Correction of the publication date of Lithocolletis Helianthemella Herrich-Schäffer based on additional data of the taxonomic history of this species (Lepidoptera: Gracillariidae).

Recently De Prins et al. (2013) published a description of the new genus Triberta and transferred to it two species, T. cistifoliella (Groschke) and T. helianthemella (Herrich-Schäffer), formerly assigned to the genus Phyllonorycter Hübner. In the upcoming studies related to this new genus the need arose to clarify whether the publication year of T. helianthemella is 1860 or 1861 (Buszko 1996, 2013; De Prins & De Prins 2005, 2013). 

A new species of Urodeta (Lepidoptera: Elachistidae: Elachistinae) from Nepal, the first record of the genus from Asia, showing an ancient distribution pattern.

A new species, Urodeta noreikai Sruoga & De Prins, is described from the Nepalese Himalayas. The habitus and genitalia of both sexes are diagnosed and illustrated in detail. This discovery constitutes the first record of the occurrence of the genus Urodeta Stainton, 1869 in Asia and its biogeographic significance is discussed.

Systematics, phylogeny and biology of a new genus of Lithocolletinae (Lepidoptera: Gracillariidae) associated with Cistaceae.

The gracillariid genus Triberta gen. nov. (Lepidoptera: Gracillariidae: Lithocolletinae Stainton, 1854) is described to accommodate two species formerly assigned to the genus Phyllonorycter Hübner, 1822: Triberta helianthemella (Herrich-Schäffer, 1861) comb. nov. and T. cistifoliella (Groschke, 1944) comb. nov. Triberta cistifoliella bona sp. is restored from synonymy based on morphological characters. The new genus is biologically associated with the plant family Cistaceae of the order Malvales and is endemic to the Palaearctics. Our molecular analysis of eleven nuclear genes failed to unambiguously place Triberta in the lithocolletine phylogeny, but revealed that this genus is distinct from either clade Phyllonorycter + Cremastobombycia and Cameraria. The distinctiveness of Triberta is also supported by inferred traits in wing venation, micro morphology of the last instar larva, pupa, genital morphology of the adult and life history. A key to the species of Triberta is provided. The interspecific homogeneity in external morphology, coupled with minor differences in genital traits, an apparent narrow specialization on Cistaceae host plants, restricted geographical range and molecular evidence based on multi-nuclear genes jointly suggest that the generic diversification of Triberta is a relatively old phenomenon and driven strongly by host selection.

Taxonomic history and invasion biology of two Phyllonorycter leaf miners (Lepidoptera: Gracillariidae) with links to taxonomic and molecular datasets.

This paper deals with two European species, Phyllonorycter mespilella (Hübner, 1805) and P. trifasciella (Haworth, 1828), that have colonized the subtropical Canary Islands. The Rosaceae leaf miner, P. mespilella, is recorded for the first time from Lanzarote and La Palma, while the Caprifoliaceae leaf miner, P. trifasciella, is recorded from Tenerife. We present the diagnoses of these species based on morphology, a preliminary DNA barcode (COI) library of congeneric and con-familial species, and discuss the taxonomic position of the colonizers within the blancardella and trifasciella species groups. The recent intensification of anthropogenic disturbance likely accounts for their range expansion, an event that may impact the relict flora present on the Canary Islands.

Taxonomic Delineation of the Old World Species Stomphastis thraustica (Lepidoptera: Gracillariidae) Feeding on Jatropha gossypiifolia (Euphorbiaceae) that Was Collected in the New World and Imported as a Biocontrol Agent to Australia.

We provide the identification and species delineation of this biocontrol agent as Stomphastis thraustica (Meyrick in Trans Ent Soc Lond 80(1):107-120, 1908) belonging to the family Gracillariidae. We clarify the distribution pattern of S. thraustica, its host plant preferences, and present taxonomic and molecular diagnoses based on original morphological and genetic data as well as data retrieved from historic literature and genetic databases. Following our own collecting efforts in three continents Africa, South America, and Australia as well as our study of historic museum collection material, we present many new distribution records of S. thraustica for countries and territories in the world including the new discovery of this species in the Neotropical region and we report its introduction in Australia as a biocontrol agent. Using mitogenomic and COI gene data, we clarified that the closest relative of S. thraustica is Stomphastis sp. that occurs in Madagascar and Australia and feeds on the same host plant as S. thraustica - Jatropha gossypiifolia L. (Euphorbiaceae). The molecular sequence divergence in the mitochondrial DNA barcode fragment between these two closely related species S. thraustica and Stomphastis sp. is over 5.7% supporting that they are different species.

Increased gene sampling strengthens support for higher-level groups within leaf-mining moths and relatives (Lepidoptera: Gracillariidae).

