Striking genetic homogeneity in the widespread South American bracken-Reference-Cited by-同舟云学术

Striking genetic homogeneity in the widespread South American bracken

Published:2024-07 Issue:7 Volume:111 Page:
ISSN:0002-9122
Container-title:American Journal of Botany
language:en
Short-container-title:American J of Botany

Author:

Yañez Agustina¹,Kinosian Sylvia P.²^ORCID,Ponce M. Mónica³,Gutierrez Diego G.¹,Schwartsburd Pedro B.⁴,Sundue Michael⁵⁶⁷,Wolf Paul G.⁸

Affiliation:

1. División Plantas Vasculares, Museo Argentino de Ciencias Naturales (MACN‐CONICET) Av. Ángel Gallardo 740 Ciudad de Buenos Aires C1405DJR Argentina

2. Department of Ecology and Evolutionary Biology University of Arizona Tucson 85721 Arizona USA

3. Instituto de Botánica Darwinion (IBODA‐CONICET) Labardén 200, Casilla de Correo 22 San Isidro B1642HYD Buenos Aires Argentina

4. Laboratory of Systematics and Evolution of Plants, Department of Plant Biology Federal University of Viçosa Av. Peter Henry Rolfs s.n. Viçosa 36570‐900 MG Brazil

5. Royal Botanic Garden Edinburgh 20a Inverleith Row Edinburgh EH3 5LR Scotland UK

6. The Pringle Herbarium, Department of Plant Biology University of Vermont, Burlington 111 Jeffords Hall, 63 Carrigan Drive Vermont 05405 USA

7. Botanical Research Institute of Texas 1700 University Drive Fort Worth 76102 TX USA

8. Department of Biological Sciences University of Alabama in Huntsville Huntsville 35899 Alabama USA

Abstract

AbstractPremiseBracken (Pteridium, Dennstaedtiaceae) is a cosmopolitan genus of aggressive disturbance colonizers that are toxic to agricultural livestock. The taxonomy of Pteridium has been treated in multiple schemes, ranging from one to six species worldwide, with numerous subspecies and varieties. Recent work has focused on the worldwide distribution and systematics of the bracken fern, but South America has been poorly represented. We present the first continent‐wide sampling and analysis of Pteridium esculentum, a Southern Hemisphere diploid species.MethodsWithin South America, P. esculentum has several morphotypes, distinguished into subspecies by variation in indument and lamina architecture. We used double digest restriction site‐associated DNA sequencing (ddRADSeq) to assess the phylogenetic relationships of P. esculentum subspecies.ResultsWe found a striking genetic homogeneity in the species, being able to support only two morphotypes from molecular data: P. e. arachnoideum and P. e. campestre. We had high confidence for shallow and deep phylogenetic relationships, but less support for relationships among crown groups.ConclusionsWe describe an east‐west geographic pattern that would explain the relationships between populations; and, in contrast to previous studies, we detected differences with P. esculentum from Australia. These results will lay the foundations for studying variations in this species' behavior as a weed, as well as its impact on the production of agricultural livestock in South America.

Publisher

Wiley

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