[Ichthyology • 2025] Allohistium anas • Genomic and Phenotypic Delimitation of Species in a Temperate Aquatic Biodiversity Hotspot

 

Allohistium anas Near & MacGuigan,

in MacGuigan, Taylor, Ghezelayagh, Wood, Simmons, Mollish et Near, 2025. 

Cinder Darter  ||  DOI: doi.org/10.1093/sysbio/syaf083 

Abstract

Biologists have relied on morphological characteristics to identify, define, and formally describe species for the past 250 years. The advent of phylogenetic species concepts and the introduction of molecular data have spawned new species delimitation methods applicable to a wide range of eukaryotic lineages. However, these approaches heavily emphasize genomic data, often overlooking phenotypic traits. We present and implement a species delimitation approach that utilizes genome-wide markers from ddRAD-seq and meristic morphological traits, which have long been used to identify and delineate fish species. Our methodology employs unsupervised machine learning to analyze morphological data without a priori species assignments, allowing phenotypic patterns to emerge independently from genomic-based species delimitation. We apply our combined genomic and phenotypic methodology to the freshwater systems of Southeastern North America, a biodiversity hotspot where conservation efforts are hampered by an incomplete knowledge of species diversity. Our investigation focuses on the darter clade Allohistium, a threatened lineage comprising two described species. Through phylogenomic, population genetic, and phenotypic model comparisons, we provide evidence supporting the delimitation of a third species of Allohistium, which we formally describe. Our approach shows how unsupervised machine learning can reveal cryptic morphological diversity that might otherwise be obscured by taxonomic preconceptions. This study demonstrates that model testing using diverse lines of evidence yields a more comprehensive, data-driven hypothesis of species diversity.

Darters, ddRAD-seq, methodology, North America, phenotype, species delimitation

Live photographs of Allohistium specimens.

Photo credit to Jon M. Mollish. YPM = Yale Peabody Museum, YFTC = Yale Fish Tissue Collection.

Allohistium anas Near and MacGuigan new species

Cinder Darter

Diagnosis. Allohistium anas differs from Allohistium cinereum and Allohistium maydeni by a higher number of lateral line scales (Supplementary Table S4), modally 43 versus 42 vertebrae (Shepard and Burr 1984), a larger proportion of individuals with greater than 80% of the cheek covered with scales, and more than 50% of the individuals with 10–40% of the nape covered with scales. In addition, Allohistium anas is never resolved as the sister lineage of Allohistium cinereum sensu stricto in mtDNA gene trees (Powers et al. 2004, 2012) or phylogenomic analyses of ddRAD-seq loci (see below). Allohistium maydeni differs from Allohistium anas and Allohistium cinereum in having modally 11 versus 12 dorsal fin spines (Supplementary Table S5; Powers et al. 2012), 12 versus 13 dorsal fin rays (Supplementary Table S6; Powers et al. 2012), and the presence of conspicuous red coloration on the skin covering the upper and lower oral jaws (Fig. 2).

Etymology. The species name anas is from the Latin word for duck, in reference to the distribution of the species in the Duck River system. The common name Cinder Darter is in reference to the common name of A. cinerum, the Ashy Darter.

Daniel J MacGuigan , Adam Taylor , Ava Ghezelayagh , Julia E Wood , Jeffrey W Simmons , Jon M Mollish and Thomas J Near. 2025. Genomic and Phenotypic Delimitation of Species in a Temperate Aquatic Biodiversity Hotspot. Systematic Biology. syaf083. DOI: doi.org/10.1093/sysbio/syaf083 [27 November 2025]

[Ichthyology • 2023] Incipient Speciation in Allopatric Etheostoma rupestre (Percidae: Etheostomatinae) Lineages, with the Description of Three New Subspecies

 

Male pigmentation of

A) Etheostoma rupestre rupestre Gilbert & Swain, in Gilbert 1887
B) E. r. piersoni  C) E. r. uphapeense 

Hilburn, Janosik & Johnston 2023 

 DOI: 10.11646/zootaxa.5343.2.3

(Photos by K. Boone & B. Hilburn).

 

Abstract

In recent years, new species descriptions for the North American darters have proliferated. Most species concepts accepted by contemporary ichthyologists require that a valid species be both monophyletic and diagnoseable, yet many lineages exhibit modal or range differences in morphological characteristics without individuals being diagnosable. Such scenarios present difficulties with regards to proper taxonomic recognition of divergent lineages and often prohibit appropriate conservation action. Following the example of recent authors, we provide meristic, geometric morphometric, and pigmentation data to support the recognition of three subspecies of Etheostoma rupestre, a species endemic to the Mobile Basin. These morphological data cohere with previous genetic work for E. rupestre. The nominate subspecies Etheostoma rupetsre rupestre (Tsai’s Rock Darter) is endemic to the Tombigbee River and Black Warrior River watersheds in Alabama and Mississippi and is characterized by having lower numbers of lateral blotches, lower range and mean of lateral line scales, lower modal number of scales above the lateral line, and lower degrees of nape squamation than other subspecies. Etheostoma rupestre piersoni (Shamrock Darter), ssp. nov., is endemic to the Cahaba and Alabama River Watersheds in Alabama and is characterized by intermediate counts of lateral blotches and higher scale counts and nape squamation than E. r. rupestre. Etheostoma rupestre uphapeense (Jade Darter), ssp. nov., is restricted to several small, disjunct populations in the Coosa and Tallapoosa watersheds in Alabama, Georgia, and Tennessee. Etheostoma r. uphapeense is characterized by having a higher mean number of lateral blotches than both other subspecies and higher scale counts than E. r. rupestre. While E. r. rupestre and E. r. piersoni are widespread and abundant within their respective ranges, E. r. uphapeense has a disjunct range and is often uncommon where it occurs. Etheostoma r. uphapeense should be monitored where it occurs to discern population trends.

