Root growth of maize in a compacted gravelly tropical alfisol as affected by rotation with a woody perennial

Root growth of maize in a compacted gravelly tropical alfisol as affected by rotation with a woody perennial

The objective of this experiment was to evaluate the effects of growing a deep-rooting perennial on the root system development of a subsequent crop with low root penetrating ability. These effects were measured on a gravelly Alfisol with a compacted subsoil horizon for three tillage methods (zero tillage, conventional tillage and reduced tillage, consisting of chiseling in the row zone once a year) and two cropping sequences (pigeon pea-maize and continuous maize). The root development was related to changes in soil physical and chemical properties. At all times overall root growth was in the order of zero tillage > reduced tillage > conventional tillage. Among zero-tilled plots, maize root growth in plots sown to a pigeon pea-maize sequence was greater than in plots sown to continuous maize. Macroporosity of the gravel layer, measured as soil water content at 0 kPa in the 500–600 mm depth, was not affected by cropping sequence. Among tillage systems, soil water content at 0 kPa was 18.9, 11.8 and 13.9% on a volume basis for zero-tilled, reduced-tilled and conventionally-tilled plots, respectively. Soil physical properties above the gravel layer were improved in the order of zero tillage > reduced tillage > conventional tillage. Among zero-tilled plots, however, the pigeon pea-maize sequence improved soil physical properties more than continuous maize did. Mean seasonal soil temperature at 50 mm depth, measured at 1400 h during the major growing season, was 32.8 and 34.7°C in zero-tilled plots sown to a pigeon pea-maize sequence and continuous maize, respectively. At the same time mean seasonal temperature was 33.8, 35.5, and 39.7°C in zero-tilled, reduced-tilled and conventionally-tilled plots. In relation to continuous maize, sowing of pigeon pea prior to maize increased levels of organic carbon, exchangeable Ca, Mg and K and cation exchange capacity. Grain yield in plots sown to a pigeon pea-maize sequence was greater than in plots sown to continuous maize. Among tillage systems zero-tilled and reduced-tilled plots outyielded conventionally-tilled plots.

