Biotic processes in the Okanagan Highlands floras: Possible evidence of hybridization in plants adapting to a temperate forest

Authors

Melanie L. DeVore, Georgia College & State University
Kathleen B. Pigg, Arizona State University

Document Type

Article

Publication Date

2016

Publication Title

Canadian Journal of Earth Sciences

Abstract

Hybridization is a key mechanism for increased diversification and speciation among modern plants and is especially important in certain families such as Rosaceae and Anacardiaceae. This mechanism is found to occur most commonly in areas of ecological disturbance, distribution, and migration. Resulting hybrid individuals have characteristic intermediate or mosaic patterns that combine those of the two parents in morphologically distinct and identifiable ways. The diverse latest Early Eocene flora of Republic, Washington, USA, is among the most collected of the Okanagan Highlands floras. This fossil flora includes relatives of modern taxa that are known to hybridize and produce characteristic patterns of leaf morphology and venation (Rosaceae; Anacardiaceae). In this study, we document patterns found in representative fossil leaves that are comparable to those indicative of hybridization in the modern relatives. We use the genera Sorbus L. (Rosaceae) and Rhus L. (Anacardiaceae) as models to demonstrate potential hybridization in the latest Early Eocene.

Department

Biological and Environmental Sciences

Volume Number

53

Issue Number

6

First Page

622

Last Page

629

DOI

10.1139/cjes-2015-0190

Recommended Citation

DeVore, M.L., & Pigg, K. (2016). Biotic processes in the Okanagan Highlands floras: Possible evidence of hybridization in plants adapting to a temperate forest. Canadian Journal of Earth Sciences, 53(6), 622-629.