Key words: species concepts, Mobile Basin, endemism, Rock Darter, intraspecific diversity

Male pigmentation of A) Etheostoma rupestre rupestre—47 mm SL, Cottondale Creek, County Road 32, Tuscaloosa, Alabama (photo by K. Boone),
B) E. r. piersoni—61 mm SL, Chilatchee Creek, Highway 5, 1 mile north of Alberta, Alabama (photo by K. Boone),
and C) E. r. uphapeense—45 mm SL, Opintlocco Creek, County Highway 20, ~3 miles East of Tuskegee, Alabama (Photo by B. Hilburn).

Bryson G. Hilburn, Alexis M. Janosik and Carol E. Johnston. 2023. Incipient Speciation in Allopatric Etheostoma rupestre (Percidae: Etheostomatinae) Lineages, with the Description of Three New Subspecies.  Zootaxa. 5343(2); 151-172. DOI: 10.11646/zootaxa.5343.2.3

 

[Ichthyology • 2023] Species-Level Recognition and Redescription of the Kentucky Arrow Darter, Etheostoma spilotum Gilbert (Percidae: Litocara)

 

in Thomas, Blanton, Ghezelayagh & Near, 2023 

DOI: 10.3374/014.064.0103

  twitter.com/TJNear

 Abstract  

The Kentucky Arrow Darter, Etheostoma spilotum, endemic to the upper Kentucky River basin of eastern Kentucky, is redescribed and recognized as a distinct species closely related to E. sagitta in the upper Cumberland River basin and E. nianguae in the Osage River drainage (Missouri River basin). Originally described as a subspecies of E. nianguae, it was later considered a full species and then a subspecies of E. sagitta, based on close geographic proximity to Cumberland basin populations and overlapping meristic variation interpreted as character intergradation. We present meristic, morphometric, and genetic data that support species-level recognition of E. spilotum. It differs from E. sagitta by lower counts of total and pored lateral scales, lower counts of caudal peduncle scales, fewer second dorsal-fin rays, and fewer pectoral-fin rays. Interspecific divergence of E. spilotum and E. sagitta is further demonstrated through analyses of variation in the mitochondrial nd2 gene and species delimitation using genome-wide double digest restriction-site associated DNA sequencing. Although allopatrically distributed, both species inhabit upland headwater streams on the Cumberland Plateau and have similar life history characteristics. Endemism, fragmented distributions, and low densities and genetic diversity within populations make these species extremely vulnerable to anthropogenic activities. Etheostoma spilotum was federally listed as threatened in 2016 due to degradation of stream habitat and water quality in the upper Kentucky basin that has eliminated the species from a significant portion of its range.

 

KEYWORDS: Arrow Darter, Cumberland Plateau, taxonomy, species delimitation, subspecies

Etheostoma sagitta and E. spilotum

Matthew R. Thomas, Rebecca E. Blanton, Ava Ghezelayagh and Thomas J. Near. 2023. Species-Level Recognition and Redescription of the Kentucky Arrow Darter, Etheostoma spilotum Gilbert (Percidae: Litocara). Bulletin of the Peabody Museum of Natural History. 64(1); 39-80. DOI: 10.3374/014.064.0103

  twitter.com/TJNear/status/1643216820495630336

[Ichthyology • 2023] Etheostoma xanthovum • A New Species of Spottail Darter (Percidae: Etheostomatinae: Etheostoma) Endemic to the Clarks River in Kentucky and Tennessee

[A] Etheostoma xanthovum

Wood, Harrington, Alley, Thomas, Simmons & Near, 2023

[C] E. oophylax, 

[D] E. chienense 

DOI: 10.3374/014.064.0102 

twitter.com/TJNear

 Abstract  

Etheostoma xanthovum, the Clarks Darter, is described as a new species endemic to the Clarks River drainage in Kentucky and Tennessee, USA. Etheostoma xanthovum was previously recognized as Etheostoma oophylax based on morphological characters. Subsequent to the description of E. oophylax, molecular phylogenetic analyses consistently resolved specimens from the Clarks River drainage and E. chienense as sister species, which together formed a sister clade to all other sampled populations of E. oophylax. Our analyses of morphological trait data, mitochondrial DNA, and genomic sampling using double digest restriction-site associated DNA sequencing support the distinctiveness of E. xanthovum. Morphologically, E. xanthovum differs slightly from E. oophylax in the modal number of dorsal fin rays (12 versus 11) and in the average number of scale rows around the caudal peduncle (21.8 versus 20.4). Etheostoma xanthovum does not share mitochondrial DNA haplotypes with E. oophylax or E. chienense. Phylogenomic analysis of an average of 28,448 double digest restriction-site associated DNA loci per sampled specimen resolves E. xanthovum and E. chienense as sister species, and assessment of genomic divergence supports the hypothesis that each of these two species represents a distinct and independently evolving lineage. In addition, we report a range extension of E. oophylax in the Obion River drainage, a direct tributary of the Mississippi River.

