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Synonyms:
   Microcerella chilensis 
   Mimophytomyia chilensis 

Broader Terms:
   Microcerella 
 
 




1.  In situ experiment to evaluate biochemical responses in the freshwater mussel Diplodon chilensis under anthropogenic eutrophication conditions.LinkIT
Yusseppone MS, Bianchi VA, Castro JM, Noya Abad T, Minaberry YS, Sabatini SE, Luquet CM, Rios de Molina MC, Rocchetta I
Ecotoxicology and environmental safety, 2020
http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0

2.  The filter-feeding bivalve Mytilus chilensis capture pelagic stages of Caligus rogercresseyi: A potential controller of the sea lice fish parasites.LinkIT
Montory JA, Chaparro OR, Averbuj A, Salas-Yanquin LP, Büchner-Miranda JA, Gebauer P, Cumillaf JP, Cruces E
Journal of fish diseases J. Fish Dis. The filter-feeding bivalve Mytilus chilensis capture pelagic stages of Caligus rogercresseyi: A potential controller of the sea lice fish parasites. 475-484 10.1111/jfd.13141 The copepod Caligus rogercresseyi is an ectoparasite of several salmonid species. The pumping activity of filter-feeding molluscs could reduce the abundance of copepod dispersive larval stages in the water column. In this research, nauplius II and copepodid larvae of C. rogercresseyi were exposed to filtering mussels (Mytilus chilensis) of different sizes. These mussels were able to filter both larval stages, although they were more efficient in catching nauplius II. The fact that nauplius II were ingested more efficiently could be explained by their smaller size, lower swimming velocity (escape) and longer resting times between movements, when they were exposed to the influx of water around the inhalant area of the mussels. Larger mussels were more effective filtering C. rogercresseyi larvae due to their larger inhalant area and the related water influx. Additionally, the results suggest that larvae captured by the mussels can be incorporated into pseudofaeces or ingested and then released as part of the faeces. Thus, high concentrations of M. chilensis surrounding salmon farms may act as biological barriers, reducing the density of copepod dispersive larval stages and, thus, salmon infestations. © 2020 John Wiley & Sons Ltd. Montory Jaime A JA https://orcid.org/0000-0003-3383-7467 Centro i~mar, Universidad De Los Lagos, Puerto Montt, Chile. Chaparro Oscar R OR Instituto de Ciencias Marinas y Limnológicas, Universidad Austral de Chile, Valdivia, Chile. Averbuj Andres A Laboratorio de reproducción y biología integrativa de invertebrados marinos (LARBIM) - IBIOMAR, CCT CONICET - CENPAT, Puerto Madryn, Argentina. Salas-Yanquin Luis P LP Instituto de Ciencias Marinas y Limnológicas, Universidad Austral de Chile, Valdivia, Chile. Büchner-Miranda Joseline A JA Instituto de Ciencias Marinas y Limnológicas, Universidad Austral de Chile, Valdivia, Chile. Gebauer Paulina P Centro i~mar, Universidad De Los Lagos, Puerto Montt, Chile. Cumillaf Juan P JP Programa de Doctorado en Ciencias de la Acuicultura, Universidad Austral de Chile, Puerto Montt, Chile. Cruces Edgardo E Centro de Investigaciones Costeras, Universidad de Atacama (CIC-UDA), Universidad de Atacama, Chile. eng 11190720 Fondo Nacional de Desarrollo Científico y Tecnológico Journal Article 2020 02 14 England J Fish Dis 9881188 0140-7775 IM Mytilidae inhalant area larval swimming mussel filtration sea lice larvae 2019 12 16 2020 01 17 2020 01 20 2020 2 15 6 0 2020 2 15 6 0 2020 2 15 6 0 ppublish 32057114 10.1111/jfd.13141 REFERENCES, 2020</i></font><br><font color=#008000>http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0<br></font></span><br>3.  <a href=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0 class=title>Is Sporothrix chilensis circulating outside Chile?</a><a href=http://ubio.org/tools/linkit.php?map%5B%5D=all&link_type=2&url=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0><img src=linkit.png border=0 title='LinkIT' alt='LinkIT'></a> <br><span class=j>Valeriano CAT, Lima-Neto RG, Inácio CP, Rabello VBS, Oliveira EP, Zancopé-Oliveira RM, Almeida-Paes R, Neves RP, de Oliveira MME<br><font color=gray><i>PLoS neglected tropical diseases, 2020</i></font><br><font color=#008000>http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0<br></font></span><br>4.  <a href=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0 class=title>Live Feeds Used in the Larval Culture of Red Cusk Eel, <i>Genypterus chilensis</i>, Carry High Levels of Antimicrobial-Resistant Bacteria and Antibiotic-Resistance Genes (ARGs).