Integrating the control of helminths in dairy cattle: Deworming, rotational grazing and nutritional pellets with parasiticide fungi

•Deworming only is insufficient to control helminths affecting grazing cattle.•Control of helminths in grazing cows needs to integrate deworming plus prevention.•Long pasture resting periods are needed to prevent helminth infection in grazing ruminants.•Daily ingestion of fungal chlamydospores impro...

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Veröffentlicht in:Veterinary parasitology 2020-02, Vol.278, p.109038-109038, Article 109038
Hauptverfasser: Voinot, Mathilde, Cazapal-Monteiro, Cristiana, Hernández, José Ángel, Palomero, Antonio Miguel, Arroyo, Fabián Leonardo, Sanchís, Jaime, Pedreira, José, Sánchez-Andrade, Rita, Paz-Silva, Adolfo, Arias, María Sol
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Sprache:eng
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Zusammenfassung:•Deworming only is insufficient to control helminths affecting grazing cattle.•Control of helminths in grazing cows needs to integrate deworming plus prevention.•Long pasture resting periods are needed to prevent helminth infection in grazing ruminants.•Daily ingestion of fungal chlamydospores improves the usefulness of rotational grazing. Thirty-two Friesian cattle under a leaders/followers four-day rotation and passing eggs of trematodes and gastrointestinal nematodes (GIN) were studied in two trials for the integrated control of these helminths over two years. In the first trial, the effect of rotational pasturing was assessed on a group of leaders (milking cows, G-L1) and followers (dried-off cows and heifers, G-F1) supplemented daily with commercial nutritional pellets. In the second trial, leaders (G-L2) and followers (G-F2) were maintained under a rotational pasturing regime; the cows received daily commercial pelleted feed and heifers pellets manufactured with a blend of parasiticide fungi (3 × 105 chlamydospores of both Mucor circinelloides and Duddingtonia flagrans/kg pellet). Deworming via closantel and albendazole was performed in cows in each trial at the beginning of their drying periods, and fourteen days later, the fecal egg-count reductions (FECR) of Calicophoron daubneyi and GIN were from 94 to 100% (average 98 %), while the percentages of reduction of cattle shedding eggs (CPCR) were from 50 to 100% (average 77 % and 82 %, respectively). The heifers were dewormed one time only, at the beginning of each trial, and the values of FECR and CPCR were 100 % against C. daubneyi and 96 % and 83 %, respectively, against GIN. Over a period of 24 months, significantly higher numbers of helminth egg-output were observed in G-L1, with the lowest numbers in G-F2. C. daubneyi egg output was reduced by 5 % (G-L1) and 42 % (G-F1) at the end of trial 1 and by 83 % (G-L2) and 100 % (G-F2) at the end of trial 2; the numbers of GIN egg-output decreased by 13 % (G-L1) and 18 % (G-F1) at the end of trial 1, and by 72 % (G-L2) and 85 % (G-F2) at the end of trial 2. No adverse effects were detected in cattle taking pellets enriched with fungal spores (G-F2). It is concluded that long-term ingestion of spores of M. circinelloides and D. flagrans provides a valuable tool to improve the effect of rotational grazing and to lessen the risk of infection by C. daubneyi and GIN in dairy cattle, and accordingly, the performance of integrated control programs.
ISSN:0304-4017
1873-2550
DOI:10.1016/j.vetpar.2020.109038