Leucaena + maize alley cropping in Malawi; part 2: residual P and leaf management effects on maize nutrition and soil properties

Leucaena + maize alley cropping in Malawi; part 2: residual P and leaf management effects on maize nutrition and soil properties

Agroforestry systems involving leaf removal for animal fodder may result in rapid depletion of soil fertility. The purpose of this research was to determine if the effects of leaf removal on soil fertility parameters and maize yield in aLeucaena leucocephalaalley cropping system could be reversed. Three leaf management strategies in aLeucaenaalley cropping trial that had been in effect from 1987 to 1991 were investigated: 1) leaves returned, 2) leaves removed, and 3) leaves removed, with 100 kg inorganic N ha−1added. In the 1990/91 season, a 34confounded factorial design was utilized to investigate the effects of leaf management strategy, N rate (0, 30 and 60 kg N ha−1); maize plant population (14,800, 29,600, and 44,400 plants ha−1); and P rate (0, 18, and 35 kg P ha−1). In the 1991/92 and 1992/93 seasons, leaves were applied equally to all plots, and no P was applied. The N rate and plant population treatments were continued, and the same confounded factorial design was implemented to investigate residual leaf management strategy, residual P rate, n rate, and plant population. The yield gap between the plots where leaves had been returned vs. removed narrowed each season due to uniform leaf application. Application of N improved yields during both seasons. Residual effects of the initial P application decreased to only 10% of the total yield in 1992/93. Plant population affected yields only during the season of very good rainfall. Leaf additions resulted in a relative increase in soil pH, total N,and exchangeable Ca, Mg, and K and a decrease C/N ratio in plots that had not previously received leaves. Leaves supplied more K and Zn to the upper 15 cm of soil than were being extracted by the maize crop, but uniform leaf additions eliminated differences in K and Zn uptake. Plant Zn uptake decreased with increasing P rate and plant population, and increased with increasing N rate and a history of leaf return. The results show that applying leaves equilibrated yields within two seasons, and resulted in a relative improvement of several soil properties. The residual effect from P applications was not adequate to maximize yields.

