The significance of feeding for reproduction in a male Metastriata tick, Haemaphysalis longicornis (Acari: Ixodidae)

In Haemaphysalis longicornis , secretions of the male accessory genital glands were regenerated by re-feeding for 3 or 4 days, although the secretions were almost completely released during the first copulation. It was also shown that spermatogenesis continued during re-feeding, since prospermia (elongated spermatids) were deposited in the seminal vesicle. A potent male seeks a receptive female on the host for copulation. The movement of males to different attachment sites occurred between the third and fourth day of re-feeding, and completely re-fed males (for 4 days) were able to copulate successfully. Spermatogenic cells, ranging from spermatogonia at the anterior end to prospermia at the posterior end, were found in fed males. Degeneration of spermatocytes at the great growth phase and developing spermatids prior to final development of prospermia were seen in virgin males without re-feeding after the first meal. Fully elongated spermatids (prospermia) appeared morphologically normal up to 10 days after the first feeding. Degeneration of spermatocytes and developing spermatids occurred from the second day and was almost complete by the fourth day. The degenerating cells shrank, became electron-dense, and finally died. A reduction in secretions of the four lobes of the accessory glands occurred during the 10 days after feeding.     

Identification of 2-phenylethanol with a rose-like odor from anal sac secretions of the small Indian mongoose (Herpestes auropunctatus)

The small Indian mongoose (Herpestes auropunctatus) is an invasive species in Okinawa and Amami-Oshima, Japan. Major strategies for their eradication have been the use of baited traps, which suffer from decreasing efficiency with declining populations and the bycatch of native animals. To address these concerns, mongoose-specific lures are required. In this study, we aimed to identify species- and/or sex-specific compounds from anal sac secretions of small Indian mongooses. Volatile compounds emitted from male and female mongoose anal sac secretions were analyzed by thermal desorption-gas chromatography-mass spectrometry. In addition to several fatty acids, 2-phenylethanol was identified as a minor compound, which is uncommon in mammalian secretions but a dominant odorant in roses. Female samples emitted higher levels of 2-phenylethanol than male samples did. These findings indicate that 2-phenylethanol is a female-specific volatile compound of anal sac secretions in small Indian mongooses, and it may be useful as an ingredient of mongoose-specific scent lures.     

The Toxicity of Skin Secretions from Coral-Dwelling Gobies and their Potential Role as a Predator Deterrent

Coral-dwelling gobies in the genus Gobiodon (family Gobiidae) posses toxic skin secretions. We used bioassays to investigate interspecific variation in the toxicity of skin secretions from six species of Gobiodon from Lizard Island on the Great Barrier Reef. We then used feeding experiments with two common species of predatory fish to test if skin secretions might act as a chemical defence against predation. The skin secretions of all species were toxic to the bioassay species, Apogon fragilis, but there were marked differences in toxicity among Gobiodon species. Feeding experiments showed that both small- and large-gaped predators avoided food items to which goby skin secretions, or a whole goby, had been added. These experiments indicate that skin toxins could function as a predator deterrent in coral-dwelling gobies.     

Do pygidial secretions of dung beetles have the potential to repel urban pest ants?

Various organisms emit malodorous secretions against competitors, and the potential use of these secretions in pest management should be investigated. For example, some ant species feed on similar resources as dung beetles, which might have led to counter chemical defences in dung beetles. We tested whether pygidial secretions of the dung beetle Canthon smaragdulus (Fabricius) (Coleoptera: Scarabaeidae, Scarabaeinae) alter the locomotor behaviour of the exotic urban pest ant Tapinoma melanocephalum (Fabricius) (Hymenoptera: Formicidae), specifically whether these secretions repel those ants. We also tested whether the disturbance in the locomotor behaviour of T. melanocephalum increases with the amount of pygidial secretion. We found that individual T. melanocephalum displayed changes in their locomotor behaviour when exposed to pygidial secretions of coupled dung beetles, single males, and single females. Additionally, the pygidial secretions from male and female dung beetles could repel ants. The change in the locomotor behaviour of T. melanocephalum increased with the amount of pygidial secretion. Our results suggest that the pygidial secretions of dung beetles have potential as a biological repellent of T. melanocephalum. Hence, pygidial secretions from dung beetles may be used in the future for the development of urban pest management strategies.     

