Diversity of Australian Ornixolinae (Lepidoptera: Gracillariidae) with taxonomic and nomenclatural acts within the related taxa (Acrocercopinae and Gracillariinae) based on the evidence of museomics, bionomics, and mitogenomics.

IF 0.8 4区生物学 Q3 ZOOLOGY

Zootaxa Pub Date : 2025-03-31 DOI:10.11646/zootaxa.5616.1.1

Jurate DE Prins, Diana Hartley, Virginijus Sruoga, James Nicholls, Jesse Wallace, Andreas Zwick

{"title":"Diversity of Australian Ornixolinae (Lepidoptera: Gracillariidae) with taxonomic and nomenclatural acts within the related taxa (Acrocercopinae and Gracillariinae) based on the evidence of museomics, bionomics, and mitogenomics.","authors":"Jurate DE Prins, Diana Hartley, Virginijus Sruoga, James Nicholls, Jesse Wallace, Andreas Zwick","doi":"10.11646/zootaxa.5616.1.1","DOIUrl":null,"url":null,"abstract":"<p><p>Advances in genomics enable the inclusion of historic collection specimens in phylogenetic analyses for the delimitation of natural groups. We capitalise on these developments to generate data from independent sources like mitochondrial genomes, morphology and bionomics. Using leaf-mining moths as model organisms, we address the evolutionary problems in the Australian biogeographical realm, from learning about the morphological traits and associated bionomics to revealing principles of the relationship between plants and insects based on genetic studies. We use museum specimens and mitochondrial genomics to associate century-old and often in bad condition primary type specimens with more recent accessions at the Australian National Insect Collection, Canberra, Australia, adding detailed morphological descriptions and bionomics like host records to otherwise relatively bare names. Genomic data yield well-resolved phylogenies, while morphology and bionomics improve visual evidence and practical biological knowledge. All three datasets fine-tune the taxonomy of the global Gracillariidae and the Australian members of the subfamily Ornixolinae in particular. In the present study, we demonstrated that some Australian species which were considered to belong to Ornixolinae in fact, should be classified as part of Acrocercopinae or Gracillariinae. We use holistic analyses to learn about species and species-group boundaries, assisting in species and higher taxa delimitation and classification. Novelties presented in this article: 9 new genera: Bridella De Prins, Sruoga & Zwick, gen. n.; Crotona De Prins, Sruoga & Zwick, gen. n.; Dondavisia De Prins, Sruoga & Zwick, gen. n.; Kallia De Prins, Sruoga & Zwick, gen. n.; Murwillumbah De Prins, Sruoga & Zwick, gen. n.; Ornica De Prins, Sruoga & Zwick, gen. n.; Polka De Prins, Sruoga & Zwick, gen. n.; Ponga De Prins, Sruoga & Zwick, gen. n.; Toowoomba De Prins, Sruoga & Zwick, gen. n. 38 new species: Bridella doo De Prins, Sruoga & Zwick, sp. nov.; Crotona kakadu De Prins, Sruoga & Zwick, sp. nov.; Cuphodes calycanthae De Prins, Sruoga & Zwick, sp. nov.; Cuphodes drypette De Prins, Sruoga & Zwick, sp. nov., Cuphodes leucoptera De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila auris De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila breynella De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila cairna De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila cornuta De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila crotonella, De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila djabu De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila glochidia De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila glochidiella De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila nix De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila virosae De Prins, Sruoga & Zwick, sp. nov.; Dondavisia digitata De Prins, Sruoga & Zwick, sp. nov.; Epicephala breyniphaga De Prins, Sruoga & Zwick, sp. nov.; Epicephala doddi De Prins, Sruoga & Zwick, sp. nov.; Epicephala dunkensis De Prins, Sruoga & Zwick, sp. nov.; Epicephala philippa De Prins, Sruoga & Zwick, sp. nov.; Epicephala sydnea De Prins, Sruoga & Zwick, sp. nov.; Epicephala xerocarpa, De Prins, Sruoga & Zwick, sp. nov.; Gibbovalva lambertiae De Prins, Sruoga & Zwick, sp. nov.; Gibbovalva lomatiae De Prins, Sruoga & Zwick, sp. nov.; Kallia myopora De Prins, Sruoga & Zwick, sp. nov.; Liocrobyla kuranda De Prins, Sruoga & Zwick, sp. nov.; Liocrobyla pinnatae De Prins, Sruoga & Zwick, sp. nov.; Parectopa acaciella De Prins, Sruoga & Zwick, sp. nov.; Parectopa braidella De Prins, Sruoga & Zwick, sp. nov.; Parectopa melanoxyla De Prins, Sruoga & Zwick, sp. nov.; Polka commoni De Prins, Sruoga & Zwick, sp. nov.; Polydema eubenangee De Prins, Sruoga & Zwick, sp. nov.; Polydema macaranga De Prins, Sruoga & Zwick, sp. nov.; Polydema mallota De Prins, Sruoga & Zwick, sp. nov.; Polydema virgula De Prins, Sruoga & Zwick, sp. nov.; Ponga pinna De Prins, Sruoga & Zwick, sp. nov.; Stomphastis dhileepani De Prins, Sruoga & Zwick, sp. nov.; Toowoomba toowoomba De Prins, Sruoga & Zwick, sp. nov. 2 new synonymisation acts: Cyphosticha Meyrick, 1907 syn. n. = Cuphodes Meyrick, 1897; Conopomorpha heliopla (Meyrick, 1907) syn. n. = Polysoma eumetalla (Meyrick, 1880). 14 new combinations: Cuphodes acrolitha (Meyrick, 1908a), comb. n. (= Cyphosticha acrolitha); Cuphodes albomarginata (Stainton, 1862), comb. n. (= Gracilaria albomarginata); Cuphodes callimacha (Meyrick, 1920), comb. n. (= Acrocercops callimacha); Cuphodes microta (Turner, 1894), comb. n. (= Gracillaria microta); Cuphodes pandoxa (Turner, 1913), comb. n. (= Cyphosticha pandoxa); Cuphodes pterocola (Meyrick, 1914b), comb. n. (= Cyphosticha pterocola); Cuphodes pyrochroma (Turner, 1894), comb. n. (= Gracillaria pyrochroma); Gibbovalva zaplaca (Meyrick, 1907), comb. n. (= Conopomorpha zaplaca); Kallia