BACKGROUND: Researchers conducting molecular phylogenetic studies are frequently faced with the decision of what to do when weak branch support is obtained for key nodes of importance. As one solution, the researcher may choose to sequence additional orthologous genes of appropriate evolutionary rate for the taxa in the study. However, generating large, complete data matrices can become increasingly difficult as the number of characters increases. A few empirical studies have shown that augmenting genes even for a subset of taxa can improve branch support. However, because each study differs in the number of characters and taxa, there is still a need for additional studies that examine whether incomplete sampling designs are likely to aid at increasing deep node resolution. We target Gracillariidae, a Cretaceous-age (~100 Ma) group of leaf-mining moths to test whether the strategy of adding genes for a subset of taxa can improve branch support for deep nodes. We initially sequenced ten genes (8,418 bp) for 57 taxa that represent the major lineages of Gracillariidae plus outgroups. After finding that many deep divergences remained weakly supported, we sequenced eleven additional genes (6,375 bp) for a 27-taxon subset. We then compared results from different data sets to assess whether one sampling design can be favored over another. The concatenated data set comprising all genes and all taxa and three other data sets of different taxon and gene sub-sampling design were analyzed with maximum likelihood. Each data set was subject to five different models and partitioning schemes of non-synonymous and synonymous changes. Statistical significance of non-monophyly was examined with the Approximately Unbiased (AU) test. RESULTS: Partial augmentation of genes led to high support for deep divergences, especially when non-synonymous changes were analyzed alone. Increasing the number of taxa without an increase in number of characters led to lower bootstrap support; increasing the number of characters without increasing the number of taxa generally increased bootstrap support. More than three-quarters of nodes were supported with bootstrap values greater than 80% when all taxa and genes were combined. Gracillariidae, Lithocolletinae + Leucanthiza, and Acrocercops and Parectopa groups were strongly supported in nearly every analysis. Gracillaria group was well supported in some analyses, but less so in others. We find strong evidence for the exclusion of Douglasiidae from Gracillarioidea sensu Davis and Robinson (1998). Our results strongly support the monophyly of a G.B.R.Y. clade, a group comprised of Gracillariidae + Bucculatricidae + Roeslerstammiidae + Yponomeutidae, when analyzed with non-synonymous changes only, but this group was frequently split when synonymous and non-synonymous substitutions were analyzed together. CONCLUSIONS: 1) Partially or fully augmenting a data set with more characters increased bootstrap support for particular deep nodes, and this increase was dramatic when non-synonymous changes were analyzed alone. Thus, the addition of sites that have low levels of saturation and compositional heterogeneity can greatly improve results. 2) Gracillarioidea, as defined by Davis and Robinson (1998), clearly do not include Douglasiidae, and changes to current classification will be required. 3) Gracillariidae were monophyletic in all analyses conducted, and nearly all species can be placed into one of six strongly supported clades though relationships among these remain unclear. 4) The difficulty in determining the phylogenetic placement of Bucculatricidae is probably attributable to compositional heterogeneity at the third codon position. From our tests for compositional heterogeneity and strong bootstrap values obtained when synonymous changes are excluded, we tentatively conclude that Bucculatricidae is closely related to Gracillariidae + Roeslerstammiidae + Yponomeutidae.

Twenty years for Zootaxa and ten years for Afromoths (Lepidoptera): a taxonomic interaction between the journal and an online relational database.

After twenty years of publishing the taxonomic journal Zootaxa, it is now the right time to synthesize its achievements and its contribution to the taxonomic knowledge of the Afrotropical Lepidoptera taxa. These contributions were made thanks to the exploration of natural habitats, museum collections, historic libraries, private holdings and phylogenetic investigations by many professional and amateur lepidopterists throughout the world. Zootaxa was introduced as a novel publication model with its innovative, community-based, and democratic approach to speed up the process of taxonomic publications. The fast-developing technology and especially the accessibility of digital taxonomic tools prepared the basis for novel links and inter-relationships. The global digital revolution and especially the overwhelming embrace of digital technology in Africa made an essential switch in the way we work: it became possible to present taxonomic information in a way that is searchable, consultable, illustrative, updatable, correctable and, most importantly-open and accessible to everyone. In this article, the trends of an increase in Afrotropical moth biodiversity knowledge published in Zootaxa and other journals are shortly discussed. Data are retrieved from the online taxonomic relational database Afromoths (www.afromoths.net).

Fourteen new species of the genus Thubdora Park, 2018 (Lepidoptera: Gelechioidea: Lecithoceridae) from Uganda, and three new combinations in Ptilothyris Walsingham, 1897 from DR Congo.

