Table_2_Elevated Atmospheric CO2 and Nitrogen Fertilization Affect the Abundance and Community Structure of Rice Root-Associated Nitrogen-Fixing Bacteria.docx by Jumei Liu (5338079)

“…Elevated CO₂ significantly increased the nifH abundance in rice roots and rhizosphere soils with nitrogen fertilization, but had no obvious effect without N addition at the HI stage. …”

Image_1_Elevated Atmospheric CO2 and Nitrogen Fertilization Affect the Abundance and Community Structure of Rice Root-Associated Nitrogen-Fixing Bacteria.jpg by Jumei Liu (5338079)

“…Elevated CO₂ significantly increased the nifH abundance in rice roots and rhizosphere soils with nitrogen fertilization, but had no obvious effect without N addition at the HI stage. …”

Table_2_Elevated Atmospheric CO2 and Nitrogen Fertilization Affect the Abundance and Community Structure of Rice Root-Associated Nitrogen-Fixing Bacteria.docx by Jumei Liu (5338079)

“…Elevated CO₂ significantly increased the nifH abundance in rice roots and rhizosphere soils with nitrogen fertilization, but had no obvious effect without N addition at the HI stage. …”

Table_1_Elevated Atmospheric CO2 and Nitrogen Fertilization Affect the Abundance and Community Structure of Rice Root-Associated Nitrogen-Fixing Bacteria.DOCX by Jumei Liu (5338079)

“…Elevated CO₂ significantly increased the nifH abundance in rice roots and rhizosphere soils with nitrogen fertilization, but had no obvious effect without N addition at the HI stage. …”

Table_1_Elevated Atmospheric CO2 and Nitrogen Fertilization Affect the Abundance and Community Structure of Rice Root-Associated Nitrogen-Fixing Bacteria.DOCX by Jumei Liu (5338079)

“…Elevated CO₂ significantly increased the nifH abundance in rice roots and rhizosphere soils with nitrogen fertilization, but had no obvious effect without N addition at the HI stage. …”

Table_3_Elevated Atmospheric CO2 and Nitrogen Fertilization Affect the Abundance and Community Structure of Rice Root-Associated Nitrogen-Fixing Bacteria.docx by Jumei Liu (5338079)

“…Elevated CO₂ significantly increased the nifH abundance in rice roots and rhizosphere soils with nitrogen fertilization, but had no obvious effect without N addition at the HI stage. …”

Table_3_Elevated Atmospheric CO2 and Nitrogen Fertilization Affect the Abundance and Community Structure of Rice Root-Associated Nitrogen-Fixing Bacteria.docx by Jumei Liu (5338079)

“…Elevated CO₂ significantly increased the nifH abundance in rice roots and rhizosphere soils with nitrogen fertilization, but had no obvious effect without N addition at the HI stage. …”

Image_1_Elevated Atmospheric CO2 and Nitrogen Fertilization Affect the Abundance and Community Structure of Rice Root-Associated Nitrogen-Fixing Bacteria.jpg by Jumei Liu (5338079)

“…Elevated CO₂ significantly increased the nifH abundance in rice roots and rhizosphere soils with nitrogen fertilization, but had no obvious effect without N addition at the HI stage. …”

Elevated-plus maze task. by Shane R. McClafferty (19434460)

Sampling points and mountain elevation. by Jin Wang (29560)

“…It shows that the role of peak cluster landform conditions on coal pore structure is significant, and the extent of the role decreases with the increase of vertical principal stresses. …”

DataSheet_1_Elevated CO2 and temperature under future climate change increase severity of rice sheath blight.docx by Min Shen (68726)

“…Rice yield and biomass were further decreased by 2.0–2.5% and 2.9–4.2% by an increase in the severity of ShB under the combination of elevated CO₂ and elevated temperature. …”

Meta-analysis of the effects of elevated O₃ on POD activity of herbaceous plants. by Yi Zhao (14034)

Meta-analysis of the effects of elevated O₃ on SOD activity of herbaceous plants. by Yi Zhao (14034)

Meta-analysis of the effects of elevated O₃ on MDA content of herbaceous plants. by Yi Zhao (14034)

Table1_PagSOD2a improves poplar salt tolerance by elevating superoxide dismutase activity and decreasing malondialdehyde contents.docx by Lieding Zhou (16427928)

Presentation1_PagSOD2a improves poplar salt tolerance by elevating superoxide dismutase activity and decreasing malondialdehyde contents.zip by Lieding Zhou (16427928)

<i>Boro</i> rice yield (2002–2021) estimation utilizing MODIS data and a trained random forest model with 30 input variables having high importance. by Varun Tiwari (9258130)

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Accuracy of the random forest regression model with various input variables (all inputs vs. top 30 inputs). by Varun Tiwari (9258130)

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Mean uncertainty of <i>boro</i> rice yields estimated by random forest model from 2002–2021. by Varun Tiwari (9258130)

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Random forest top 30 variable importance utilizing all input variables, including the MODIS bands, spectral indices, and land surface temperature. by Varun Tiwari (9258130)

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