Exploring the phylogeny of the marattialean ferns.

Samuli Lehtonen,Jaakko Hyvönen,Jorge Flores,Gaurav Sablok,Dirk N Karger,Péter Poczai

doi:10.1111/cla.12419

Abstract

The eusporangiate marattialean ferns represent an ancient radiation with a rich fossil record but limited modern diversity in the tropics. The long evolutionary history without close extant relatives has confounded studies of the phylogenetic origin, rooting and timing of marattialean ferns. Here we present new complete plastid genomes of six marattialean species and compiled a plastid genome dataset representing all of the currently accepted marattialean genera. We further supplemented this dataset by compiling a large dataset of mitochondrial genes and a phenotypic data matrix covering both extant and extinct representatives of the lineage. Our phylogenomic and total-evidence analyses corroborated the postulated position of marattialean ferns as the sister to leptosporangiate ferns, and the position of Danaea as the sister to the remaining extant marattialean genera. However, our results provide new evidence that Christensenia is sister to Marattia and that M.cicutifolia actually belongs to Eupodium. The apparently highly reduced rate of molecular evolution in marattialean ferns provides a challenge for dating the key phylogenetic events with molecular clock approaches. We instead applied a parsimony-based total-evidence dating approach, which suggested a Triassic age for the extant crown group. The modern distribution can best be explained as mainly resulting from vicariance following the breakup of Pangaea and Gondwana. We resolved the fossil genera Marattiopsis, Danaeopsis and Qasimia as members of the monophyletic family Marattiaceae, and the Carboniferous genera Sydneia and Radstockia as the monophyletic sister of all other marattialean ferns.

Highlights

The eusporangiate fern order Marattiales represents a Palaeozoic radiation, currently comprised of 100 species in six genera (Murdock, 2008a; PPG I, 2016)
Our analysis indicated the absence of Mobile Open Reading Frames in Fern Organelles (MORFFO) elements in Marattiaceae except for the following cases: fractions of MORFFO1 were found between trnT and trnfM in Eupodium cicutifolium and E. kaulfussii, MORFFO2 between trnL and ndhB in Angiopteris evecta, and MORFFO3 element between trnL and ndhB in Christensenia aesculifolia, respectively
The persisting questions include the phylogenetic relationships between the extant genera–– especially their rooting (Murdock, 2008b)––as well as how the extinct Marattiopsis is related to the extant taxa (Escapa et al, 2014; Kvacek, 2014), and how the Palaeozoic forms are related to the morphologically modern forms (Mamay, 1950; Stidd, 1974; Hill et al, 1985)

Summary

Introduction

The eusporangiate fern order Marattiales represents a Palaeozoic radiation, currently comprised of 100 species in six genera (Murdock, 2008a; PPG I, 2016). Based on the fossil record and molecular dating this split had occurred by the early Carboniferous with a rapid diversification until marattialean ferns reached their maximal diversity during the Palaeozoic (DiMichele and Phillips, 2002; Lehtonen et al, 2017). This was followed by extinctions at the Permo-Triassic boundary and the rise of more modern-appearing forms in the Mesozoic (DiMichele and Phillips, 2002; Lehtonen et al, 2017) with apparently continually diminishing ecological importance, as suggested by the almost complete lack of Cenozoic fossils (Collinson, 2001)

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