Assessment for fungal, mycotoxin and insect spoilage in maize stored for human consumption in Zambia

Assessment for fungal, mycotoxin and insect spoilage in maize stored for human consumption in Zambia

BACKGROUND: Maize constitutes the main staple food and most important crop grown in Zambia. However, maize incursconsiderable losses both in field and storage due to pathogens and insects. Some of the pathogens and resultant mycotoxinsreduce the nutritional quality of the product. Mycotoxins are toxigenic fungal compounds that can cause cancer and suppressgrowth. In spite of this health hazard, there has been very little research to document their occurrence. Maize grains stored forhuman consumption were sampled from different agro-ecosystems (forest, valley and plateau areas) of three agroecologicalzones (high, mid and low altitude).RESULTS: Several fungal genera were recovered among whichAspergillus flavus, A. niger, Fusarium verticillioides, F. solani,Rhizopus stoloniferandPenicilliumspp. were prevalent. The weevilSitophilus zeamaisand the larger grain borerProstephanustruncatuswere the most damaging. Enzyme-linked immunosorbent assay (ELISA) tests yielded fumonisins and aflatoxinsranging between 0.02 and 21.44 ppm, and 0.7 and 108.39 ppb in 96.4% and 21.4% of samples, respectively. Fumonisin wasmore pronounced in villages in forest areas whereas aflatoxin was highest in valley and forest areas in Zone II.CONCLUSION: Strategic interventions to curtail fungal, mycotoxin and insect contamination should be directed towardsimproved agronomic and post-harvest practices of maize from fields to consumers.

