Hierarchical Perception of Stimuli During Case Construction in the Bagworm Moth Eumeta crameri (Lepidoptera: Psychidae)

We studied case construction behavior of bagworm moth, Eumeta crameri (Lepidoptera: Psychidac) in the host plant, Acacia nilotica, at two sites. At the time of the study, Site A had 1-year-old A. nilotica saplings only, whereas Site B had full grown trees. The larva of bagworm moth used either thorns or cut-twigs or both as the materials for building its case. It renovated its case three times, and during each instance it increased the volume of its case by replacing older thorns or cut-twigs by newer and longer ones. However, it exhibited a spectacular predilection for thorns, irrespective of the sites, during the first-instar stage of its development. Thereafter, at Site A it used exclusively cut-twigs, whereas at Site B it preferably used thorns provided they were available in the range of the required length and within the threshold distance. It appears that the bagworm has an ability to process thorn length and distance signals hierarchically to fulfill its priority, that is, case building. Thus it optimizes time and energy expenditures during the period of its larval growth leading to pupation by toggling its preference between thorns and cut-twigs.     

Heterodera canadensis n. sp. (Nematoda: Heteroderidae) from Spike-Rush (Eleocharis acicularis (L.) R. &S.) in Quebec,Canada

Heterodera canadensis n. sp. is described and illustrated from the roots of spike-rush, Eleocharis acicularis (L.) R. &S., in Deschenes, Quebec. This new abullate species is related to Heterodera graminophila Golden and Birchfield, 1972, but differs significantly in cyst shape, cone top structures, body length of the second-stage larva (520-600 μm, vs. 380-400 for H. graminophila) and tail length (110-120 μm, vs. 57-67 for H. graminophila). A taxonomic key based on cyst and second-stage larva characters is provided for identification of the fifteen species in the Heterodera goettingiana group.     

Leptepsilonema santii sp.n. from Spain and data on the variability ofL. filiforme (Nemata,Epsilonematidae)

The genusLeptepsilonema is recorded for the first time from the Mediterranean:L. santii sp.n. is characterised by a slender body with a large number of annules (122–128). Cuticular ornamentation with clear ridges and a lateral field of small thorns on both sides of the anteriormost annules are also typical as well as the number and arrangement of copulatory thorns (2–3 pairs, 2 fields), the shape and length (49–58 µm) of spicules in males.L. filiforme is recorded from New Caledonia; specimens largely resemble the original types but are larger. The variability of some morphological structures is discussed.     

Larval morphology of the scorpionfly Dicerapanorpa magna (Chou) (Mecoptera: Panorpidae) and its adaptive significance

Larval morphology can provide valuable characters for taxonomic and phylogenetic analyses of insects and reflect the adaptations to various living habits. Compared with the adult stages, larval study has lagged far behind in Mecoptera. Although several genera of Panorpidae have been studied for their larval stages, the larva of Dicerapanorpa Zhong and Hua, 2013 basically remains unclear. Here the larva of Dicerapanorpa magna (Chou) is described and illustrated in detail for the first time using light microscopy and scanning electron microscopy. The larva is eruciform, with eight pairs of abdominal prolegs in addition to three pairs of thoracic legs, as in other Panorpidae. The most remarkable characteristics of the larvae include a pair of erect subdorsal annulated processes each on abdominal segments I–IX (A1–A9) and a single middorsal annulated process on A10, as well as a pair of prominent compound eyes composed of over 40 ommatidia, which distinguish this genus from other genera of Panorpidae. The annulated processes may have adaptive significance for fossorial and soil-living habits.     

Larval phases and ecology of Chrysolina (Pezocrosita) sahlbergiana (Coleoptera, Chrysomelidae)

Larvae of four instars are described in the little known leaf-beetle species Chrysolina sahlbergiana Jacobson from the Minusinsk Depression. Artemisia spp. is recorded as its host plant. Short setae on small scleroids distinguish the described larva from those of other species of the subgenus Pezocrosita. According to this character, this larva is closely related to larvae of species of the arcto-alpine subgenera of Chrysolina Motsch. Ch. sahlbergiana is regarded as a trans-Sayan, depression-steppe petrophilous species.     

