Antimicrobial factors in African multipurpose trees

Antimicrobial factors in African multipurpose trees

Samples and extracts of foliage from African multipurpose trees (MPT) were screened for their effects on rumen protozoa and bacteria. The MPT species tested were Acacia aneura, Acacia angustissima, Chamaecytisus palmensis, Brachychiton populneum, Flindersia maculosa, Sesbania sesban, Leucaena leucocephala and Vernonia amyedalina. S. sesban was highly toxic to rumen protozoa from sheep reared in Aberdeen. The toxic factor was associated with the saponin-containing fraction of the plant. S. sesban may therefore be useful in suppressing protozoa and thereby improving protein flow from the rumen; however, protozoa from the rumen of sheep raised in Ethiopia were resistant to S. sesban, indicating that resistance, either endogenous or acquired, may be a problem in exploiting this antiprotozoal effect. The Acacia species were toxic to rumen bacteria, particularly the cellulolytic species of Ruminococcus. The cause of this toxicity was not identified.

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Bibliographic Details
Main Authors: El-Hassan, S.M., Lahlou-Kassi, A., Newbold, C.J., Wallace, R.J.
Format: Conference Paper biblioteca
Language:English
Published: International Livestock Research Institute 1995
Subjects:trees, feeds, rumen, acacia aneura, acacia angustissima, feed legumes, cattle,
Online Access:https://hdl.handle.net/10568/2834
https://hdl.handle.net/10568/2725
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spelling dig-cgspace-10568-28342023-12-21T14:51:31Z Antimicrobial factors in African multipurpose trees El-Hassan, S.M. Lahlou-Kassi, A. Newbold, C.J. Wallace, R.J. trees feeds rumen acacia aneura acacia angustissima feed legumes cattle Samples and extracts of foliage from African multipurpose trees (MPT) were screened for their effects on rumen protozoa and bacteria. The MPT species tested were Acacia aneura, Acacia angustissima, Chamaecytisus palmensis, Brachychiton populneum, Flindersia maculosa, Sesbania sesban, Leucaena leucocephala and Vernonia amyedalina. S. sesban was highly toxic to rumen protozoa from sheep reared in Aberdeen. The toxic factor was associated with the saponin-containing fraction of the plant. S. sesban may therefore be useful in suppressing protozoa and thereby improving protein flow from the rumen; however, protozoa from the rumen of sheep raised in Ethiopia were resistant to S. sesban, indicating that resistance, either endogenous or acquired, may be a problem in exploiting this antiprotozoal effect. The Acacia species were toxic to rumen bacteria, particularly the cellulolytic species of Ruminococcus. The cause of this toxicity was not identified. 1995 2010-12-09T11:12:02Z 2010-12-09T11:12:02Z Conference Paper 92-9146-005-2 https://hdl.handle.net/10568/2834 https://hdl.handle.net/10568/2725 en Other Open Access International Livestock Research Institute
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 trees
feeds
rumen
acacia aneura
acacia angustissima
feed legumes
cattle
trees
feeds
rumen
acacia aneura
acacia angustissima
feed legumes
cattle
spellingShingle trees
feeds
rumen
acacia aneura
acacia angustissima
feed legumes
cattle
trees
feeds
rumen
acacia aneura
acacia angustissima
feed legumes
cattle
El-Hassan, S.M.
Lahlou-Kassi, A.
Newbold, C.J.
Wallace, R.J.
Antimicrobial factors in African multipurpose trees
description Samples and extracts of foliage from African multipurpose trees (MPT) were screened for their effects on rumen protozoa and bacteria. The MPT species tested were Acacia aneura, Acacia angustissima, Chamaecytisus palmensis, Brachychiton populneum, Flindersia maculosa, Sesbania sesban, Leucaena leucocephala and Vernonia amyedalina. S. sesban was highly toxic to rumen protozoa from sheep reared in Aberdeen. The toxic factor was associated with the saponin-containing fraction of the plant. S. sesban may therefore be useful in suppressing protozoa and thereby improving protein flow from the rumen; however, protozoa from the rumen of sheep raised in Ethiopia were resistant to S. sesban, indicating that resistance, either endogenous or acquired, may be a problem in exploiting this antiprotozoal effect. The Acacia species were toxic to rumen bacteria, particularly the cellulolytic species of Ruminococcus. The cause of this toxicity was not identified.
format Conference Paper
topic_facet trees
feeds
rumen
acacia aneura
acacia angustissima
feed legumes
cattle
author El-Hassan, S.M.
Lahlou-Kassi, A.
Newbold, C.J.
Wallace, R.J.
author_facet El-Hassan, S.M.
Lahlou-Kassi, A.
Newbold, C.J.
Wallace, R.J.
author_sort El-Hassan, S.M.
title Antimicrobial factors in African multipurpose trees
title_short Antimicrobial factors in African multipurpose trees
title_full Antimicrobial factors in African multipurpose trees
title_fullStr Antimicrobial factors in African multipurpose trees
title_full_unstemmed Antimicrobial factors in African multipurpose trees
title_sort antimicrobial factors in african multipurpose trees
publisher International Livestock Research Institute
publishDate 1995
url https://hdl.handle.net/10568/2834
https://hdl.handle.net/10568/2725
work_keys_str_mv AT elhassansm antimicrobialfactorsinafricanmultipurposetrees
AT lahloukassia antimicrobialfactorsinafricanmultipurposetrees
AT newboldcj antimicrobialfactorsinafricanmultipurposetrees
AT wallacerj antimicrobialfactorsinafricanmultipurposetrees
_version_ 1787229418951802880

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