S1 Data - by Ergang Wang (1459321)

“…Meanwhile, plant extract-related treatments significantly increased plant physiological properties and TP (Total protein) content, and decreased the content of MDA (malondialdehyde) by 15.70% -36.59% and PRO (proline) by 30.13% -148.44%. …”

Data Sheet 1_Synchronized nutrition fertilizer improves soil microbial diversity and sugarcane yield through agrochemical and enzymatic regulation.docx by Xiuxiu Qi (22354858)

“…The plant-microbe nutritional exchanges were then improved. In mechanism, SNFert not only supplemented nutrients, but also enriched soil microbial diversity by increasing soil pH and decreasing soil salinity and mineral nutrient residues, thereby improving soil properties and increasing sugarcane yield in 2020.…”

Data Sheet 1_Unraveling microbial shifts and plant growth responses in Chrysanthemum ‘Merlino’ due to artificial root exudates in horticultural substrates.pdf by Steffi Pot (10533497)

Data Sheet 1_Effects of continuous cropping on soil metabolomics and rhizosphere bacterial communities in Panax quinquefolius L..docx by Jian Song (4232)

“…Microbial community composition was assessed using Illumina high-throughput sequencing, and metabolite profiles were analyzed using non-targeted metabolomics (UPLC-MS/MS).</p>Results<p>Significant decreases were observed in soil pH (12.2–28.0%), cation exchange capacity (42.6–65.5%), organic matter (8.7–27.3%), total nitrogen (7.6–27.8%), and ammonium (NH₄⁺) content (16.9–56.6%) with an increasing number of continuous cropping years. …”

Data Sheet 2_Effects of continuous cropping on soil metabolomics and rhizosphere bacterial communities in Panax quinquefolius L..docx by Jian Song (4232)

“…Microbial community composition was assessed using Illumina high-throughput sequencing, and metabolite profiles were analyzed using non-targeted metabolomics (UPLC-MS/MS).</p>Results<p>Significant decreases were observed in soil pH (12.2–28.0%), cation exchange capacity (42.6–65.5%), organic matter (8.7–27.3%), total nitrogen (7.6–27.8%), and ammonium (NH₄⁺) content (16.9–56.6%) with an increasing number of continuous cropping years. …”

Table_2_Bacillus velezensis B105-8, a potential and efficient biocontrol agent in control of maize stalk rot caused by Fusarium graminearum.DOCX by Shuang Wang (46453)

“…B105-8 could effectively improve soil urease (S-UE), invertase (S-SC), and catalase (S-CAT) activities. …”

Table_4_Bacillus velezensis B105-8, a potential and efficient biocontrol agent in control of maize stalk rot caused by Fusarium graminearum.DOCX by Shuang Wang (46453)

“…B105-8 could effectively improve soil urease (S-UE), invertase (S-SC), and catalase (S-CAT) activities. …”

Table_1_Bacillus velezensis B105-8, a potential and efficient biocontrol agent in control of maize stalk rot caused by Fusarium graminearum.DOCX by Shuang Wang (46453)

“…B105-8 could effectively improve soil urease (S-UE), invertase (S-SC), and catalase (S-CAT) activities. …”

Table_5_Bacillus velezensis B105-8, a potential and efficient biocontrol agent in control of maize stalk rot caused by Fusarium graminearum.DOCX by Shuang Wang (46453)

“…B105-8 could effectively improve soil urease (S-UE), invertase (S-SC), and catalase (S-CAT) activities. …”

Table_3_Bacillus velezensis B105-8, a potential and efficient biocontrol agent in control of maize stalk rot caused by Fusarium graminearum.DOCX by Shuang Wang (46453)

“…B105-8 could effectively improve soil urease (S-UE), invertase (S-SC), and catalase (S-CAT) activities. …”

Microbial Alliances: Unveiling the Effects of a Bacterial and Fungal Cross-Kingdom SynCom on Bacterial Dynamics, Rhizosphere Metabolites, and Soybean Resilience in Acidic Soils by Zhongling Wen (13878743)

“…The native RhRi SynCom outperformed EfRi, significantly improving soybean growth, yield, and soil health. …”

Table 1_Effects of grassland degradation on soil ecological stoichiometry and soil microbial community on the South of the Greater Khingan Mountains.docx by Yuyu Li (3939137)

“…Grassland degradation significantly decreased soil bacterial and fungal richness. …”

Data Sheet 1_Intercropping grapevine with Solanum nigrum enhances their cadmium tolerance through changing rhizosphere soil microbial diversity.xlsx by Changbing Pu (14338416)

“…</p>Results<p>Compared with the monocultures of S. nigrum and grapevine, IntVVSN increased the activities of soil sucrase, soil urease, and soil cellulase, and decreased the activities of soil amylase, and soil neutral phosphatase. …”

Data Sheet 1_Biochar and Bacillus subtilis co-drive dryland soil microbial community and enzyme responses.doc by Tao Zheng (146941)

“…Meanwhile, except for the YJ treatment, the richness of the fungal community decreased, while the diversity index increased. The experimental results showed that the application of rapeseed straw biochar or the compound microbial inoculant alone significantly increased soil urease activity, reaching 40.34 µg of NH⁺₄-N g⁻¹ of soil h⁻¹ and 40.29 µg of NH⁺₄-N g⁻¹ of soil h⁻¹ at the end of the incubation period, respectively.…”

DataSheet1_Synergistic effects of SAP and PGPR on physiological characteristics of leaves and soil enzyme activities in the rhizosphere of poplar seedlings under drought stress.pdf by Dawei Jing (18515707)

“…Compared with normal watering, the DR treatment significantly decreased the contents of dehydroascorbate (DHA; 19.08%), reduced glutathione (GSH; 14.18%), oxidized glutathione, soluble protein (26.84%), indoleacetic acid (IAA; 9.47%), gibberellin (GA) and zeatin (ZT), the IAA/abscisic acid (ABA), GA/ABA, ZT/ABA and (IAA+GA+ZT)/ABA (34.67%) ratios in leaves, and the urease and sucrase activities in the rhizosphere soil. …”

DataSheet1_Slow-release nitrogen fertilizer application regulated rhizosphere microbial diversity to increase maize yield.docx by Tiantian Meng (4508569)

“…Coordinate soil physical and chemical properties, increase soil enzyme activity and soil nutrients, improve soil microenvironment, regulate microbial community composition, and promote above-ground yield increase, in which nitrogen application, urease, nitrate reductase and nitrate nitrogen are the main driving factors for yield increase. …”

Data Sheet 1_The impact of salt-tolerant plants on soil nutrients and microbial communities in soda saline-alkali lands of the Songnen plain.docx by Junjie Song (4400227)

“…Soil salinity, pH, nutrient content (TN, TP, TK), enzyme activities (Catalase, Cellulase, Saccharase, Urease), and microbial structure were analyzed.</p>Results<p>Plant presence significantly reduced soil salinity and pH while increasing nutrient levels and enzyme activities, with SL (Salix linearistipularis) showing the most comprehensive improvement. …”

Data Sheet 1_Sustainable remediation of heavy metal contaminated soil through phytostabilization with the in-situ immobilization by mercapto-based palygorskite.docx by Hongjie Kuang (22489438)

“…Compared with planting C. zizanioides alone, the application of MPAL significantly promoted the growth of C. zizanioides, enhanced its antioxidant enzyme activities, and decreased Cd and Pb concentrations in roots and shoots. …”