Neotype designation of the Short-tailed Albatross Phoebastria albatrus (Pallas, 1769) (Aves: Procellariiformes: Diomedeidae).

The Short-tailed Albatross Phoebastria albatrus (Pallas, 1769) is a threatened seabird widely distributed in the northern Pacific Ocean with its largest breeding sites on the Senkaku Islands and Torishima Island, Japan, which are separated by over 1700 km. A recent taxonomic revision based on morphological, behavioral, and DNA sequence evidence has revealed that this species consists of two cryptic species: a smaller species which breeds mainly in the Senkaku Islands, and a larger species which breeds mainly on Torishima Island. However, it has remained unclear to which of these species the scientific name Phoebastria albatrus applies, because the type specimens are lost. Here a neotype is designated to resolve this taxonomic issue. From now on, the scientific name Phoebastria albatrus should be applied only to the smaller species breeding on the Senkaku Islands. The name of the larger species is more problematic, as the types of each synonym of P. albatrus must be traced, found, and examined.

Integrating voice and phenotype in a revision of the brush cuckoo Cacomantis variolosus (Aves: Cuculidae) complex.

Brush cuckoos of the Cacomantis variolosus complex, which range from Southeast Asia to Australia and the Solomon Islands, have undergone much taxonomic upheaval. Here we examine 389 vocal recordings, 832 skins, and records of brood parasitism and habitat partitioning to shed light on their species and subspecies taxonomy. Bioacoustic analysis revealed seven distinct vocal groups. Among morphological markers, shape and proportions of the tail were found to be supporting indicators, in addition to plumage tone and pattern. Integration of the resulting data set distinguished six species-level taxa within the complex: sepulcralis in the Philippines and Sundaland east to central Nusa Tenggara, virescens in Sulawesi and the Sula Archipelago, aeruginosus in the Moluccas, variolosus in east Nusa Tenggara, the Moluccas, north and east Australia, New Guinea and Bismarck Archipelago, blandus in the Admiralty Islands, and addendus in the Solomon Islands. Our review of infra-specific differentiation among species leads us to distinguish 13 subspecies. All taxa identified are listed in a summary classification of the complex. Taxon diversity is greatest in the Moluccas, where two habitat-partitioned species and five allopatric subspecies occur, of which one species and three subspecies are endemic to this region.

Trophic niche shifts and phenotypic trait evolution are largely decoupled in Australasian parrots.

BACKGROUND: Trophic shifts from one dietary niche to another have played major roles in reshaping the evolutionary trajectories of a wide range of vertebrate groups, yet their consequences for morphological disparity and species diversity differ among groups. METHODS: Here, we use phylogenetic comparative methods to examine whether the evolution of nectarivory and other trophic shifts have driven predictable evolutionary pathways in Australasian psittaculid parrots in terms of ecological traits such as body size, beak shape, and dispersal capacity. RESULTS: We found no evidence for an 'early-burst' scenario of lineage or morphological diversification. The best-fitting models indicate that trait evolution in this group is characterized by abrupt phenotypic shifts (evolutionary jumps), with no sign of multiple phenotypic optima correlating with different trophic strategies. Thus, our results point to the existence of weak directional selection and suggest that lineages may be evolving randomly or slowly toward adaptive peaks they have not yet reached. CONCLUSIONS: This study adds to a growing body of evidence indicating that the relationship between avian morphology and feeding ecology may be more complex than usually assumed and highlights the importance of adding more flexible models to the macroevolutionary toolbox.

Correction: Phylogeography of the iconic Australian red-tailed black-cockatoo (Calyptorhynchus banksii) and implications for its conservation.

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Phylogeography of the iconic Australian red-tailed black-cockatoo (Calyptorhynchus banksii) and implications for its conservation.

Advances in sequencing technologies have revolutionized wildlife conservation genetics. Analysis of genomic data sets can provide high-resolution estimates of genetic structure, genetic diversity, gene flow, and evolutionary history. These data can be used to characterize conservation units and to effectively manage the genetic health of species in a broad evolutionary context. Here we utilize thousands of genome-wide single-nucleotide polymorphisms (SNPs) and mitochondrial DNA to provide the first genetic assessment of the Australian red-tailed black-cockatoo (Calyptorhynchus banksii), a widespread bird species comprising populations of varying conservation concern. We identified five evolutionarily significant units, which are estimated to have diverged during the Pleistocene. These units are only partially congruent with the existing morphology-based subspecies taxonomy. Genetic clusters inferred from mitochondrial DNA differed from those based on SNPs and were less resolved. Our study has a range of conservation and taxonomic implications for this species. In particular, we provide advice on the potential genetic rescue of the Endangered and restricted-range subspecies C. b. graptogyne, and propose that the western C. b. samueli population is diagnosable as a separate subspecies. The results of our study highlight the utility of considering the phylogeographic relationships inferred from genome-wide SNPs when characterizing conservation units and management priorities, which is particularly relevant as genomic data sets become increasingly accessible.

