James Bonacum scite author profile

Despite exhaustive investigation of present-day Nautilus, the phylogenetic relationships of the five or six recognized species within this genus remain unclear. Mitochondrial and nuclear DNA sequence data plus a suite of morphological characters are used to investigate phylogenetic relationships. Systematic analysis of the morphological variation fails to characterize described species as independent lineages. However, DNA sequence analysis indicates that there are three geographically distinct clades consisting of western Pacific, eastern Australian/Papua-New Guinean, and western Australian/Indonesian forms. The morphologically and genetically distinct species Nautilus scrobiculatus falls outside the three geographically recognized assemblages. Members of the genus Nautilus also exhibit low levels of sequence divergence. All these data suggest that Nautilus is currently undergoing diversification, which may have begun only several million years ago. These data also suggest that some of the morphological features used to define Nautilus species may simply represent fixed variations in isolated populations within the same species.

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Phylogeny and age of diversification of the planitibia species group of the Hawaiian Drosophila

Bonacum

O’Grady

Kambysellis

et al. 2005

Molecular Phylogenetics and Evolution

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Evolutionary Radiation of Present-DayNautilusandAllonautilus

Bonacum

Landman

Mapes

et al. 2011

American Malacological Bulletin

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Background: Mitochondria contain small genomes that are physically separate from those of nuclei. Their comparison serves as a model system for understanding the processes of genome evolution. Although complete mitochondrial genome sequences have been reported for more than 600 animals, the taxonomic sampling is highly biased toward vertebrates and arthropods, leaving much of the diversity yet uncharacterized.

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THE EVOLUTION AND DEVELOPMENT OF DIPTERAN WING VEINS: A Systematic Approach

Stark

Bonacum

Remsen

et al. 1999

Annu. Rev. Entomol.

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In this review, we use the wing veins of dipteran insects as potential models for understanding the evolution of development. We briefly discuss previous work in this field and examine the genetic complexity of wing formation, discussing the genes involved in wing formation and their roles in Drosophila wing development and vein formation. Furthermore, patterns of wing vein formation, addition, and reduction are discussed as they occur throughout the Diptera. Using the phyletic phenocopy paradigm, we draw attention to many wing vein morphologies that phenocopy various wing mutants in Drosophila melanogaster. The systematic issues of the nature of characters, homology, and the role of modern developmental approaches to evolutionary studies, which has recently become important, can be addressed from the perspective of the wing. We argue that further developmental evolutionary studies, and the interpretation of data therefrom, must be conducted within the context of a well-supported phylogeny of the organisms under study.

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James Bonacum

Phylogenetic and ecological relationships of the Hawaiian Drosophila inferred by mitochondrial DNA analysis

Genetic divergence and geographic diversification in Nautilus

Phylogeny and age of diversification of the planitibia species group of the Hawaiian Drosophila

Evolutionary Radiation of Present-DayNautilusandAllonautilus

THE EVOLUTION AND DEVELOPMENT OF DIPTERAN WING VEINS: A Systematic Approach

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