Amalgamation and harmonization of soil survey reports into a multi-purpose database

There is a growing demand for standardized, easily accessible, and detailed information pertaining to soil and its variability across the landscape. Typically, this information is only available for selected areas in the form of local or regional soil surveys reports which are difficult, and costly,...

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Bibliographic Details
Published in:Canadian Journal of Soil Science 2021-06, Vol.101 (2), p.222-247
Main Authors: Furze, Shane, Arp, Paul
Format: Article
Language:English
Subjects:
Amalgamation
Associations
base de données sur les sols
Drainage
Forest soils
harmonisation
harmonization
levés pédologiques
Regional development
Soil classification
Soil conditions
soil database
Soil properties
Soil surveys
Surveying
Units of measurement
Variability
Vegetation type
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Summary:There is a growing demand for standardized, easily accessible, and detailed information pertaining to soil and its variability across the landscape. Typically, this information is only available for selected areas in the form of local or regional soil surveys reports which are difficult, and costly, to develop. Additionally, soil surveying protocols have changed with time, resulting in inconsistencies between surveys conducted over different periods. This article describes systematic procedures applied to generate an aspatial, terminologically, and unit-consistent, database for forest soils from county-based soil survey reports for the province of New Brunswick, Canada. The procedures involved (i) amalgamating data from individual soil surveys following a hierarchical framework, (ii) summarizing and grouping soil information by soil associations, (iii) assigning correct soil associates to each association, with each soil associate distinguished by drainage classification, (iv) assigning pedologically correct horizon sequences, as identified in the original soil surveys, to each soil associate, (v) assigning horizon descriptors and measured soil properties to each horizon, as outlined by the Canadian System of Soil Classification, and (vi) harmonizing units of measurement for individual soil properties. Identification and summarization of all soil associations (and corresponding soil associates) was completed with reference to the principal soil-forming factors, namely soil parent material, topographic surface expressions, soil drainage, and dominant vegetation type(s). This procedure, utilizing 17 soil surveys, resulted in an amalgamated database containing 106 soil associations, 243 soil associates, and 522 soil horizon sequences summarizing the variability of forest soil conditions across New Brunswick.
ISSN:0008-4271
1918-1841
1918-1833
DOI:10.1139/cjss-2020-0078