Speciation in Indo-Pacific swiftlets (Aves: Apodidae): integrating molecular and phenotypic data for a new provisional taxonomy of the Collocalia esculenta complex.

White-bellied swiftlets of the Collocalia esculenta complex constitute a radiation of colony-breeding swifts distributed throughout the tropical Indo-Pacific region. Resolution of their taxonomy is challenging due to their morphological uniformity. To analyze the evolutionary history of this complex, we combine new biometric measurements and results from plumage assessment of museum specimens with novel as well as previously published molecular data. Together, this body of information constitutes the largest systematic dataset for white-bellied swiftlets yet compiled, drawn from 809 individuals belonging to 32 taxa for which new molecular, biometric, and/or plumage data are presented. We propose changing the classification of white-bellied swiftlets, for which two species are currently recognized, to elevate eight regional forms to species level, and we also describe two new subspecies. The ten taxa we recommend recognizing at the species level are: Collocalia linchi (Java to Lombok, Sumatran hills), C. dodgei (montane Borneo), C. natalis (Christmas Island), C. affinis (Greater Sundas, including the Thai-Malay Peninsula and Andaman-Nicobar Islands), C. marginata (Philippines), C. isonota (Philippines), C. sumbawae (west Lesser Sundas), C. neglecta (east Lesser Sundas), C. esculenta (Sulawesi, Moluccas, New Guinea, Bismarck Archipelago, Solomon Islands), and C. uropygialis (Vanuatu, New Caledonia). Future molecular and morphological work is needed to resolve questions of speciation and population affinities in the Philippines, Christmas Island, Wallacea and central Melanesia, and to shed light on historic diversification and patterns of gene flow in the complex.

Corrigendum: Mineral supply for sustainable development requires resource governance.

This corrects the article DOI: 10.1038/nature21359.

Settling the name Diomedea exulans Linnaeus, 1758 for the Wandering Albatross by neotypification.

On-going conflict in use of the name Diomedea exulans Linnaeus, 1758 for different taxa of the great albatrosses (Wandering Albatross complex) is resolved by neotypification, fixing the name to the large subantarctic form formerly often known as D. chionoptera Salvin, 1896. Application of all scientific names in the complex is reviewed, an annotated synonymy for the large subantarctic form is provided, available names for smaller, temperate-zone forms are listed, and unavailable and otherwise invalid names referable to the complex are identified. Syntypes of D. chionoptera and D. spadicea J.F. Gmelin, 1789 are lectotypified as well, fixing their names as synonyms of D. exulans to prevent possible disturbance to in-use names for the smaller, temperate-zone forms.

Mineral supply for sustainable development requires resource governance.

Successful delivery of the United Nations sustainable development goals and implementation of the Paris Agreement requires technologies that utilize a wide range of minerals in vast quantities. Metal recycling and technological change will contribute to sustaining supply, but mining must continue and grow for the foreseeable future to ensure that such minerals remain available to industry. New links are needed between existing institutional frameworks to oversee responsible sourcing of minerals, trajectories for mineral exploration, environmental practices, and consumer awareness of the effects of consumption. Here we present, through analysis of a comprehensive set of data and demand forecasts, an interdisciplinary perspective on how best to ensure ecologically viable continuity of global mineral supply over the coming decades.

Correction of Cassicinae Bonaparte, 1853 (Aves, Icteridae) to Cacicinae Bonaparte, 1853.

In our recently published revised classification of the Icteridae (Remsen et al. 2016), we used the family group name Cassicinae Bonaparte, 1853 on the assumption that its type genus was Cassicus Illiger, 1811. We have since confirmed, after kind advice from Thomas Donegan (pers. comm. 2016), that Cassicus Illiger (1811: 214) is simply an unjustified emendation of Cacicus Lacépède, 1799, made clear by Illiger (l.c.) in a footnote to his description of Cassicus. Under Articles 32.5.3.2 and 35.4.2 of the International Code of Zoological Nomenclature (ICZN 1999), a family-group name formed from an unjustified emendation of the name of its type genus is to be corrected, unless the emendation has come into use as a substitute name or through prevailing use. This is not the case here, and accordingly we correct the spelling of Cassicinae to Cacicinae. Bonaparte (1853) retains authorship; and, although not expressly mentioned before, his originally ligatured suffix -eoe for the name was automatically corrected by us (Remsen et al. l.c.) under Articles 11.7.1.3 and 32.5.3 of the Code (ICZN l.c.).

A revised classification of the Icteridae (Aves) based on DNA sequence data.

The higher-level classification of the New World blackbirds (Icteridae; Aves) has remained relatively stable for nearly a half-century, with most currently used classifications (e.g. Sibley & Monroe 1990; Jaramillo & Burke 1999; Fraga 2011; Remsen et al. 2015) following Blake's (1968) delimitation and sequence of genera in the Peters Check-list of Birds of the World series. Early molecular studies (e.g., Lanyon 1992, 1994; Johnson & Lanyon 1999; Price & Lanyon 2002; Cadena et al. 2004) produced only minor modifications.

