Abstract
Over the last two decades my colleagues and I have assembled the literature on a good percentage of most of the coccidians (Conoidasida) known, to date, to parasitise: Amphibia, four major lineages of Reptilia (Amphisbaenia, Chelonia, Crocodylia, Serpentes), and seven major orders in the Mammalia (Carnivora, Chiroptera, Lagomorpha, Insectivora, Marsupialia, Primates, Scandentia). These vertebrates, combined, comprise about 15,225 species; only about 899 (5.8%) of them have been surveyed for coccidia and 1,946 apicomplexan valid species names or other forms are recorded in the literature. Based on these compilations and other factors, I extrapolated that there yet may be an additional 31,381 new apicomplexans still to be discovered in just these 12 vertebrate groups. Extending the concept to all of the other extant vertebrates on Earth; i.e. lizards (6,300 spp.), rodents plus 12 minor orders of mammals (3,180 spp.), birds (10,000 spp.), and fishes (33,000 spp.) and, conservatively assuming only two unique apicomplexan species per each vertebrate host species, I extrapolate and extend my prediction that we may eventually find 135,000 new apicomplexans that still need discovery and to be described in and from those vertebrates that have not yet been examined for them! Even doubling that number is a significant underestimation in my opinion.
Highlights
Over the last two decades my colleagues and I have assembled the literature on a good percentage of most of the coccidians (Conoidasida) known, to date, to parasitise: Amphibia, four major lineages of Reptilia (Amphisbaenia, Chelonia, Crocodylia, Serpentes), and seven major orders in the Mammalia (Carnivora, Chiroptera, Lagomorpha, Insectivora, Marsupialia, Primates, Scandentia)
These 12 compilations resulted in six monographic works including Amphibia (Duszynski et al 2007), Amphisbaenia (McAllister and Duszynski 2019), Chiroptera (Duszynski 2002), crocodiles (Duszynski et al 2020), insectivores (Duszynski and Upton 2000), and primates and Scandentia (Duszynski et al 1999), and five books on Serpentes (Duszynski and Upton 2010), Lagomorpha (Duszynski and Couch 2013), Chelonia (Duszynski and Morrow 2014), Marsupials (Duszynski 2016), and carnivores (Duszynski et al 2018)
Below, I catalogue the abundance of apicomplexan biodiversity for 12 vertebrate groups that include the Amphibia, four Reptilia, and seven Mammalia lineages
Summary
Over the last two decades my colleagues and I have assembled the literature on a good percentage of most of the coccidians (Conoidasida) known, to date, to parasitise: Amphibia, four major lineages of Reptilia (Amphisbaenia, Chelonia, Crocodylia, Serpentes), and seven major orders in the Mammalia (Carnivora, Chiroptera, Lagomorpha, Insectivora, Marsupialia, Primates, Scandentia) These vertebrates, combined, comprise about 15,225 species; only about 899 (5.8%) of them have been surveyed for coccidia and 1,946 apicomplexan valid species names or other forms are recorded in the literature. The phylum Apicomplexa Levine et al 1980 (emended by Adl et al 2012), comprises a large group of obligate, intracellular protist parasites These organisms were called ‘Sporozoa,’ a catch-all name for Protozoa that were not amoeba, flagellates, or ciliates.
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