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Advances in digital soil mapping to assess baseline levels and carbon sequestration at the landscape scale

Name: Advances in digital soil mapping to assess baseline levels and carbon sequestration at the landscape scale
SKU: 9781801467070
Price: 25.00 GBP
Availability: InStock

Code: 9781801467070

Publication date: 07/11/2022
Extent: 24 pages

Contributions by: Amin Sharififar, University of Tehran, Iran; and Budiman Minasny, The University of Sydney, Australia

Chapter synopsis: Mapping soil carbon, both organic and inorganic carbon, is gaining a lot of attention and interest, as it can be a substantial source and sink for climate change mitigation, food security and ecosystem services. Digital soil mapping and modeling spatiotemporal variations or changes are helpful tools for understanding, planning, and managing soil carbon and its sequestration and greenhouse gas emission. This review discusses factors influencing soil organic carbon distribution over a range of scales, methods for mapping soil carbon variation with depth, and mapping soil carbon change with space and time. Finally, we discuss the need to map soil carbon contribution to soil functions.

DOI: 10.19103/AS.2022.0106.11

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Table of contents 1 Introduction 2 Digital mapping of soil carbon 3 Soil carbon spatial distribution and influencing factors 4 Field-scale spatial variation of soil organic carbon 5 Soil carbon variation with depth 6 2.5D and 3D mapping 7 Soil carbon change and its mapping 8 Mapping soil functions 9 Uncertainty quantification of soil carbon maps 10 Conclusion 11 Where to look for further information 12 References

Advances in digital soil mapping to assess baseline levels and carbon sequestration at the landscape scale

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