Abstract
In Colombia, the rise of agricultural and pastureland expansion continues to exert increasing pressure on the structure and ecological processes of savannahs in the Eastern Plains. However, the effect of land use change on soil properties is often unknown due to poor access to remote areas. Effective management and conservation of soils requires the development spatial approaches that measure and predict dynamic soil properties such as soil organic carbon (SOC). This study estimates the SOC stock in the Eastern Plains of Colombia, with validation and uncertainty analyses, using legacy data of 653 soil samples. A random forest model of nine environmental covariate layers was used to develop predictions of SOC content. Model validation was determined using the Taylor series method, and root-mean-squared error (RMSE) and mean error (ME) were calculated to assess model performance. We found that the model explained 50.28% of the variation within digital SOC content map. Raster layers of SOC content, bulk density, and coarse rock fragment within the Eastern Plains were used to calculate SOC stock within the region. With uncertainty, SOC stock in the topsoil of the Eastern Plains was 1.2 G t ha−1. We found that SOC content contributed nearly all the uncertainty in the SOC stock predictions, although better determinations of SOC stock can be obtained with the use of a more geomorphological diverse dataset. The digital soil maps developed in this study provide predictions of extant SOC content and stock in the topsoil of the Eastern Plains, important soil information that may provide insight into the development of research, regulatory, and legislative initiatives to conserve and manage this evolving ecosystem.
Highlights
The development of large-scale commercial cropping systems is rapidly expanding in South America as natural environments are converted to cropland and pastureland (Laurance et al, 2014)
Soil organic carbon content was generated to the resolution of the digital elevation model (DEM) (90 m), and spatial predictions are shown to represent the amount of soil organic carbon (SOC) contained in the topsoil (0–30 cm)
The predicted SOC content was distributed in each department, with values ranging between 3.6–35.6 (g kg−1)
Summary
The development of large-scale commercial cropping systems is rapidly expanding in South America as natural environments are converted to cropland and pastureland (Laurance et al, 2014). Soil Organic Carbon Stock challenges in the region such as a prior Guerrilla control (Krakowski and Zubiría, 2018) and restricted access to remote areas due to poor roads and large distances from cities and villages (Rausch, 2014) have contributed to the lack of soils data in the Eastern Plains. This gap in knowledge presents challenges for assessing present and future changes within the landscape. The use of digital soil mapping (DSM) using limited baseline knowledge and secondary data can facilitate the prediction of soil properties on which efficient plans for conservation can be drawn
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