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

Spatial patterns of LUC in 2035 different scenarios. by Bao Zhou (20670850)

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Distribution of total ESs and hotspots under future climate change. by Bao Zhou (20670850)

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Weights of each ecosystem service category during the study period. by Bao Zhou (20670850)

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Spatio-temporal changes in SDG under multi-scenario spatio-temporal scenarios. by Bao Zhou (20670850)

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Weighting settings for land use projections across multiple scenarios. by Bao Zhou (20670850)

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Study area. by Bao Zhou (20670850)

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LUC in southeast Yunnan under different scenarios in 2035. by Bao Zhou (20670850)

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Distribution of ESs and hot and cold spots during the historical period. by Bao Zhou (20670850)

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Spatial distribution of ESs. by Bao Zhou (20670850)

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Correspondence of support for SDGs across ESs categories. by Bao Zhou (20670850)

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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. …”

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

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

“…The moisture content at the upper end of the SC increases with decreasing cold-end temperature. The increase in the number of FTCs exacerbates the salinization of the soil in a certain part of the interior of the SC. …”

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

“…The moisture content at the upper end of the SC increases with decreasing cold-end temperature. The increase in the number of FTCs exacerbates the salinization of the soil in a certain part of the interior of the SC. …”

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). …”

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

“…The’StM’ had a three-fold stronger inhibitory effect on oat rhizosphere soil pathogens than’St’. Moreover, compared to’St’,’StM’ suppressed pathogens in seeds and stems, with specific beneficial biomarker microbes in different plant parts. …”

Test scheme. by Fang Zheng (54278)

“…The moisture content at the upper end of the SC increases with decreasing cold-end temperature. The increase in the number of FTCs exacerbates the salinization of the soil in a certain part of the interior of the SC. …”

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

“…The moisture content at the upper end of the SC increases with decreasing cold-end temperature. The increase in the number of FTCs exacerbates the salinization of the soil in a certain part of the interior of the SC. …”

Test device for WSM. by Fang Zheng (54278)

“…The moisture content at the upper end of the SC increases with decreasing cold-end temperature. The increase in the number of FTCs exacerbates the salinization of the soil in a certain part of the interior of the SC. …”