murtfeldtella (Busck, 1904), comb. n. (= Gracillaria murtfeldtella); Murwillumbah panconita (Turner, 1913), comb. n. (= Cyphosticha panconita); Ornica australis (Turner, 1896), comb. n. (= Ornix australis); Parectopa epimicta (Turner, 1913), comb. n. (= Acrocercops epimicta); Polysoma heliopla (Meyrick, 1907), comb. n. (= Conopomorpha heliopla); Toowoomba dialeuca (Turner, 1940), comb. n. (= Cyphosticha dialeuca). Neotype designation: Gracillaria heteropsis Lower, 1894. 19 Lectotype designations: Conopomorpha chionochtha Meyrick, 1907; Conopomorpha habrodes Meyrick, 1907; Conopomorpha zaplaca Meyrick, 1907; Coriscium ochridorsellum Meyrick, 1880; Cuphodes didymosticha Turner, 1940; Cuphodes habrophanes Turner, 1940; Cuphodes maculosa Turner, 1940; Cyphosticha dialeuca Turner, 1940; Epicephala colymbetella Meyrick, 1880; Epicephala invita Meyrick, 1912; Epicephala stephanephora Turner, 1923; Epicephala zalosticha Turner, 1940; Gracillaria albistriatella Turner, 1894; Gracillaria cramerella Snellen, 1904; Gracillaria mnesicala Meyrick, 1880; Gracillaria pyrochroma Turner, 1894; Ornix trigonophora Turner, 1900; Phrixosceles lithographa Meyrick, 1912; Ornix australis Turner, 1896. New distribution records for Australia: Diphtheroptila oxyloga (Meyrick, 1928a); Stomphastis labyrinthica (Meyrick, 1918), genera Liocrobyla Meyrick, 1916b, Polydema Vári, 1961. New hostplants: Ebenaceae: Diospyros calycantha O. Schwarz, a new host plant record for Gracillariidae. Euphorbiaceae: Mallotus polyadenos F. Muell., M. paniculatus Müll. Arg., Macaranga involucrata Baill. for the genus Polydema Vári, 1961. Fabaceae: Acacia dealbata Link, A. melanoxylon R. Br., A. pycnantha Benth. for the genus Polysoma Vári, 1961; A. trinervata Sieber ex DC., A. mangium Willd., for Ornica australis (Turner, 1896); Flemingia parviflora Benth, F. trifloliastrum Domin, Pongamia pinnata (L.) Pierre, Pongamia sp. for the genus Liocrobyla; Neptunia major (Benth.) Windler for the genus Neurostrota Ely, 1918. Phyllanthaceae: Breynia cernua (Poir.) Müll, Breynia oblongifolia (Müll. Arg.) Müll. Arg. Breynia sp., Flueggea virosa (Roxb. ex Willd.) Royle, Glochidion philippicum (Cav.) C.B. Rob for the genus Diphtheroptila Vári, 1961; Breynia oblongifolia (Müll. Arg.) Müll. Arg, Glochidion philippicum (Cav.) C.B. Rob., G. xerocarpus O. Schwarz for the genus Epicephala Meyrick, 1880. Putranjivaceae: Drypetes deplanchei (Brongn. & Gris) Merr., new host plant record and new host plant family for Gracillariidae.</p>","PeriodicalId":24072,"journal":{"name":"Zootaxa","volume":"5616 1","pages":"1-340"},"PeriodicalIF":0.8000,"publicationDate":"2025-03-31","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Zootaxa","FirstCategoryId":"99","ListUrlMain":"https://doi.org/10.11646/zootaxa.5616.1.1","RegionNum":4,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"ZOOLOGY","Score":null,"Total":0}

