Supplementary file 1_Vegetation C: N: P stoichiometry and ecosystem carbon storage under different grazing patterns on the Tibetan Plateau.docx by Guoxing He (13046986)

“…Introduction<p>Grazing is a significant driver of grassland ecosystems changes, but the relationship between plant functional groups’ carbon (C): nitrogen (N): phosphorus (P) stoichiometry ratios and ecosystem C storage under different grazing management patterns remains uncertain.…”

Image 6_Salt tolerance characterization and genome-wide association study of Gossypium barbadense accessions reveal salinity-adaptive variations.jpeg by Huazu Li (22228792)

“…VIGS of GbXTH27 exacerbated salt-induced wilting phenotypes and significantly decreased antioxidant enzyme activities.…”

Table 3_Salt tolerance characterization and genome-wide association study of Gossypium barbadense accessions reveal salinity-adaptive variations.xlsx by Huazu Li (22228792)

“…VIGS of GbXTH27 exacerbated salt-induced wilting phenotypes and significantly decreased antioxidant enzyme activities.…”

Image 9_Salt tolerance characterization and genome-wide association study of Gossypium barbadense accessions reveal salinity-adaptive variations.jpg by Huazu Li (22228792)

“…VIGS of GbXTH27 exacerbated salt-induced wilting phenotypes and significantly decreased antioxidant enzyme activities.…”

Image 7_Salt tolerance characterization and genome-wide association study of Gossypium barbadense accessions reveal salinity-adaptive variations.jpeg by Huazu Li (22228792)

“…VIGS of GbXTH27 exacerbated salt-induced wilting phenotypes and significantly decreased antioxidant enzyme activities.…”

Table 6_Salt tolerance characterization and genome-wide association study of Gossypium barbadense accessions reveal salinity-adaptive variations.xlsx by Huazu Li (22228792)

“…VIGS of GbXTH27 exacerbated salt-induced wilting phenotypes and significantly decreased antioxidant enzyme activities.…”

Table 2_Salt tolerance characterization and genome-wide association study of Gossypium barbadense accessions reveal salinity-adaptive variations.xlsx by Huazu Li (22228792)

“…VIGS of GbXTH27 exacerbated salt-induced wilting phenotypes and significantly decreased antioxidant enzyme activities.…”

Table 4_Salt tolerance characterization and genome-wide association study of Gossypium barbadense accessions reveal salinity-adaptive variations.xlsx by Huazu Li (22228792)

“…VIGS of GbXTH27 exacerbated salt-induced wilting phenotypes and significantly decreased antioxidant enzyme activities.…”

Uncovering Urinary Proteome Differences in Very Preterm Infants with and without Preterm Brain Injury by Magdalena Zasada (4524901)

“…Conversely, fatty acid-binding proteins (FABP1, FABP3, FABP4, FABP7) decreased over time in uninjured infants but increased in those with brain injury, suggesting a role in exacerbating damage. …”

Image 8_Salt tolerance characterization and genome-wide association study of Gossypium barbadense accessions reveal salinity-adaptive variations.jpeg by Huazu Li (22228792)

“…VIGS of GbXTH27 exacerbated salt-induced wilting phenotypes and significantly decreased antioxidant enzyme activities.…”

Supplementary file 1_Prolonged effect of antibiotic therapy on the gut microbiota composition, functionality, and antibiotic resistance genes’ profiles in healthy stool donors.zip... by Ramin Karimianghadim (21288299)

“…No significant increase in clinically important ARGs was detected.…”

Image 3_Salt tolerance characterization and genome-wide association study of Gossypium barbadense accessions reveal salinity-adaptive variations.jpeg by Huazu Li (22228792)

“…VIGS of GbXTH27 exacerbated salt-induced wilting phenotypes and significantly decreased antioxidant enzyme activities.…”

Table 1_Salt tolerance characterization and genome-wide association study of Gossypium barbadense accessions reveal salinity-adaptive variations.xlsx by Huazu Li (22228792)

“…VIGS of GbXTH27 exacerbated salt-induced wilting phenotypes and significantly decreased antioxidant enzyme activities.…”

Image 1_Salt tolerance characterization and genome-wide association study of Gossypium barbadense accessions reveal salinity-adaptive variations.jpeg by Huazu Li (22228792)

“…VIGS of GbXTH27 exacerbated salt-induced wilting phenotypes and significantly decreased antioxidant enzyme activities.…”

<b>Effects of </b><b>agricultural land management and livestock grazing </b><b>intensification on ecosystem carbon and nutrient stocks</b> by Yuxi Guo (17400877)

“…Our results demonstrated that agricultural management intensification increased C, N, and P stocks in aboveground biomass and subsurface soil, while high-intensity grazing reduced nutrient stocks in vegetation. Significant interactive effects between management and grazing intensities showed in stoichiometric ratios: high-intensity grazing decreased C:P and N:P ratios in aboveground biomass, and C:N ratio in subsurface soil in SN pastures but increased these ratios in IM pastures. …”

Table 7_Salt tolerance characterization and genome-wide association study of Gossypium barbadense accessions reveal salinity-adaptive variations.xlsx by Huazu Li (22228792)

“…VIGS of GbXTH27 exacerbated salt-induced wilting phenotypes and significantly decreased antioxidant enzyme activities.…”

Image 4_Salt tolerance characterization and genome-wide association study of Gossypium barbadense accessions reveal salinity-adaptive variations.jpeg by Huazu Li (22228792)

“…VIGS of GbXTH27 exacerbated salt-induced wilting phenotypes and significantly decreased antioxidant enzyme activities.…”

Supplementary file 1_Saltmarsh reclamation enhances plant species richness and reduces soil macrofaunal biomass by regulating soil properties through elevation.docx by Guangzhi Zhang (471563)

“…<p>Globally, saltmarsh reclamation results in significant losses of coastal wetlands. However, the impacts on above- and below-ground biodiversity and the underlying mechanisms remain poorly understood. …”

Table 5_Salt tolerance characterization and genome-wide association study of Gossypium barbadense accessions reveal salinity-adaptive variations.xlsx by Huazu Li (22228792)

“…VIGS of GbXTH27 exacerbated salt-induced wilting phenotypes and significantly decreased antioxidant enzyme activities.…”

Raw data DOI 10.3389fphar.2024.1483686.zip by Changlin Wang (19822068)

“…In terms of mechanism, JJJG significantly increased the levels of FT3 and FT4 and decreased TSH level in serum (P<0.05). …”