Bird fleas (Insecta: Siphonaptera): taxonomic diversity, biogeographical distribution

If Mammals are the primary hosts of Siphonaptera, 6% of them have changed their trophic appetency for Birds. What are the reasons, what are the adaptations to be adopted by Fleas, what are the families or species groups of fleas concerned, and at last what are the host-families? As to this last question, it is clear that deviation was ecological but not phyletical.     

Wolbachia endosymbionts in fleas (Siphonaptera)

Intracellular endosymbionts, Wolbachia spp., have been reported in many different orders of insects and in nematodes but not previously in fleas. This is the first conclusive report of Wolbachia spp. within members of the Siphonaptera. Using nested polymerase chain reaction (PCR) targeting of the 16S ribosomal RNA gene, we screened for Wolbachia spp. in fleas collected from 3 counties in Georgia and 1 in New York. The prevalence of Wolbachia spp. detected varied among the 6 different species screened: 21% in the cat flea Ctenocephalides felis (n = 604), 7% in the dog flea C. canis (n = 28), 25% in Polygenus gwyni (n = 8), 80% in Orchopeas howardi (n = 15), 94% in Pulex simulans (n = 255), and 24% in the sticktight flea Echidnophaga gallinacea (n = 101). Wolbachia spp. infection in fleas was confirmed by sequencing positive PCR products, comparing sequenced 16S ribosomal DNA (rDNA) with Wolbachia spp. sequences in GenBank using BLAST search, and subjecting sequence data to phylogenetic analysis. For further confirmation, 16S rDNA-positive samples were reamplified using the wsp gene.     

Adaptations of fleas (Siphonaptera) to parasitism

The paper deals with peculiarities of flea structure determined by their parasitism on mammals and birds. On the basis of the data on diversity of morphological characters, the leading role of structures of the frontal and nototrochanteral complexes in the adaptive evolution of Siphonaptera is substantiated. Peculiarities of the pulicoid, ischnopsylloid, palaeopsylloid, and generalized morphological types are analyzed together with examples of narrow morphological specializations. Distribution of fleas of these morphological types over five groups of hosts differing in the degree of mobility and association with nests and burrows is also analyzed.     

The longevity of Leptopsylla segnis fleas (Siphonaptera: Leptopsyllidae)

In experiments, the mean life duration of fleas Leptopsylla segnis on white mice (abundance of fleas within natural limits, up to 10 fleas per mouse) was 22.7 days in females and 18.8 day in males. Maximum life duration was 51 and 37 days respectively. In cases, when the initial numbers of fleas were 20 and 28-34 fleas, the duration of life was decreased. The maximum limit decreased greater than the mean duration of life. A survival dynamics of fleas depended upon the flea number. It was found out, that in cases of high abundance of fleas in the beginning of experiments, the mortality rate of males was lower than in females. During the stay on a host the fleas lost gradually an ability to endure a starvation. Possible mechanisms of the regulation of flea abundance are discussed.     

Facultative imaginal diapause in Xenopsylla conformis (Siphonaptera) fleas

The factors favouring the cessation of reproduction in X. conformis are laid in the preimaginal state. The drop in temperature during the formation of imago at the pupal stage is a signal for the cessation of reproduction. Imagos hatched at a temperature lower than that of developmental conditions of preimaginal stages do not start reproduction and enter facultative imaginal diapause state. With further decrease in temperature the state of fleas intensifies. With the rise of temperature fleas come out of diapause. In autumn coming out of diapause begins at a temperature higher than 20 degrees, on the 8th--9th day. The lower air temperature the more rapid is coming out of diapause, at a rise of temperature of 3 to 5 degrees.     

Peculiarities of thoracic and abdominal combs of fleas (Siphonaptera)

The structure of pseudosetae, spinelets, and spines of combs (ctenidia) was studied by means of light and SE microscopy in 80% of genera and subgenera of the World fauna. It is found out that peculiarities of ctenidiae in the prothorax and in tergites of the abdomen are characteristics of families and infraorders of fleas. Some characters of ctenidiae found in certain flea genera are reductions and apparently caused by habitation in some extremal conditions. An absence of ctenidiae in the unfraorder Pulicomorpha is compensated by more developed posterior margin of prothorax and general abbreviation of all thoracal segments. Reasons of ctenidiae absence, which is observed in certain genera of the infraorders Ceratophyllomorpha, Pygiopsyllomorpha and Hystricopsillomorpha associated with the same hosts, is not clear. It is confirmed, that distance between ctenidiae in different flea species associated with the same species host species, however it is recovered, that this distance correlates with the diameter of most thin hair of host. In some flea species the distance between ctenidia spices in females is larger, than in males. It is found, that sexual dimorphism by this character may not be expressed in certain species of closely related species group of fleas. It is suggested that ctenidiae were present even in the common ancestor of fleas. The hypothesis on origin of spines and pseudosetae from setae of the posterior walls of toracal and abdominal segments in the common ancestor of fleas is proposed.     