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Main Authors: Kankolongo, M.A., Hell, K., Nawa, I.N.
Format: Journal Article biblioteca
Language:English
Published: Wiley 2009-06
Subjects:zea maysl, aspergillus flavus, fusarium verticillioides, prostephanus truncates, sitophilus zeamais, mycotoxins, post-harvest losses, food security, drought, fungi, aflatoxins,
Online Access:https://hdl.handle.net/10568/90192
https://doi.org/10.1002/jsfa.3596
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spelling dig-cgspace-10568-901922023-09-12T07:13:50Z Assessment for fungal, mycotoxin and insect spoilage in maize stored for human consumption in Zambia Kankolongo, M.A. Hell, K. Nawa, I.N. zea maysl aspergillus flavus fusarium verticillioides prostephanus truncates sitophilus zeamais mycotoxins post-harvest losses food security drought fungi aflatoxins BACKGROUND: Maize constitutes the main staple food and most important crop grown in Zambia. However, maize incursconsiderable losses both in field and storage due to pathogens and insects. Some of the pathogens and resultant mycotoxinsreduce the nutritional quality of the product. Mycotoxins are toxigenic fungal compounds that can cause cancer and suppressgrowth. In spite of this health hazard, there has been very little research to document their occurrence. Maize grains stored forhuman consumption were sampled from different agro-ecosystems (forest, valley and plateau areas) of three agroecologicalzones (high, mid and low altitude).RESULTS: Several fungal genera were recovered among whichAspergillus flavus, A. niger, Fusarium verticillioides, F. solani,Rhizopus stoloniferandPenicilliumspp. were prevalent. The weevilSitophilus zeamaisand the larger grain borerProstephanustruncatuswere the most damaging. Enzyme-linked immunosorbent assay (ELISA) tests yielded fumonisins and aflatoxinsranging between 0.02 and 21.44 ppm, and 0.7 and 108.39 ppb in 96.4% and 21.4% of samples, respectively. Fumonisin wasmore pronounced in villages in forest areas whereas aflatoxin was highest in valley and forest areas in Zone II.CONCLUSION: Strategic interventions to curtail fungal, mycotoxin and insect contamination should be directed towardsimproved agronomic and post-harvest practices of maize from fields to consumers. 2009-06 2018-01-15T10:50:48Z 2018-01-15T10:50:48Z Journal Article Kankolongo, M.A., Hell, K. & Nawa, I.N. (2009). Assessment for fungal, mycotoxin and insect spoilage in maize stored for human consumption in Zambia. Journal of the Science of Food and Agriculture, 89(8), 1366-1375. 0022-5142 https://hdl.handle.net/10568/90192 https://doi.org/10.1002/jsfa.3596 en Copyrighted; all rights reserved Limited Access 1366-1375 Wiley Journal of the Science of Food and Agriculture
institution CGIAR
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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 zea maysl
aspergillus flavus
fusarium verticillioides
prostephanus truncates
sitophilus zeamais
mycotoxins
post-harvest losses
food security
drought
fungi
aflatoxins
zea maysl
aspergillus flavus
fusarium verticillioides
prostephanus truncates
sitophilus zeamais
mycotoxins
post-harvest losses
food security
drought
fungi
aflatoxins
spellingShingle zea maysl
aspergillus flavus
fusarium verticillioides
prostephanus truncates
sitophilus zeamais
mycotoxins
post-harvest losses
food security
drought
fungi
aflatoxins
zea maysl
aspergillus flavus
fusarium verticillioides
prostephanus truncates
sitophilus zeamais
mycotoxins
post-harvest losses
food security
drought
fungi
aflatoxins
Kankolongo, M.A.
Hell, K.
Nawa, I.N.
Assessment for fungal, mycotoxin and insect spoilage in maize stored for human consumption in Zambia
description BACKGROUND: Maize constitutes the main staple food and most important crop grown in Zambia. However, maize incursconsiderable losses both in field and storage due to pathogens and insects. Some of the pathogens and resultant mycotoxinsreduce the nutritional quality of the product. Mycotoxins are toxigenic fungal compounds that can cause cancer and suppressgrowth. In spite of this health hazard, there has been very little research to document their occurrence. Maize grains stored forhuman consumption were sampled from different agro-ecosystems (forest, valley and plateau areas) of three agroecologicalzones (high, mid and low altitude).RESULTS: Several fungal genera were recovered among whichAspergillus flavus, A. niger, Fusarium verticillioides, F. solani,Rhizopus stoloniferandPenicilliumspp. were prevalent. The weevilSitophilus zeamaisand the larger grain borerProstephanustruncatuswere the most damaging. Enzyme-linked immunosorbent assay (ELISA) tests yielded fumonisins and aflatoxinsranging between 0.02 and 21.44 ppm, and 0.7 and 108.39 ppb in 96.4% and 21.4% of samples, respectively. Fumonisin wasmore pronounced in villages in forest areas whereas aflatoxin was highest in valley and forest areas in Zone II.CONCLUSION: Strategic interventions to curtail fungal, mycotoxin and insect contamination should be directed towardsimproved agronomic and post-harvest practices of maize from fields to consumers.
format Journal Article
topic_facet zea maysl
aspergillus flavus
fusarium verticillioides
prostephanus truncates
sitophilus zeamais
mycotoxins
post-harvest losses
food security
drought
fungi
aflatoxins
author Kankolongo, M.A.
Hell, K.
Nawa, I.N.
author_facet Kankolongo, M.A.
Hell, K.
Nawa, I.N.
author_sort Kankolongo, M.A.
title Assessment for fungal, mycotoxin and insect spoilage in maize stored for human consumption in Zambia
title_short Assessment for fungal, mycotoxin and insect spoilage in maize stored for human consumption in Zambia
title_full Assessment for fungal, mycotoxin and insect spoilage in maize stored for human consumption in Zambia
title_fullStr Assessment for fungal, mycotoxin and insect spoilage in maize stored for human consumption in Zambia
title_full_unstemmed Assessment for fungal, mycotoxin and insect spoilage in maize stored for human consumption in Zambia
title_sort assessment for fungal, mycotoxin and insect spoilage in maize stored for human consumption in zambia
publisher Wiley
publishDate 2009-06
url https://hdl.handle.net/10568/90192
https://doi.org/10.1002/jsfa.3596
work_keys_str_mv AT kankolongoma assessmentforfungalmycotoxinandinsectspoilageinmaizestoredforhumanconsumptioninzambia
AT hellk assessmentforfungalmycotoxinandinsectspoilageinmaizestoredforhumanconsumptioninzambia
AT nawain assessmentforfungalmycotoxinandinsectspoilageinmaizestoredforhumanconsumptioninzambia
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