Homage to Linnaeus: How many parasites? How many hosts?

• Published in: Proceedings of the National Academy of Sciences - PNAS Vol. 105; no. Supplement 1; pp. 11482 - 11489
• Main Authors: Dobson, Andy, Lafferty, Kevin D, Kuris, Armand M, Hechinger, Ryan F, Jetz, Walter
• Format: Journal Article
• Language: English
• Published: Washington National Academy of Sciences 12.08.2008; National Acad Sciences
• Series: Colloquium Paper
• Subjects: Biodiversity; Biogeography; Biological taxonomies; Colloquium Papers; Extinct species; Food webs; Organisms; Parasite hosts; Parasites; Parasitism; Pathogens; Species; Species diversity; Species extinction; Taxonomy
• ISSN: 0027-8424; 1091-6490
• DOI: 10.1073/pnas.0803232105

Estimates of the total number of species that inhabit the Earth have increased significantly since Linnaeus's initial catalog of 20,000 species. The best recent estimates suggest that there are [almost equal to]6 million species. More emphasis has been placed on counts of free-living species than on parasitic species. We rectify this by quantifying the numbers and proportion of parasitic species. We estimate that there are between 75,000 and 300,000 helminth species parasitizing the vertebrates. We have no credible way of estimating how many parasitic protozoa, fungi, bacteria, and viruses exist. We estimate that between 3% and 5% of parasitic helminths are threatened with extinction in the next 50 to 100 years. Because patterns of parasite diversity do not clearly map onto patterns of host diversity, we can make very little prediction about geographical patterns of threat to parasites. If the threats reflect those experienced by avian hosts, then we expect climate change to be a major threat to the relatively small proportion of parasite diversity that lives in the polar and temperate regions, whereas habitat destruction will be the major threat to tropical parasite diversity. Recent studies of food webs suggest that [almost equal to]75% of the links in food webs involve a parasitic species; these links are vital for regulation of host abundance and potentially for reducing the impact of toxic pollutants. This implies that parasite extinctions may have unforeseen costs that impact the health and abundance of a large number of free-living species.