Ways of the fleas (Siphonaptera) fauna formation in the Caucasus

Fleas fauna of the Caucasus is considered, possible ways of its formation are discussed. Caucasian fleas belong to 155 species and 40 genera; 23 species are endemics. Hypothesis on Western Palearctic and Eastern Palearctic sources of the Caucasian fleas' fauna formation are proposed.     

Alternative prognostication of the population of fleas of the genus Xenopsylla (Siphonaptera)

A possibility of alternative prognostication of the autumn abundance of fleas was shown by means of statistical analysis of prognostication tables made up on the basis of the distribution of informative factors: indices of the abundance of the great gerbil, which is the main host of fleas, weather conditions and characteristics of the populations of the fleas.     

Number of generations of Xenopsylla gerbilli minax fleas in the Muyunkum (Siphonaptera)

By means of radioactive labelling and mechanical marking of fleas of X. g. minax it was established that they have four generations a year.     

Cytogenetics of fleas (Siphonaptera: Pulicidae). 1. Rat fleas of the genus Xenopsylla

Five populations of Xenopsylla cheopis exhibit a chromosome complement of 2n = 17, X1X2Y (male), and 2n = 18, X1X1X2X2 (female). A detailed analysis of populations of X. astia from Bombay and Trivandrum led to the identification of two distinct cytotypes which hybridisation studies indicated were sibling species. These are referred to as X. astia with a diploid chromosome number of 2n = 18, X1X2X3Y (male), and 2n = 20, X1X1X2X2X3X3 (female) and X. prasadii with 2n = 10, X1X2Y1Y2 (male), and 2n = 10 X1X1X2X2 (female). It is proposed that X. prasadii is derived from X. astia through translocation/fusion events since the average total chromosome lengths are remarkably similar in all three species.     

A morphologic analysis of digestion in Leptopsylla segnis (Siphonaptera: Leptopsyllidae) fleas

Changes in the ultrastructure of cells of the intestinal epithelium during the digestion of one blood portion were traced in the fleas L. segnis. It is shown that alongside with the cavity digestion take place elements of intracellular digestion. Hypothetic scheme of the digestive cell functioning is given.     

Morphological diversity of the skeletal structures of fleas (Siphonaptera). Part 2: The general characteristic and features of the thorax

Analysis of a considerable amount of data on the anatomy of 27 structures of the thorax in 96 genera of fleas (over 90% of the genera in the world fauna) shows that different flea taxa can be described based on 48 universal and specific characters, whose 203 states reflect the entire known diversity of the flea morphology. Of them, 26 characters with 96 states can be formulated based on universal terms; 22 universal characters with 88 states describe the proportions of the segments and their parts, and also proportions and shapes of their sclerites; 23 specific characters with 107 states describe the structure of the thoracic sclerites and ridges as well as the patterns of their junctions. Judging by the number of characters and their states, the most evolutionarily flexible structures in fleas are the mesosternite and its apodeme together with the upper part of the mesopleural rod. Homoplasies at various levels comprise less than half (40%) of all the character states in the thorax structure. The character states reflecting the phylogenetic closeness of taxa make up about 15%.     

Epizootiological importance of Frontopsylla hetera (Siphonaptera) fleas in the Gorno-Altai natural plague focus

Experiments conducted during all seasons have established that F. hetera, one of the mass species of fleas in Mountain Altai, can be infected both by the strain of selective virulence typical to this nidus and by the non-typical non-virulent mountain-altai strain of plague agent. The non-virulent strain does not form in fleas the block of proventriculus and within 1.5-2 months they become free from the microbe. At the infection with the typical strain of the altai subspecies rare transmissions of the agent to Pallas' pika can take place as well as its long preservation in fleas.     

Morphological diversity of the skeletal structures of fleas (Siphonaptera). Part 3: The general characteristics and features of thoracic setation

The paper continues the series of publications (Medvedev, 2015, 2016) devoted to the analysis of the structural features of fleas. In this part, the structural features of the thoracic setation are analyzed for the first time. Six characters with 53 states were distinguished in the chaetome of the pronotum, mesothorax, and metathorax. The analysis reveals some cases of the formation of externally similar states due to reduction or, by contrast, strengthening of the chaetome in some genera belonging to different superfamilies, in relation to the specific traits of parasitism. In spite of high variation in the number and arrangement of thoracic setae, some character states can be used as markers of flea taxa of the family and superfamily rank.