Abstract
Despite the increased usage of global soil property maps, a proper review of the maps rarely takes place. This study aims to explore the options for such a review with an application for the S-World global soil property database. Global soil organic carbon (SOC) and clay content maps from S-World were studied at two spatial resolutions in three steps. First, a comparative analysis with an ensemble of seven datasets derived from five other global soil databases was done. Second, a validation of S-World was done with independent soil observations from the WoSIS soil profile database. Third, a methodological evaluation of S-world took place by looking at the variation of soil properties per soil type and short distance variability. In the comparative analysis, S-World and the ensemble of other maps show similar spatial patterns. However, the ensemble locally shows large discrepancies (e.g., in boreal regions where typically SOC contents are high and the sampling density is low). Overall, the results show that S-World is not deviating strongly from the model ensemble (91% of the area falls within a 1.5% SOC range in the topsoil). The validation with the WoSIS database showed that S-World was able to capture a large part of the variation (with, e.g., a root mean square difference of 1.7% for SOC in the topsoil and a mean difference of 1.2%). Finally, the methodological evaluation revealed that estimates of the ranges of soil properties for the different soil types can be improved by using the larger WoSIS database. It is concluded that the review through the comparison, validation, and evaluation provides a good overview of the strengths and the weaknesses of S-World. The three approaches to review the database each provide specific insights regarding the quality of the database. Specific evaluation criteria for an application will determine whether S-World is a suitable soil database for use in global environmental studies.
Highlights
There is an increasing call for global assessments of a wide range of environmental impacts
The complex map units of the HWSD were disaggregated into simple map units using a global digital elevation model and logical sequences of soil types according to altitude
soil organic carbon (SOC) stocks are estimated on the basis of the HWSD [29,30,31,32], the DSMW [15], or SoilGrids [33]
Summary
There is an increasing call for global assessments of a wide range of environmental impacts. A good example is the range of initiatives around the Global Sustainability. There is an increased need for global databases describing the status of our natural resources. Various databases on past, current, and future climatic conditions have been developed. Less attention has been paid to global soil resources they are increasingly being placed in the spotlight through, for example, the sustainable development goals and the obvious role of soils for, e.g., food production and carbon storage [4]. Various global soil databases have been developed over the past decades. Project (S-RIP) and overview of the reanalysis systems. Soil science contributions towards Sustainable Development Goals and their implementation: Linking soil functions with ecosystem services.
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