The genera Chrysilla and Phintelloides revisited with the description of a new species (Araneae, Salticidae) using digital specimen DOIs and nanopublications

Two Southeast Asian spider collections: that of Frances and John Murphy, now in the Manchester University Museum and the Deeleman collection, now at the Naturalis Biodiversity Center in Leiden constituted the basis of this analysis of Chrysilla Thorell, 1887 and related genera. The latter collection also includes many thousands of spiders obtained by canopy fogging for an ecological project in Borneo by A. Floren. Some incongruences within the genera of the tribe Chrysillini are disentangled. The transfer of C. jesudasi Caleb 2) presence of red colour on carapace and abdomen of live males and females, in combination with abundant blue/violet/white iridescent scales such as in Chrysilla and Siler . The red colour usually gets lost in alcohol, hampering species identification of alcohol material. The genera Chrysilla and Phintelloides are redefined. Specimens of the heretofore unknown female of Chrysilla deelemani Prószyński & Deeleman-Reinhold, 2010 are described. The male and female of Chrysilla lauta and male of C. volupe are redescribed. The genus Chrysilla is diagnosed and discriminated from Phintella Bösenberg & Strand, 1906, Siler Simon, 1889 , Phintelloides Kanesharatnam & Benjamin, 2019 and Proszynskia Kanesharatnam & Benjamin, 2019 . The structure of the female genital organ of Phintelloides flavumi Kanesharatnam & Benjamin, 2019 is scrutinized and the generic placement of Phintelloides is discussed. Males and females of one of the most variable species , Phintelloides versicolor (C. L. Koch, 1846) are redescribed. Phintelloides munita (Bösenberg & Strand, 1906) is removed from synonymy with P. versicolor. Phintella leucaspis Simon 1903 (male, Sumatra) is synonymized with P. versicolor . Biodiversity data are increasingly reliant on digital infrastructure. By linking physical specimens to digital representations of their associated data, we can lower barriers to information flow. Here we demonstrate a workflow whereby persistent identifiers (PIDs) in the form of DOIs issued by DataCite are assigned to specimens. Recognized taxa are identified by their catalog of life identifier, or by registration in ZooBank where no catalog of life identifier is available. We demonstrate the use of nanopublications, creating a series of machine readable, scientifically meaningful assertions regarding the provenance and identification of cited specimens. All human agents associated with the specimen data are linked to a persistent identifier issued by either ORCiD or Wikidata.