(PDF) Figure 1: Soil Organic Carbon vs Depth.

Figure 1: Soil Organic Carbon vs Depth.

doi 10.7717/peerj.5356/fig-1

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Figure 2: Δ13C vs. Inverse Concentration of Organic Carbon.

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Figure 3: Depth vs. 137Cs Activity.

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Figure 6: (A) Depth (Cm) vs. 40K Activity (Bq Cm−1) and (B) Depth (Cm) vs. 226Ra Activity (Bq Cm−1) in Average Soil Profiles From the Ambient (Open Circles) and Elevated-Co2 (Filled Circles) Plots at the Oak Ridge FACE Site.

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Figure 4: Carbon Concentration (G C Kg−1 Soil) in Particulate Organic Matter, Heavy and Silt + Clay Soil Fractions for No Vinasse and Vinasse Application Managements.

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Amanote Research

Figure 1: Soil Organic Carbon vs Depth.

doi 10.7717/peerj.5356/fig-1

Full Text

Abstract

Date

Authors

Publisher

Related search

Figure 2: Δ13C vs. Inverse Concentration of Organic Carbon.

Figure 3: Depth vs. 137Cs Activity.

Calcium-Mediated Stabilisation of Soil Organic Carbon

Soft Clay Soil and Organic Soil Amendment Effects on Soil Organic Carbon in Paddy Cultivation Area

Effect of Different Cropping System on Important Soil Enzyme Activity, Organic Carbon and Microbial Activity With Different Depth

ORCHIDEE-SOM: Modeling Soil Organic Carbon (SOC) and Dissolved Organic Carbon (DOC) Dynamics Along Vertical Soil Profiles in Europe

Soil Organic Carbon Dynamics Matching Ecological Equilibrium Theory

Figure 6: (A) Depth (Cm) vs. 40K Activity (Bq Cm−1) and (B) Depth (Cm) vs. 226Ra Activity (Bq Cm−1) in Average Soil Profiles From the Ambient (Open Circles) and Elevated-Co2 (Filled Circles) Plots at the Oak Ridge FACE Site.

Figure 4: Carbon Concentration (G C Kg−1 Soil) in Particulate Organic Matter, Heavy and Silt + Clay Soil Fractions for No Vinasse and Vinasse Application Managements.