引用次数: 0

Abstract

Advances in genomics enable the inclusion of historic collection specimens in phylogenetic analyses for the delimitation of natural groups. We capitalise on these developments to generate data from independent sources like mitochondrial genomes, morphology and bionomics. Using leaf-mining moths as model organisms, we address the evolutionary problems in the Australian biogeographical realm, from learning about the morphological traits and associated bionomics to revealing principles of the relationship between plants and insects based on genetic studies. We use museum specimens and mitochondrial genomics to associate century-old and often in bad condition primary type specimens with more recent accessions at the Australian National Insect Collection, Canberra, Australia, adding detailed morphological descriptions and bionomics like host records to otherwise relatively bare names. Genomic data yield well-resolved phylogenies, while morphology and bionomics improve visual evidence and practical biological knowledge. All three datasets fine-tune the taxonomy of the global Gracillariidae and the Australian members of the subfamily Ornixolinae in particular. In the present study, we demonstrated that some Australian species which were considered to belong to Ornixolinae in fact, should be classified as part of Acrocercopinae or Gracillariinae. We use holistic analyses to learn about species and species-group boundaries, assisting in species and higher taxa delimitation and classification. Novelties presented in this article: 9 new genera: Bridella De Prins, Sruoga & Zwick, gen. n.; Crotona De Prins, Sruoga & Zwick, gen. n.; Dondavisia De Prins, Sruoga & Zwick, gen. n.; Kallia De Prins, Sruoga & Zwick, gen. n.; Murwillumbah De Prins, Sruoga & Zwick, gen. n.; Ornica De Prins, Sruoga & Zwick, gen. n.; Polka De Prins, Sruoga & Zwick, gen. n.; Ponga De Prins, Sruoga & Zwick, gen. n.; Toowoomba De Prins, Sruoga & Zwick, gen. n. 38 new species: Bridella doo De Prins, Sruoga & Zwick, sp. nov.; Crotona kakadu De Prins, Sruoga & Zwick, sp. nov.; Cuphodes calycanthae De Prins, Sruoga & Zwick, sp. nov.; Cuphodes drypette De Prins, Sruoga & Zwick, sp. nov., Cuphodes leucoptera De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila auris De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila breynella De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila cairna De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila cornuta De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila crotonella, De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila djabu De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila glochidia De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila glochidiella De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila nix De Prins, Sruoga & Zwick, sp. nov.; Diphtheroptila virosae De Prins, Sruoga & Zwick, sp. nov.; Dondavisia digitata De Prins, Sruoga & Zwick, sp. nov.; Epicephala breyniphaga De Prins, Sruoga & Zwick, sp. nov.; Epicephala doddi De Prins, Sruoga & Zwick, sp. nov.; Epicephala dunkensis De Prins, Sruoga & Zwick, sp. nov.; Epicephala philippa De Prins, Sruoga & Zwick, sp. nov.; Epicephala sydnea De Prins, Sruoga & Zwick, sp. nov.; Epicephala xerocarpa, De Prins, Sruoga & Zwick, sp. nov.; Gibbovalva lambertiae De Prins, Sruoga & Zwick, sp. nov.; Gibbovalva lomatiae De Prins, Sruoga & Zwick, sp. nov.; Kallia myopora De Prins, Sruoga & Zwick, sp. nov.; Liocrobyla kuranda De Prins, Sruoga & Zwick, sp. nov.; Liocrobyla pinnatae De Prins, Sruoga & Zwick, sp. nov.; Parectopa acaciella De Prins, Sruoga & Zwick, sp. nov.; Parectopa braidella De Prins, Sruoga & Zwick, sp. nov.; Parectopa melanoxyla De Prins, Sruoga & Zwick, sp. nov.; Polka commoni De Prins, Sruoga & Zwick, sp. nov.; Polydema eubenangee De Prins, Sruoga & Zwick, sp. nov.; Polydema macaranga De Prins, Sruoga & Zwick, sp. nov.; Polydema mallota De Prins, Sruoga & Zwick, sp. nov.; Polydema virgula De Prins, Sruoga & Zwick, sp. nov.; Ponga pinna De Prins, Sruoga & Zwick, sp. nov.; Stomphastis dhileepani De Prins, Sruoga & Zwick, sp. nov.; Toowoomba toowoomba De Prins, Sruoga & Zwick, sp. nov. 2 new synonymisation acts: Cyphosticha Meyrick, 1907 syn. n. = Cuphodes Meyrick, 1897; Conopomorpha heliopla (Meyrick, 1907) syn. n. = Polysoma eumetalla (Meyrick, 1880). 14 new combinations: Cuphodes acrolitha (Meyrick, 1908a), comb. n. (= Cyphosticha acrolitha); Cuphodes albomarginata (Stainton, 1862), comb. n. (= Gracilaria albomarginata); Cuphodes callimacha (Meyrick, 1920), comb. n. (= Acrocercops callimacha); Cuphodes microta (Turner, 1894), comb. n. (= Gracillaria microta); Cuphodes pandoxa (Turner, 1913), comb. n. (= Cyphosticha pandoxa); Cuphodes pterocola (Meyrick, 1914b), comb. n. (= Cyphosticha pterocola); Cuphodes pyrochroma (Turner, 1894), comb. n. (= Gracillaria pyrochroma); Gibbovalva zaplaca (Meyrick, 1907), comb. n. (= Conopomorpha zaplaca); Kallia murtfeldtella (Busck, 1904), comb. n. (= Gracillaria murtfeldtella); Murwillumbah panconita (Turner, 1913), comb. n. (= Cyphosticha panconita); Ornica australis (Turner, 1896), comb. n. (= Ornix australis); Parectopa epimicta (Turner, 1913), comb. n. (= Acrocercops epimicta); Polysoma heliopla (Meyrick, 1907), comb. n. (= Conopomorpha heliopla); Toowoomba dialeuca (Turner, 1940), comb. n. (= Cyphosticha dialeuca). Neotype designation: Gracillaria heteropsis Lower, 1894. 19 Lectotype designations: Conopomorpha chionochtha Meyrick, 1907; Conopomorpha habrodes Meyrick, 1907; Conopomorpha zaplaca Meyrick, 1907; Coriscium ochridorsellum Meyrick, 1880; Cuphodes didymosticha Turner, 1940; Cuphodes habrophanes Turner, 1940; Cuphodes maculosa Turner, 1940; Cyphosticha dialeuca Turner, 1940; Epicephala colymbetella Meyrick, 1880; Epicephala invita Meyrick, 1912; Epicephala stephanephora Turner, 1923; Epicephala zalosticha Turner, 1940; Gracillaria albistriatella Turner, 1894; Gracillaria cramerella Snellen, 1904; Gracillaria mnesicala Meyrick, 1880; Gracillaria pyrochroma Turner, 1894; Ornix trigonophora Turner, 1900; Phrixosceles lithographa Meyrick, 1912; Ornix australis Turner, 1896. New distribution records for Australia: Diphtheroptila oxyloga (Meyrick, 1928a); Stomphastis labyrinthica (Meyrick, 1918), genera Liocrobyla Meyrick, 1916b, Polydema Vári, 1961. New hostplants: Ebenaceae: Diospyros calycantha O. Schwarz, a new host plant record for Gracillariidae. Euphorbiaceae: Mallotus polyadenos F. Muell., M. paniculatus Müll. Arg., Macaranga involucrata Baill. for the genus Polydema Vári, 1961. Fabaceae: Acacia dealbata Link, A. melanoxylon R. Br., A. pycnantha Benth. for the genus Polysoma Vári, 1961; A. trinervata Sieber ex DC., A. mangium Willd., for Ornica australis (Turner, 1896); Flemingia parviflora Benth, F. trifloliastrum Domin, Pongamia pinnata (L.) Pierre, Pongamia sp. for the genus Liocrobyla; Neptunia major (Benth.) Windler for the genus Neurostrota Ely, 1918. Phyllanthaceae: Breynia cernua (Poir.) Müll, Breynia oblongifolia (Müll. Arg.) Müll. Arg. Breynia sp., Flueggea virosa (Roxb. ex Willd.) Royle, Glochidion philippicum (Cav.) C.B. Rob for the genus Diphtheroptila Vári, 1961; Breynia oblongifolia (Müll. Arg.) Müll. Arg, Glochidion philippicum (Cav.) C.B. Rob., G. xerocarpus O. Schwarz for the genus Epicephala Meyrick, 1880. Putranjivaceae: Drypetes deplanchei (Brongn. & Gris) Merr., new host plant record and new host plant family for Gracillariidae.

