The diagnostic continua of the soils of Europe

IF 1.4 Q2 GEOGRAPHY
Á. Csorba, A. Jones, T. Szegi, E. Dobos, E. Micheli
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引用次数: 0

Abstract

Diagnostic horizons, properties and materials are commonly applied building units of national and international soil classification systems. The presence, depth or absence of diagnostic information supports the process of objective soil classification, such as the World Reference Base (WRB). While the diagnostic units and associated descriptive qualifiers convey information that reflect pedogenesis, they also indicate important, and often complex properties that are related to soil fertility and other soil functions. The spatial extent or the continuum of diagnostic information is often different from the spatial extent of the mapping units in general soil maps (mostly reflecting soil types). This paper presents the spatial distribution of selected diagnostic units and qualifiers for the European Union and describes their significance for key soil functions. The derivation of selected diagnostics was performed based on the information provided in the European Soil Database and by taking into consideration the definitions, rules and allocation procedure of soils to the appropriate Reference Soil Group (RSG) defined by the WRB key. The definition of the presence/absence of the diagnostic units were performed by extracting information related to the first level of the WRB classification and to the qualifiers provided by the ESDB on the Soil Taxonomic Units (STU) level. The areal percentage of the STUs (thus, the derived diagnostics) within Soil Mapping Units (SMUs) was calculated and was visualized on separate maps. The study demonstrated the importance of the spatial information that the diagnostic elements convey, especially related to soil functions.
欧洲土壤的诊断连续体
诊断层、性质和材料是国内外土壤分类系统常用的构建单元。诊断信息的存在、深度或缺失支持了客观土壤分类过程,例如世界参考数据库(WRB)。虽然诊断单位和相关的描述性限定词传达了反映土壤作用的信息,但它们也表明了与土壤肥力和其他土壤功能相关的重要且通常复杂的特性。诊断信息的空间范围或连续体往往不同于一般土壤图中制图单元的空间范围(主要反映土壤类型)。本文介绍了欧盟选定的诊断单元和限定符的空间分布,并描述了它们对关键土壤功能的意义。所选诊断的推导是基于欧洲土壤数据库提供的信息,并考虑到土壤的定义、规则和分配程序到由WRB关键字定义的适当参考土壤组(RSG)。通过提取与WRB分类的第一级和ESDB在土壤分类单元(STU)级别上提供的限定符相关的信息来定义诊断单元的存在/不存在。计算土壤测图单元(smu)内STUs的面积百分比(即衍生诊断),并在单独的地图上显示。研究证明了诊断要素所传达的空间信息的重要性,特别是与土壤功能相关的空间信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Hungarian Geographical Bulletin
Hungarian Geographical Bulletin Social Sciences-Geography, Planning and Development
CiteScore
3.20
自引率
0.00%
发文量
24
审稿时长
24 weeks
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