Image_5_D-Serine Contributes to Seizure Development via ERK Signaling.tif by Tie Ma (6505097)

“…L-aspartic acid β-hydroxamate (LaaβH), an inhibitor of SR, significantly prolonged the latencies of seizures, shortened the durations of seizures, and decreased the total EEG power in rats. …”

Image_2_D-Serine Contributes to Seizure Development via ERK Signaling.tif by Tie Ma (6505097)

“…L-aspartic acid β-hydroxamate (LaaβH), an inhibitor of SR, significantly prolonged the latencies of seizures, shortened the durations of seizures, and decreased the total EEG power in rats. …”

Image 5_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.…”

Image 2_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_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.…”

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.…”

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)

“…Using a nested experimental design in humid subtropical grasslands in south-central Florida, we investigated how agricultural land management intensity (intensively managed or IM vs. semi-natural or SN pastures) and cattle grazing intensity (high vs. low) affect C, N, and P stocks and their stoichiometric ratios in aboveground plant biomass and two soil layers (surface 0-5 cm and subsurface 5-15 cm). …”

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.…”

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.…”