Mark L. Wheelis scite author profile

Molecular structures and sequences are generally more revealing of evolutionary relationships than are classical phenotypes (particularly so among microorganisms). Consequently, the basis for the definition of taxa has progressively shifted from the organismal to the cellular to the molecular level. Molecular comparisons show that life on this planet divides into three primary groupings, commonly known as the eubacteria, the archaebacteria, and the eukaryotes. The three are very dissimilar, the differences that separate them being of a more profound nature than the differences that separate typical kingdoms, such as animals and plants. Unfortunately, neither of the conventionally accepted views of the natural relationships among living systems-i.e., the five-kingdom taxonomy or the eukaryote-prokaryote dichotomy-reflects this primary tripartite division of the living world. To remedy this situation we propose that a formal system of organisms be established in which above the level of kingdom there exists a new taxon called a "domain." Life on this planet would then be seen as comprising three domains, the Bacteria, the Archaea, and the Eucarya, each containing two or more kingdoms. (The Eucarya, for example, contain Animalia, Plantae, Fungi, and a number of others yet to be defined.) Although taxonomic structure within the Bacteria and Eucarya is not treated herein, Archaea is formally subdivided into the two kingdoms Euryarchaeota (encompassing the methanogens and their phenotypically diverse relatives) and Crenarchaeota (comprising the relatively tight clustering of extremely thermophilic archaebacteria, whose general phenotype appears to resemble most the ancestral phenotype of the Archaea). Need for Restructuring Systematics

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Biological Warfare at the 1346 Siege of Caffa

Wheelis

2002

Emerg. Infect. Dis.

193

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On the basis of a 14th-century account by the Genoese Gabriele de’ Mussi, the Black Death is widely believed to have reached Europe from the Crimea as the result of a biological warfare attack. This is not only of great historical interest but also relevant to current efforts to evaluate the threat of military or terrorist use of biological weapons. Based on published translations of the de’ Mussi manuscript, other 14th-century accounts of the Black Death, and secondary scholarly literature, I conclude that the claim that biological warfare was used at Caffa is plausible and provides the best explanation of the entry of plague into the city. This theory is consistent with the technology of the times and with contemporary notions of disease causation; however, the entry of plague into Europe from the Crimea likely occurred independent of this event.

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The metabolism of aromatic acids by Pseudomonas testosteroni and P. acidovorans

1967

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Biological Attack on Agriculture: Low-Tech, High-Impact Bioterrorism

Wheelis¹,

Casagrande²,

Madden³

2002

BioScience

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First shots fired in biological warfare

Wheelis

1998

Nature

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Mark L. Wheelis

Towards a natural system of organisms: proposal for the domains Archaea, Bacteria, and Eucarya.

Biological Warfare at the 1346 Siege of Caffa

The metabolism of aromatic acids by Pseudomonas testosteroni and P. acidovorans

Biological Attack on Agriculture: Low-Tech, High-Impact Bioterrorism

First shots fired in biological warfare

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