Fourteen new species of the Afrotropical genus Thubdora Park, 2018 (Lecithoceridae: Torodorinae) are described from Uganda: Thubdora afropyralidis Park, sp. nov., T. fruticosa Park, sp. nov., T. kibalensis Park, sp. nov., T. klenodes Park, sp. nov., T. latidiscalis Park, sp. nov., T. mirinae Park, sp. nov., T. nemorosa Park, sp. nov., T. retusivalva Park, sp. nov., T. umbratilis Park, sp. nov., and T. wooriana Park, sp. nov. in the aciphalla species-group (10 species); and T. corystos Park, sp. nov., T. narusia Park, sp. nov., T. trigonoides Park, sp. nov., and T. villosiphalla Park, sp. nov. in the acutalis species-group (four species). Four species are reported for the first time from Uganda: T. ambliodes Park, 2018, T. bilobella Park, 2018, T. ealaensis Park De Prins, 2019, and T. ghesquierei Park De Prins, 2019; and the females of T. ealaensis and T. ghesquierei are newly described, and their genitalia are illustrated. In addition, three species of Ptilothyris Walsingham, 1897 previously recorded from DR Congo are transferred to Thubdora: T. brachysema (Meyrick, 1938), comb. nov., T. crocophracta (Meyrick, 1938), comb. nov., and T. nemophorella (Ghesquière, 1940), comb. nov. Lectotypes for T. brachysema and T. crocophracta are designated herein. Identifications of the new species and corresponding females were confirmed based on the comparison of COI barcode sequences. Adults and genitalia of all the new species and the three species transferred from Ptilothyris are illustrated.

Revision of the genus Ptilothyris Walsingham, 1897 (Lepidoptera: Gelechioidea: Lecithoceridae), with descriptions of eight new species from Africa.

Ptilothyris Walsingham, 1897, a poorly known Afrotropical genus of Lecithoceridae, is revised. Eight new species are described and illustrated: P. subcucullata Park, sp. nov., P. crassiella Park, sp. nov., P. drepanodes Park, sp. nov., P. enormisella Park, sp. nov., P. hylodes Park, sp. nov., P. leifaarviki Park, sp. nov., P. pilosa Park, sp. nov., and P. vokaensis Park, sp. nov. Each species is compared with type specimens of the related species deposited in various museums worldwide. COI barcode sequences of six species were successfully obtained and are provided. Of the 13 previously known African species of the genus, P. serangota ab. cyanea Ghesquière, 1940 is synonymized with P. serangota Meyrick, 1932, and the following three species are excluded from the genus: brachysema Meyrick, 1938, crocophracta Meyrick, 1938, and nemophorella Ghesquière, 1940. The latter three will be transferred to related genera in forthcoming studies. Adults and genitalia of all the known species including the new species are illustrated, and a key to the species is provided.

An illustrated catalogue of the Neotropical Gracillariidae (Lepidoptera) with new data on primary types.

Gracillariidae leaf miners include 1987 species of poorly studied micromoths for which the majority of the diversity has been described from temperate regions. The Neotropics harbors one of the richest faunas of Gracillariidae, but the rate of taxon descriptions has been slow because of limited sampling and taxonomic activity. In this illustrated catalogue, we provide, for the first time, 476 high resolution illustrations for the 201 species of named gracillariids occurring in the region and revise their classification, newly considering the family-group names Oecophyllembiini stat. nov., Marmarini stat. nov., and Parornichini stat. nov. as tribes of Phyllocnistinae, in the first two cases and Gracillariinae in the last case respectively. Two species, Sauterina hexameris (Meyrick, 1921) comb. nov. and S. phiaropis (Meyrick, 1921) comb. nov., are transferred to Sauterina from Gracillaria. By making taxonomic, distributional, molecular and biological data available in a concise form, we aim to facilitate taxonomic work on Neotropical gracillariids, and in turn to enhance studies in general on poorly studied organisms such as parasitoids from this biogeographical region.

Discovery of a new species of Caloptilia (Lepidoptera: Gracillariidae) from east and central Africa with its suggested associated host (Gentianales: Rubiaceae) and natural enemies (Hymenoptera: Eulophidae).

A new species of the leaf-mining moth genus Caloptilia (Gracillariidae), C. mwamba sp. nov., suggested to be associated with Cremaspora triflora (Thonn.) K.Schum. (Rubiaceae) is described from east and central Africa. The taxonomic relationships of the new species with its congeners from the Oriental and the Palaearctic regions are discussed. Newly obtained taxonomic and biological data are linked with the DNA barcode workbench in BOLD, providing the molecular, machine-readable identification tag of the new species. New distribution and morphological data for two parasitoid species, Afrotroppopsis risbeci Gumovsky, 2007 and Zaommomentedon newbyi (Kerrich, 1969) (Eulophidae), which were found to be associated with C. mwamba sp. nov., are presented.

Systematics and biology of the new genus Macrosaccus with descriptions of two new species (Lepidoptera, Gracillariidae).

The new genus Macrosaccus Davis & De Prins is proposed for three species formerly assigned to the genus Phyllonorycter: Macrosaccus robiniella (Clemens), Macrosaccus morrisella (Fitch), and Macrosaccus uhlerella (Fitch); two new, closely related species: Macrosaccus neomexicanus Davis and Macrosaccus gliricidius Davis, are also proposed. Descriptions of the adults, pupae, larvae, life histories, and distributions are supplemented with photographs, line drawings, and scanning electron micrographs. Larvae of all species are serpentine/blotch leaf miners on various genera of the plant family Fabaceae. The genus is endemic to the New World, with the invasive species Macrosaccus robiniella now widely established in Europe.