Determinants of fertilizer microdosing-induced yield increment of pearl millet on an acid sandy soil

Determinants of fertilizer microdosing-induced yield increment of pearl millet on an acid sandy soil

Recent studies have reported the benefits of fertilizer microdosing in increasing crop yields in low input cropping systems. Little information is however available on the mechanisms underlying this effect. The objective of this study was therefore to explore the root-based mechanisms governing the growth enhancing phenomena of the fertilizer microdosing technology. A two-year experiment was conducted at the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT), Research Station in Niger. Four treatments comprising (i) 2 g hill−1 of diammonuim phosphate (DAP), (ii) 6 g hill−1 of compound fertilizer NPK, (iii) broadcasting of 200 kg ha−1 of compound fertilizer NPK (recommended rate) and (iv) unfertilized control was arranged in a randomized complete block design with four replications. On average, fertilizer microdosing treatments (2-g DAP hill−1 and 6-g NPK hill−1) achieved 86% and 79% of the grain yields recorded from broadcasting of 200-kg NPK ha−1, respectively, in 2013 and 2014. The leaf area index and leaf chlorophyll content significantly increased with fertilizer microdosing at the early stage of millet growth. At the same stage, fertilizer microdosing enhanced the lateral root length density in the topsoil (0–20 cm) by 72% and 40% at respective lateral distances of 25 cm and 50 cm from the centre of the hill compared with broadcast of 200-kg NPK ha−1. Fertilizer microdosing did not significantly change soil pH in the root zone. It is concluded that the positive effect of fertilizer microdosing in increasing millet yield results from the better exploitation of soil nutrients due to early lateral roots proliferation within the topsoil.

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Bibliographic Details
Main Authors: Ibrahim, A., Abaidoo, Robert C., Fatondji, D., Opoku, A.
Format: Journal Article biblioteca
Language:English
Published: Cambridge University Press 2016-10
Subjects:fertilizers, pearl millet, soil fertility, fertilizer microdosing, technology,
Online Access:https://hdl.handle.net/10568/77855
https://doi.org/10.1017/s0014479715000241
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spelling dig-cgspace-10568-778552023-12-08T19:36:04Z Determinants of fertilizer microdosing-induced yield increment of pearl millet on an acid sandy soil Ibrahim, A. Abaidoo, Robert C. Fatondji, D. Opoku, A. fertilizers pearl millet soil fertility fertilizer microdosing technology Recent studies have reported the benefits of fertilizer microdosing in increasing crop yields in low input cropping systems. Little information is however available on the mechanisms underlying this effect. The objective of this study was therefore to explore the root-based mechanisms governing the growth enhancing phenomena of the fertilizer microdosing technology. A two-year experiment was conducted at the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT), Research Station in Niger. Four treatments comprising (i) 2 g hill−1 of diammonuim phosphate (DAP), (ii) 6 g hill−1 of compound fertilizer NPK, (iii) broadcasting of 200 kg ha−1 of compound fertilizer NPK (recommended rate) and (iv) unfertilized control was arranged in a randomized complete block design with four replications. On average, fertilizer microdosing treatments (2-g DAP hill−1 and 6-g NPK hill−1) achieved 86% and 79% of the grain yields recorded from broadcasting of 200-kg NPK ha−1, respectively, in 2013 and 2014. The leaf area index and leaf chlorophyll content significantly increased with fertilizer microdosing at the early stage of millet growth. At the same stage, fertilizer microdosing enhanced the lateral root length density in the topsoil (0–20 cm) by 72% and 40% at respective lateral distances of 25 cm and 50 cm from the centre of the hill compared with broadcast of 200-kg NPK ha−1. Fertilizer microdosing did not significantly change soil pH in the root zone. It is concluded that the positive effect of fertilizer microdosing in increasing millet yield results from the better exploitation of soil nutrients due to early lateral roots proliferation within the topsoil. 2016-10 2016-11-24T12:17:18Z 2016-11-24T12:17:18Z Journal Article Ibrahim, A., Abaidoo, R.C., Fatondji, D. & Opoku, A. (2016). Determinants of fertilizer microdosing-induced yield increment of pearl millet on an acid sandy soil. Experimental Agriculture, 52(4), 562-578. 0014-4797 https://hdl.handle.net/10568/77855 https://doi.org/10.1017/s0014479715000241 en Limited Access 562-578 Cambridge University Press Experimental Agriculture
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 fertilizers
pearl millet
soil fertility
fertilizer microdosing
technology
fertilizers
pearl millet
soil fertility
fertilizer microdosing
technology
spellingShingle fertilizers
pearl millet
soil fertility
fertilizer microdosing
technology
fertilizers
pearl millet
soil fertility
fertilizer microdosing
technology
Ibrahim, A.
Abaidoo, Robert C.
Fatondji, D.
Opoku, A.
Determinants of fertilizer microdosing-induced yield increment of pearl millet on an acid sandy soil
description Recent studies have reported the benefits of fertilizer microdosing in increasing crop yields in low input cropping systems. Little information is however available on the mechanisms underlying this effect. The objective of this study was therefore to explore the root-based mechanisms governing the growth enhancing phenomena of the fertilizer microdosing technology. A two-year experiment was conducted at the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT), Research Station in Niger. Four treatments comprising (i) 2 g hill−1 of diammonuim phosphate (DAP), (ii) 6 g hill−1 of compound fertilizer NPK, (iii) broadcasting of 200 kg ha−1 of compound fertilizer NPK (recommended rate) and (iv) unfertilized control was arranged in a randomized complete block design with four replications. On average, fertilizer microdosing treatments (2-g DAP hill−1 and 6-g NPK hill−1) achieved 86% and 79% of the grain yields recorded from broadcasting of 200-kg NPK ha−1, respectively, in 2013 and 2014. The leaf area index and leaf chlorophyll content significantly increased with fertilizer microdosing at the early stage of millet growth. At the same stage, fertilizer microdosing enhanced the lateral root length density in the topsoil (0–20 cm) by 72% and 40% at respective lateral distances of 25 cm and 50 cm from the centre of the hill compared with broadcast of 200-kg NPK ha−1. Fertilizer microdosing did not significantly change soil pH in the root zone. It is concluded that the positive effect of fertilizer microdosing in increasing millet yield results from the better exploitation of soil nutrients due to early lateral roots proliferation within the topsoil.
format Journal Article
topic_facet fertilizers
pearl millet
soil fertility
fertilizer microdosing
technology
author Ibrahim, A.
Abaidoo, Robert C.
Fatondji, D.
Opoku, A.
author_facet Ibrahim, A.
Abaidoo, Robert C.
Fatondji, D.
Opoku, A.
author_sort Ibrahim, A.
title Determinants of fertilizer microdosing-induced yield increment of pearl millet on an acid sandy soil
title_short Determinants of fertilizer microdosing-induced yield increment of pearl millet on an acid sandy soil
title_full Determinants of fertilizer microdosing-induced yield increment of pearl millet on an acid sandy soil
title_fullStr Determinants of fertilizer microdosing-induced yield increment of pearl millet on an acid sandy soil
title_full_unstemmed Determinants of fertilizer microdosing-induced yield increment of pearl millet on an acid sandy soil
title_sort determinants of fertilizer microdosing-induced yield increment of pearl millet on an acid sandy soil
publisher Cambridge University Press
publishDate 2016-10
url https://hdl.handle.net/10568/77855
https://doi.org/10.1017/s0014479715000241
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AT fatondjid determinantsoffertilizermicrodosinginducedyieldincrementofpearlmilletonanacidsandysoil
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