased with the decrease of the cold end temperature, and the alternating time between heat and cold did not produce significant changes in the deformation of the saline soil. …”

Schematic diagram of WSM test simulator. by Fang Zheng (54278)

“…This phenomenon results in an “S” distribution of the salt content inside the SC. At the end of the freeze-thaw cycle (FTC), the deformation of the saline soil increased with the decrease of the cold end temperature, and the alternating time between heat and cold did not produce significant changes in the deformation of the saline soil. …”

Test device for WSM. by Fang Zheng (54278)

“…This phenomenon results in an “S” distribution of the salt content inside the SC. At the end of the freeze-thaw cycle (FTC), the deformation of the saline soil increased with the decrease of the cold end temperature, and the alternating time between heat and cold did not produce significant changes in the deformation of the saline soil. …”

Supporting data. by Fang Zheng (54278)

“…This phenomenon results in an “S” distribution of the salt content inside the SC. At the end of the freeze-thaw cycle (FTC), the deformation of the saline soil increased with the decrease of the cold end temperature, and the alternating time between heat and cold did not produce significant changes in the deformation of the saline soil. …”

Flow chart of the sample preparation process. by Fang Zheng (54278)

“…This phenomenon results in an “S” distribution of the salt content inside the SC. At the end of the freeze-thaw cycle (FTC), the deformation of the saline soil increased with the decrease of the cold end temperature, and the alternating time between heat and cold did not produce significant changes in the deformation of the saline soil. …”

Particle size curve. by Fang Zheng (54278)

“…This phenomenon results in an “S” distribution of the salt content inside the SC. At the end of the freeze-thaw cycle (FTC), the deformation of the saline soil increased with the decrease of the cold end temperature, and the alternating time between heat and cold did not produce significant changes in the deformation of the saline soil. …”

Compaction curve. by Fang Zheng (54278)

“…This phenomenon results in an “S” distribution of the salt content inside the SC. At the end of the freeze-thaw cycle (FTC), the deformation of the saline soil increased with the decrease of the cold end temperature, and the alternating time between heat and cold did not produce significant changes in the deformation of the saline soil. …”

Data Sheet 1_Chito-oligosaccharide composites enhanced the adaptability of cotton seedlings to salinized soil by modulating photosynthetic efficiency and metabolite.doc by Mengjie An (9501175)

“…COS-PA application decreased leaf Na⁺ content significantly in salt-stressed cotton seedlings by 69.70%, and increased the leaf Ca²⁺ content, fresh weight of each plant part, transpiration rate, leaf chlorophyll concentration (Chl a), actual quantum yield, as well as stomatal conductance by 7.22%, 46.33%-96.36%, 96.65%, 44.53%, 27.15%, and 168.24%, respectively, compared with the no COS-PA application treatment. …”

Image 1_Chito-oligosaccharide composites enhanced the adaptability of cotton seedlings to salinized soil by modulating photosynthetic efficiency and metabolite.tif by Mengjie An (9501175)

“…COS-PA application decreased leaf Na⁺ content significantly in salt-stressed cotton seedlings by 69.70%, and increased the leaf Ca²⁺ content, fresh weight of each plant part, transpiration rate, leaf chlorophyll concentration (Chl a), actual quantum yield, as well as stomatal conductance by 7.22%, 46.33%-96.36%, 96.65%, 44.53%, 27.15%, and 168.24%, respectively, compared with the no COS-PA application treatment. …”

Table1_Local sediment amendment can potentially increase barley yield and reduce the need for phosphorus fertilizer on acidic soils in Kenya.DOCX by Eric Scherwietes (19768551)

“…The Baringo 3% amendment significantly increased soil pH (from 4.7 to 7.0), the available P content (from 0.01 mg g⁻¹ to 0.02 mg g⁻¹) and decreased the Al availability (from 3.03 mg g⁻¹–2.17 mg g⁻¹). …”

Table1_Slow-release boron fertilizer improves yield and nutritional profile of Beta vulgaris L. grown in Northeast China by increasing boron supply capacity.docx by Zhenzhen Wu (4747098)

“…Boron fertilizer can increase soil B content and significantly improve crop yield and quality. …”

Table2_Slow-release boron fertilizer improves yield and nutritional profile of Beta vulgaris L. grown in Northeast China by increasing boron supply capacity.docx by Zhenzhen Wu (4747098)

“…Boron fertilizer can increase soil B content and significantly improve crop yield and quality. …”