Predicting species richness in tropical lichenized fungi with ‘modular’ combinations of character states

A numerical approach is presented to predict the number of potentially undiscovered species in groups of species that exhibit a ‘modular’ combination of character states, that is, nearly ‘free’ combination that is not random but allows for a wide range of cross-combination of character states. The m...

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Bibliographic Details
Published in:Biodiversity and conservation 2012-08, Vol.21 (9), p.2341-2360
Main Author: Luecking, Robert
Format: Article
Language:English
Subjects:
Biodiversity
Biomedical and Life Sciences
Botany
Climate Change/Climate Change Impacts
Conservation Biology/Ecology
Ecology
Fungi
Graphis
Lichens
Life Sciences
Original Paper
Species diversity
Species richness
Taxonomy
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Summary:A numerical approach is presented to predict the number of potentially undiscovered species in groups of species that exhibit a ‘modular’ combination of character states, that is, nearly ‘free’ combination that is not random but allows for a wide range of cross-combination of character states. The method uses a character correlation index (CCI) based on observed versus expected frequencies of pairwise character state combinations in known species of a group to estimate the degree of potentially positive and negative evolutionary constraints in the co-occurrence of character states. For instance, if a character state combination, such as ‘muriform ascospores’ and ‘presence of norstictic acid’, occurs less frequently than expected by chance, it indicates the presence of a negative evolutionary constraint. If no such constraint is detected, but a particular character combination has not yet been observed in a described species, it can be predicted that yet undescribed species will exhibit that combination. The method can therefore be used to detect ‘gaps’ in the taxonomic record, i.e. character combinations that have not been detected in known species but are likely to occur in undiscovered species. Modular combination of character states appears to be particularly common in Fungi, including lichens, and the method was here used to predict species richness in the lichen genus Graphis , specifically the Graphis scripta group. A total of 42 species is known in this group and, out of a total of 240 possible character state combinations, a further 48 were found likely to represent undiscovered species, suggesting that the real species number in this group is close to 90 or about twice the number now known. This agrees well with previous estimates for undiscovered diversity of tropical lichen species and for the first time gives a taxonomic prediction of how such ‘missing’ species are expected to look like.
ISSN:0960-3115
1572-9710
DOI:10.1007/s10531-011-0217-7