Physical and chemical optimisation of the seedball technology addressing pearl millet under Sahelian conditions

Physical and chemical optimisation of the seedball technology addressing pearl millet under Sahelian conditions

This study deals with the development of the seedball technology in particular for dry sowing under Sahelian conditions and pearl millet as crop. At first, our participatory evaluation in Senegal showed that (i) local materials needed for seedball production are locally available, (ii) the technolog...

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Main Authors: Charles I. Nwankwo, Jan Mühlena, Konni Biegert, Diana Butzer, Günter Neumann, Ousmane Sy, Ludger Herrmann
Format: Article
Language:English
Published: Kassel University Press 2019-01-01
Series:Journal of Agriculture and Rural Development in the Tropics and Subtropics
Subjects:
Pearl millet early growth
seedball technology
local resources
dry sowing
seedling emergence
subsistence farming
smallholder farmer
cheap seed pelleting technique
Online Access:https://jarts.info/index.php/jarts/article/view/2019011596
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spelling doaj-a3c77898a013484b8a68af57300afa6a2020-11-25T00:41:59ZengKassel University PressJournal of Agriculture and Rural Development in the Tropics and Subtropics1612-98302363-60332019-01-011192677910.17170/kobra-2019011596Physical and chemical optimisation of the seedball technology addressing pearl millet under Sahelian conditionsCharles I. Nwankwo0Jan Mühlena1Konni Biegert2Diana Butzer3Günter Neumann4Ousmane Sy5Ludger Herrmann6Institute of Soil Science and Land Evaluation, University of Hohenheim, Emil-Wolff Str. 27, 70599 Stuttgart, GermanyInstitute of Soil Science and Land Evaluation, University of Hohenheim, Emil-Wolff Str. 27, 70599 Stuttgart, GermanyInstitute of Soil Science and Land Evaluation, University of Hohenheim, Emil-Wolff Str. 27, 70599 Stuttgart, GermanyInstitute of Soil Science and Land Evaluation, University of Hohenheim, Emil-Wolff Str. 27, 70599 Stuttgart, GermanyNutritional Crop Physiology, Institute of Crop Science, University of Hohenheim, Fruwirth Str. 20, 70599 Stuttgart GermanyInstitut Sénégalais de Recherches Agricoles (ISRA), Bambey, SenegalInstitute of Soil Science and Land Evaluation, University of Hohenheim, Emil-Wolff Str. 27, 70599 Stuttgart, GermanyThis study deals with the development of the seedball technology in particular for dry sowing under Sahelian conditions and pearl millet as crop. At first, our participatory evaluation in Senegal showed that (i) local materials needed for seedball production are locally available, (ii) the technology conforms to the existing management systems in the Sahel, and (iii) socio-economic conditions do not hinder seedball adoption. Afterwards, seedball was mechanically and chemically optimised. Pearl millet seedlings derived from the seedball variants were grown and compared to the control under greenhouse conditions. Our results showed that the combination of 80 g sand + 50 g loam + 25 ml water is the standard seedball dough, which produces about ten 2 cm diameter-sized seedballs. Either 1 g NPK fertiliser or 3 g wood ash can be added as nutrient additive to enhance early biomass of pearl millet seedlings. Ammonium fertiliser, urea and gum arabic as seedball components hampered seedlings emergence. Seedball + 3 g wood ash and seedball + 1 g NPK-treatments enhanced shoot biomass by 60 % and 75 %, root biomass by 36 % and 94 %, and root length density by 14 % and 28 %, respectively, relative to the control. Shoot nutrient content was not greatly influenced by treatment. However, multiplying biomass yield with nutrient content indicates that nutrient extraction was higher in nutrient-amended seedballs. On-station field tests in Senegal showed over 95 % emergence under real Sahelian conditions. Since early seedlings enhancement is decisive for pearl millet panicle yield under the Sahelian conditions, on-farm trials in the Sahel are recommended.https://jarts.info/index.php/jarts/article/view/2019011596Pearl millet early growthseedball technologylocal resourcesdry sowingseedling emergencesubsistence farmingsmallholder farmercheap seed pelleting technique
