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Journal Abstract Search

117 related items for PubMed ID: 37971160

  • 21. Metabarcoding free-living marine nematodes using curated 18S and CO1 reference sequence databases for species-level taxonomic assignments.
    Macheriotou L, Guilini K, Bezerra TN, Tytgat B, Nguyen DT, Phuong Nguyen TX, Noppe F, Armenteros M, Boufahja F, Rigaux A, Vanreusel A, Derycke S.
    Ecol Evol; 2019 Feb; 9(3):1211-1226. PubMed ID: 30805154
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  • 22. Comparing quantile regression spline analyses and supervised machine learning for environmental quality assessment at coastal marine aquaculture installations.
    Leontidou K, Rubel V, Stoeck T.
    PeerJ; 2023 Feb; 11():e15425. PubMed ID: 37334127
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  • 26. Use of universal primers for the 18S ribosomal RNA gene and whole soil DNAs to reveal the taxonomic structures of soil nematodes by high-throughput amplicon sequencing.
    Kenmotsu H, Takabayashi E, Takase A, Hirose Y, Eki T.
    PLoS One; 2021 Feb; 16(11):e0259842. PubMed ID: 34780544
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  • 29. Seafloor heterogeneity influences the biodiversity-ecosystem functioning relationships in the deep sea.
    Zeppilli D, Pusceddu A, Trincardi F, Danovaro R.
    Sci Rep; 2016 May 23; 6():26352. PubMed ID: 27211908
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  • 30. Characterizing parasitic nematode faunas in faeces and soil using DNA metabarcoding.
    Davey ML, Utaaker KS, Fossøy F.
    Parasit Vectors; 2021 Aug 21; 14(1):422. PubMed ID: 34419166
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  • 31. Development and testing of an 18S rRNA phylogenetic microarray for marine sediments.
    Lekang K, Hadziavdic K, Sandnes Skaar K, Jonassen I, Thompson EM, Troedsson C.
    J Microbiol Methods; 2018 Nov 21; 154():95-106. PubMed ID: 30336165
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  • 32. Biodiversity exploration of Formosa Ridge cold seep in the South China Sea using an eDNA metabarcoding approach.
    Diao C, Wang M, Zhong Z, Li Y, Xian W, Zhang H.
    Mar Environ Res; 2023 Sep 21; 190():106109. PubMed ID: 37506653
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  • 33. Bioinformatic pipelines combining denoising and clustering tools allow for more comprehensive prokaryotic and eukaryotic metabarcoding.
    Brandt MI, Trouche B, Quintric L, Günther B, Wincker P, Poulain J, Arnaud-Haond S.
    Mol Ecol Resour; 2021 Aug 21; 21(6):1904-1921. PubMed ID: 33835712
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  • 34. Fungal diversity in sediments of the eastern tropical Pacific oxygen minimum zone revealed by metabarcoding.
    Posadas J, Velez P, Pajares S, Gasca-Pineda J, Espinosa-Asuar L.
    PLoS One; 2024 Aug 21; 19(5):e0301605. PubMed ID: 38739592
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  • 37. A sedimentary DNA record of the Atacama Trench reveals biodiversity changes in the most productive marine ecosystem.
    Rivera Rosas DE, Geraldi NR, Glud RN, Oguri K, Haond SA, Duarte CM.
    Glob Chang Biol; 2024 Jul 21; 30(7):e17412. PubMed ID: 39044634
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  • 38. Fungal Communities in Sediments Along a Depth Gradient in the Eastern Tropical Pacific.
    Rojas-Jimenez K, Grossart HP, Cordes E, Cortés J.
    Front Microbiol; 2020 Jul 21; 11():575207. PubMed ID: 33240232
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  • 39. High-throughput sequencing of microbial eukaryotes in Lake Baikal reveals ecologically differentiated communities and novel evolutionary radiations.
    Yi Z, Berney C, Hartikainen H, Mahamdallie S, Gardner M, Boenigk J, Cavalier-Smith T, Bass D.
    FEMS Microbiol Ecol; 2017 Aug 01; 93(8):. PubMed ID: 28575320
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  • 40. Environmental metabarcoding reveals heterogeneous drivers of microbial eukaryote diversity in contrasting estuarine ecosystems.
    Lallias D, Hiddink JG, Fonseca VG, Gaspar JM, Sung W, Neill SP, Barnes N, Ferrero T, Hall N, Lambshead PJ, Packer M, Thomas WK, Creer S.
    ISME J; 2015 May 01; 9(5):1208-21. PubMed ID: 25423027
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