Temporal Variation of Soil Physical Quality under Conventional and No-Till Systems

Temporal Variation of Soil Physical Quality under Conventional and No-Till Systems

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Determination of soil physical quality (SPQ) is very important because it is related to many important soil processes. However, it is not clear which indicators should be considered in this evaluation, and information about temporal variation of SPQ under different soil tillage systems is scarce. The aim of this study was to determine the effects of no tillage (NT) and conventional tillage (CT) on temporal variation of capacity SPQ indicators [bulk density (BD), macroporosity (Pmac), air capacity (AC), plant available water capacity (PAWC), relative field capacity (RFC), Dexter's (S), and structural stability index (SSI)], and dynamic SPQ indicators [field saturated hydraulic conductivity (K0), water-conducting macroporosity (εma), and mesoporosity (εme); and pore continuity indexes based on water flux of total porosity (CWTP), of macroporosity (CWmac), and of mesoporosity (Cwmes)]. Additionally, the effect of the soil management system on corn yield was evaluated. Measurements and determinations were made at four different moments/cropping stages in the corn growing season (BS: before seeding; V6: six leaf stage; R5: physiological maturity; and AH: after harvest). Capacity SPQ indicators were derived from the soil water retention curve determined using sand box and pressure chambers, and dynamic SPQ indicators were derived from field infiltration data measured using a tension disc infiltrometer. Most capacity SPQ indicators were affected by the moment/cropping stage in which samples were taken, but followed similar trends and had similar values under both treatments, particularly in the AH stage. Dynamic SPQ indicators varied differently during the growing season depending on the management system. Under NT, most dynamic indicators increase from BS to V6 and decrease again at AH, whereas under CT, they follow a different trend, decreasing from BS to V6, remaining constant until R5, and increasing at AH. Corn yield was lower under CT (NT: 10,939 kg ha−1; CT: 8,265 kg ha−1). These results emphasize the need to include dynamic SPQ indicators, and their temporal variation when evaluating cropping systems with the aim of modeling crop yields. The capacity SPQ indicators were not able to distinguish between treatments.

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Main Authors: Soracco, Carlos Germán, Lozano, Luis Alberto, Villarreal, Rafael, Melani, Esteban, Sarli, Guillermo Oliverio
Format: info:ar-repo/semantics/artículo biblioteca
Language:eng
Published: 2018-04
Subjects:Suelo, Calidad, Propiedades Físico - Químicas Suelo, Conductividad Hidráulica, Labranza Convencional, Cero-labranza, Soil, Quality, Soil Chemicophysical Properties, Hydraulic Conductivity, Conventional Tillage, Zero Tillage,
Online Access:http://hdl.handle.net/20.500.12123/2582
https://www.sbcs.org.br/wp-content/uploads/2018/03/v42e0170408.pdf
https://doi.org/10.1590/18069657rbcs20170408
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spelling oai:localhost:20.500.12123-25822018-06-08T16:07:38Z Temporal Variation of Soil Physical Quality under Conventional and No-Till Systems Soracco, Carlos Germán Lozano, Luis Alberto Villarreal, Rafael Melani, Esteban Sarli, Guillermo Oliverio Suelo Calidad Propiedades Físico - Químicas Suelo Conductividad Hidráulica Labranza Convencional Cero-labranza Soil Quality Soil Chemicophysical Properties Hydraulic Conductivity Conventional Tillage Zero Tillage Determination of soil physical quality (SPQ) is very important because it is related to many important soil processes. However, it is not clear which indicators should be considered in this evaluation, and information about temporal variation of SPQ under different soil tillage systems is scarce. The aim of this study was to determine the effects of no tillage (NT) and conventional tillage (CT) on temporal variation of capacity SPQ indicators [bulk density (BD), macroporosity (Pmac), air capacity (AC), plant available water capacity (PAWC), relative field capacity (RFC), Dexter's (S), and structural stability index (SSI)], and dynamic SPQ indicators [field saturated hydraulic conductivity (K0), water-conducting macroporosity (εma), and mesoporosity (εme); and pore continuity indexes based on water flux of total porosity (CWTP), of macroporosity (CWmac), and of mesoporosity (Cwmes)]. Additionally, the effect of the soil management system on corn yield was evaluated. Measurements and determinations were made at four different moments/cropping stages in the corn growing season (BS: before seeding; V6: six leaf stage; R5: physiological maturity; and AH: after harvest). Capacity SPQ indicators were derived from the soil water retention curve determined using sand box and pressure chambers, and dynamic SPQ indicators were derived from field infiltration data measured using a tension disc infiltrometer. Most capacity SPQ indicators were affected by the moment/cropping stage in which samples were taken, but followed similar trends and had similar values under both treatments, particularly in the AH stage. Dynamic SPQ indicators varied differently during the growing season depending on the management system. Under NT, most dynamic indicators increase from BS to V6 and decrease again at AH, whereas under CT, they follow a different trend, decreasing from BS to V6, remaining constant until R5, and increasing at AH. Corn yield was lower under CT (NT: 10,939 kg ha−1; CT: 8,265 kg ha−1). These results emphasize the need to include dynamic SPQ indicators, and their temporal variation when evaluating cropping systems with the aim of modeling crop yields. The capacity SPQ indicators were not able to distinguish between treatments. EEA Cuenca del Salado Fil: Soracco, Carlos Germán. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Lozano, Luis Alberto. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Villarreal, Rafael. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Melani, Esteban. Instituto Nacional de Tecnología Agropecuaria (INTA). Estación Experimental Agropecuaria Cuenca del Salado. Agencia de Extensión Rural Chascomus; Argentina Fil: Sarli, Guillermo Oliverio. Universidad Nacional de La Plata. Facultad de Ciencias Agrarias y Forestales. Centro de Investigación de Suelos para la Sustentabilidad Agropecuaria y Forestal; Argentina 2018-06-08T16:05:31Z 2018-06-08T16:05:31Z 2018-04 info:ar-repo/semantics/artículo info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion http://hdl.handle.net/20.500.12123/2582 https://www.sbcs.org.br/wp-content/uploads/2018/03/v42e0170408.pdf 0100-0683 1806-9657 https://doi.org/10.1590/18069657rbcs20170408 eng info:eu-repo/semantics/openAccess application/pdf Revista Brasileira de Ciência do Solo 42 : e0170408 (Apr. 2018)
institution INTA AR
collection DSpace
country Argentina
countrycode AR
component Bibliográfico
access En linea
databasecode dig-inta-ar
tag biblioteca
region America del Sur
libraryname Biblioteca Central del INTA Argentina
language eng
topic Suelo
Calidad
Propiedades Físico - Químicas Suelo
Conductividad Hidráulica
Labranza Convencional
Cero-labranza
Soil
Quality
Soil Chemicophysical Properties
Hydraulic Conductivity
Conventional Tillage
Zero Tillage
Suelo
Calidad
Propiedades Físico - Químicas Suelo
Conductividad Hidráulica
Labranza Convencional
Cero-labranza
Soil
Quality
Soil Chemicophysical Properties
Hydraulic Conductivity
Conventional Tillage
Zero Tillage
spellingShingle Suelo
Calidad
Propiedades Físico - Químicas Suelo
Conductividad Hidráulica
Labranza Convencional
Cero-labranza
Soil
Quality
Soil Chemicophysical Properties
Hydraulic Conductivity
Conventional Tillage
Zero Tillage
Suelo
Calidad
Propiedades Físico - Químicas Suelo
Conductividad Hidráulica
Labranza Convencional
Cero-labranza
Soil
Quality
Soil Chemicophysical Properties
Hydraulic Conductivity
Conventional Tillage
Zero Tillage
Soracco, Carlos Germán
Lozano, Luis Alberto
Villarreal, Rafael
Melani, Esteban
Sarli, Guillermo Oliverio
Temporal Variation of Soil Physical Quality under Conventional and No-Till Systems
