Jean‐Luc Gattolliat scite author profile

Abstract. This study represents the first formal morphological and combined (morphological and molecular) phylogenetic analyses of the order Ephemeroptera. Taxonomic sampling comprised 112 species in 107 genera, including 42 recognized families (all major lineages of Ephemeroptera). Morphological data consisted of 101 morphological characters. Molecular data were acquired from DNA sequences of the 12S, 16S, 18S, 28S and H3 genes. The Asian genus Siphluriscus (Siphluriscidae) was supported as sister to all other mayflies. The lineages Carapacea, Furcatergalia, Fossoriae, Pannota, Caenoidea and Ephemerelloidea were supported as monophyletic, as were many of the families. However, some recognized families (for example, Ameletopsidae and Coloburiscidae) and major lineages (such as Setisura, Pisciforma and Ephemeroidea among others) were not supported as monophyletic, mainly due to convergences within nymphal characters. Clade robustness was evaluated by multiple methods and approaches.

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Trans-oceanic and endemic origins of the small minnow mayflies (Ephemeroptera, Baetidae) of Madagascar

Monaghan

Gattolliat

Sartori

et al. 2005

Proc. R. Soc. B.

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We investigated the relative importance of dispersal and vicariance in forming the Madagascar insect fauna, sequencing approximately 2300bp from three rRNA gene regions to investigate the phylogeny of Afrotropical small minnow mayflies (Ephemeroptera: Baetidae). Six lineages contained trans-oceanic sister taxa, and variation in genetic divergence between sister taxa revealed relationships that range from very recent dispersal to ancient vicariance. Dispersal was most recent and frequent in species that spend the larval stage in standing water, adding to evidence that these evolutionarily unstable habitats may select for ecological traits that increase dispersal in insects. Ancestral state likelihood analysis suggested at least one Afrotropical lineage had its origin in Madagascar, demonstrating that unidirectional dispersal from a continental source may be too simplistic. We conclude that the Malagasy mayfly fauna should be considered in a biogeographical context that extends beyond Madagascar itself, encompassing trans-oceanic dispersal within multiple lineages.

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Conserving Madagascar's Freshwater Biodiversity

Benstead¹,

Rham²,

Gattolliat³

et al. 2003

BioScience

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Global diversity of mayflies (Ephemeroptera, Insecta) in freshwater

et al. 2007

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The extant global Ephemeroptera fauna is represented by over 3,000 described species in 42 families and more than 400 genera. The highest generic diversity occurs in the Neotropics, with a correspondingly high species diversity, while the Palaearctic has the lowest generic diversity, but a high species diversity. Such distribution patterns may relate to how long evolutionary processes have been carrying on in isolation in a bioregion. Over an extended period, there may be extinction of species, but evolution of more genera. Dramatic extinction events such as the K-T mass extinction have affected current mayfly diversity and distribution. Climatic history plays an important role in the rate of speciation in an area, with regions which have been climatically stable over long periods having fewer species per genus, when compared to regions subjected to climatic stresses, such as glaciation. A total of 13 families are endemic to specific bioregions, with eight among them being monospecific. Most of these have restricted distributions which may be the result of them being the relict of a previously more diverse, but presently almost completely extinct family, or may be the consequence of vicariance events, resulting from evolution due to long-term isolation.

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Evolution and island endemism of morphologically cryptic Baetis and Cloeon species (Ephemeroptera, Baetidae) on the Canary Islands and Madeira

et al. 2014

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Summary The Canary Islands and Madeira are reportedly home to seven recognised species of baetid mayflies (Ephemeroptera, Baetidae), two of which also occur on the European mainland. Their species status remains unsure, and loss of habitat suggests they are of conservation concern. We applied morphological characters and a general mixed Yule‐coalescent (gmyc) model analysis of the cytochrome c oxidase subunit 1 (cox1) gene to delineate putative species within morphologically cryptic species groups Baetis (Rhodobaetis) and Cloeon dipterum s.l. We used a three‐gene mitochondrial data set (1450 base pairs) to infer phylogenetic relationships and a molecular clock calibrated using island geological ages to infer colonisation history. Genetic and morphological evidence indicated the presence of 12 putative species, 11 of which were endemic to the islands. Only Baetis atlanticus, on Madeira, also occurs on the European mainland. Two lineages (B. pseudorhodani s.l. and B. canariensis s.l.) appear to have arisen in the past 15 million years (mya) and diversified in parallel throughout the Canary Islands. Within the canariensis lineage, sister species occur on the island of Gran Canaria and in North Africa. Pronounced island endemism contradicts previous taxonomic work, which reported a depauperate fauna that included several mainland species. Recent diversification among islands and a close link to North Africa suggest a complex evolutionary history. Owing to their small population size and ongoing habitat alteration, several of these island endemics are among the most endangered aquatic insects in Europe.

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