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| Main Authors: | , , , , , , , , , |
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| Format: | Artículo científico |
| Language: | en |
| Published: |
Journal of helminthology
2025
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| Subjects: | |
| Online Access: | https://pubmed.ncbi.nlm.nih.gov/40045709/ |
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| _version_ | 1868266234561167360 |
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| author | de Buron, I Hill-Spanik, K M Atkinson, S D Vanhove, M P M Kmentová, N Georgieva, S Díaz-Morales, D M Kendrick, M R Roumillat, W A Rothman, G K |
| author_facet | de Buron, I Hill-Spanik, K M Atkinson, S D Vanhove, M P M Kmentová, N Georgieva, S Díaz-Morales, D M Kendrick, M R Roumillat, W A Rothman, G K de Buron, I Hill-Spanik, K M Atkinson, S D Vanhove, M P M Kmentová, N Georgieva, S Díaz-Morales, D M Kendrick, M R Roumillat, W A Rothman, G K |
| collection | PubMed - marine biology |
| contents | ParasiteBlitz: Adaptation of the BioBlitz concept to parasitology. de Buron, I Hill-Spanik, K M Atkinson, S D Vanhove, M P M Kmentová, N Georgieva, S Díaz-Morales, D M Kendrick, M R Roumillat, W A Rothman, G K Animals Parasitology Biodiversity Parasites Fishes South Carolina Ecosystem Invertebrates DNA Barcoding, Taxonomic Wetlands A BioBlitz is a rapid and intensive survey of a specific geographic area that brings together experts and often lay participants to assess biodiversity, typically of macrobiota that are easily observed and identifiable on-site. This concept has become popular across taxonomic fields, attracting interest globally to increase knowledge of local biodiversity. Inspired by the success of the approach, we undertook a 'ParasiteBlitz' at an unexplored locality (Stono Preserve, Charleston, South Carolina, USA) to determine its feasibility for parasites, whose assessment of diversity is largely neglected worldwide. We assembled a team of parasitologists with complementary expertise. Over 12 days (3 days in each habitat) in April 2023, we intensively screened fishes and aquatic invertebrates for parasites, and sampled sediment and water for environmental DNA (eDNA) metabarcoding from four aquatic habitats: wetland, freshwater pond, brackish impoundment, and tidal creek. We incorporated assistance from non-parasitologists and students. Details on methodologies and results are provided in individual papers in this Special Collection. Traditional methods revealed the presence of ca. 100 species of seven major metazoan parasite taxa, and the eDNA survey yielded over 1,000 amplicon sequence variants identified as parasites, most with sequences unmatched in GenBank, and resulting in only a few species identified as named species in the one-year post-Blitz timeframe we imposed upon ourselves for identification. Limitations and challenges of the ParasiteBlitz are discussed, and our results support that this approach can be effective for rapid discovery of the dimensions of parasite assemblages in an understudied environment and contribute to parasitology knowledge. |
| format | Artículo científico |
| id | pubmed_40045709 |
| institution | PubMed |
| language | en |
| publishDate | 2025 |
| publisher | Journal of helminthology |
| record_format | pubmed |
| spellingShingle | ParasiteBlitz: Adaptation of the BioBlitz concept to parasitology. de Buron, I Hill-Spanik, K M Atkinson, S D Vanhove, M P M Kmentová, N Georgieva, S Díaz-Morales, D M Kendrick, M R Roumillat, W A Rothman, G K Animals Parasitology Biodiversity Parasites Fishes South Carolina Ecosystem Invertebrates DNA Barcoding, Taxonomic Wetlands ParasiteBlitz: Adaptation of the BioBlitz concept to parasitology. de Buron, I Hill-Spanik, K M Atkinson, S D Vanhove, M P M Kmentová, N Georgieva, S Díaz-Morales, D M Kendrick, M R Roumillat, W A Rothman, G K Animals Parasitology Biodiversity Parasites Fishes South Carolina Ecosystem Invertebrates DNA Barcoding, Taxonomic Wetlands A BioBlitz is a rapid and intensive survey of a specific geographic area that brings together experts and often lay participants to assess biodiversity, typically of macrobiota that are easily observed and identifiable on-site. This concept has become popular across taxonomic fields, attracting interest globally to increase knowledge of local biodiversity. Inspired by the success of the approach, we undertook a 'ParasiteBlitz' at an unexplored locality (Stono Preserve, Charleston, South Carolina, USA) to determine its feasibility for parasites, whose assessment of diversity is largely neglected worldwide. We assembled a team of parasitologists with complementary expertise. Over 12 days (3 days in each habitat) in April 2023, we intensively screened fishes and aquatic invertebrates for parasites, and sampled sediment and water for environmental DNA (eDNA) metabarcoding from four aquatic habitats: wetland, freshwater pond, brackish impoundment, and tidal creek. We incorporated assistance from non-parasitologists and students. Details on methodologies and results are provided in individual papers in this Special Collection. Traditional methods revealed the presence of ca. 100 species of seven major metazoan parasite taxa, and the eDNA survey yielded over 1,000 amplicon sequence variants identified as parasites, most with sequences unmatched in GenBank, and resulting in only a few species identified as named species in the one-year post-Blitz timeframe we imposed upon ourselves for identification. Limitations and challenges of the ParasiteBlitz are discussed, and our results support that this approach can be effective for rapid discovery of the dimensions of parasite assemblages in an understudied environment and contribute to parasitology knowledge. |
| title | ParasiteBlitz: Adaptation of the BioBlitz concept to parasitology. |
| topic | Animals Parasitology Biodiversity Parasites Fishes South Carolina Ecosystem Invertebrates DNA Barcoding, Taxonomic Wetlands |
| url | https://pubmed.ncbi.nlm.nih.gov/40045709/ |