Macroporosity of a Typic Argiudoll with different cropping intensity under no-tillage
Soil macropores are dominant pathways of water flow and their impact on hydraulic properties is directly related to their geometrical and topological characteristics. A number of field and micromorphological analysis have shown that agriculture management under no-tillage promotes the development of...
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| Published in: | Spanish journal of soil science Vol. 8; no. 2; pp. 214 - 235 |
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| Format: | Journal Article |
| Language: | English |
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01-01-2018
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| Abstract | Soil macropores are dominant pathways of water flow and their impact on hydraulic properties is directly related to their geometrical and topological characteristics. A number of field and micromorphological analysis have shown that agriculture management under no-tillage promotes the development of a microstructure characterized by platy aggregates and horizontal planes in the topsoil, together with a densification at a subjacent layer, thus raising questions about physical properties and water dynamics under this system of cultivation. Moreover, scarce information is available about the evolution of pore architecture and physical parameters in soils under no-till with different cropping intensity. The objective of this work was to evaluate soil porosity in a silty loam A horizon of a Typic Argiudoll (Monte Buey series) of northern Pampa Region (Argentina) under two no-tilled contrasting managements: Good Agricultural Practices (GAP) –highly intensified cropping sequence including corn and wheat in addition to soybean-, Poor Agricultural Practices (PAP) -simplified crop sequence, with predominance of soybean- and a Natural Environment (NE) as reference. Topsoil porosity was assessed by micromorphology, micromorphometry and water retention curves approach, and the values obtained were related to some physical and chemical variables. Results of the morphological analysis revealed important differences between both agricultural treatments. In the surface layer in GAP, platy aggregates are thick and result from the cohesion of rounded microaggregates of biological origin; in PAP they are thin and dense, resulting mostly from compaction of individual soil particles and small microaggregates. A soil densification is evident in both agricultural treatments at 5-10 cm depth, although the morphology and size of aggregates and pores also differ between them. Micromorphometric analyses have shown differences in total macroporosity as well as in the size, morphology and orientation of macropores between both treatments. Macroporosity values obtained by digital methods were coincidently reflected by the pressure plate method. Porosity variables measured by digital analysis, in particular elongated pores and pore orientation, appear more sensitive than other soil properties (total carbon, aggregate stability, bulk density) in discriminating treatments. Although no-till cultivation led to the formation of platy microstructures and a decrease of soil porosity compared to NE, both agricultural treatments presented optimal values of Ks and water movement was not impaired. As expected, all morphological and analytical soil variables were better in the NE treatment. In addition, it was interesting to verify that the values of several parameters were close or similar between GAP and NE. Even when more intensified crop sequence (GAP) increases machinery traffic, morphological, physical and chemical soil properties were here improved compared to PAP. In this case, the higher proportion of different graminea into the agricultural cycle, besides its effect on the development of root biopores, seems to promote a higher fauna activity which effectively counteracts the vertical mechanical compression produced by traffic. These results suggest that, in addition to the known benefits of non-tillage on soil conservation, the improvement of various soil properties could be achieved by integrating this method of cultivation with suitable agricultural managements. |
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| AbstractList | Soil macropores are dominant pathways of water flow and their impact on hydraulic properties is directly related to their geometrical and topological characteristics. A number of field and micromorphological analysis have shown that agriculture management under no-tillage promotes the development of a microstructure characterized by platy aggregates and horizontal planes in the topsoil, together with a densification at a subjacent layer, thus raising questions about physical properties and water dynamics under this system of cultivation. Moreover, scarce information is available about the evolution of pore architecture and physical parameters in soils under no-till with different cropping intensity. The objective of this work was to evaluate soil porosity in a silty loam A horizon of a Typic Argiudoll (Monte Buey series) of northern Pampa Region (Argentina) under two no-tilled contrasting managements: Good Agricultural Practices (GAP) –highly intensified cropping sequence including corn and wheat in addition to soybean-, Poor Agricultural Practices (PAP) -simplified crop sequence, with predominance of soybean- and a Natural Environment (NE) as reference. Topsoil porosity was assessed by micromorphology, micromorphometry and water retention curves approach, and the values obtained were related to some physical and chemical variables. Results of the morphological analysis revealed important differences between both agricultural treatments. In the surface layer in GAP, platy aggregates are thick and result from the cohesion of rounded microaggregates of biological origin; in PAP they are thin and dense, resulting mostly from compaction of individual soil particles and small microaggregates. A soil densification is evident in both agricultural treatments