Integrative taxonomy supports DNA barcoding in revealing an abundant cryptic species in the United States Coastal Plain

• Research Article •

Integrative taxonomy supports DNA barcoding in revealing an abundant cryptic species in the United States Coastal Plain

LACROIX-CARIGNAN, ÉTIENNE^*,1; STARR, JULIAN R.²; NACZI, ROBERT F. C.³; KILPATRICK, ERAN S.⁴; LÉVEILLÉ-BOURRET, ÉTIENNE¹

1. Institut de Recherche en Biologie Végétale and Département de Sciences Biologiques, Université de Montréal, 4101 R. Sherbrooke E, Montréal, QC H1T 4B5, Canada.

2. Department of Biology, University of Ottawa, Marie-Curie Private, Ottawa, ON K1N 9A4, Canada

3. New York Botanical Garden, 2900 Southern Blvd, Bronx, NY 10458, USA

4. Division of Math, Sciences, and Professional Studies, University of South Carolina Salkehatchie, 807 Hampton St, Walterboro, SC 29488, USA

*Corresponding author: etienne.lacroix-carignan@hotmail.com

Received:2025-07-05 Accepted:2025-10-30
Supported by:
éLC was supported by Fonds de recherche du Quebec Nature et technologies (FRQNT) B1X (No. 302269) and B2X (No. 333180) scholarships, and a Mini-Arts Award granted by the Society of Systematic Biologists. éLB and JS were supported by a Discovery Grant from the Natural Sciences and Engineering Research Council of Canada (NSERC) Discovery Grant (DGECR-2021-00321, RGPIN 2018‐04115). éLB was also supported by a Canadian Foundation for Innovation (CFI) John-R.-Evans Leaders Fund (42128).

Abstract

Abstract: A major obstacle to biodiversity conservation is that thousands, if not millions, of plant and animal species have yet to be discovered and described, even in historically well-explored regions. Carex sect. Lupulinae (Cyperaceae; “sedges”) is a small group of six showy Eastern North American species that until recently was thought to be well understood. However, a DNA barcoding study of North American Carex undertaken over a decade ago serendipitously revealed unsuspected molecular diversity, including one potentially undescribed cryptic species. Here, we test the hypothesis that this entity is a species on a separate evolutionary trajectory by expanding barcoding results with an integrative approach that combines a densely-sampled molecular phylogeny (five plastid and two nuclear markers, 112 sequenced specimens), morphometric analyses (93 characters, >300 measured specimens), ecological field surveys, and common greenhouse observations. Results all support the recognition of a new, abundant species common in the southeastern United States’ Coastal Plain that we name Carex gator. This study highlights how integrative taxonomy can help to describe cryptic plant species revealed by DNA barcoding. We provide illustrations, a distribution map and an identification key, and discuss how C. gator may be one rare example of homoploid sympatric speciation in plants.

Key words: Carex gator sp. nov., Cyperaceae, multilocus molecular phylogenetics, new species, morphometrics, sedges

LACROIX-CARIGNAN, ÉTIENNE, STARR, JULIAN R., NACZI, ROBERT F. C., KILPATRICK, ERAN S., LÉVEILLÉ-BOURRET, ÉTIENNE. Integrative taxonomy supports DNA barcoding in revealing an abundant cryptic species in the United States Coastal Plain[J]. J Syst Evol.

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URL: https://www.jse.ac.cn/EN/

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Integrative taxonomy supports DNA barcoding in revealing an abundant cryptic species in the United States Coastal Plain

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