Crop residues are a key feedstock to bioeconomy but available methods for their estimation are highly uncertain

This is a Preprint and has not been peer reviewed. The published version of this Preprint is available: https://doi.org/10.1016/j.resconrec.2020.105211. This is version 3 of this Preprint.

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Authors

Shivesh Kishore Karan , Lorie Hamelin

Abstract

Crop residues are acknowledged as a key biomass resource to feed tomorrow’s sustainable bioeconomy. Yet, the quantification of these residues at large geographical scales is primarily reliant upon generic statistical estimations based on empirical functions linking the residues production to the primary crop yield. These useful yet unquestioned functions are developed either using direct evidence from experimental results or literature. In the present study, analytical evidence is presented to demonstrate that these methods generate imprecise and likely inaccurate estimates of the actual biophysical crop residue potential. In this endeavor, we applied five of the most used functions to a national case study. France was selected, being the country with the largest agricultural output in Europe. Our spatially-explicit assessment of crop residues production was performed with a spatial resolution corresponding to the level of an administrative department (96 departments in total), also the finest division of the European Union’s hierarchical system of nomenclature for territorial units (NUTS), and included 17 different crop residues. The theoretical potential of crop residues for the whole of France was found to vary from 987 PJ Y-1 to 1369 PJ Y-1, using different estimation functions. The difference observed is more than the entire annual electricity consumption of Belgium, Latvia, and Estonia combined. Perturbation analyses revealed that some of the functions are overly sensitive to a fluctuation in primary crop yield, while analytical techniques such as the null hypothesis statistical test indicated that the crop residues estimates stemming from all functions were all significantly different from one another.

DOI

https://doi.org/10.31223/osf.io/ds8v4

Subjects

Agriculture, Civil and Environmental Engineering, Earth Sciences, Engineering, Environmental Sciences, Life Sciences, Natural Resource Economics, Natural Resources and Conservation, Other Earth Sciences, Other Environmental Sciences, Physical Sciences and Mathematics, Sustainability

Keywords

bioeconomy, residue-to-product ratio, Spatial quantification, Straw, Theoretical potential

Dates

Published: 2020-07-29 17:36

Last Updated: 2022-11-15 17:14

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License

CC BY Attribution 4.0 International