Life history variability of a grazing stream insect (Liponeura cinerascens minor; Diptera: Blephariceridae)

SUMMARY 1. Fourteen populations of Liponeura cinerascens minor from different sites in the Swiss Alps were investigated. Our goals were to describe the life history of this blepharicerid species and to analyse how it was influenced by temperature and food availability. 2. Temperature regimes and periphyton density at the sampling sites varied considerably. Mean annual temperature ranged from 3.8 to 6.5 °C, with annual amplitudes (i.e. the difference between the mean of the coldest and the warmest month) between 3.7 and 12.0 °C. Averaged periphyton density, which was assessed semiquantitatively on a scale from 0 to 5, ranged from 1.1 to 3.3. 3. Larvae or pupae of L. c. minor were found between January and October. Presence of larvae or pupae at individual sites ranged from 100 to 224 days and appeared to be mainly a result of hatching patterns. Individual larval development required between 7 and 20 weeks. Our findings suggest that L. c. minor is univoltine and undergoes an extended (≥4 months) egg dormancy during late summer, autumn and winter. 4. Development of L. c. minor was observed from <1 to 15.8 °C, indicating it is a cold‐stenotherm. Its geographical distribution seems to be constrained by high summer temperatures. Within the tolerated temperature range (0–16 °C), however, temperature had no apparent effect on hatching, larval growth rate or pupal size. 5. Larval growth rate and size of pupae were significantly correlated with food availability. Completion of larval development required 300–400 degree‐days at sites where periphyton was readily available, but >800 degree‐days where periphyton availability was low. 6. No evidence for intraspecific food competition was found, whereas food competition by other blepharicerid species, mainly Hapalothrix lugubris, appeared to be a major reason for the observed food limitation. However, as L. c. minor is much more widespread than H. lugubris, food competition between these two species is likely to occur infrequently. We therefore contend that variations in the life history of L. c. minor are mainly a consequence of its thermal constraints.     

Genetic population structure of the net-winged midge, Elporia barnardi (Diptera: Blephariceridae) in streams of the south-western Cape, South Africa: implications for dispersal

SUMMARY 1. The net‐winged midges (Diptera: Blephariceridae), with highly specific habitat requirements and specialised morphological adaptations, exhibit high habitat fidelity and a limited potential for dispersal. Given the longitudinal and hierarchical nature of lotic systems, along with the geological structure of catchment units, we hypothesise that populations of net‐winged midge should exhibit a high degree of population sub‐structuring. 2. Sequence variation in the cytochrome c oxidase subunit I (COI) region of the mitochondrial DNA (mtDNA) was examined to determine patterns of genetic variation and infer historical and contemporary processes important in the genetic structuring of populations of Elporia barnardi. The DNA variation was examined at sites within streams, between streams in the same range, and between mountain ranges in the south‐western Cape of South Africa. 3. Twenty‐five haplotypes, 641 bp in length, were identified from the 93 individuals sampled. A neighbour‐joining tree revealed two highly divergent clades (～5%) corresponding to populations from the two mountain ranges. A number of monophyletic groups were identified within each clade, associated with individual catchment units. 4. The distribution of genetic variation was examined using analysis of molecular variance (amova ). This showed most of the variation to be distributed among the two ranges (～80%), with a small percentage (～15%) distributed among streams within each range. Similarly, variation among streams on Table Mountain was primarily distributed among catchment units (86%). A Mantel's test revealed a significant relationship between genetic differentiation and geographical distance, suggesting isolation by distance (P < 0.001). 5. Levels of sequence divergence between the two major clades, representing the two mountain ranges, are comparable with those of some intra‐generic species comparisons. Vicariant events, such as the isolation of the Peninsula mountain chain and Table Mountain, may have been important in the evolution of what is now a highly endemic fauna. 6. The monophyletic nature of the catchment units suggests that dispersal is confined to the stream environment and that mountain ridges provide effective physical barriers to dispersal of E. barnardi.     