Studies on the characteristics of parasitism ofPlutella xylostella (Lep.: Plutellidae) by a larval parasiteDiadegma semiclausum (Hym.: Ichneumonidae)

Laboratory experiments were conducted to study the characteristics of parasitism of diamondback moth,Plutella xylostella (L.), a worldwide pest of crucifers, by a larval parasite,Diadegma semiclausum Hellén. Results showed that the greater the host larval density, the lesser was the percentage of larvae parasitized. The area of discovery decreased with increasing parasite density, but k-value remained practically unchanged. Parasitism reduced food consumption in parasitised larvae. No difference was observed in duration of larval instars between the parasitized and healthy larvae. As the frequency of superparasitism increased, the proportion of production of female progeny also increased. Presence of parasite larva within the host larva deterred superparasitism greater than the presence of parasite egg. Presence of larva of eitherD. semiclausum or another larval parasite,Cotesia plutellae Kurdjumov, within host larva deterred multiparasitism by either species greater than the presence of egg of either parasite species.Diadegma semiclausum was much more aggressive thanC. plutellae in parasitisingP. xylostella larvae.     

A new oribatid mite of the genus Rhynchoribates (Acari,Rhynchoribatidae) from equador

A new oribatid mite species, Rhynchoribates parafabulosus sp. n., is described from Ecuador. This species is similar to R. fabulosus Beck 1961 (from Peru) in the rostrum structure and the length of prodorsal and notogastral setae. However, it clearly differs from the above species by the absence of thorns on the leg femora, location of adanal lyrifissures, and the structure of notogastral setae.     

Ultrastructure of the intracellular melanization of Brugia malayi (Buckley) (Nematoda : Filarioidea) in the thoracic muscles of Anopheles quadrimaculatus (Say) (Diptera : Culicidae)

Ultrastructural details of the melanization of the filarial parasite Brugia malayi (Nematoda : Filarioidea) in the thoracic muscle cell of selected susceptible and refractory strains of Anopheles quadrimaculatus (Diptera : Culicidae) were examined. In both susceptible and refractory strains, following infection of the muscle cells, there is a dissolution of the sarcoplasmic cytoskeletal matrix surrounding the myofibrils, causing the myofibrils and mitochondria to drift apart and lose their regular spacing. This is coupled with a reorganization of the cytoplasm near the normally developing intracellular larva. Masses of vesicles and vesiculated cytoplasmic bodies accumulate near the larva. Eventually, these form a dense layer of cytoplasm around the parasite. Fine grains of melanin begin to appear in this dense cytoplasmic layer, increasing gradually until a nearly complete capsule of melanin surrounds the larva. The time course of melanization was found to be quite variable among and even within mosquitoes. Strains of A. quadrimaculatus selected to be refractory or susceptible to B. malayi, were found to vary substantially in the frequency of intracellular melanization, but not in the mechanism.     

Description of the third-instar larva of Aphodius bimaculatus (Laxmann) (Coleoptera, Scarabaeidae)

The third-instar larva of Aphodius bimaculatus (Laxmann) is described from the material collected in Belarus. The larva differs from other species of the subgenus Acrossus in the convex clypeus with a complex structure and in the coloration of the head.     

The Potential Anti-Herbivory Role of Microorganisms on Plant Thorns

Thorns, spines and prickles are some of the anti-herbivore defenses that plants have evolved. They were recently found to be commonly aposematic (warning coloration). However, the physical anti-herbivore defense executed by these sharp structures seems to be only the tip of the iceberg. We show that thorns of various plant species commonly harbor an array of aerobic and anaerobic pathogenic bacteria including Clostridium perfringens the causative agent of the life-threatening gas gangrene, Bacillus anthracis, and Pantoea agglomerans. Septic inflammation caused by plant thorn injury can result not only from bacteria. Medical literature indicates that thorns, spines or prickles also introduce pathogenic fungi into animals or humans. Dermatophytes that cause subcutaneous mycoses are unable to penetrate the skin and must be introduced into the subcutaneous tissue by a puncture wound. The common microorganism-thorn combinations seem to have been an important contributor to the fact that so many plant thorns are aposematically colored, as a case of convergent evolution of aposematism in these organisms.Key Words: aposematism, herbivory, pathogen, spine, thorn, bacillus anthracis, clostridium perfringens, sporotrichosis, Mycetoma, subcutaneous mycotic disease     

Larvalentwicklung und Metamorphose vonPhoronis psammophila (Phoronida,Tentaculata)