collection DOAJ
language English
format Article
sources DOAJ
author Charles I. Nwankwo
Jan Mühlena
Konni Biegert
Diana Butzer
Günter Neumann
Ousmane Sy
Ludger Herrmann
spellingShingle Charles I. Nwankwo
Jan Mühlena
Konni Biegert
Diana Butzer
Günter Neumann
Ousmane Sy
Ludger Herrmann
Physical and chemical optimisation of the seedball technology addressing pearl millet under Sahelian conditions
Journal of Agriculture and Rural Development in the Tropics and Subtropics
Pearl millet early growth
seedball technology
local resources
dry sowing
seedling emergence
subsistence farming
smallholder farmer
cheap seed pelleting technique
author_facet Charles I. Nwankwo
Jan Mühlena
Konni Biegert
Diana Butzer
Günter Neumann
Ousmane Sy
Ludger Herrmann
author_sort Charles I. Nwankwo
title Physical and chemical optimisation of the seedball technology addressing pearl millet under Sahelian conditions
title_short Physical and chemical optimisation of the seedball technology addressing pearl millet under Sahelian conditions
title_full Physical and chemical optimisation of the seedball technology addressing pearl millet under Sahelian conditions
title_fullStr Physical and chemical optimisation of the seedball technology addressing pearl millet under Sahelian conditions
title_full_unstemmed Physical and chemical optimisation of the seedball technology addressing pearl millet under Sahelian conditions
title_sort physical and chemical optimisation of the seedball technology addressing pearl millet under sahelian conditions
publisher Kassel University Press
series Journal of Agriculture and Rural Development in the Tropics and Subtropics
issn 1612-9830
2363-6033
publishDate 2019-01-01
description This study deals with the development of the seedball technology in particular for dry sowing under Sahelian conditions and pearl millet as crop. At first, our participatory evaluation in Senegal showed that (i) local materials needed for seedball production are locally available, (ii) the technology conforms to the existing management systems in the Sahel, and (iii) socio-economic conditions do not hinder seedball adoption. Afterwards, seedball was mechanically and chemically optimised. Pearl millet seedlings derived from the seedball variants were grown and compared to the control under greenhouse conditions. Our results showed that the combination of 80 g sand + 50 g loam + 25 ml water is the standard seedball dough, which produces about ten 2 cm diameter-sized seedballs. Either 1 g NPK fertiliser or 3 g wood ash can be added as nutrient additive to enhance early biomass of pearl millet seedlings. Ammonium fertiliser, urea and gum arabic as seedball components hampered seedlings emergence. Seedball + 3 g wood ash and seedball + 1 g NPK-treatments enhanced shoot biomass by 60 % and 75 %, root biomass by 36 % and 94 %, and root length density by 14 % and 28 %, respectively, relative to the control. Shoot nutrient content was not greatly influenced by treatment. However, multiplying biomass yield with nutrient content indicates that nutrient extraction was higher in nutrient-amended seedballs. On-station field tests in Senegal showed over 95 % emergence under real Sahelian conditions. Since early seedlings enhancement is decisive for pearl millet panicle yield under the Sahelian conditions, on-farm trials in the Sahel are recommended.
topic Pearl millet early growth
seedball technology
local resources
dry sowing
seedling emergence
subsistence farming
smallholder farmer
cheap seed pelleting technique
url https://jarts.info/index.php/jarts/article/view/2019011596
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AT gunterneumann physicalandchemicaloptimisationoftheseedballtechnologyaddressingpearlmilletundersahelianconditions
AT ousmanesy physicalandchemicaloptimisationoftheseedballtechnologyaddressingpearlmilletundersahelianconditions
AT ludgerherrmann physicalandchemicaloptimisationoftheseedballtechnologyaddressingpearlmilletundersahelianconditions
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