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Main Authors: Stout, Leslie, Daffe, Guillemine, Chambouvet, Aurélie, de Montaudouin, Adrien, Daramy, Flore, de Montaudouin, Xavier
Format: Artículo científico
Language:en
Published: Parasitology 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40530783/
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author Stout, Leslie
Daffe, Guillemine
Chambouvet, Aurélie
de Montaudouin, Adrien
Daramy, Flore
de Montaudouin, Xavier
author_facet Stout, Leslie
Daffe, Guillemine
Chambouvet, Aurélie
de Montaudouin, Adrien
Daramy, Flore
de Montaudouin, Xavier
Stout, Leslie
Daffe, Guillemine
Chambouvet, Aurélie
de Montaudouin, Adrien
Daramy, Flore
de Montaudouin, Xavier
collection PubMed - marine biology
contents Elucidation of the life cycle of the trematode (Digenea: Himasthlidae), using environmental DNA detection methods. Stout, Leslie Daffe, Guillemine Chambouvet, Aurélie de Montaudouin, Adrien Daramy, Flore de Montaudouin, Xavier Animals Trematoda DNA, Environmental Life Cycle Stages Feces DNA, Helminth Charadriiformes Cardiidae France Trematode Infections Gastropoda Snails Real-Time Polymerase Chain Reaction Bird Diseases Detection approaches based on environmental DNA (eDNA) are widely used for free-living species but remain underutilized for parasite species. This study applies eDNA detection methods to elucidate the life cycle of the trematode , which infects the socioeconomically and ecologically important edible cockle () as its second intermediate host along the northeastern Atlantic coast, including Arcachon Bay, France. The first intermediate and definitive hosts remained unknown. To identify these hosts - presumed to be a gastropod and a shorebird - we developed a quantitative PCR (qPCR)-based eDNA approach targeting partial and gene regions of . We tested for eDNA presence in water samples containing separately five dominant gastropod species and fecal samples from known cockle predators, the European oystercatcher () and gulls ( spp.), collected in Arcachon Bay. eDNA was only detected in water containing the needle snail (), with cercarial emergence confirming infection in 1.6% of individual hosts. Morphological analysis of the cercarial and metacercarial stages revealed variability in collar spine visibility. Additionally, was detected by qPCR in 42% of oystercatcher feces and no gull feces, suggesting oystercatchers are the definitive host. This study is the first to elucidate the complete life cycle of , identifying as its first intermediate host and as its definitive host. Our findings highlight the potential of eDNA approaches for resolving parasite life cycles and enabling advances in ecological research on .
format Artículo científico
id pubmed_40530783
institution PubMed
language en
publishDate 2025
publisher Parasitology
record_format pubmed
spellingShingle Elucidation of the life cycle of the trematode (Digenea: Himasthlidae), using environmental DNA detection methods.
Stout, Leslie
Daffe, Guillemine
Chambouvet, Aurélie
de Montaudouin, Adrien
Daramy, Flore
de Montaudouin, Xavier
Animals
Trematoda
DNA, Environmental
Life Cycle Stages
Feces
DNA, Helminth
Charadriiformes
Cardiidae
France
Trematode Infections
Gastropoda
Snails
Real-Time Polymerase Chain Reaction
Bird Diseases
Elucidation of the life cycle of the trematode (Digenea: Himasthlidae), using environmental DNA detection methods. Stout, Leslie Daffe, Guillemine Chambouvet, Aurélie de Montaudouin, Adrien Daramy, Flore de Montaudouin, Xavier Animals Trematoda DNA, Environmental Life Cycle Stages Feces DNA, Helminth Charadriiformes Cardiidae France Trematode Infections Gastropoda Snails Real-Time Polymerase Chain Reaction Bird Diseases Detection approaches based on environmental DNA (eDNA) are widely used for free-living species but remain underutilized for parasite species. This study applies eDNA detection methods to elucidate the life cycle of the trematode , which infects the socioeconomically and ecologically important edible cockle () as its second intermediate host along the northeastern Atlantic coast, including Arcachon Bay, France. The first intermediate and definitive hosts remained unknown. To identify these hosts - presumed to be a gastropod and a shorebird - we developed a quantitative PCR (qPCR)-based eDNA approach targeting partial and gene regions of . We tested for eDNA presence in water samples containing separately five dominant gastropod species and fecal samples from known cockle predators, the European oystercatcher () and gulls ( spp.), collected in Arcachon Bay. eDNA was only detected in water containing the needle snail (), with cercarial emergence confirming infection in 1.6% of individual hosts. Morphological analysis of the cercarial and metacercarial stages revealed variability in collar spine visibility. Additionally, was detected by qPCR in 42% of oystercatcher feces and no gull feces, suggesting oystercatchers are the definitive host. This study is the first to elucidate the complete life cycle of , identifying as its first intermediate host and as its definitive host. Our findings highlight the potential of eDNA approaches for resolving parasite life cycles and enabling advances in ecological research on .
title Elucidation of the life cycle of the trematode (Digenea: Himasthlidae), using environmental DNA detection methods.
topic Animals
Trematoda
DNA, Environmental
Life Cycle Stages
Feces
DNA, Helminth
Charadriiformes
Cardiidae
France
Trematode Infections
Gastropoda
Snails
Real-Time Polymerase Chain Reaction
Bird Diseases
url https://pubmed.ncbi.nlm.nih.gov/40530783/