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Quantifying CO2 emissions and carbon sequestration from digestate-amended soil using natural 13C abundance as a tracer. Supplementary Material.

Gregory Reuland (UGent) , Steven Sleutel (UGent) , Haichao Li, Harmen Dekker, Ivona Sigurnjak (UGent) and Erik Meers (UGent)
(2023)
Author
Organization
Project
  • Nutri2Cycle (Transition towards a more carbon and nutrient efficient agriculture in Europe)
Abstract
This document provides additional data, graphs, analytical and statistical results related to the original research article entitled "Quantifying CO2 emissions and carbon sequestration from digestate-amended soil using natural 13C abundance as a tracer". Submitted to Agronomy-Basel MDPI.
Keywords
stable carbon isotope, priming effect, soil organic carbon, nitrates directive, digestate
License
CC-BY-4.0
Access
open access

Citation

Please use this url to cite or link to this publication: 

@misc{01HBB8XXRHNR84ER0ZQ5EQRT5Z,
  abstract     = {{This document provides additional data, graphs, analytical and statistical results related to the original research article entitled "Quantifying CO2 emissions and carbon sequestration from digestate-amended soil using natural 13C abundance as a tracer". Submitted to Agronomy-Basel MDPI.}},
  author       = {{Reuland, Gregory and Sleutel, Steven and Li, Haichao and Dekker, Harmen and Sigurnjak, Ivona and Meers, Erik}},
  keywords     = {{stable carbon isotope,priming effect,soil organic carbon,nitrates directive,digestate}},
  language     = {{eng}},
  publisher    = {{Zenodo}},
  title        = {{Quantifying CO2 emissions and carbon sequestration from digestate-amended soil using natural 13C abundance as a tracer. Supplementary Material.}},
  url          = {{http://doi.org/10.5281/ZENODO.8383223}},
  year         = {{2023}},
}
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