Nematode parasites of animals are more prone to develop xenobiotic resistance than nematode parasites of plants
In this paper, we concentrate on a comparison of plant and animal-parasitic nematodes, to gain insight into the factors that influence the acquisition of the drug resistance by nematodes. Comparing nematode parasite of domestic animals and cultivated plants, it appears that drug resistance threatens...
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EDP Sciences
2004-06-01
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Online Access: | http://dx.doi.org/10.1051/parasite/2004112119 |
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doaj-17c9fcec3e7045d9bd2f20b15c76e8772021-02-02T01:18:48ZengEDP SciencesParasite1252-607X1776-10422004-06-0111211912910.1051/parasite/2004112119parasite2004112p119Nematode parasites of animals are more prone to develop xenobiotic resistance than nematode parasites of plantsSilvestre A.Cabaret J.In this paper, we concentrate on a comparison of plant and animal-parasitic nematodes, to gain insight into the factors that influence the acquisition of the drug resistance by nematodes. Comparing nematode parasite of domestic animals and cultivated plants, it appears that drug resistance threatens only domestic animal production. Does the paucity of report on nematicide field resistance reflect reality or, is nematicide resistance bypassed by other management practices, specific to cultivated plants (i.e. agricultural control) ? First, it seems that selection pressure by treatments in plants is not as efficient as selection pressure in ruminants. Agronomic practices (i.e. sanitation, early planting, usage of nematodes resistant cultivar and crop rotation) are frequently used to control parasitic-plant nematodes. Although the efficiency of such measures is generally moderate to high, integrated approaches are developing successfully in parasitic-plant nematode models. Secondly, the majority of anthelmintic resistance cases recorded in animal-parasitic nematodes concern drug families that are not used in plant-parasitic nematodes control (i.e. benzimidazoles, avermectines and levamisole). Thirdly, particular life traits of parasitic-plant nematodes (low to moderate fecundity and reproductive strategy) are expected to reduce probability of appearance and transmission of drug resistance genes. It has been demonstrated that, for a large number of nematodes such as Meloidogyne spp., the mode of reproduction by mitotic parthenogenesis reduced genetic diversity of populations which may prevent a rapid drug resistance development. In conclusion, anthelmintic resistance develops in nematode parasite of animals as a consequence of an efficient selection pressure. Early detection of anthelmintic resistance is then crucial : it is not possible to avoid it, but only to delay its development in farm animal industry.http://dx.doi.org/10.1051/parasite/2004112119drug resistanceparasitic nematodesnematicideanthelmintics |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Silvestre A. Cabaret J. |
spellingShingle |
Silvestre A. Cabaret J. Nematode parasites of animals are more prone to develop xenobiotic resistance than nematode parasites of plants Parasite drug resistance parasitic nematodes nematicide anthelmintics |
author_facet |
Silvestre A. Cabaret J. |
author_sort |
Silvestre A. |
title |
Nematode parasites of animals are more prone to develop xenobiotic resistance than nematode parasites of plants |
title_short |
Nematode parasites of animals are more prone to develop xenobiotic resistance than nematode parasites of plants |
title_full |
Nematode parasites of animals are more prone to develop xenobiotic resistance than nematode parasites of plants |
title_fullStr |
Nematode parasites of animals are more prone to develop xenobiotic resistance than nematode parasites of plants |
title_full_unstemmed |
Nematode parasites of animals are more prone to develop xenobiotic resistance than nematode parasites of plants |
title_sort |
nematode parasites of animals are more prone to develop xenobiotic resistance than nematode parasites of plants |
publisher |
EDP Sciences |
series |
Parasite |
issn |
1252-607X 1776-1042 |
publishDate |
2004-06-01 |
description |
In this paper, we concentrate on a comparison of plant and animal-parasitic nematodes, to gain insight into the factors that influence the acquisition of the drug resistance by nematodes. Comparing nematode parasite of domestic animals and cultivated plants, it appears that drug resistance threatens only domestic animal production. Does the paucity of report on nematicide field resistance reflect reality or, is nematicide resistance bypassed by other management practices, specific to cultivated plants (i.e. agricultural control) ? First, it seems that selection pressure by treatments in plants is not as efficient as selection pressure in ruminants. Agronomic practices (i.e. sanitation, early planting, usage of nematodes resistant cultivar and crop rotation) are frequently used to control parasitic-plant nematodes. Although the efficiency of such measures is generally moderate to high, integrated approaches are developing successfully in parasitic-plant nematode models. Secondly, the majority of anthelmintic resistance cases recorded in animal-parasitic nematodes concern drug families that are not used in plant-parasitic nematodes control (i.e. benzimidazoles, avermectines and levamisole). Thirdly, particular life traits of parasitic-plant nematodes (low to moderate fecundity and reproductive strategy) are expected to reduce probability of appearance and transmission of drug resistance genes. It has been demonstrated that, for a large number of nematodes such as Meloidogyne spp., the mode of reproduction by mitotic parthenogenesis reduced genetic diversity of populations which may prevent a rapid drug resistance development. In conclusion, anthelmintic resistance develops in nematode parasite of animals as a consequence of an efficient selection pressure. Early detection of anthelmintic resistance is then crucial : it is not possible to avoid it, but only to delay its development in farm animal industry. |
topic |
drug resistance parasitic nematodes nematicide anthelmintics |
url |
http://dx.doi.org/10.1051/parasite/2004112119 |
work_keys_str_mv |
AT silvestrea nematodeparasitesofanimalsaremorepronetodevelopxenobioticresistancethannematodeparasitesofplants AT cabaretj nematodeparasitesofanimalsaremorepronetodevelopxenobioticresistancethannematodeparasitesofplants |
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1724311900910518272 |