The influence of sea currents, past disruption of gene flow and species biology on the phylogeographical structure of coastal flowering plants

• Published in: Journal of biogeography Vol. 36; no. 7; pp. 1398 - 1410
• Main Authors: Westberg, Erik, Kadereit, Joachim W.
• Format: Journal Article Conference Proceeding
• Language: English
• Published: Oxford, UK Blackwell Publishing Ltd 01.07.2009; Blackwell Publishing; Blackwell
• Subjects: AFLP; Animal and plant ecology; Animal, plant and microbial ecology; Apiaceae; Atlantic; Biological and medical sciences; Brassicaceae; Cakile maritima; coastal plant species; Coasts; Ecological genetics; Eryngium maritimum; Fundamental and applied biological sciences. Psychology; Gene flow; General aspects; Genetic diversity; genetic structure; Genetic variation; Genetics of eukaryotes. Biological and molecular evolution; Mediterranean; Ocean currents; Plants; Population genetics; Population genetics, reproduction patterns; sea currents; Seas; Species; Synecology; ANE, France; MED, Turkey, Dardanelles; MED, Turkey, Istanbul, Bosporus; MED, Gibraltar Strait; Cakile maritima; Eryngium maritimum; Phylogeography; Biogeography; genetic structure; Biology; Population genetics; Mediterranean; Gene flow; Cruciferae; Dicotyledones; Sea current; coastal plant species; Angiospermae; AFLP; Spermatophyta; Amplified fragment length polymorphism marker; Atlantic; sea currents
• ISSN: 0305-0270; 1365-2699
• DOI: 10.1111/j.1365-2699.2008.01973.x

Aim We investigate the geographical genetic structure of two coastal plant species, Cakile maritima Scop. (Brassicaceae) and Eryngium maritimum L. (Apiaceae), through three sea straits and along one continuous stretch of coast using amplified fragment length polymorphisms (AFLPs). The two species have a similar ecology in that they grow in sandy habitats, but differ in life-form (annual vs. perennial) and dispersability of seeds by sea water as inferred from floating experiments. The sea straits differ in their geological history and their modern current systems. The primary goal of our study was to test the hypothesis that sea straits have an influence on the geographical patterns of genetic variation at the population level. Location The areas around the Strait of Gibraltar, the Dardanelles, the Bosporus and the Atlantic coast of western France. Methods For both species we investigated AFLP variation in several populations from each area. Bayesian clustering and diversity and differentiation measures were used to analyse the genetic data. Results In most areas the spatial genetic structure was similar between the two species. They share the presence of distinct genetic gaps along the coast through the Strait of Gibraltar and the Bosporus, and these genetic gaps coincide with the straits. Both species show genetic continuity along the coast of western France. A distinct genetic gap was found through the Dardanelles for C. maritima but not for E. maritimum. Main conclusions The study shows that sea straits have an influence on the geographical patterns of genetic variation. Sea currents are inferred to cause the genetic gap through the Strait of Gibraltar. In the Bosporus and, for C. maritima, through the Dardanelles, the genetic gaps found are explained by the past closure of these two straits as well as by present-day factors. Simulations indicate that the lower differentiation of C. maritima through the Dardanelles than through the Bosporus cannot be explained by the difference in geological history of these two straits. The difference in seed dispersability between the two species is argued to be responsible for the observation that differentiation among genetic clusters is higher in E. maritimum than in C. maritima where a direct comparison is possible.