Evolution of terrestrial habitat in <i>Manophylax</i> species (Trichoptera:Apataniidae), with a new species from Alaska

Chuluunbat, Suvdtsetseg; Morse, John C.; Lessard, Jo Anna L.; Benbow, M. Eric; Wesener, Matthew D.; Hudson, John

doi:10.1899/09-106.1

Cited by 3 publications

(1 citation statement)

References 23 publications

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“…Trichoptera have larvae and pupae that are almost exclusively aquatic (Morse 2017); Philocascademita Ross (Limnephilidae) and Manophylax (Madeophylax) spp. are some exceptions (Schmid 1998, Chuluunbat et al 2010). Mackay and Wiggins (1979) suggest that the high trichopteran diversity was driven by the larval secretion of silk, which provided opportunities to exploit different ecological niches.…”

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confidence: 99%

Trichoptera of Canada

Sheffield

deWaard

Morse

et al. 2019

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Trichoptera, or caddisflies, are common members of freshwater ecosystems as larvae and are important indicators of aquatic system health. As such, the species are relatively well studied, with keys available for larvae and adults of many of the taxa occurring in Canada. The number of species recorded from Canada since 1979 (Wiggins 1979) has increased from 546 to 636, an increase of 16.4%. Of those species newly recorded, 17 represent newly described taxa since 1979. Taking into consideration the species likely to be subsequently found in Canada based on records in adjacent parts of the United States and results from DNA barcoding, an estimated 129–181 species remain to be documented in Canada.

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confidence: 99%

Trichoptera of Canada

Sheffield

deWaard

Morse

et al. 2019

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Order Trichoptera

Holzenthal

Thomson

2015

Thorp and Covich's Freshwater Invertebrates

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Mitogenomics Provide New Phylogenetic Insights of the Family Apataniidae (Trichoptera: Integripalpia)

Ge,

Wang,

Zang

et al. 2024

Insects

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The family Apataniidae consists of two subfamilies, Apataniinae and Moropsychinae. Currently, there are 204 valid species of Apataniidae, which are widely distributed throughout the northern hemisphere. The larvae typically inhabit cold-water environments, and they serve as biological indicators for monitoring the health of freshwater ecosystems. The phylogenetic relationships within Apataniidae are not fully understood. Moreover, the available molecular data of Apataniidae are still limited. Herein, we provided the mitochondrial genomes of eight apataniid species and compared them with the published mitochondrial genomes of Apataniidae. The nine newly obtained sequences ranged from 15,070 bp to 16,737 bp in length. The results of the nonsynonymous with synonymous substitution rates displayed that ATP8 had the highest evolutionary rate, while COXI exhibited the lowest. The ND4L may be an effective molecular marker for the classification of the Apataniidae. Based on the published mitogenomes, we constructed a phylogenetic tree for Limnephiloidea and conducted a preliminary analysis of its advanced phylogeny. The ML and BI analyses recover the monophyly of Apataniidae and Limnephilidae. Except for PCG, BI tree based on other matrices consistently showed the topology: (Apataniana + (Moropsyche + (Apatidelia + Apatania))). The taxonomic status of Apatania and Apatidelia were also preliminarily explored. The mitochondrial genome of Apataniidae provides critical genomic resources for understanding the phylogenetic relationships of Apataniidae.

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Evolution of terrestrial habitat in Manophylax species (Trichoptera:Apataniidae), with a new species from Alaska

Cited by 3 publications

References 23 publications

Trichoptera of Canada

Trichoptera of Canada

Order Trichoptera

Mitogenomics Provide New Phylogenetic Insights of the Family Apataniidae (Trichoptera: Integripalpia)

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