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Main Authors: Hulugalle, N.R., Lal, R.
Format: Journal Article biblioteca
Language:English
Published: Elsevier 1986-01
Subjects:root systems, tillage, maize, root growth, alfisol, zero tillage, reduced tillage, conventional tillage,
Online Access:https://hdl.handle.net/10568/81494
https://doi.org/10.1016/0378-4290(86)90005-5
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spelling dig-cgspace-10568-814942023-12-08T19:36:04Z Root growth of maize in a compacted gravelly tropical alfisol as affected by rotation with a woody perennial Hulugalle, N.R. Lal, R. root systems tillage maize root growth alfisol zero tillage reduced tillage conventional tillage The objective of this experiment was to evaluate the effects of growing a deep-rooting perennial on the root system development of a subsequent crop with low root penetrating ability. These effects were measured on a gravelly Alfisol with a compacted subsoil horizon for three tillage methods (zero tillage, conventional tillage and reduced tillage, consisting of chiseling in the row zone once a year) and two cropping sequences (pigeon pea-maize and continuous maize). The root development was related to changes in soil physical and chemical properties. At all times overall root growth was in the order of zero tillage > reduced tillage > conventional tillage. Among zero-tilled plots, maize root growth in plots sown to a pigeon pea-maize sequence was greater than in plots sown to continuous maize. Macroporosity of the gravel layer, measured as soil water content at 0 kPa in the 500–600 mm depth, was not affected by cropping sequence. Among tillage systems, soil water content at 0 kPa was 18.9, 11.8 and 13.9% on a volume basis for zero-tilled, reduced-tilled and conventionally-tilled plots, respectively. Soil physical properties above the gravel layer were improved in the order of zero tillage > reduced tillage > conventional tillage. Among zero-tilled plots, however, the pigeon pea-maize sequence improved soil physical properties more than continuous maize did. Mean seasonal soil temperature at 50 mm depth, measured at 1400 h during the major growing season, was 32.8 and 34.7°C in zero-tilled plots sown to a pigeon pea-maize sequence and continuous maize, respectively. At the same time mean seasonal temperature was 33.8, 35.5, and 39.7°C in zero-tilled, reduced-tilled and conventionally-tilled plots. In relation to continuous maize, sowing of pigeon pea prior to maize increased levels of organic carbon, exchangeable Ca, Mg and K and cation exchange capacity. Grain yield in plots sown to a pigeon pea-maize sequence was greater than in plots sown to continuous maize. Among tillage systems zero-tilled and reduced-tilled plots outyielded conventionally-tilled plots. 1986-01 2017-06-08T12:58:25Z 2017-06-08T12:58:25Z Journal Article Hulugalle, N.R. & Lal, R. (1986). Root growth of maize in a compacted gravelly tropical alfisol as affected by rotation with a woody perennial. Field Crops Research, 13, 33-44. 0378-4290 https://hdl.handle.net/10568/81494 https://doi.org/10.1016/0378-4290(86)90005-5 en Copyrighted; all rights reserved Limited Access 33-44 Elsevier Field Crops Research
institution CGIAR
collection DSpace
country Francia
countrycode FR
component Bibliográfico
access En linea
databasecode dig-cgspace
tag biblioteca
region Europa del Oeste
libraryname Biblioteca del CGIAR
language English
topic root systems
tillage
maize
root growth
alfisol
zero tillage
reduced tillage
conventional tillage
root systems
tillage
maize
root growth
alfisol
zero tillage
reduced tillage
conventional tillage
spellingShingle root systems
tillage
maize
root growth
alfisol
zero tillage
reduced tillage
conventional tillage
root systems
tillage
maize
root growth
alfisol
zero tillage
reduced tillage
conventional tillage
Hulugalle, N.R.
Lal, R.
Root growth of maize in a compacted gravelly tropical alfisol as affected by rotation with a woody perennial
description The objective of this experiment was to evaluate the effects of growing a deep-rooting perennial on the root system development of a subsequent crop with low root penetrating ability. These effects were measured on a gravelly Alfisol with a compacted subsoil horizon for three tillage methods (zero tillage, conventional tillage and reduced tillage, consisting of chiseling in the row zone once a year) and two cropping sequences (pigeon pea-maize and continuous maize). The root development was related to changes in soil physical and chemical properties. At all times overall root growth was in the order of zero tillage > reduced tillage > conventional tillage. Among zero-tilled plots, maize root growth in plots sown to a pigeon pea-maize sequence was greater than in plots sown to continuous maize. Macroporosity of the gravel layer, measured as soil water content at 0 kPa in the 500–600 mm depth, was not affected by cropping sequence. Among tillage systems, soil water content at 0 kPa was 18.9, 11.8 and 13.9% on a volume basis for zero-tilled, reduced-tilled and conventionally-tilled plots, respectively. Soil physical properties above the gravel layer were improved in the order of zero tillage > reduced tillage > conventional tillage. Among zero-tilled plots, however, the pigeon pea-maize sequence improved soil physical properties more than continuous maize did. Mean seasonal soil temperature at 50 mm depth, measured at 1400 h during the major growing season, was 32.8 and 34.7°C in zero-tilled plots sown to a pigeon pea-maize sequence and continuous maize, respectively. At the same time mean seasonal temperature was 33.8, 35.5, and 39.7°C in zero-tilled, reduced-tilled and conventionally-tilled plots. In relation to continuous maize, sowing of pigeon pea prior to maize increased levels of organic carbon, exchangeable Ca, Mg and K and cation exchange capacity. Grain yield in plots sown to a pigeon pea-maize sequence was greater than in plots sown to continuous maize. Among tillage systems zero-tilled and reduced-tilled plots outyielded conventionally-tilled plots.
format Journal Article
topic_facet root systems
tillage
maize
root growth
alfisol
zero tillage
reduced tillage
conventional tillage
author Hulugalle, N.R.
Lal, R.
author_facet Hulugalle, N.R.
Lal, R.
author_sort Hulugalle, N.R.
title Root growth of maize in a compacted gravelly tropical alfisol as affected by rotation with a woody perennial
title_short Root growth of maize in a compacted gravelly tropical alfisol as affected by rotation with a woody perennial
title_full Root growth of maize in a compacted gravelly tropical alfisol as affected by rotation with a woody perennial
title_fullStr Root growth of maize in a compacted gravelly tropical alfisol as affected by rotation with a woody perennial
title_full_unstemmed Root growth of maize in a compacted gravelly tropical alfisol as affected by rotation with a woody perennial
title_sort root growth of maize in a compacted gravelly tropical alfisol as affected by rotation with a woody perennial
publisher Elsevier
publishDate 1986-01
url https://hdl.handle.net/10568/81494
https://doi.org/10.1016/0378-4290(86)90005-5
work_keys_str_mv AT hulugallenr rootgrowthofmaizeinacompactedgravellytropicalalfisolasaffectedbyrotationwithawoodyperennial
AT lalr rootgrowthofmaizeinacompactedgravellytropicalalfisolasaffectedbyrotationwithawoodyperennial
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