Spatial characterization of dust emission prone arid regions using feature extraction and predictive algorithms
Aeolian dust emission is a serious environmental hazard in central Iran. We attempted to map the dust emission prone (DEP) areas in this region of Iran using the most accurate model among the random forest (RF), conditional RF (CRF), parallel RF (PRF), and extremely randomized trees (ERT) models. Th...
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| Published in | Applied geography (Sevenoaks) Vol. 133; p. 102495 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Elsevier Ltd
01.08.2021
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0143-6228 1873-7730 |
| DOI | 10.1016/j.apgeog.2021.102495 |
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| Abstract | Aeolian dust emission is a serious environmental hazard in central Iran. We attempted to map the dust emission prone (DEP) areas in this region of Iran using the most accurate model among the random forest (RF), conditional RF (CRF), parallel RF (PRF), and extremely randomized trees (ERT) models. These models were evaluated using the Taylor diagram, Nash Sutcliffe coefficient, and Kling–Gupta efficiency. The generated map of DEP areas was also validated based on an aerosols optical depth (AOD) dataset. The Shapely values were used to determine the contribution of factors controlling dust events in DEP areas. The high performance and reliability of the ERT model for mapping DEP territories were confirmed by both error assessment statistics and reclassified AOD map. Using the ERT-generated map, five dust generation susceptibility classes including very low (20.16%), low (19.99%), moderate (19.82%), high (24.11%), and very high (15.92%) were identified in the study region. Drought severity, solar radiation, soil moisture, geology, soil sand content, bulk density, vegetation cover, land use, and slope were detected as the key features controlling dust emissions in central Iran. These results are useful for developing programs to reduce dust emissions hazards in DEP areas, particularly in central Iran.
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•The best RF-based algorithm was determined to map the source areas for aeolian dust emissions.•An optimal combination of explanatory attributes was extracted based on a three-step procedure.•ERT outperformed other RF-based models in identifying the dust emission prone areas.•Shapley values were applied to analyze the interpretability of the ERT model.•The drought, soil moisture, and solar radiation had the greatest contribution in the prediction of dust source areas. |
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| AbstractList | Aeolian dust emission is a serious environmental hazard in central Iran. We attempted to map the dust emission prone (DEP) areas in this region of Iran using the most accurate model among the random forest (RF), conditional RF (CRF), parallel RF (PRF), and extremely randomized trees (ERT) models. These models were evaluated using the Taylor diagram, Nash Sutcliffe coefficient, and Kling–Gupta efficiency. The generated map of DEP areas was also validated based on an aerosols optical depth (AOD) dataset. The Shapely values were used to determine the contribution of factors controlling dust events in DEP areas. The high performance and reliability of the ERT model for mapping DEP territories were confirmed by both error assessment statistics and reclassified AOD map. Using the ERT-generated map, five dust generation susceptibility classes including very low (20.16%), low (19.99%), moderate (19.82%), high (24.11%), and very high (15.92%) were identified in the study region. Drought severity, solar radiation, soil moisture, geology, soil sand content, bulk density, vegetation cover, land use, and slope were detected as the key features controlling dust emissions in central Iran. These results are useful for developing programs to reduce dust emissions hazards in DEP areas, particularly in central Iran.
[Display omitted]
•The best RF-based algorithm was determined to map the source areas for aeolian dust emissions.•An optimal combination of explanatory attributes was extracted based on a three-step procedure.•ERT outperformed other RF-based models in identifying the dust emission prone areas.•Shapley values were applied to analyze the interpretability of the ERT model.•The drought, soil moisture, and solar radiation had the greatest contribution in the prediction of dust source areas. Aeolian dust emission is a serious environmental hazard in central Iran. We attempted to map the dust emission prone (DEP) areas in this region of Iran using the most accurate model among the random forest (RF), conditional RF (CRF), parallel RF (PRF), and extremely randomized trees (ERT) models. These models were evaluated using the Taylor diagram, Nash Sutcliffe coefficient, and Kling–Gupta efficiency. The generated map of DEP areas was also validated based on an aerosols optical depth (AOD) dataset. The Shapely values were used to determine the contribution of factors controlling dust events in DEP areas. The high performance and reliability of the ERT model for mapping DEP territories were confirmed by both error assessment statistics and reclassified AOD map. Using the ERT-generated map, five dust generation susceptibility classes including very low (20.16%), low (19.99%), moderate (19.82%), high (24.11%), and very high (15.92%) were identified in the study region. Drought severity, solar radiation, soil moisture, geology, soil sand content, bulk density, vegetation cover, land use, and slope were detected as the key features controlling dust emissions in central Iran. These results are useful for developing programs to reduce dust emissions hazards in DEP areas, particularly in central Iran. |
| ArticleNumber | 102495 |
| Author | Nafarzadegan, Ali Reza Ebrahimi-Khusfi, Zohre Kazemi, Mohamad |
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| SubjectTerms | Arid environments Boruta algorithm bulk density data collection drought dust dust emissions Dust-source areas environmental hazards Game theory geography geology Iran Land susceptibility land use Remote sensing sand fraction soil water solar radiation statistics vegetation cover |
| Title | Spatial characterization of dust emission prone arid regions using feature extraction and predictive algorithms |
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