查看原文本刊更多论文

澳大利亚 Ornixolinae（鳞翅目：鹩莺科）的多样性，以及相关类群（Acrocercopinae 和 Gracillariinae）内的分类和命名行为，基于 museomics、bionomics 和 mitogenomics 的证据。

基因组学的进步使历史采集标本能够纳入自然类群划分的系统发育分析。我们利用这些发展从线粒体基因组、形态学和生物学等独立来源生成数据。利用采叶蛾作为模式生物，我们解决了澳大利亚生物地理领域的进化问题，从形态学特征和相关生物学的学习到基于遗传研究揭示植物和昆虫之间关系的原理。我们利用博物馆标本和线粒体基因组学，将有百年历史且通常状况不佳的初级型标本与最近在澳大利亚堪培拉的澳大利亚国家昆虫收藏馆（Australian National Insect Collection）获得的标本联系起来，在相对简单的名称上添加详细的形态描述和生物学记录，比如寄主记录。基因组数据可以很好地解决系统发育问题，而形态学和生物学则可以改善视觉证据和实用的生物学知识。所有三个数据集都微调了全球Gracillariidae的分类，特别是澳大利亚的Ornixolinae亚科成员。在本研究中，我们证明了一些被认为属于鸟鸟科的澳大利亚物种实际上应该被归类为Acrocercopinae或Gracillariinae的一部分。我们使用整体分析来了解物种和种群边界，协助物种和高级分类群的划分和分类。本文介绍的新奇事物：9个新属：Bridella De Prins， Sruoga & Zwick, gen. n.；Crotona De Prins, Sruoga & Zwick, gen. n.；Dondavisia De Prins, Sruoga & Zwick, gen. n.；kalia De Prins, Sruoga & Zwick, gen. n.；Murwillumbah De Prins, Sruoga & Zwick, gen. n.；Ornica De Prins, Sruoga & Zwick, gen. n.；Polka De Prins, Sruoga & Zwick, gen. n.；Ponga De Prins, Sruoga & Zwick, gen. n.；Toowoomba De Prins, Sruoga & Zwick, gen. 38新种；Bridella doo De Prins, Sruoga & Zwick, sp. 11；Crotona kakadu De Prins, Sruoga & Zwick， 11月；杜鹃花萼，De Prins, Sruoga & Zwick, sp. 11；斯鲁奥加&茨威克，11月；斯鲁奥加&茨威克，11月；白喉蝶，斯鲁奥加&茨威克，11月；布氏白喉，斯鲁奥加&茨威克，11月；白蛉，斯鲁奥加&茨威克，11月；白喉蝶，斯鲁奥加&茨威克，11月；crotonella白蛉，De Prins, Sruoga & Zwick， 11月；白喉蝶，斯鲁奥加&茨威克，11月；白喉蝶，斯鲁奥加&茨威克，11月；De Prins, Sruoga & Zwick, sp. 11；白喉蝶，斯鲁奥加&茨威克，11月；病毒白蛉，斯鲁奥加&茨威克，11月；Dondavisia digitata De Prins, Sruoga & Zwick， 11月；Epicephala breyniphaga De Prins, Sruoga & Zwick， 11月；Epicephala doddi De Prins, Sruoga & Zwick， 11月；Epicephala dunkensis De Prins, Sruoga & Zwick， 11月；Epicephala philippa De Prins, Sruoga & Zwick， 11月；Epicephala sydnea De Prins, Sruoga & Zwick， 11月；Epicephala xerocarpa, De Prins, Sruoga & Zwick， 11月；Gibbovalva lambertiae De Prins, Sruoga & Zwick， 11月；Sruoga & Zwick， 11月；Kallia myopora De Prins, Sruoga & Zwick， 11月；Liocrobyla kuranda De Prins, Sruoga & Zwick，十一月；pinnatae Liocrobyla De Prins, Sruoga & Zwick, sp. 11；parrectopa acaciella De Prins, Sruoga & Zwick， 11月；parrectopa braidella De Prins, Sruoga & Zwick， 11月；parrectopa melanoxyla De Prins, Sruoga & Zwick， 11月；普通波尔卡王子，斯鲁奥加&茨威克，11月；Polydema eubenangee De Prins, Sruoga & Zwick, sp. 11；Polydema macaranga De Prins, Sruoga & Zwick， 11月；Polydema mallota De Prins, Sruoga & Zwick， 11月；Polydema virgula De Prins, Sruoga & Zwick, sp. 11；Ponga pinna De Prins, Sruoga & Zwick， 11月；《Stomphastis hileepani De Prins》，Sruoga & Zwick， 11月；新同义词行为：Cyphosticha Meyrick， 1907年同义词= Cuphodes Meyrick， 1897年；同义名词=多形藻（Meyrick, 1907）。14个新组合：Cuphodes acrolitha (Meyrick, 1988a), comb。n. (= Cyphosticha acrolitha)；杜鹃（Stainton, 1862），梳子。n.（=江蓠）；花斑杜鹃（Meyrick, 1920），梳子。n. (= Acrocercops callimacha)；微Cuphodes microta (Turner, 1894)，梳子。n.（=小叶葛）；pandoxa (Turner, 1913)，梳子。n. (= Cyphosticha pandoxa)；pterocola (Meyrick, 1914b)，梳子。n. (= Cyphosticha pterocola)；火红杜鹃（Turner, 1894），梳子。n.