Using homosoils for quantitative extrapolation of soil mapping models
Since the early 2000s, digital soil maps have been successfully used for various applications, including precision agriculture, environmental assessments and land use management. Globally, however, there are large disparities in the availability of soil data on which digital soil mapping (DSM) models can be fitted. Several studies attempted to transfer a DSM model fitted from an area with a well-developed soil database to map the soil in areas with low sampling density. This usually is a challenging task because two areas have hardly ever the same soil-forming factors in two different regions of the world. In this study, we aim to determine whether finding homosoils (i.e., locations sharing similar soil-forming factors) can help transferring soil information by means of a DSM model extrapolation. We hypothesize that within areas in the world considered as homosoils, one can leverage on areas with high sampling density and fit a DSM model, which can then be extrapolated geographically to an area with little or no data. We collected publicly available soil data for clay, silt, sand, organic carbon (OC), pH and total nitrogen (N) within our study area in Mali, West Africa and its homosoils. We fitted a regression tree model between the soil properties and environmental covariates of the homosoils, and applied this model to our study area in Mali. Several calibration and validation strategies were explored. We also compared our approach with existing maps made at a global and a continental scale. We concluded that geographic model extrapolation within homosoils was possible, but that model accuracy dramatically improved when local data were included in the calibration dataset. The maps produced from models fitted with data from homosoils were more accurate than existing products for this study area, for three (silt, sand, pH) out of six soil properties. This study would be relevant to areas with very little or no soil data to carry critical soils and environmental risk assessments at a regional level.
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dig-cirad-fr-6018982024-01-29T19:01:16Z http://agritrop.cirad.fr/601898/ http://agritrop.cirad.fr/601898/ Using homosoils for quantitative extrapolation of soil mapping models. Nenkam Andrée M., Wadoux Alexandre M. J. C., Minasny Budiman, McBratney Alex B., Traore Pierre C. S., Falconnier Gatien N., Whitbread Anthony M.. 2022. European Journal of Soil Science, 73 (5):e13285, 19 p.https://doi.org/10.1111/ejss.13285 <https://doi.org/10.1111/ejss.13285> Using homosoils for quantitative extrapolation of soil mapping models Nenkam, Andrée M. Wadoux, Alexandre M. J. C. Minasny, Budiman McBratney, Alex B. Traore, Pierre C. S. Falconnier, Gatien N. Whitbread, Anthony M. eng 2022 European Journal of Soil Science P31 - Levés et cartographie des sols P30 - Sciences et aménagement du sol Since the early 2000s, digital soil maps have been successfully used for various applications, including precision agriculture, environmental assessments and land use management. Globally, however, there are large disparities in the availability of soil data on which digital soil mapping (DSM) models can be fitted. Several studies attempted to transfer a DSM model fitted from an area with a well-developed soil database to map the soil in areas with low sampling density. This usually is a challenging task because two areas have hardly ever the same soil-forming factors in two different regions of the world. In this study, we aim to determine whether finding homosoils (i.e., locations sharing similar soil-forming factors) can help transferring soil information by means of a DSM model extrapolation. We hypothesize that within areas in the world considered as homosoils, one can leverage on areas with high sampling density and fit a DSM model, which can then be extrapolated geographically to an area with little or no data. We collected publicly available soil data for clay, silt, sand, organic carbon (OC), pH and total nitrogen (N) within our study area in Mali, West Africa and its homosoils. We fitted a regression tree model between the soil properties and environmental covariates of the homosoils, and applied this model to our study area in Mali. Several calibration and validation strategies were explored. We also compared our approach with existing maps made at a global and a continental scale. We concluded that geographic model extrapolation within homosoils was possible, but that model accuracy dramatically improved when local data were included in the calibration dataset. The maps produced from models fitted with data from homosoils were more accurate than existing products for this study area, for three (silt, sand, pH) out of six soil properties. This study would be relevant to areas with very little or no soil data to carry critical soils and environmental risk assessments at a regional level. article info:eu-repo/semantics/article Journal Article info:eu-repo/semantics/publishedVersion http://agritrop.cirad.fr/601898/1/European%20J%20Soil%20Science%20-%202022%20-%20Nenkam%20-%20Using%20homosoils%20for%20quantitative%20extrapolation%20of%20soil%20mapping%20models-1.pdf text cc_by_nc_nd info:eu-repo/semantics/openAccess https://creativecommons.org/licenses/by-nc-nd/4.0/ https://doi.org/10.1111/ejss.13285 10.1111/ejss.13285 info:eu-repo/semantics/altIdentifier/doi/10.1111/ejss.13285 info:eu-repo/semantics/altIdentifier/purl/https://doi.org/10.1111/ejss.13285 |
