{ "abstracts": [ { "content": "<p><strong>Abstract.</strong> The soil texture representation with the standard textural fraction triplet <q>sand–silt–clay</q> is commonly used to estimate soil properties. The objective of this work was to test the hypothesis that other fraction sizes in the triplets may provide a better representation of soil texture for estimating some soil parameters. We estimated the cumulative particle size distribution and bulk density from an entropy-based representation of the textural triplet with experimental data for 6240 soil samples. The results supported the hypothesis. For example, simulated distributions were not significantly different from the original ones in 25 and 85<span class=\"thinspace\"></span>% of cases when the sand–silt–clay and <q>very coarse+coarse + medium sand − fine + very fine sand − silt+clay</q> were used, respectively. When the same standard and modified triplets were used to estimate the average bulk density, the coefficients of determination were 0.001 and 0.967, respectively. Overall, the textural triplet selection appears to be application and data specific.</p>\n ", "mimetype": "application/xml+jats", "sha1": "7b160d44a40de5304ed25cb0dec26bf6d86b13c3" } ], "container_id": "2ffmqowoafbkzae4g2zdu7qx6m", "contribs": [ { "extra": { "seq": "first" }, "index": 0, "raw_name": "Miguel Ángel Martín", "role": "author" }, { "creator_id": "hlpiwppdfnbejhct5zmjbigoca", "index": 1, "raw_name": "Yakov A. Pachepsky", "role": "author" }, { "creator_id": "p5nczejcmzfznpxliunuceswey", "index": 2, "raw_name": "Carlos García-Gutiérrez", "role": "author" }, { "index": 3, "raw_name": "Miguel Reyes", "role": "author" } ], "ext_ids": { "doi": "10.5194/se-9-159-2018" }, "extra": { "crossref": { "license": [ { "URL": "https://creativecommons.org/licenses/by/4.0/", "content-version": "unspecified", "delay-in-days": 0, "start": "2018-02-22T00:00:00Z" } ], "subject": [ "Earth-Surface Processes", "Stratigraphy", "Palaeontology", "Soil Science", "Geology", "Geochemistry and Petrology", "Geophysics" ], "type": "journal-article" } }, "ident": "75ky5xniobchzbhzwhmwhu5uoa", "language": "en", "pages": "159-165", "publisher": "Copernicus GmbH", "refs": [ { "extra": { "doi": "10.1016/s0927-7757(97)00144-1", "unstructured": "Assouline, S. and Rouault, Y.: Modeling the relationships between particle and pore size distributions in multicomponent sphere packs: Application to the water retention curve, Colloid. 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