BIS-4D: mapping soil properties and their uncertainties at 25 m resolution in the Netherlands

IF 11.2 1区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Anatol Helfenstein, Vera L. Mulder, Mirjam J. D. Hack-ten Broeke, Maarten van Doorn, Kees Teuling, Dennis J. J. Walvoort, Gerard B. M. Heuvelink
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引用次数: 0

Abstract

Abstract. In response to the growing societal awareness of the critical role of healthy soils, there has been an increasing demand for accurate and high-resolution soil information to inform national policies and support sustainable land management decisions. Despite advancements in digital soil mapping and initiatives like GlobalSoilMap, quantifying soil variability and its uncertainty across space, depth and time remains a challenge. Therefore, maps of key soil properties are often still missing on a national scale, which is also the case in the Netherlands. To meet this challenge and fill this data gap, we introduce BIS-4D, a high-resolution soil modeling and mapping platform for the Netherlands. BIS-4D delivers maps of soil texture (clay, silt and sand content), bulk density, pH, total nitrogen, oxalate-extractable phosphorus, cation exchange capacity and their uncertainties at 25 m resolution between 0 and 2 m depth in 3D space. Additionally, it provides maps of soil organic matter and its uncertainty in 3D space and time between 1953 and 2023 at the same resolution and depth range. The statistical model uses machine learning informed by soil observations amounting to between 3815 and 855 950, depending on the soil property, and 366 environmental covariates. We assess the accuracy of mean and median predictions using design-based statistical inference of a probability sample and location-grouped 10-fold cross validation (CV) and prediction uncertainty using the prediction interval coverage probability. We found that the accuracy of clay, sand and pH maps was the highest, with the model efficiency coefficient (MEC) ranging between 0.6 and 0.92 depending on depth. Silt, bulk density, soil organic matter, total nitrogen and cation exchange capacity (MEC of 0.27 to 0.78), and especially oxalate-extractable phosphorus (MEC of −0.11 to 0.38) were more difficult to predict. One of the main limitations of BIS-4D is that prediction maps cannot be used to quantify the uncertainty in spatial aggregates. We provide an example of good practice to help users decide whether BIS-4D is suitable for their intended purpose. An overview of all maps and their uncertainties can be found in the Supplement. Openly available code and input data enhance reproducibility and help with future updates. BIS-4D prediction maps can be readily downloaded at https://doi.org/10.4121/0c934ac6-2e95-4422-8360-d3a802766c71 (Helfenstein et al., 2024a). BIS-4D fills the previous data gap of the national-scale GlobalSoilMap product in the Netherlands and will hopefully facilitate the inclusion of soil spatial variability as a routine and integral part of decision support systems.
BIS-4D:以 25 米分辨率绘制荷兰土壤特性及其不确定性图
摘要随着社会对健康土壤的关键作用的认识不断提高,人们对准确的高分辨率土壤信息的需求也日益增加,以便为国家政策提供信息并支持可持续的土地管理决策。尽管数字土壤制图和 GlobalSoilMap 等计划取得了进展,但量化土壤的变异性及其在空间、深度和时间上的不确定性仍然是一项挑战。因此,全国范围内的关键土壤特性地图往往仍然缺失,荷兰的情况也是如此。为了应对这一挑战并填补数据空白,我们推出了荷兰高分辨率土壤建模和绘图平台 BIS-4D。BIS-4D 可提供三维空间 0 至 2 米深度 25 米分辨率的土壤质地(粘土、粉土和沙含量)、容重、pH 值、全氮、草酸盐提取磷、阳离子交换容量及其不确定性图。此外,它还以相同的分辨率和深度范围提供了 1953 年至 2023 年期间三维空间和时间的土壤有机质及其不确定性地图。统计模型采用机器学习方法,根据不同的土壤特性和 366 个环境协变量,对 3815 至 855 950 个土壤进行观测。我们使用基于设计的概率样本统计推断和位置分组 10 倍交叉验证(CV)来评估平均值和中位数预测的准确性,并使用预测区间覆盖概率来评估预测的不确定性。我们发现,粘土图、砂土图和 pH 值图的准确度最高,模型效率系数(MEC)介于 0.6 和 0.92 之间,具体取决于深度。而淤泥、容重、土壤有机质、全氮和阳离子交换容量(模型效率系数为 0.27 至 0.78),尤其是草酸盐提取磷(模型效率系数为 -0.11 至 0.38)则较难预测。BIS-4D 的主要局限之一是预测图不能用于量化空间总量的不确定性。我们提供了一个良好实践范例,以帮助用户决定 BIS-4D 是否适合其预期目的。所有地图及其不确定性的概述可在补编中找到。公开代码和输入数据可提高可重复性,并有助于未来的更新。BIS-4D 预测图可在 https://doi.org/10.4121/0c934ac6-2e95-4422-8360-d3a802766c71(Helfenstein 等,2024a)上下载。BIS-4D 填补了荷兰国家级 GlobalSoilMap 产品之前的数据空白,有望促进将土壤空间变异性作为决策支持系统的常规和组成部分。
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来源期刊
Earth System Science Data
Earth System Science Data GEOSCIENCES, MULTIDISCIPLINARYMETEOROLOGY-METEOROLOGY & ATMOSPHERIC SCIENCES
CiteScore
18.00
自引率
5.30%
发文量
231
审稿时长
35 weeks
期刊介绍: Earth System Science Data (ESSD) is an international, interdisciplinary journal that publishes articles on original research data in order to promote the reuse of high-quality data in the field of Earth system sciences. The journal welcomes submissions of original data or data collections that meet the required quality standards and have the potential to contribute to the goals of the journal. It includes sections dedicated to regular-length articles, brief communications (such as updates to existing data sets), commentaries, review articles, and special issues. ESSD is abstracted and indexed in several databases, including Science Citation Index Expanded, Current Contents/PCE, Scopus, ADS, CLOCKSS, CNKI, DOAJ, EBSCO, Gale/Cengage, GoOA (CAS), and Google Scholar, among others.
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