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P31 - Levés et cartographie des sols P30 - Sciences et aménagement du sol P31 - Levés et cartographie des sols P30 - Sciences et aménagement du sol |
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P31 - Levés et cartographie des sols P30 - Sciences et aménagement du sol P31 - Levés et cartographie des sols P30 - Sciences et aménagement du sol Nenkam, Andrée M. Wadoux, Alexandre M. J. C. Minasny, Budiman McBratney, Alex B. Traore, Pierre C. S. Falconnier, Gatien N. Whitbread, Anthony M. Using homosoils for quantitative extrapolation of soil mapping models |
| description |
Since the early 2000s, digital soil maps have been successfully used for various applications, including precision agriculture, environmental assessments and land use management. Globally, however, there are large disparities in the availability of soil data on which digital soil mapping (DSM) models can be fitted. Several studies attempted to transfer a DSM model fitted from an area with a well-developed soil database to map the soil in areas with low sampling density. This usually is a challenging task because two areas have hardly ever the same soil-forming factors in two different regions of the world. In this study, we aim to determine whether finding homosoils (i.e., locations sharing similar soil-forming factors) can help transferring soil information by means of a DSM model extrapolation. We hypothesize that within areas in the world considered as homosoils, one can leverage on areas with high sampling density and fit a DSM model, which can then be extrapolated geographically to an area with little or no data. We collected publicly available soil data for clay, silt, sand, organic carbon (OC), pH and total nitrogen (N) within our study area in Mali, West Africa and its homosoils. We fitted a regression tree model between the soil properties and environmental covariates of the homosoils, and applied this model to our study area in Mali. Several calibration and validation strategies were explored. We also compared our approach with existing maps made at a global and a continental scale. We concluded that geographic model extrapolation within homosoils was possible, but that model accuracy dramatically improved when local data were included in the calibration dataset. The maps produced from models fitted with data from homosoils were more accurate than existing products for this study area, for three (silt, sand, pH) out of six soil properties. This study would be relevant to areas with very little or no soil data to carry critical soils and environmental risk assessments at a regional level. |
| format |
article |
| topic_facet |
P31 - Levés et cartographie des sols P30 - Sciences et aménagement du sol |
| author |
Nenkam, Andrée M. Wadoux, Alexandre M. J. C. Minasny, Budiman McBratney, Alex B. Traore, Pierre C. S. Falconnier, Gatien N. Whitbread, Anthony M. |
| author_facet |
Nenkam, Andrée M. Wadoux, Alexandre M. J. C. Minasny, Budiman McBratney, Alex B. Traore, Pierre C. S. Falconnier, Gatien N. Whitbread, Anthony M. |
| author_sort |
Nenkam, Andrée M. |
| title |
Using homosoils for quantitative extrapolation of soil mapping models |
| title_short |
Using homosoils for quantitative extrapolation of soil mapping models |
| title_full |
Using homosoils for quantitative extrapolation of soil mapping models |
| title_fullStr |
Using homosoils for quantitative extrapolation of soil mapping models |
| title_full_unstemmed |
Using homosoils for quantitative extrapolation of soil mapping models |
| title_sort |
using homosoils for quantitative extrapolation of soil mapping models |
| url |
http://agritrop.cirad.fr/601898/ http://agritrop.cirad.fr/601898/1/European%20J%20Soil%20Science%20-%202022%20-%20Nenkam%20-%20Using%20homosoils%20for%20quantitative%20extrapolation%20of%20soil%20mapping%20models-1.pdf |
| work_keys_str_mv |
AT nenkamandreem usinghomosoilsforquantitativeextrapolationofsoilmappingmodels AT wadouxalexandremjc usinghomosoilsforquantitativeextrapolationofsoilmappingmodels AT minasnybudiman usinghomosoilsforquantitativeextrapolationofsoilmappingmodels AT mcbratneyalexb usinghomosoilsforquantitativeextrapolationofsoilmappingmodels AT traorepierrecs usinghomosoilsforquantitativeextrapolationofsoilmappingmodels AT falconniergatienn usinghomosoilsforquantitativeextrapolationofsoilmappingmodels AT whitbreadanthonym usinghomosoilsforquantitativeextrapolationofsoilmappingmodels |
| _version_ |
1792500413149216768 |