Brendan B Larsen’s scientific contributions

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Publications (1)


Figure 1. Traditional and New Estimates of the Pie of Life The pie on the left shows a traditional estimate of the relative richness of different groups of organisms based on numbers of described species (Wilson 1992), the middle shows an estimate based on projected richness of different groups (Mora et al. 2011), and the pie on the right shows estimates based on the projected richness of different groups in the present study. The pie on the right is estimated based on Scenario 1 (Table 1), but other scenarios and assumptions give very similar estimates of the relative richness of different groups (Tables 1-4), even as total species richness changes. See the online edition for a color version of this figure. 
TABLE 1 Projected species number of major taxonomic groups, assuming six cryptic arthropod species per morphology-based species 
TABLE 2 Projected species numbers of major taxonomic groups, assuming two cryptic arthropod species per morphology-based species 
TABLE 4 Projected species numbers of major taxonomic groups, assuming mites host limited nematode richness, and six cryptic arthropod species per morphology-based species 
Projected species numbers of major taxonomic groups, assuming no cryptic arthropod species
Inordinate Fondness Multiplied and Redistributed: the Number of Species on Earth and the New Pie of Life
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September 2017

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6,204 Reads

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320 Citations

The Quarterly Review of Biology

Brendan B Larsen

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Elizabeth C Miller

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Matthew K Rhodes

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The number of species on Earth is one of the most fundamental numbers in science, but one that remains highly uncertain. Clearly, more species exist than the present number of formally described species (approximately 1.5 million), but projected species numbers differ dramatically among studies. Recent estimates range from about 2 million species to approximately 1 trillion, but most project around 11 million species or fewer. Numerous studies have focused on insects as a major component of overall richness, and many have excluded other groups, especially non-eukaryotes. Here, we re-estimate global biodiversity. We also estimate the relative richness of the major clades of living organisms, summarized as a " Pie of Life. " Unlike many previous estimates, we incorporate morphologically cryptic arthropod species from molecular-based species delimitation. We also include numerous groups of organisms that have not been simultaneously included in previous estimates, especially those often associated with particular insect host species (including mites, nematodes, apicomplexan protists, microsporidian fungi, and bacteria). Our estimates suggest that there are likely to be at least 1 to 6 billion species on Earth. Furthermore, in contrast to previous estimates, the new Pie of Life is dominated by bacteria (approxi-mately 70–90% of species) and insects are only one of many hyperdiverse groups.

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Citations (1)


... Nematodes are best known for including the model organism Caenorhabditis elegans (Corsi et al. 2015), but C. elegans is merely one out of roughly 80 million nematode species with greatly diverse morphologies, life cycles, and ecological niches (De Ley 2006;Larsen et al. 2017). Some nematodes have evolved to infect, kill, and feed on insects, with help from symbiotic bacteria (Dillman and Sternberg 2012). ...

Reference:

Genomes of the entomopathogenic nematode Steinernema hermaphroditum and its associated bacteria
Inordinate Fondness Multiplied and Redistributed: the Number of Species on Earth and the New Pie of Life

The Quarterly Review of Biology