2012
DOI: 10.1186/1471-2148-12-175
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Widespread and persistent invasions of terrestrial habitats coincident with larval feeding behavior transitions during snail-killing fly evolution (Diptera: Sciomyzidae)

Abstract: BackgroundTransitions in habitats and feeding behaviors were fundamental to the diversification of life on Earth. There is ongoing debate regarding the typical directionality of transitions between aquatic and terrestrial habitats and the mechanisms responsible for the preponderance of terrestrial to aquatic transitions. Snail-killing flies (Diptera: Sciomyzidae) represent an excellent model system to study such transitions because their larvae display a range of feeding behaviors, being predators, parasitoids… Show more

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Cited by 18 publications
(15 citation statements)
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“…The other is to ensure that the broader community is aware that not all studying dipteran phylogenetics consider the Wiegmann et al (2011) results as anything remotely close to a "Periodic Table" of Diptera relationships. These results certainly are not authoritative and should not to be used as a template for further study, as has been done by many, with almost 400 citations as of this writing (e.g., Chapman et al, 2012;Dijkstra et al, 2014;Espíndola et al, 2012;Friedemann et al, 2014;Tkoč et al, 2016;Mitterboeck et al, 2016;Nagler & Haug, 2015;Pape et al, 2011;Rotheray & Lyszkowski, 2015;Schneeberg et al, 2013;Vicoso & Bachtrog, 2015).…”
Section: Genomes Vs Phenotypementioning
confidence: 99%
See 1 more Smart Citation
“…The other is to ensure that the broader community is aware that not all studying dipteran phylogenetics consider the Wiegmann et al (2011) results as anything remotely close to a "Periodic Table" of Diptera relationships. These results certainly are not authoritative and should not to be used as a template for further study, as has been done by many, with almost 400 citations as of this writing (e.g., Chapman et al, 2012;Dijkstra et al, 2014;Espíndola et al, 2012;Friedemann et al, 2014;Tkoč et al, 2016;Mitterboeck et al, 2016;Nagler & Haug, 2015;Pape et al, 2011;Rotheray & Lyszkowski, 2015;Schneeberg et al, 2013;Vicoso & Bachtrog, 2015).…”
Section: Genomes Vs Phenotypementioning
confidence: 99%
“…Group after group is being sequenced and the resultant phylogenies abound (e.g., Buenaventura et al, 2016;Caravas & Friedrich, 2013;Chapman et al, 2012;Ding et al, 2015;Haseyama et al, 2015;Semelbauer, 2016;Ševčík, 2016;Wang et al, 2016;Winkler et al, 2015;Winterton et al, 2016;Young et al, 2016a;. Molecular analyses are promising to give final answers (Trautwein et al, 2017;Yeates et al, 2016) and morphological analyses are often as straightforward as scoring variable character states in a matrix, choosing a few taxa as outgroups and determining the most parsimonious tree with a program (and options) of choice (usually PAUP or Mesquite + TNT).…”
Section: Introductionmentioning
confidence: 99%
“…Larvae of most species attack aquatic, shoreline, or terrestrial species of snails and slugs. Exceptions include larvae of Renocera Hendel species, most of which (Chapman et al 2012) attack fingernail clams, and early instars of Anticheta Haliday species, which feed within egg masses of pulmonate snails.…”
mentioning
confidence: 99%
“…Taxa labels: Neur., Neuroptera; Trichopt., Trichoptera; Mc, Mecoptera. Source studies used for phylogenetic topologies: Insecta backbone and Mecoptera: Misof et al 2014;Coleoptera: Bernhard et al 2006;Hunt et al 2007;Song et al 2014;Diptera: Brammer and von Dohlen 2007;Wiegmann et al 2011;Curler and Moulton 2012;Chapman et al 2012;Trichoptera: Hayashi et al 2008;Lepidoptera: Regier et al 2012;Rubinoff and Schmitz 2010;Hemiptera: Li et al 2012;Neuroptera: Aspöck et al 2012. Complete information on the source studies used for topologies and habitat information, and sources of molecular data, is provided in the supplementary data 2 .…”
Section: Analysis Of Habitat-linked Patterns In Molecular Rates Acrosmentioning
confidence: 99%
“…Adult-life-stage habitat shifts (with the larvae inhabiting various environments, but mainly aquatic) have occurred within Coleoptera at least 10 times (Hunt et al 2007), including some reversions; at least five adult shifts have likely occurred in the Hemiptera as well (Carver et al 1991). Dipteran lineages have experienced many (20+) terrestrial-to-aquatic larval-stage transitions (plus many reversions) (Chapman et al 2012;Wiegmann et al 2011), as have Hymenoptera (wasps, bees, and ants) (Bennett 2008) and Lepidoptera (moths and butterflies) (Rubinoff and Schmitz 2010;Foottit and Adler 2009).…”
Section: Introductionmentioning
confidence: 99%