Abstract
The Malagasy Camponotus edmondi species group is revised based on both qualitative morphological traits and multivariate analysis of continuous morphometric data. To minimize the effect of the scaling properties of diverse traits due to worker caste polymorphism, and to achieve the desired near-linearity of data, morphometric analyses were done only on minor workers. The majority of traits exhibit broken scaling on head size, dividing Camponotus workers into two discrete subcastes, minors and majors. This broken scaling prevents the application of algorithms that uses linear combination of data to the entire dataset, hence only minor workers were analyzed statistically. The elimination of major workers resulted in linearity and the data meet required assumptions. However, morphometric ratios for the subsets of minor and major workers were used in species descriptions and redefinitions. Prior species hypotheses and the goodness of clusters were tested on raw data by confirmatory linear discriminant analysis. Due to the small sample size available for some species, a factor known to reduce statistical reliability, hypotheses generated by exploratory analyses were tested with extreme care and species delimitations were inferred via the combined evidence of both qualitative (morphology and biology) and quantitative data. Altogether, fifteen species are recognized, of which 11 are new to science: Camponotus alamaina sp. n., Camponotus androy sp. n., Camponotus bevohitra sp. n., Camponotus galoko sp. n., Camponotus matsilo sp. n., Camponotus mifaka sp. n., Camponotus orombe sp. n., Camponotus tafo sp. n., Camponotus tratra sp. n., Camponotus varatra sp. n., and Camponotus zavo sp. n. Four species are redescribed: Camponotus echinoploides Forel, Camponotus edmondi André, Camponotus ethicus Forel, and Camponotus robustus Roger. Camponotus edmondi ernesti Forel, syn. n. is synonymized under Camponotus edmondi. This revision also includes an identification key to species for both minor and major castes, information on geographic distribution and biology, taxonomic discussions, and descriptions of intraspecific variation. Traditional taxonomy and multivariate morphometric analysis are independent sources of information which, in combination, allow more precise species delimitation. Moreover, quantitative characters included in identification keys improve accuracy of determination in difficult cases.
Highlights
The ant genus Camponotus Mayr, 1861 is one of the most species-rich genera in the world, in the ranks of Pheidole (1002 species), Strumigenys (838 species), and Tetramorium (567 species) (Bolton 2015)
C. androy is characterized by a narrower mesopleuron, which is about as large as the width of the lateral portion of the propodeum; at least one pair of erect hairs is present on the propodeal dorsum
The grouping shown by the morphometric dendrogram and confirmed by cumulative linear discriminant analysis (LDA) at 100% success supports the existence of the species
Summary
The ant genus Camponotus Mayr, 1861 is one of the most species-rich genera in the world, in the ranks of Pheidole (1002 species), Strumigenys (838 species), and Tetramorium (567 species) (Bolton 2015) It currently includes 1589 valid extant species and subspecies (Bolton 2015) distributed across the tropical and subtropical regions as well as the temperate zones (Bolton 1995). Its members occupy a wide variety of microhabitats across different terrestrial ecosystems in Madagascar and neighboring islands This high diversity suggests that the genus is in great need of comprehensive taxonomic revision to improve the understanding and management of the region’s biodiversity
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