Temporal patterns of diatom ingestion by larval net-winged midges (Diptera: Blephariceridae: Blepharicera)

SUMMARY 1. Monthly patterns of diatom ingestion by Blepharicera magna and B. similans (Diptera: Blephariceridae) larvae were examined to determine whether dietary attributes fluctuate within the final-instar stadium. The two species are isolated temporally: B. magna diets were examined from October to December, and B. similans diets were examined from June to August. Each month, the diatom assemblage of larval diets was assessed and compared with that of the forage base. In addition, total diatom ingestion was estimated.
2. Larval gut samples were ordinated on the basis of relative abundance of common diatom taxa, and month–month comparisons of larval diets were made, which revealed that (i) B. magna dietary assemblages did not vary significantly from October to December; (ii) diatom species composition of B. magna diets generally resembled that of the forage base; and (iii) B. similans dietary assemblages varied significantly from June to August, with few changes attributable to seasonality of ambient diatom flora.
3. Total diatom ingestion by B. magna was relatively stable from October to December. For B. similans , total diatom ingestion was greatest in July, when larvae were midstage of instar IV. The latter result was accompanied by increased ingestion of grazer-resistant diatom taxa (e.g. Achnanthes deflexa var. alpestris , Achnanthidium minutissimum , and Cocconeis placentula var. lineata ), which can be more digestible than grazer-susceptible taxa (e.g. chain-forming Fragilaria and rosette-forming Synedra species). This result suggests demand for a large quantity of nutritionally rich food at midstage of instar IV, which could represent a period of critical growth for B. similans .     

Tubes and tube-building in a lotic Chironomid (Diptera) community

The use of particles for the construction of tubes by a community of stream-dwelling midge (Chironomidae) larvae was investigated. It was shown that the particles present in the larval tubes occurred in the same proportions as those present on the surfaces of stones in the stream. Small particles were principally of detritus, medium-sized particles mainly of detritus and diatoms, and a a variety of types of particles, including filamentous algae and sand grains, occurred in the large size category. The absence of particle selection in the field was reflected in laboratory experiments. It is suggested that competition for suitable available space in which to build tubes and the quantity of building material are likely to be of more significance to the larval community in upland streams than particle size or type.     

The taxonomy and diversity of Platerodrilus (Coleoptera,Lycidae) inferred from molecular data and morphology of adults and larvae

The Oriental neotenic net-winged beetles attracted attention of biologists due to conspicuous large-bodied females; nevertheless phylogenetic relationships remain contentious and only a few species are known in both the fully metamorphosed males and neotenic females. The phylogenetic analyses and morphology of larvae and adults provide data for investigation of relationships and species delineation. Platrilus Kazantsev, 2009, Platerodriloplesius Wittmer, 1944, and Falsocalochromus Pic, 1942 are synonymized to Platerodrilus Pic, 1921. Platrilus hirtus (Wittmer, 1938) and Pl. crassicornis (Pic, 1923) are transferred to Platerodrilus Pic, 1921. Platerodrilus hoiseni Wong, 1996 is proposed as a junior subjective synonym of Falsocalochromus ruficollis Pic, 1942. Platerodrilus is divided in three species-groups: P. paradoxus, P. major, and P. sinuatus groups defined based on the shape of genitalia and molecular phylogeny. The following species are described: Platerodrilus foliaceussp. n., P. wongisp. n. (P. paradoxus group); P. ngisp. n., P. wittmeri (P. major group), P. ijenensissp. n., P. luteussp. n., P. maninjauensissp. n., P. montanussp. n., P. palawanensissp. n., P. ranauensissp. n., P. sibayakensissp. n., P. sinabungensissp. n., P. talamauensissp. n., and P. tujuhensissp. n. (P. sinuatus group). P. korinchiana robinsoni Blair, 1928 is elevated to the species rank as P. robinsoni Blair, 1928, stat. n. The conspecific semaphoronts are identified using molecular phylogeny for P. foliaceussp. n., P. tujuhensissp. n., P. montanussp. n., P. maninjauensissp. n.; additional female larvae are assigned to the species-groups. Diagnostic characters are illustrated and keys are provided for P. paradoxus and P. major groups.     

Aquatic insect larvae as indicators of limiting minimal contents of dissolved oxygen

Minimal concentrations of oxygen are limiting factors for limnic biocenoses. It should therefore be possible to use biocenose structure to infer minimal oxygen concentrations that have occured, provided the tolerance of the organisms concerned is known. A simple apparatus used to measure LC₅₀ of oxygen for aquatic insect larvae with tracheal gills is described. Lethal concentrations found in some Ephemeroptera differ between species. Usually, they are strongly temperature dependent. In the species so far studied, confidence intervals are very small and suggest that such insect larvae could be used as bioindicators of minimal oxygen concentrations (even of short term ones), especially in thermically stable waters.