(PDF) Figure 4: The Variances of AI (A) and Aboveground

Figure 4: The Variances of AI (A) and Aboveground Biomass (B) in Alpine Steppe and Meadow, Respectively.

doi 10.7717/peerj.7272/fig-4

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Figure 6: Using the SEM to Analyze the Directly and Indirectly Effects Among Variables in Alpine Steppe (Graph A) and Alpine Meadow (Graph B), Respectively.

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Figure 5: Relationships Between Aboveground Biomass and the Aridity Index (AI).

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Figure 4: PCA Scores and Loadings Plots of NAIs Against Influenza a (A and B, Respectively) and B (C and D, Respectively).

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Warming and Nitrogen Addition Change the Soil and Soil Microbial Biomass C:N:P Stoichiometry of a Meadow Steppe

International Journal of Environmental Research and Public Health

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Table 2: Summary of the Direct, Indirect and Total Effects of Variables (AI, STN, SOC, C: N, COV, SR, BIO) in the SEM of Alpine Steppe and Alpine Meadow. Effects Were Calculated With Standardized Path Coefficients.

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Figure 2: The Correlationships of Aboveground Biomass With Environmental Factors.

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Figure 4: The Co-Expression Modules Detection of CHOL and KICH, Respectively.

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Forest Aboveground Biomass Stock and Resilience in a Tropical Landscape of Thailand

2019

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Supplemental Information 1: Sample Data of 275 Plots at 55 Sites (Five Plots at Each Site, Including Alpine Steppe and Meadow) Across an Alpine Grassland of the Tibetan Plateau

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Amanote Research

Figure 4: The Variances of AI (A) and Aboveground Biomass (B) in Alpine Steppe and Meadow, Respectively.

doi 10.7717/peerj.7272/fig-4

Full Text

Abstract

Date

Authors

Publisher

Related search

Figure 6: Using the SEM to Analyze the Directly and Indirectly Effects Among Variables in Alpine Steppe (Graph A) and Alpine Meadow (Graph B), Respectively.

Figure 5: Relationships Between Aboveground Biomass and the Aridity Index (AI).

Figure 4: PCA Scores and Loadings Plots of NAIs Against Influenza a (A and B, Respectively) and B (C and D, Respectively).

Warming and Nitrogen Addition Change the Soil and Soil Microbial Biomass C:N:P Stoichiometry of a Meadow Steppe

Table 2: Summary of the Direct, Indirect and Total Effects of Variables (AI, STN, SOC, C: N, COV, SR, BIO) in the SEM of Alpine Steppe and Alpine Meadow. Effects Were Calculated With Standardized Path Coefficients.

Figure 2: The Correlationships of Aboveground Biomass With Environmental Factors.

Figure 4: The Co-Expression Modules Detection of CHOL and KICH, Respectively.

Forest Aboveground Biomass Stock and Resilience in a Tropical Landscape of Thailand

Supplemental Information 1: Sample Data of 275 Plots at 55 Sites (Five Plots at Each Site, Including Alpine Steppe and Meadow) Across an Alpine Grassland of the Tibetan Plateau