Multi-benthic size approach to unveil different environmental conditions in a Mediterranean harbor area (Ancona, Adriatic Sea, Italy). [PDF]
PeerJ, 2023 Baldrighi E +8 more
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Recent postglacial population expansions may explain a surprising lack of lineage splitting in Arctic meiobenthic flatworms. [PDF]
BMC Ecol EvolWernström JV +4 more
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Linkages between pelagic and benthic biota in a deteriorated coastal lake after restoration, Maruit, Egypt. [PDF]
Environ Monit Assess, 2023 Mitwally H, Rashidy HE, Montagna P.
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Fundamental questions in meiofauna research highlight how small but ubiquitous animals can improve our understanding of Nature. [PDF]
Commun BiolMartínez A +41 more
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Hidden but not Forgotten: Molecular Diversity and Species Delimitation of Proseriata (Platyhelminthes: Rhabditophora) across the Brazilian Coastline, with Focus on Genus <i>Kata</i>. [PDF]
Zool StudCortez T +3 more
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Effects of PAHs on meiofauna from three estuaries with different levels of urbanization in the South Atlantic. [PDF]
PeerJ, 2022 da Silva RB +7 more
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Dispersal of meiofauna in a turbulent tidal creek
, 1985 Traditionally meiofauna have been viewed as strictly infaunal organisms adapted for life between sediment grains. Recent evidence has shown that marine meiofauna also occur in the water column.
Gust, G., Palmer, M. A.
core
Towards a comprehensive view of wetland benthic communities. [PDF]
Curr Res Microb SciDuran C +4 more
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Metacommunity Theory and Metabarcoding Reveal the Environmental, Spatial and Biotic Drivers of Meiofaunal Communities in Sandy Beaches. [PDF]
Mol EcolPichler M +5 more
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Description of two new Nematoda species of the genus <i>Dorylaimopsis</i> Ditlevsen, 1918 (Comesomatidae, Araeolaimida, Nematoda) from the Yellow Sea, China. [PDF]
ZookeysHuang M, Li X.
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