（=火色葛）；Gibbovalva zaplaca (Meyrick, 1907)，梳子。n. (= Conopomorpha zaplaca)；Kallia murtfeldtella (Busck, 1904)，梳子。n. (= Gracillaria murtfeltella)；Murwillumbah panconita (Turner, 1913)，梳子。n。 (=泛孔型Cyphosticha);澳大利亚orica (Turner, 1896)， comb。n.(澳大利亚Ornix);非常好。n. (= epimicta Acrocercops);氦聚体(Meyrick, 1907)， comb。n。图乌姆巴·迪尤卡(Turner, 1940)， comb。n. (= Cyphosticha dieuca)。Neotype设计:Gracillaria heteropsis down, 1894。1907年，chionochtha Meyrick;1907年，pomorpha habrodes Meyrick;1907年，pomorpha zaplaca Meyrick;Coriscium ochridorsellum Meyrick, 1880年;特纳杯，1940年;霍迪斯·哈布罗汉·特纳，1940年;马卡罗萨·特纳杯，1940年;Cyphosticha dieuca Turner, 1940;Epicephala colymbetella Meyrick, 1880年;Epicephala邀请Meyrick, 1912;Epicephala stephanephora Turner, 1923年;Epicephala zalosticha Turner, 1940年;格雷西莉亚·阿尔比斯特里泰拉·特纳，1894年;格雷西莉亚·克雷梅雷拉·斯奈伦，1904年;格雷西莉亚·麦克尼斯卡拉·迈耶里克，1880年;1894年，格雷西莉亚·皮罗罗玛·特纳;Ornix trigonophora Turner, 1900;Phrixosceles lithographa Meyrick, 1912;澳大利亚Ornix Turner, 1896年。澳大利亚的新发行记录:Diphtheroptila oxyloga (Meyrick, 1928a);Stomphastis labyrinthica (Meyrick, 1918),产生了Liocrobyla Meyrick 1916b、Polydema Vá,1961年。新主人:Ebenaceae: scanyros calycantha O. Schwarz, Gracillariidae的新主人种植园记录。马洛图斯·polyadenos F. Muell。M, M . paniculatusüll。Arg。马卡兰人的诱饵。for the Polydema Vá,1961年属。豆科:dealbata Link相思，A. melanoxylon R. Br。A. pycnanta Benth。for the Polysoma Vá,1961年属;A. trinervata Sieber ex DC。A. mangium愿意。澳大利亚语(Turner, 1896);F. trifloliastrum Domin, Pongamia pinnata (L)皮埃尔，庞伽美尼亚sp.代表利奥罗比拉属;Neptunia少校(本特)1918年神经紧张的温德勒。布里尼亚·瑟恩。Müll, Breynia oblongifolia (Müll。Arg。)Müll。Arg。Breynia sp ., Flueggea virosa (Roxb。前Willd。)Royle, Glochidion philippicum (Cav)C . B . Rob for the Diphtheroptila Vá,1961年属;Breynia oblongifolia (Müll。Arg。)Müll。Arg, Glochidion philippicum (Cav)C . B . Rob。G. xerocarpus O. Schwarz代表Epicephala Meyrick, 1880年。Putranjivaceae:干衣烂衫(Brongn)。(灰色)Merr。格雷西利达的新种植园记录和新种植园家庭。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Zootaxa 生物-动物学

CiteScore

1.90

自引率

33.30%

发文量

1895

审稿时长

2.7 months

期刊介绍： Zootaxa is a peer-reviewed international journal for rapid publication of high quality papers on any aspect of systematic zoology, with a preference for large taxonomic works such as monographs and revisions. Zootaxa considers papers on all animal taxa, both living and fossil, and especially encourages descriptions of new taxa. All types of taxonomic papers are considered, including theories and methods of systematics and phylogeny, taxonomic monographs, revisions and reviews, catalogues/checklists, biographies and bibliographies, identification guides, analysis of characters, phylogenetic relationships and zoogeographical patterns of distribution, descriptions of taxa, and nomenclature. Open access publishing option is strongly encouraged for authors with research grants and other funds. For those without grants/funds, all accepted manuscripts will be published but access is secured for subscribers only.