The larval development ofPhoronis psammophila Cori is divided into 6 phases (on the basis of increasing pairs of larval tentacles); furthermore an initial and a ripe phase are distinguished. Specific aspects of the development are described: Formation and structure of larval tentacles; anlage of adult tentacles as a thickening in the larval tentacle base; late development of the metasome (larva with 4–6 tentacles); formation of the metasome pouch in the larva with 8 tentacles; enlargement of the apical plate; differentiation of the gut; differentiation of larval nephridia; formation of pigment particles in the larva with 6 tentacles (storage function of pigments and its significance for larval identification); different types of discoflagella in various regions of the body. The larval development shows the following tendencies: Improvement of locomotion; intensification of food filtration; anlage of adult organs in the larva leading to a shortening of metamorphosis duration. The larva ofP. psammophila is compared with those ofP. pallida, P. hippocrepia, andP. vancouverensis. Earlier larval determinations ofP. psammophila (e.g.Actinotrocha sabatieri, A. hatschekii) are shown to have been mistakes. Termination of the postembryonic phase (metamorphosis) can be induced experimentally by bacteria and also by cations. Pure or mixed bacteria cultures must be present at the beginning exponential growth phase. The bacteria density required is 20–94×10⁶ bact.ml^?1 for pure cultures and on the average 28×10⁶ bact. ml^?1 for mixed cultures. Metamorphosis initiation by cations can be induced with CsCl (0.06 M) and RbCl (0.035 M). Metamorphosis ofP. psammophila occurs in 6 phases: larva, ready for metamorphosis; larva, activated by bacteria or ions; evagination of the metasome diverticle, dislocation of gut; losing and swallowing of episphaere and larval tentacles; formation of the youngP. psammophila. All developmental phases are described and compared with those ofP. muelleri; imperfect metamorphosis is characterized and the youngP. psammophila compared with older stages and the adult Phoronis.     

Survey of the variation in alar and malar thorns in skates: Phylogenetic implications (Chondrichthyes: Rajoidei)

A total of 62 species, representing 24 of the 28 supraspecific taxa of skates, was surveyed for the presence, distribution, and structure of alar and malar thorns. The survey revealed that alar thorns are almost universally present in mature male skates, and that malar thorns are of two types that may have separate origins. The location and orientation of alar thorns differed in two major clades of skates (groups I and II). They were either exposed on the disc with the crown oriented obliquely to the long axis of the base or imbedded in slits in the integument and oriented parallel to the long axis of the base. Group I possessed the former type of thorns and, with several exceptions, group II possessed the latter type. Group I either lacked malar thorns or possessed malar thorns that were most likely derived from generalized placoid scales. Group II possessed, with several exceptions, malar thorns derived from enlarged placoid scales. Within group I the supraspecific taxa Atlantoraja and Rioraja possessed unique alar thorns that were reclined laterally and associated with lateral grooves in the integument. Within group II the supraspecific taxa Anacanthobatis, Cruriraja, Dipturus, Okamejei, Raja, the North Pacific Assemblage, and the Amphi-American Assemblage had a large barb on the distal section of the crown of the alar thorn that suggests that these taxa form a clade. The crown of the alar thorns of the latter five supraspecific taxa was undulatory, thus supporting their monophyletic status. Another assemblage within group II had ridges that ran most of the length of the crown of the alar thorns corroborating their monophyletic status. The survey also suggested that variation of integumentary grooves associated with the alar thorns in Bathyraja, and presence or absence of malar thorns in Psammobatis, may be phylogenetically informative. © 1996 Wiley-Liss, Inc.     

Fine structure of the female reproductive system in a viviparous insect, Glossina morsitans morsitans (Diptera, Glossinidae)

The female reproductive system of the tsetse fly Glossina morsitans morsitans is analysed by scanning electron microscopy (SEM). The study focuses in particular on the choriothete, a peculiar uterine structure involved in the viviparous mode of reproduction of Glossina morsitans morsitans.Under light microscopy, the choriothete appears formed by numerous tongue-like folds projecting towards the uterine lumen and lined by a thin cuticle. SEM analysis highlights for the first time a distinctive new feature that is not visible by traditional histological methods. That is a cuticular covering of the choriothete, which shows numerous thorns in the form of crest-like structures arranged in nearly parallel lines. The role of the choriothete in pregnancy and in larval nourishment is discussed.     

Inversion polymorphism and ecological specialization of malaria mosquitoes (Diptera, Culicidae) in Karelia

The species composition and inversion polymorphism were studied in malaria mosquito larva hemipopulations of Karelia. Three malaria mosquito species??Anopheles messeae, A. beklemishevi, and A. maculipennis??were found in the region. The northern boundary of their range is at 65°N. The greatest species diversity was observed in biotopes of the central region. Within-species chromosome polymorphism was observed in larva populations of all three species. For A. messeae, maximum karyotype diversity indices were established for the southern and northern regions of Karelia.     

