Contribution of water content and bulk density to field soil penetration resistance as measured by a combined cone penetrometer - TDR probe.

Contribution of water content and bulk density to field soil penetration resistance as measured by a combined cone penetrometer - TDR probe.

Soil strength as measured by cone penetrometers depends on several parameters, but it is mostly affected by the soil water content and bulk density (p). In order to better understand the effect of the water content and bulk density on soil strength we developed a combined penetronieter-coiled TDR probe to determine simultaneously the depth distribution of penetration resistance and water content in a soil profile. Field experiments carried out for a Yolo soil allowed the fitting of the effect and p using a combined power-exponential equation. Using the combined cone penetrometer-TDR probe data, the fitted equation may be used to estimate soil bulk density.

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Bibliographic Details
Main Authors: VAZ, C. M. P., BASSOI, L. H., HOPMANS, J. W.
Other Authors: LUIS HENRIQUE BASSOI, CPATSA.
Format: Artigo de periódico biblioteca
Language:English
eng
Published: 2001-12-19
Subjects:Compactacao, Densidade, Penetracao, Soil moisture, Compaction, Penetration, Resistance, Água, Resistência, Umidade do Solo, density, water,
Online Access:http://www.alice.cnptia.embrapa.br/alice/handle/doc/134462
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spelling dig-alice-doc-1344622018-05-11T00:32:58Z Contribution of water content and bulk density to field soil penetration resistance as measured by a combined cone penetrometer - TDR probe. VAZ, C. M. P. BASSOI, L. H. HOPMANS, J. W. LUIS HENRIQUE BASSOI, CPATSA. Compactacao Densidade Penetracao Soil moisture Compaction Penetration Resistance Água Resistência Umidade do Solo density water Soil strength as measured by cone penetrometers depends on several parameters, but it is mostly affected by the soil water content and bulk density (p). In order to better understand the effect of the water content and bulk density on soil strength we developed a combined penetronieter-coiled TDR probe to determine simultaneously the depth distribution of penetration resistance and water content in a soil profile. Field experiments carried out for a Yolo soil allowed the fitting of the effect and p using a combined power-exponential equation. Using the combined cone penetrometer-TDR probe data, the fitted equation may be used to estimate soil bulk density. 2018-05-11T00:32:51Z 2018-05-11T00:32:51Z 2001-12-19 2001 2018-05-11T00:32:51Z Artigo de periódico Soil & Tillage Research, v. 60, p. 35-42, 2001. http://www.alice.cnptia.embrapa.br/alice/handle/doc/134462 en eng openAccess
institution EMBRAPA
collection DSpace
country Brasil
countrycode BR
component Bibliográfico
access En linea
databasecode dig-alice
tag biblioteca
region America del Sur
libraryname Sistema de bibliotecas de EMBRAPA
language English
eng
topic Compactacao
Densidade
Penetracao
Soil moisture
Compaction
Penetration
Resistance
Água
Resistência
Umidade do Solo
density
water
Compactacao
Densidade
Penetracao
Soil moisture
Compaction
Penetration
Resistance
Água
Resistência
Umidade do Solo
density
water
spellingShingle Compactacao
Densidade
Penetracao
Soil moisture
Compaction
Penetration
Resistance
Água
Resistência
Umidade do Solo
density
water
Compactacao
Densidade
Penetracao
Soil moisture
Compaction
Penetration
Resistance
Água
Resistência
Umidade do Solo
density
water
VAZ, C. M. P.
BASSOI, L. H.
HOPMANS, J. W.
Contribution of water content and bulk density to field soil penetration resistance as measured by a combined cone penetrometer - TDR probe.
description Soil strength as measured by cone penetrometers depends on several parameters, but it is mostly affected by the soil water content and bulk density (p). In order to better understand the effect of the water content and bulk density on soil strength we developed a combined penetronieter-coiled TDR probe to determine simultaneously the depth distribution of penetration resistance and water content in a soil profile. Field experiments carried out for a Yolo soil allowed the fitting of the effect and p using a combined power-exponential equation. Using the combined cone penetrometer-TDR probe data, the fitted equation may be used to estimate soil bulk density.
author2 LUIS HENRIQUE BASSOI, CPATSA.
author_facet LUIS HENRIQUE BASSOI, CPATSA.
VAZ, C. M. P.
BASSOI, L. H.
HOPMANS, J. W.
format Artigo de periódico
topic_facet Compactacao
Densidade
Penetracao
Soil moisture
Compaction
Penetration
Resistance
Água
Resistência
Umidade do Solo
density
water
author VAZ, C. M. P.
BASSOI, L. H.
HOPMANS, J. W.
author_sort VAZ, C. M. P.
title Contribution of water content and bulk density to field soil penetration resistance as measured by a combined cone penetrometer - TDR probe.
title_short Contribution of water content and bulk density to field soil penetration resistance as measured by a combined cone penetrometer - TDR probe.
title_full Contribution of water content and bulk density to field soil penetration resistance as measured by a combined cone penetrometer - TDR probe.
title_fullStr Contribution of water content and bulk density to field soil penetration resistance as measured by a combined cone penetrometer - TDR probe.
title_full_unstemmed Contribution of water content and bulk density to field soil penetration resistance as measured by a combined cone penetrometer - TDR probe.
title_sort contribution of water content and bulk density to field soil penetration resistance as measured by a combined cone penetrometer - tdr probe.
publishDate 2001-12-19
url http://www.alice.cnptia.embrapa.br/alice/handle/doc/134462
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AT bassoilh contributionofwatercontentandbulkdensitytofieldsoilpenetrationresistanceasmeasuredbyacombinedconepenetrometertdrprobe
AT hopmansjw contributionofwatercontentandbulkdensitytofieldsoilpenetrationresistanceasmeasuredbyacombinedconepenetrometertdrprobe
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