Chaoborus flavicans (Meigen 1830)
- Dataset
- Chaoborus flavicans Meigen (Diptera, Chaoboridae) is a complex of lake and pond dwelling species: a revision
- Rank
- SPECIES
Classification
- kingdom
- Animalia
- phylum
- Arthropoda
- class
- Insecta
- order
- Diptera
- family
- Chaoboridae
- genus
- Chaoborus
- species
- Chaoborus flavicans
description
We found evidence for at least four species in the Chaoborus flavicans complex: Chaoborus flavicans, C. albipes, C. posio sp. n. and a lineage from Japan. The monophyly for each of these species is strongly supported by bootstrap values (Fig. 15) and is not attributable to random branching under a coalescent null model (Rosenberg’s P (AB) <0.05 for all species in Table 1). The presence of the subordinate tooth between the second and fourth tooth in the larval mandible is a likely synapomorphy of the C. flavicans complex. Chaoborus crystallinus has been proposed as a sister species of C. flavicans (Saether 1970, Borkent 1981; note that the close relationship between C. crystallinus and C. flavicans suggested by Berendonk et al. 2003 appears to be a mistake due to C. flavicans being confused for C. crystallinus). However, we refrained from assessing the proposed sister species of C. flavicans complex in this study. Phylogenetic relationships beyond the species complex are not analysed in detail here as COI tends to lack resolution across species groups for Chaoborus (Dupuis et al. 2008). We also found a lack of resolution at the deeper nodes for Chaoborus in the present phylogeny (Fig. 15). Characters that support a close relationship between C. flavicans and C. albipes are a slender male gonocoxite and gonostylus, a relatively short apical claw of paramere and a subapically constricted pupal respiratory organ. In contrast, C. posio sp. n. has several autapomorphic character states, such as a wide male gonocoxite and gonostylus, long apical claw of the male paramere and a club-shaped pupal respiratory organ. A high number of larval mandibular fan bristles and conspicuous lateral teeth of the mandibles are shared characters for C. albipes and C. posio sp. n. This sister group relationship also had strong support in our COI phylogeny. A distinct lineage from Japan appears to be more related to C. posio + C. albipes than to C. flavicans sensu stricto (Fig. 15). It is not known where and when the ancestor of the C. flavicans species complex evolved. Divergent selection for habitat seems to be important as species occupy different niches (ponds vs. lakes); Holarctic sister species that occupy the same niche are mostly allopatric (e. g., C. americanus and C. obscuripes, Borkent 1981). If the pattern of three phylogenetically independent shifts from pond to lake habitats within Holarctic Chaoborus (Berendonk et al. 2003) is accepted, the ancestor of the C. flavicans complex was a pond-dwelling species and C. flavicans became a lake-dwelling taxon able to withstand high pressure in deep waters and fish predation. Note that the substantial genetic divergence between C. flavicans and other members of the complex (> 30 %) indicates that divergence of the complex likely occurred well before the Pleistocene. Moreover, widespread species such as C. albipes and C. flavicans with two or more closely related geographic clades may also have been present before the Pleistocene. Chaoborus tertiarius (von Heyden), Upper Oligocene fossil species, is composed of two complete pupae, disarticulated pupal parts, larval mandibles, and anal fans (Borkent 1978). This taxon may be ancestral to C. (Chaoborus s. str.) and the subgenus C. (Schadonophasma Dyar & Shannon 1924), or it may be ancestral, or a sister, to species of C. flavicans species complex (Borkent 1978). Among the fossil material are two types of larval mandibles: the subordinate tooth is either present between teeth two and four or it branches from the second tooth (Borkent 1978, figs. 3 A-H). However, Borkent admits that the subordinate tooth of the flavicans - type “ was very difficult to see ”, and hence it is uncertain if C. tertiarius is closely related to the C. flavicans species complex.
diagnosis
Diagnosis. Adults male. Penultimate flagellomere slightly longer than ultimate, or about equal in length. Flagellomeres pale or partly darkened, bases of whorls dark, giving annulated appearance. Scutellar stripes bare, orange brown – almost black, pleural sclerites pale yellow and with a varying degree of darker coloration. Legs straw yellow or grayish, apical tarsomeres may be somewhat darkened. Tergites yellowish brown or dark brown, bases of setae with a dark ring. Male epandrium either triangular or broadly rounded in shape, its length about 0.35 – 0.37 times the length of gonocoxite. Male paramere with a conspicuous apical claw, elongated, almost straight or curved. Pupa. Outer rib of terminal process smooth, apical spines absent. Mid rib of terminal process usually darker than lateral ribs, margin of inner rib serrated along apical 2 / 3. Length / width ratio of 8 th segment ca. 0.36. Respiratory organ widest medially, constricted apically or not. IV instar larva. Total length 7 – 15 mm (e. g. Parma 1971 b). Labral blade elongated, degree of serration varied. Mandibular subordinate tooth (3) positioned at the vertex of tooth 2 and tooth 4. Mandibular lateral teeth either small and inconspicuous or larger and distinguishable. Dorsal process pointed.