Guardado en:
Detalles Bibliográficos
Autores principales: Wendt, J.W., Jones, R.B., Bunderson, W.T., Itimu, A.O.
Formato: Journal Article biblioteca
Idioma:English
Publicado: 1996
Materias:agroforestry systems, soil fertility, maize, yields, leucaena leucocephala, alley cropping, plant population,
Acceso en línea:https://hdl.handle.net/10568/103912
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
id dig-cgspace-10568-103912
record_format koha
spelling dig-cgspace-10568-1039122023-06-12T08:20:35Z Leucaena + maize alley cropping in Malawi; part 2: residual P and leaf management effects on maize nutrition and soil properties Wendt, J.W. Jones, R.B. Bunderson, W.T. Itimu, A.O. agroforestry systems soil fertility maize yields leucaena leucocephala alley cropping plant population Agroforestry systems involving leaf removal for animal fodder may result in rapid depletion of soil fertility. The purpose of this research was to determine if the effects of leaf removal on soil fertility parameters and maize yield in aLeucaena leucocephalaalley cropping system could be reversed. Three leaf management strategies in aLeucaenaalley cropping trial that had been in effect from 1987 to 1991 were investigated: 1) leaves returned, 2) leaves removed, and 3) leaves removed, with 100 kg inorganic N ha−1added. In the 1990/91 season, a 34confounded factorial design was utilized to investigate the effects of leaf management strategy, N rate (0, 30 and 60 kg N ha−1); maize plant population (14,800, 29,600, and 44,400 plants ha−1); and P rate (0, 18, and 35 kg P ha−1). In the 1991/92 and 1992/93 seasons, leaves were applied equally to all plots, and no P was applied. The N rate and plant population treatments were continued, and the same confounded factorial design was implemented to investigate residual leaf management strategy, residual P rate, n rate, and plant population. The yield gap between the plots where leaves had been returned vs. removed narrowed each season due to uniform leaf application. Application of N improved yields during both seasons. Residual effects of the initial P application decreased to only 10% of the total yield in 1992/93. Plant population affected yields only during the season of very good rainfall. Leaf additions resulted in a relative increase in soil pH, total N,and exchangeable Ca, Mg, and K and a decrease C/N ratio in plots that had not previously received leaves. Leaves supplied more K and Zn to the upper 15 cm of soil than were being extracted by the maize crop, but uniform leaf additions eliminated differences in K and Zn uptake. Plant Zn uptake decreased with increasing P rate and plant population, and increased with increasing N rate and a history of leaf return. The results show that applying leaves equilibrated yields within two seasons, and resulted in a relative improvement of several soil properties. The residual effect from P applications was not adequate to maximize yields. 1996 2019-10-03T14:30:52Z 2019-10-03T14:30:52Z Journal Article Wendt, J.W., Jones, R.B., Bunderson, W.T. & Itimu, A.O. (1996). Leucaena + maize alley cropping in Malawi. Part 2: residual P and leaf management effects on maize nutrition and soil properties. Agroforestry Systems, 33(3), 295-305. 0167-4366 https://hdl.handle.net/10568/103912 en Limited Access p. 295-305
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 agroforestry systems
soil fertility
maize
yields
leucaena leucocephala
alley cropping
plant population
agroforestry systems
soil fertility
maize
yields
leucaena leucocephala
alley cropping
plant population
spellingShingle agroforestry systems
soil fertility
maize
yields
leucaena leucocephala
alley cropping
plant population
agroforestry systems
soil fertility
maize
yields
leucaena leucocephala
alley cropping
plant population
Wendt, J.W.
Jones, R.B.
Bunderson, W.T.
Itimu, A.O.
Leucaena + maize alley cropping in Malawi; part 2: residual P and leaf management effects on maize nutrition and soil properties
description Agroforestry systems involving leaf removal for animal fodder may result in rapid depletion of soil fertility. The purpose of this research was to determine if the effects of leaf removal on soil fertility parameters and maize yield in aLeucaena leucocephalaalley cropping system could be reversed. Three leaf management strategies in aLeucaenaalley cropping trial that had been in effect from 1987 to 1991 were investigated: 1) leaves returned, 2) leaves removed, and 3) leaves removed, with 100 kg inorganic N ha−1added. In the 1990/91 season, a 34confounded factorial design was utilized to investigate the effects of leaf management strategy, N rate (0, 30 and 60 kg N ha−1); maize plant population (14,800, 29,600, and 44,400 plants ha−1); and P rate (0, 18, and 35 kg P ha−1). In the 1991/92 and 1992/93 seasons, leaves were applied equally to all plots, and no P was applied. The N rate and plant population treatments were continued, and the same confounded factorial design was implemented to investigate residual leaf management strategy, residual P rate, n rate, and plant population. The yield gap between the plots where leaves had been returned vs. removed narrowed each season due to uniform leaf application. Application of N improved yields during both seasons. Residual effects of the initial P application decreased to only 10% of the total yield in 1992/93. Plant population affected yields only during the season of very good rainfall. Leaf additions resulted in a relative increase in soil pH, total N,and exchangeable Ca, Mg, and K and a decrease C/N ratio in plots that had not previously received leaves. Leaves supplied more K and Zn to the upper 15 cm of soil than were being extracted by the maize crop, but uniform leaf additions eliminated differences in K and Zn uptake. Plant Zn uptake decreased with increasing P rate and plant population, and increased with increasing N rate and a history of leaf return. The results show that applying leaves equilibrated yields within two seasons, and resulted in a relative improvement of several soil properties. The residual effect from P applications was not adequate to maximize yields.
format Journal Article
topic_facet agroforestry systems
soil fertility
maize
yields
leucaena leucocephala
alley cropping
plant population
author Wendt, J.W.
Jones, R.B.
Bunderson, W.T.
Itimu, A.O.
author_facet Wendt, J.W.
Jones, R.B.
Bunderson, W.T.
Itimu, A.O.
author_sort Wendt, J.W.
title Leucaena + maize alley cropping in Malawi; part 2: residual P and leaf management effects on maize nutrition and soil properties
title_short Leucaena + maize alley cropping in Malawi; part 2: residual P and leaf management effects on maize nutrition and soil properties
title_full Leucaena + maize alley cropping in Malawi; part 2: residual P and leaf management effects on maize nutrition and soil properties
title_fullStr Leucaena + maize alley cropping in Malawi; part 2: residual P and leaf management effects on maize nutrition and soil properties
title_full_unstemmed Leucaena + maize alley cropping in Malawi; part 2: residual P and leaf management effects on maize nutrition and soil properties
title_sort leucaena + maize alley cropping in malawi; part 2: residual p and leaf management effects on maize nutrition and soil properties
publishDate 1996
url https://hdl.handle.net/10568/103912
work_keys_str_mv AT wendtjw leucaenamaizealleycroppinginmalawipart2residualpandleafmanagementeffectsonmaizenutritionandsoilproperties
AT jonesrb leucaenamaizealleycroppinginmalawipart2residualpandleafmanagementeffectsonmaizenutritionandsoilproperties
AT bundersonwt leucaenamaizealleycroppinginmalawipart2residualpandleafmanagementeffectsonmaizenutritionandsoilproperties
AT itimuao leucaenamaizealleycroppinginmalawipart2residualpandleafmanagementeffectsonmaizenutritionandsoilproperties
_version_ 1779048782298611712

Ejemplares similares