at 5-10 cm depth, although the morphology and size of aggregates and pores also differ between them. Micromorphometric analyses have shown differences in total macroporosity as well as in the size, morphology and orientation of macropores between both treatments. Macroporosity values obtained by digital methods were coincidently reflected by the pressure plate method. Porosity variables measured by digital analysis, in particular elongated pores and pore orientation, appear more sensitive than other soil properties (total carbon, aggregate stability, bulk density) in discriminating treatments. Although no-till cultivation led to the formation of platy microstructures and a decrease of soil porosity compared to NE, both agricultural treatments presented optimal values of Ks and water movement was not impaired. As expected, all morphological and analytical soil variables were better in the NE treatment. In addition, it was interesting to verify that the values of several parameters were close or similar between GAP and NE. Even when more intensified crop sequence (GAP) increases machinery traffic, morphological, physical and chemical soil properties were here improved compared to PAP. In this case, the higher proportion of different graminea into the agricultural cycle, besides its effect on the development of root biopores, seems to promote a higher fauna activity which effectively counteracts the vertical mechanical compression produced by traffic. These results suggest that, in addition to the known benefits of non-tillage on soil conservation, the improvement of various soil properties could be achieved by integrating this method of cultivation with suitable agricultural managements. Soil macropores are dominant pathways of water flow and their impact on hydraulic properties is directly related to their geometrical and topological characteristics. A number of field and micromorphological analysis have shown that agriculture management under no-tillage promotes the development of a microstructure characterized by platy aggregates and horizontal planes in the topsoil, together with a densification at a subjacent layer, thus raising questions about physical properties and water dynamics under this system of cultivation. Moreover, scarce information is available about the evolution of pore architecture and physical parameters in soils under no-till with different cropping intensity. The objective of this work was to evaluate soil porosity in a silty loam A horizon of a Typic Argiudoll (Monte Buey series) of northern Pampa Region (Argentina) under two no-tilled contrasting managements: Good Agricultural Practices (GAP) –highly intensified cropping sequence including corn and wheat in addition to soybean-, Poor Agricultural Practices (PAP) -simplified crop sequence, with predominance of soybean- and a Natural Environment (NE) as reference. Topsoil porosity was assessed by micromorphology, micromorphometry and water retention curves approach, and the values obtained were related to some physical and chemical variables. Results of the morphological analysis revealed important differences between both agricultural treatments. In the surface layer in GAP, platy aggregates are thick and result from the cohesion of rounded microaggregates of biological origin; in PAP they are thin and dense, resulting mostly from compaction of individual soil particles and small microaggregates. A soil densification is evident in both agricultural treatments at 5-10 cm depth, although the morphology and size of aggregates and pores also differ between them. Micromorphometric analyses have shown differences in total macroporosity as well as in the size, morphology and orientation of macropores between both treatments. Macroporosity values obtained by digital methods were coincidently reflected by the pressure plate method. Porosity variables measured by digital analysis, in particular elongated pores and pore orientation, appear more sensitive than other soil properties (total carbon, aggregate stability, bulk density) in discriminating treatments. Although no-till cultivation led to the formation of platy microstructures and a decrease of soil porosity compared to NE, both agricultural treatments presented optimal values of Ks and water movement was not impaired. As expected, all morphological and analytical soil variables were better in the NE treatment. In addition, it was interesting to verify that the values of several parameters were close or similar between GAP and NE. Even when more intensified crop sequence (GAP) increases machinery traffic, morphological, physical and chemical soil properties were here improved compared to PAP. In this case, the higher proportion of different graminea into the agricultural cycle, besides its effect on the development of root biopores, seems to promote a higher fauna activity which effectively counteracts the vertical mechanical compression produced by traffic. These results suggest that, in addition to the known benefits of non-tillage on soil conservation, the improvement of various soil properties could be achieved by integrating this method of cultivation with suitable agricultural managements. Os macroporos do solo são vias preferenciais para o escoamento da água e o seu impacto nas propriedades hidráulicas está diretamente relacionado com as suas características geométricas e topológicas. Uma série de análises micromorfológicas e de campo mostraram que a gestão agrícola em plantio direto (PD) promove o desenvolvimento de uma microestrutura caracterizada por agregados laminares e poros planares na camada superior do solo associada a uma densificação na camada subjacente, levantando assim questões sobre as propriedades físicas do solo e a dinâmica da água sob este sistema de cultivo. Além disso, é escassa a informação disponível sobre a evolução da arquitetura dos poros e dos parâmetros físicos em solos sob PD com diferentes intensidades de cultivo. O objetivo deste trabalho foi o de avaliar a porosidade do solo no horizonte A franco siltoso de um Argiudol Típico (série Monte Buey) da região norte da Pampa Argentina submetido a intensidades de cultivo contrastantes em PD: Boas Práticas Agrícolas (BPA) – sequência altamente intensificada incluindo cultura de milho e trigo além da soja-, Más Práticas Agrícolas (MPA) – sequência de culturas simplificada com predomínio de soja. E um ambiente natural (AN) como referência. A porosidade da camada superficial do solo foi avaliada através de análises micromorfológicas, micromorfométricas e pela determinação de curvas de retenção de água. Os dados obtidos foram correlacionados com algumas variáveis físicas e químicas do solo. Os resultados da análise morfológica indicaram diferenças importantes entre os dois tratamentos. Na camada superficial de BPA, os agregados laminares são espessos a resultam da coesão de microagregados arredondados de origem biológica; em MPA aqueles agregados são finos e densos, e são principalmente resultantes da compactação de partículas individuais do solo e pequenos microagregados. Na camada de 5-10 cm é evidente a densificação do solo em ambos os tratamentos agrícolas, embora a morfologia e a dimensão dos agregados e dos poros sejam diferentes. As análises micromorfométricas mostram diferenças na macroporosidade total assim como no tamanho, morfologia e orientação dos macroporos entre ambos os tratamentos. Os valores da macroporosidade obtidos por métodos digitais eram coincidentes com os obtidos pelas curvas de retenção hídrica. As variáveis da porosidade determinada por análise digital, em particular dos poros alongados e da sua orientação parecem mais sensíveis do que outras propriedades do solo (carbono total, estabilidade dos agregados, densidade aparente) para discriminar os tratamentos. Embora a SD desse lugar à formação de microestruturas laminares e a uma diminuição da porosidade do solo quando comparada com AN, ambos os tratamentos agrícolas apresentaram valores ótimos de Ks que não afetaram o movimento da água. Tal como esperado, todas as variáveis morfológicas e analíticas do solo foram melhores no Ambiente Natural. Além disso, foi interessante verificar que os valores dos vários parâmetros eram próximos ou semelhantes entre BPA e AN. Mesmo quando a sequência de cultivo mais intensa (BPA) aumentou o tráfego de maquinaria, várias propriedades morfológicas, físicas e químicas do solo foram melhoradas comparativamente a MPA. A maior proporção de diferentes gramíneas no ciclo agrícola, além do seu efeito no desenvolvimento de bioporos radiculares, parece promover uma elevada atividade da fauna, a qual contraria eficazmente a compressão mecânica vertical produzida pelo tráfego. Estes resultados sugerem que, para além dos benefícios conhecidos da SD na conservação do solo, poderá obter-se uma melhoria de várias propriedades do solo associando este sistema de cultivo com práticas de gestão agrícola adequadas. Los macroporos del suelo son vías preferenciales del flujo de agua y su impacto sobre las propiedades hidráulicas está directamente relacionado con sus características geométricas y topológicas. Numerosos análisis micromorfológicos y de campo han demostrado que manejos agrícolas bajo siembra directa (SD) promueven el desarrollo de una microestructura caracterizada por agregados laminares y poros planares en el estrato superior del suelo, asociado a una densificación en el estrato subyacente, planteando, de esta forma, incertidumbres sobre la dinámica de las propiedades físicas y la dinámica del agua bajo este sistema de cultivo. Además, es escasa la información sobre la evolución de la arquitectura poral asociada a parámetros físicos en suelos bajo SD con diferentes manejos agrícolas. El objetivo de este trabajo fue evaluar la porosidad del suelo en el horizonte A franco limoso de un Argiudol Típico (serie Monte Buey) de la región norte de la Pampa (Argentina) bajo dos intensidades de cultivo contrastantes bajo SD: Buenas Prácticas Agrícolas (BPA) – secuencia altamente intensificada incluyendo los cultivos de maíz y trigo además de la soja-, Malas Prácticas Agrícolas (MPA) –secuencia de cultivos simplificada con predominio de soja- y un Ambiente Natural (AN) como referencia. La porosidad del estrato superficial fue evaluada mediante análisis micromorfológicos, micromorfométricos y a partir de la determinación de curvas de retención hídrica. Además se evaluaron diversas variables hidrofísicas. Los resultados del análisis morfológico revelaron diferencias importantes entre ambos tratamientos agrícolas. En el estrato superior de BPA, los agregados laminares son de gran tamaño y resultan de la cohesión de microagregados redondeados de origen biológico; en MPA son de menor tamaño, densos, resultantes principalmente de la compactación de partículas individuales y pequeños microagregados. En el estrato 5-10 cm, la densificación del suelo es evidente en ambos tratamientos agrícolas, si bien la morfología y el tamaño de los agregados y poros difieren entre ellos. Los análisis micromorfométricos mostraron diferencias en la macroporosidad total, así como en el tamaño, morfología y orientación de los macroporos entre ambos tratamientos agrícolas. Los valores de macroporosidad obtenidos por métodos digitales fueron coincidentes con el método de curvas de retención hídrica. Además, las variables de porosidad determinada por análisis digitales, en particular los poros alargados y la orientación de dichos poros, parecen más sensibles que otras propiedades del suelo (carbono total, estabilidad del agregado, densidad aparente) para discriminar los tratamientos. Aunque la SD dio lugar a la formación de microestru |
| Author | Morrás, Héctor José María Behrends Kraemer, Filipe |
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| SubjectTerms | estructuras laminares estruturas laminares Micromorfologia Micromorfología micromorfometria micromorfometría Micromorphology micromorphometry platy structure silty soils solos limosos suelos limosos |
| Title | Macroporosity of a Typic Argiudoll with different cropping intensity under no-tillage |
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