East or west: to which subspecies does the type specimen of the Galah, Eolophus roseicapilla (Vieillot, 1817) (Aves: Cacatuidae), belong?

The Galah (Eolophus roseicapilla) is a pink-and-grey cockatoo, widespread in and endemic to Australia, and now familiar as a cage bird world-wide. It has three currently recognised subspecies: roseicapilla Vieillot, 1817 in the Australian west, kuhli Mathews, 1912 in the far north, and albiceps Schodde, 1989 in the east (Schodde 1997; Higgins 1999; Dickinson & Remsen 2013; del Hoyo & Collar 2014; Engelhard et al. 2015). The northern subspecies, kuhli, is not involved in the issue of type identity of roseicapilla, and so is not considered further here. First to distinguish east and west subspecies was G.M. Mathews (1912). Without explanation then or later, Mathews arbitrarily applied the senior specific name, Cacatua roseicapilla Vieillot, 1817 and its two objective synonyms based on the same type-eos Kuhl, 1820 and rosea Vieillot, 1822-to the eastern subspecies, and introduced the new name assimilis for the then supposedly undescribed western form. Mathews' lead was followed unquestioningly until the late 1980s when Schodde (1989) and Rowley (1990: 3) concluded that the type of Vieillot's roseicapilla was of the western subspecies, collected by the Baudin expedition in the region of Shark Bay on the mid-western Australian coast. Rowley (l.c.), but not Schodde (l.c.) contrary to Rowley's reference, went further to claim that it had been taken by François Péron in 1803, presumably on the brief return visit of Baudin in Le Géographe to Shark Bay en route to France. This left the eastern subspecies un-named, which Schodde (l.c.) accordingly described as albiceps.

Conflict resolution of grammar and gender for avian species-group names under Article 31.2.2 of the ICZN Code: is gender agreement worth it?

We analyze recent nomenclatural treatment of selected avian species-group names that may be either adjective and variable or noun and invariable. In 27 such names, we found that 14 previously identified as adjectives are nouns under Article 31.2.2 of the International Code of Zoological Nomenclature. Five of them may require correction in current checklists; they are bresilius in Ramphocelus bresilius (Linnaeus, 1766) to bresilia, germana in Amblyornis macgregoriae germana Rothschild, 1910 to germanus, argentinus in Muscisaxicola cinereus argentinus Hellmayr, 1932 to argentina, martinicus in Porphyrio martinicus (Linnaeus, 1766) to martinica, and moluccus in Threskiornis moluccus (Cuvier, 1829) to molucca. Mindful of the compounding effect of species-genus recombination from taxonomic revision, we reach the conclusion, not new, that the requirement for gender agreement in species-group names is the single biggest cause of nomenclatural instability in zoology. To resolve it, we support replacing gender agreement by original spellings for species-group names.

The identity of Accipiter cirrocephalus rosselianus Mayr, 1940.

Mayr (1940) described the subspecies Accipiter cirrocephalus rosselianus of the Collared Sparrowhawk from two specimens in juvenile (first-year) plumage collected on Rossel (Yela) Island, in the Louisiade Archipelago off southeast New Guinea. They are still the only specimens of this form known from the Louisiade Archipelago, and were taken in March 1898 and December 1915 by the renowned Rothschild collector Albert S. Meek, who sexed them as males. Mayr (l.c.) presumed their specific identity and stated that rosselianus differed from juveniles of its sister subspecies, A. c. papuanus Rothschild & Hartert, 1913 of mainland New Guinea, in the bolder, browner chevroning of the ventrum, darker dorsal plumage with broad rufous feather edging, and distinctively large size. The large size of the specimens, in fact, raises the question of missexing, because they approach female papuanus in wing (Mayr l.c.). Nevertheless, the collector Meek was careful and experienced in sexing birds (Mayr l.c.) and had recorded both specimens as males on separate occasions. In accord with data presented below, it is evident that the specimens were correctly sexed as males.

Relicts from Tertiary Australasia: undescribed families and subfamilies of songbirds (Passeriformes) and their zoogeographic signal.

A number of hitherto unrecognized, deeply divergent taxa of Australasian songbirds have been revealed by DNA sequence studies in the last decade. Differentiation among them is at levels equivalent to family and subfamily rank among songbirds generally. Accordingly, the purpose of this paper is to name and describe eleven of them formally under Articles 13.1, 13.2, 16.1 and 16.2 of the International Code of Zoological Nomenclature so that they are made available for use in zoology. The taxa are: families Oreoicidae, Eulacestomatidae, Rhagologidae, Ifritidae and Melampittidae, and subfamilies Pachycareinae, Oreoscopinae, Toxorhamphinae, Oedistomatinae, Peltopsinae and Lamproliinae. The families to which the subfamilies belong are documented. Morphological and behavioural traits of the new family-group taxa are discussed; reasons for taxonomic rankings are summarized; and grounds for the geographic origin of corvoid songbirds, to which all the new families belong, are briefly addressed. One new genus,Megalampitta in Melampittidae, is also described.