Nested singletons in molecular trees: Utility of adding morphological and geographical data from digitized herbarium specimens to test taxon concepts at species level in the case of Casearia (Salicaceae)

Astrid de Mestier; Robert Lücking; Jorge Gutierrez; Grischa Brokamp; Marcela Celis; Thomas Borsch

doi:10.1002/ece3.9736

Nested singletons in molecular trees: Utility of adding morphological and geographical data from digitized herbarium specimens to test taxon concepts at species level in the case of Casearia (Salicaceae)

Ecol Evol. 2023 Jan 17;13(1):e9736. doi: 10.1002/ece3.9736. eCollection 2023 Jan.

Authors

Astrid de Mestier^{1

2}, Robert Lücking¹, Jorge Gutierrez³, Grischa Brokamp^{1

4}, Marcela Celis⁵, Thomas Borsch^{1

2}

Affiliations

¹ Botanischer Garten Freie Universität Berlin Berlin Germany.
² Institut für Biologie - Systematische Botanik und Pflanzengeographie Freie Universität Berlin Berlin Germany.
³ Jardín Botánico Nacional Calabazar Universidad de La Habana Boyeros Cuba.
⁴ Fachbereich Wald und Umwelt Hochschule für Nachhaltige Entwicklung Eberswalde Eberswalde Germany.
⁵ Departamento de Química y Biología Universidad del Norte Barranquilla Colombia.

Abstract

Using the genus Casearia, we assessed the status of nested singletons: individual specimens corresponding to accepted species but in molecular trees appearing nested within clades of closely related species. Normally, such cases would be left undecided, while on the other hand, timely taxonomic decisions are required. We argue that morphological, chorological, and ecological data can be informative to illuminate patterns of speciation. Their use can provide a first step in testing taxon concepts at species level. We focused on five cases of nested singletons in trees of the genus Casearia. We employed PCA and cluster analysis to assess phenotypic differentiation. Using geocoordinates, we calculated niche space differentiation based on 19 bioclim variables, by means of PCA and niche equivalency and similarity tests and generated dot maps. We found that the singletons were morphologically distinctive in two of the five cases (Casearia selloana and C. manausensis), relatively distinctive in two other cases (C. zizyphoides and C. mariquitensis), and partially overlapping in the last case (C. grandiflora). For two cases (C. mariquitensis and C. selloana), ecological niche space was broadly overlapping, in two cases it was found broadly nested (C. grandiflora and C. zizyphoides), and in one case narrowly nested (C. manausensis), but in no case niche differentiation was observed. Niche overlap, similarity and equivalency showed corresponding patterns. Given these data, one would interpret C. selloana and C. manausensis as presumably well-distinguished taxa, their narrow distribution ranges suggesting recently emerging lineages. The other three cases are not clearcut. Morphological data would suggest particularly C. grandiflora conspecific with C. arborea, but differences in the distribution are intriguing. Our approach would reject the notion of potential synonymy based on nested phylogenetic placement for at least two of the five cases. The other case also shows no complete lack of differentiation which would support synonymy.

Keywords: Ecological niche equivalency test; PCA; integrative taxonomy; molecular phylogeny; morphometry; species delimitation.