KEYWORDS: species delimitation, phylogeny, Teleostei

This new species was thought to be a population of the Guardian Darter, E. oophylax (C) but is the sister lineage of the endangered Relict Darter, E. chienense (D)

 

Julia E. Wood, Richard C. Harrington, Zachariah D. Alley, Matthew R. Thomas, Jeffrey W. Simmons and Thomas J. Near. 2023. A New Species of Spottail Darter Endemic to the Clarks River in Kentucky and Tennessee (Percidae: Etheostomatinae: Etheostoma). Bulletin of the Peabody Museum of Natural History. 64(1); 11-37. DOI: 10.3374/014.064.0102

 twitter.com/TJNear/status/1643209745224925185

 

[Ichthyology • 2021] Percina freemanorum • A New Species of Bridled Darter (Percidae: Etheostomatinae: Percina) Endemic to the Etowah River System in Georgia

 Percina freemanorum Near & Dinkins,  

in Near, MacGuigan, Boring, Simmons, ... et Dinkins, 2021

Etowah Bridled Darter || DOI: 10.3374/014.062.0102

 

Abstract

Percina freemanorum, the Etowah Bridled Darter, is described as a new species endemic to the Etowah River system in Georgia, specifically in Long Swamp Creek, Amicalola Creek, and the upper portion of the Etowah River. The earliest collection records for Percina freemanorum date to 1948 and in 2007 the species was delimited as populations of Percina kusha. Our investigation into the systematics of Percina kusha is motivated by the uncertain status of populations in the Coosawattee River system and observed morphological disparity in several meristic traits between populations in the Conasauga and Etowah River systems. Our analyses of morphological divergence, nuclear genotypes, and mitochondrial DNA (mtDNA) haplotype networks confirm the distinctiveness of Percina freemanorum. Morphologically, Percina freemanorum is distinguished from Percina kusha through lower average numbers of lateral line scales (65.4 vs. 72.3); rows of transverse scales (18.0 vs. 21.4); scales around the caudal peduncle (22.1 vs. 24.9); and modally more pectoral fin rays (14 vs. 13). The two species are not reciprocally monophyletic in phylogenetic analysis of mtDNA sequences, but the two species do not share mtDNA haplotypes. Analysis of up to 158,000 double digest restriction-site associated DNA (ddRAD) sequencing loci resolve each of the two species as reciprocally monophyletic and genomic clustering analysis of single nucleotide polymorphisms identifies two genetic clusters that correspond to the morphologically delimited Percina freemanorum and Percina kusha.

KEYWORDS: Teleostei, species delimitation, ddRAD, phylogeography

Live holotype and allotype specimens of Percina freemanorum. Both specimens collected from Amicalola Creek, Dawson County, Georgia, USA, April 2020.
A. holotype, YPM ICH 034382, 68.0 mm standard length (SL) male.
B. allotype, YPM ICH 034383, 65.5 mm SL female.

Photographs by Georgia Department of Natural Resources.

Percina freemanorum Near & Dinkins 

Etowah Bridled Darter

 Percina freemanorum type locality: Dawson County, Georgia, USA.
 A. Amicalola Creek; B. Underwater, Amicalola Creek.

Photographs by Georgia Department of Natural Resources.

Etymology. Percina freemanorum is named in honor of Mary C. Freeman and Byron (Bud) J. Freeman, who have made substantial contributions to the study of freshwater fishes in the southeastern United States. In particular, their work has shed light on and significantly aided in the conservation ofthe biodiverse rich Etowah Riversystem.

 

  

Thomas J. Near, Daniel J. MacGuigan, Emily L. Boring, Jeffrey W. Simmons, Brett Albanese, Benjamin P. Keck, Richard C. Harrington and Gerald R. Dinkins. 2021. A New Species of Bridled Darter Endemic to the Etowah River System in Georgia (Percidae: Etheostomatinae: Percina). Bulletin of the Peabody Museum of Natural History. 62(1); 15-42. DOI: 10.3374/014.062.0102

https://news.uga.edu/new-fish-species-named-for-uga-ecologists/

https://mcclungmuseum.utk.edu/wp-content/uploads/sites/78/2021/04/Near_et_al2021.pdf

Researchgate.net/publication/350558911_A_New_Species_of_Percina_Endemic_to_the_Etowah_River_System_in_Georgia