</a><a href=http://ubio.org/tools/linkit.php?map%5B%5D=all&link_type=2&url=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0><img src=linkit.png border=0 title='LinkIT' alt='LinkIT'></a> <br><span class=j>Hurtado L, Miranda CD, Rojas R, Godoy FA, Añazco MA, Romero J<br><font color=gray><i>Animals : an open access journal from MDPI, 2020</i></font><br><font color=#008000>http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0<br></font></span><br>5.  <a href=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0 class=title>Retinal topography in two species of flamingo (Phoenicopteriformes: Phoenicopteridae).</a><a href=http://ubio.org/tools/linkit.php?map%5B%5D=all&link_type=2&url=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0><img src=linkit.png border=0 title='LinkIT' alt='LinkIT'></a> <br><span class=j>Lisney TJ, Potier S, Isard PF, Mentek M, Mitkus M, Collin SP<br><font color=gray><i>The Journal of comparative neurology J. Comp. Neurol. Retinal topography in two species of flamingo (Phoenicopteriformes: Phoenicopteridae). 10.1002/cne.24902 In this study, we assessed eye morphology and retinal topography in two flamingo species, the Caribbean flamingo (Phoenicopterus ruber) and the Chilean flamingo (P. chilensis). Eye morphology is similar in both species and cornea size relative to eye size (C:A ratio) is intermediate between those previously reported for diurnal and nocturnal birds. Using stereology and retinal whole mounts, we estimate that the total number of Nissl-stained neurons in the retinal ganglion cell (RGC) layer in the Caribbean and Chilean flamingo is ~1.70 and 1.38 million, respectively. Both species have a well-defined visual streak with a peak neuron density of between 13,000 and 16,000 cells mm-2 located in a small central area. Neurons in the high-density regions are smaller and more homogeneous compared to those in medium- and low-density regions. Peak anatomical spatial resolving power in both species is approximately 10-11?cycles/deg. En-face images of the fundus in live Caribbean flamingos acquired using spectral domain optical coherence tomography (SD-OCT) revealed a thin, dark band running nasotemporally just dorsal to the pecten, which aligned with the visual streak in the retinal topography maps. Cross-sectional images (B-scans) obtained with SD-OCT showed that this dark band corresponds with an area of retinal thickening compared to adjacent areas. Neither the retinal whole mounts, nor the SD-OCT imaging revealed any evidence of a central fovea in either species. Overall, we suggest that eye morphology and retinal topography in flamingos reflects their cathemeral activity pattern and the physical nature of the habitats in which they live. © 2020 Wiley Periodicals, Inc. Lisney Thomas J TJ https://orcid.org/0000-0001-5149-3720 Oceans Graduate School, The University of Western Australia, Perth, Western Australia, Australia. The Oceans Institute, The University of Western Australia, Perth, Western Australia, Australia. CEFE UMR 5175, CNRS-Université de Montpellier-Université Paul-Valéry Montpellier-EPHE, Montpellier, France. Potier Simon S Department of Biology, Lund University, Lund, Sweden. Isard Pierre-François PF Unité d'Ophtalmologie, Centre Hospitalier Vétérinaire, Saint-Martin-Bellevue, France. Mentek Marielle M Unité d'Ophtalmologie, Centre Hospitalier Vétérinaire, Saint-Martin-Bellevue, France. Mitkus Mindaugas M Department of Biology, Lund University, Lund, Sweden. Institute of Biosciences, Life Sciences Center, Vilnius University, Vilnius, Lithuania. Collin Shaun P SP Oceans Graduate School, The University of Western Australia, Perth, Western Australia, Australia. The Oceans Institute, The University of Western Australia, Perth, Western Australia, Australia. School of Life Sciences, La Trobe University, Bundoora, Victoria, Australia. eng University of Western Australia Australian Research Council Journal Article 2020 03 10 United States J Comp Neurol 0406041 0021-9967 IM RRID:SCR_002798 RRID:SCR_003070 RRID:SCR_014199 RRID:SCR_018084 bird eye morphology optical coherence tomography retinal ganglion cell retinal topography spatial resolving power visual streak 2019 10 27 2020 02 21 2020 02 24 2020 3 11 6 0 2020 3 11 6 0 2020 3 11 6 0 aheadofprint 32154931 10.1002/cne.24902 REFERENCES, 2020</i></font><br><font color=#008000>http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0<br></font></span><br>6.  <a href=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0 class=title>Photoprotection of maqui berry against ultraviolet B-induced photodamage in vitro and in vivo.</a><a href=http://ubio.org/tools/linkit.php?map%5B%5D=all&link_type=2&url=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0><img src=linkit.png border=0 title='LinkIT' alt='LinkIT'></a> <br><span class=j>Chen L, Zhou G, Meng XS, Fu HY, Mo QG, Wang YW<br><font color=gray><i>Food & function, 2020</i></font><br><font color=#008000>http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0<br></font></span><br>7.  <a href=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0 class=title>Reclassification of <i>Francisella noatunensis</i> subsp. <i>orientalis</i> Ottem <i>et al</i>. 2009 as <i>Francisella orientalis</i> sp. nov., <i>Francisella noatunensis</i> subsp. <i>chilensis</i> subsp. nov. and emended description of <i>Francisella noatunensis</i>.</a><a href=http://ubio.org/tools/linkit.php?map%5B%5D=all&link_type=2&url=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0><img src=linkit.png border=0 title='LinkIT' alt='LinkIT'></a> <br><span class=j>Ramirez-Paredes JG, Larsson P, Thompson KD, Penman DJ, Busse HJ, Öhrman C, Sjödin A, Soto E, Richards RH, Adams A, Colquhoun DJ<br><font color=gray><i>International journal of systematic and evolutionary microbiology, 2020</i></font><br><font color=#008000>http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0<br></font></span><br>8.  <a href=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0 class=title>Biosynthesis and characterization of a recombinant eukaryotic allophycocyanin using prokaryotic accessory enzymes.</a><a href=http://ubio.org/tools/linkit.php?map%5B%5D=all&link_type=2&url=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0><img src=linkit.png border=0 title='LinkIT' alt='LinkIT'></a> <br><span class=j>Dagnino-Leone J, Figueroa M, Uribe E, Hinrichs MV, Ortiz-López D, Martínez-Oyanedel J, Bunster M<br><font color=gray><i>MicrobiologyOpen, 2020</i></font><br><font color=#008000>http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0<br></font></span><br>9.  <a href=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0 class=title>Novel insights into chromosome evolution of Charadriiformes: extensive genomic reshuffling in the wattled jacana (Jacana jacana, Charadriiformes, Jacanidae).</a><a href=http://ubio.org/tools/linkit.php?map%5B%5D=all&link_type=2&url=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0><img src=linkit.png border=0 title='LinkIT' alt='LinkIT'></a> <br><span class=j>Kretschmer R, Souza MS, Barcellos SA, Degrandi TM, Pereira JC, O'Brien PCM, Ferguson-Smith MA, Gunski RJ, Garnero ADV, Oliveira EHC, Freitas TRO<br><font color=gray><i>Genetics and molecular biology, 2020</i></font><br><font color=#008000>http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0<br></font></span><br>10.  <a href=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0 class=title>Global comparison of bicosoecid Cafeteria-like flagellates from the deep ocean and surface waters, with reorganization of the family Cafeteriaceae.</a><a href=http://ubio.org/tools/linkit.php?map%5B%5D=all&link_type=2&url=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0><img src=linkit.png border=0 title='LinkIT' alt='LinkIT'></a> <br><span class=j>Schoenle A, Hohlfeld M, Rosse M, Filz P, Wylezich C, Nitsche F, Arndt H<br><font color=gray><i>European journal of protistology, 2020</i></font><br><font color=#008000>http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=0<br></font></span><br><br><br><table cellspacing=0 cellpadding=0 align=center><tr valign=bottom><td align=center><img src=p.png border=0></td><td align=center><img src=o_red.png border=0></td><td align=center><a href=http://ubio.org/portal/index.php?search=Microcerella+chilensis&category=l&client=pubmed&startPage=2><img src=o_yellow.png border=0></a></td><td align=center><a href=http://ubio.org/portal/index.php?search=Microcerella+chilensis&category=l&client=pubmed&startPage=3><img src=o_yellow.png border=0></a></td><td align=center><a href=http://ubio.org/portal/index.php?search=Microcerella+chilensis&category=l&client=pubmed&startPage=4><img src=o_yellow.png border=0></a></td><td align=center><a 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