Two new North Pacific skates (Rajidae) and a revised key toBathyraja in the area

Two new species of the skates,Bathyraja hubbsi andB. pseudoisotrachys are described from the North Pacific. Among the North PacificBathyraja, B. hubbsi most closely resemblesB. violacea Suvorov in possessing a disc without thorns, a median tail thorns irregularly spaced, and minute fine prickles covering the entire dorsal surface. The two species are distinguished from each other by their dorsal color pattern, proportional measurement of tail in relation to total length, clasper components, and number of precaudal vertebrae.Bathyraja pseudoisotrachys has long been confused withB. isotrachys (Günther) by many Japanese authors, but is distinguished from other North PacificBathyraja by dorsal squamation and unique clasper components such as two clefts, terminal bridge and ridge.Bathyraja kincaidii Garman is synonymized with the valid speciesB. interrupta Gill et Townsend.Bathyraja abyssicola Gilbert andB. trachura Gilbert are redescribed in detail. Provisionally, 21 species of the genusBathyraja are recognized in the present study from this region, and a revised key is given to the North Pacific species of the genus.     

A new parasitoid of Bazaria turensis (Lepidoptera,Pyralidae): Campoplex bazariae sp. n. (Hymenoptera,Ichneumonidae)

A new solitary endoparasitoid of the larva of Bazaria turensis Ragonot, 1887 (Lepidoptera, Pyralidae) in Qinghai province, China, Campoplex bazariae Sheng, sp. n., belonging to the subfamily Campopleginae (Hymenoptera, Ichneumonidae), is reported. Illustrations of the new species are provided.     

New World Stictocladius Edwards (Diptera: Chironomidae)

The orthocladiine Chironomidae genus Stictocladius Edwards was described originally from South America. Although recognised subsequently as present also in Australia and New Zealand, the true diversity in the Neotropics has remained unclear. After more than a decade of collections of both isolated adults and aquatic immature stages, we can recognise several new taxa and associate some immature stages. Thus, we describe Stictocladius prati n. sp. as male, female, pupa and larva; Stictocladius acutus n. sp. and Stictocladius acrilobus n. sp. as male, female and pupa; Stictocladius fimbriatus n. sp. as male and female; Stictocladius fovigus n. sp. and Stictocladius nudiventer n. sp. as male and pupa; and Stictocladius privicalcar n. sp. and Stictocladius prostatus n. sp. each as male imago alone. The male and female of Stictocladius pulchripennis Edwards is redescribed and the pupa described. The male and female of Stictocladius flavozonatus Edwards and the male of Stictocladius calonotum Edwards are described. Five pupal types are described: Stictocladius sp. A (near S. acrilobus), Stictocladius sp. B (possibly S. calonotum), Stictocladius sp. C (near S. calonotum), Stictocladius sp. D (possibly S. flavozonatus) and Stictocladius sp. E with uncertain affinity. A larva from Chile of the Stictocladius ??sofour type?? (Stictocladius sp. F) and an unreared larva from North America (Stictocladius sp. G) possibly belonging to S. acutus are described. Keys to named Neotropical male and female imagines of Stictocladius and to all pupal forms of Neotropical Stictocladius are provided. Some data concerning fourth instars of Stictocladius are presented. Means of differentiation from putative sister taxon Lopescladius are discussed.     

Experimental predation studies of malacophagous larvae of Sepedon fuscipennis (Diptera: Sciomyzidae) and aquatic snails

Experimental studies were conducted under both laboratory and field conditions to determine the effects of prey density, three levels of prey aggregation, water depth, and predator density on the number of snails killed per larva of Sepedon fuscipennis. Of these factors, predation rates were most influenced by prey density and water depth. The number of small (2–4.5 mm) Lymnaea palustris killed per larva of S. fuscipennis increased at a decreasing rate as prey density increased under shallow water conditions. Larvae killed a mean of 14 snails at a prey density of 200/m², while an average of 24 snails were killed per larva of S. fuscipennis at a prey density of 4000/m². This functional response to prey density was largely confined to third-instar larvae, and as water depth was increased the response was not apparent.A field study in which larval densities of S. fuscipennis were manipulated showed that the population density of smaller individuals of L. palustris (< 4.5 mm) was reduced when predator density was increased. Populations of Physa integra, Gyraulus parvus, and larger L. palustris were not significantly reduced by the malacophagous larvae at the levels tested.