description Determination of soil physical quality (SPQ) is very important because it is related to many important soil processes. However, it is not clear which indicators should be considered in this evaluation, and information about temporal variation of SPQ under different soil tillage systems is scarce. The aim of this study was to determine the effects of no tillage (NT) and conventional tillage (CT) on temporal variation of capacity SPQ indicators [bulk density (BD), macroporosity (Pmac), air capacity (AC), plant available water capacity (PAWC), relative field capacity (RFC), Dexter's (S), and structural stability index (SSI)], and dynamic SPQ indicators [field saturated hydraulic conductivity (K0), water-conducting macroporosity (εma), and mesoporosity (εme); and pore continuity indexes based on water flux of total porosity (CWTP), of macroporosity (CWmac), and of mesoporosity (Cwmes)]. Additionally, the effect of the soil management system on corn yield was evaluated. Measurements and determinations were made at four different moments/cropping stages in the corn growing season (BS: before seeding; V6: six leaf stage; R5: physiological maturity; and AH: after harvest). Capacity SPQ indicators were derived from the soil water retention curve determined using sand box and pressure chambers, and dynamic SPQ indicators were derived from field infiltration data measured using a tension disc infiltrometer. Most capacity SPQ indicators were affected by the moment/cropping stage in which samples were taken, but followed similar trends and had similar values under both treatments, particularly in the AH stage. Dynamic SPQ indicators varied differently during the growing season depending on the management system. Under NT, most dynamic indicators increase from BS to V6 and decrease again at AH, whereas under CT, they follow a different trend, decreasing from BS to V6, remaining constant until R5, and increasing at AH. Corn yield was lower under CT (NT: 10,939 kg ha−1; CT: 8,265 kg ha−1). These results emphasize the need to include dynamic SPQ indicators, and their temporal variation when evaluating cropping systems with the aim of modeling crop yields. The capacity SPQ indicators were not able to distinguish between treatments.
format info:ar-repo/semantics/artículo
topic_facet Suelo
Calidad
Propiedades Físico - Químicas Suelo
Conductividad Hidráulica
Labranza Convencional
Cero-labranza
Soil
Quality
Soil Chemicophysical Properties
Hydraulic Conductivity
Conventional Tillage
Zero Tillage
author Soracco, Carlos Germán
Lozano, Luis Alberto
Villarreal, Rafael
Melani, Esteban
Sarli, Guillermo Oliverio
author_facet Soracco, Carlos Germán
Lozano, Luis Alberto
Villarreal, Rafael
Melani, Esteban
Sarli, Guillermo Oliverio
author_sort Soracco, Carlos Germán
title Temporal Variation of Soil Physical Quality under Conventional and No-Till Systems
title_short Temporal Variation of Soil Physical Quality under Conventional and No-Till Systems
title_full Temporal Variation of Soil Physical Quality under Conventional and No-Till Systems
title_fullStr Temporal Variation of Soil Physical Quality under Conventional and No-Till Systems
title_full_unstemmed Temporal Variation of Soil Physical Quality under Conventional and No-Till Systems
title_sort temporal variation of soil physical quality under conventional and no-till systems
publishDate 2018-04
url http://hdl.handle.net/20.500.12123/2582
https://www.sbcs.org.br/wp-content/uploads/2018/03/v42e0170408.pdf
https://doi.org/10.1590/18069657rbcs20170408
work_keys_str_mv AT soraccocarlosgerman temporalvariationofsoilphysicalqualityunderconventionalandnotillsystems
AT lozanoluisalberto temporalvariationofsoilphysicalqualityunderconventionalandnotillsystems
AT villarrealrafael temporalvariationofsoilphysicalqualityunderconventionalandnotillsystems
AT melaniesteban temporalvariationofsoilphysicalqualityunderconventionalandnotillsystems
AT sarliguillermooliverio temporalvariationofsoilphysicalqualityunderconventionalandnotillsystems
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