Temperature requirements for the growth and maturation of the gametophytes of Undaria pinnatifida and U. undarioides (Laminariales, Phaeophyceae)

Gametophytes of two Undaria species, U. pinnatifida and U. undarioides (Laminariales, Phaeophyceae), were studied to determine their water temperature requirements in order to understand their different distributions in Mie Prefecture, Japan. The optimal temperature for growth was 20°C for gametophytes of both species, and the upper critical temperature for growth was also the same for both species at 28°C. Therefore, the optimal and critical temperatures for growth of the gametophytes are not the main factors determining distribution. The optimal temperature for maturation of U. pinnatifida was approximately 10–15°C, whereas it was closer to 20–21°C for U. undarioides, a difference between these species of at least 5°C. In autumn and early winter, the seawater temperature at the mouth of Ise Bay, where U. pinnatifida is distributed, ranges from 21.6°C (October) to 12.7°C (December), and off Hamajima, where U. undarioides is found, the range is from 22.7°C (October) to 19.1°C (December). The seawater temperatures from October to December, which is the maturation season for the gametophytes, agreed well with the optimal temperature requirements for maturation of the gametophytes of both species. Thus the difference in the maturation temperature range of the gametophytes is a major factor determining distribution of these Undaria species along the Japanese coast.     

Identification of male-specific exocrine secretions from predatory stink bugs (Hemiptera,pentatomidae)

In the nearctic predaceous stink bugs (Asopinae), Perillus bioculatus and Stiretrus anchorago, and the neotropical asopine, Oplomus severus, males possess conspicuous sternal glands that are absent in females. In each of these species, the male sternal gland secretion contains predominantly a single compound; 6,10,13-trimethyltetradecyl isovalerate in the allopatric species, P. bioculatus and O. severus, and 6,10,13-trimethyltetradecanol in S. anchorago, a species sympatric with P. bioculatus. The function of the sternal gland secretions from asopine hemipterans is unknown.     

Lipids in femoral gland secretions of male lizards, Psammodromus hispanicus

Many lizards produce chemical secretions that may be used as pheromones in reproductive behavior, but only a few studies have identified chemical compounds in secretions. By using GC–MS, we found only 20 lipophilic compounds in femoral glands secretion of male lizards, Psammodromus hispanicus. Main compounds were six steroids (mainly cholesterol and campesterol) and seven n-C₉ to n-C₁₈ carboxylic acids (especially dodecanoic acid), and minor components were six alcohols between C₁₆ and C₂₉ and squalene. We compared these chemicals with those previously found in secretions of the closely related sister species Psammodromus algirus and other lizard species.     

Testes of fed and unfed Amblyomma cajennense ticks (Acari: Ixodidae). First morphological data

The tick species Amblyomma cajennense is of great medical importance, as it is the vector of the Rickettsia rickettsii, agent of Rocky Mountain spotted fever. The objective of this study was to perform a morphological and histological analysis of the male reproductive system of fed and unfed A. cajennense. The male reproductive system is formed by a pair of tubular testes dorsolaterally arranged in opisthosoma. They were divided into three regions: proximal region (next to vas deferens), median region and distal region (nearest to the blind ending of testis). Proximal regions are connected to the seminal vesicles by the deferent ducts and to accessory glands, similar to what was observed for other Ixodidae. Feeding plays a fundamental role in the development of the reproductive system, as in unfed individuals, the testes, the seminal vesicles and the accessory glands were smaller comparing with the fed individuals. In addition, the prospermia, precursors of the spermatozoa, were only observed in fed individuals. The germ cells were organized in spermatocysts, enveloped by a connective tissue. The cells in more advanced stages of spermatogenesis were localized in the distal region, in accord with studies in other ticks, but opposite to what was observed for other arthropods.     

Morphology of the reproductive tract and acquisition of sexual maturity in males of Potamotrygon magdalenae (Elasmobranchii: Potamotrygonidae)

The purpose of this study was to describe the structure of the reproductive tract of males of Potamotrygon magdalenae before, during, and after they acquire sexual maturity, and to establish the first maturity scale for males within the family Potamotrygonidae. The male reproductive tract of P. magdalenae is composed of testes, efferent ducts, epididymides, deferent ducts, seminal vesicles, Leydig, alkaline, and clasper glands, and claspers, all of which are paired and functional. Four sexual maturity stages were established: immature, maturing, reproductively active, and resting. The degree of claspers calcification is also a good indicator of sexual maturity in this species. The testes are lobulated, each lobe contains numerous spermatocysts which are organized in zones and are displaced radially from germinal papillae to the spermatozoa zone where individual spermatozoa are conveyed to the efferent ducts. The epididymis can be regionalized in head, body, and tail; these regions are distinguished by external pigmentation and by the epithelium lining configuration. The tail of the epididymis is connected with the deferent duct and this, in turn, with the seminal vesicle. The spermatozoa are organized in spermatozeugmata which begin to form in the deferent duct; this latter organ is attached laterally at the Leydig gland that is composed by simple glandular units. Irregular and vesicular secretions can be found in the genital ducts. These secretions might be associated with the maturation of the spermatozoa and formation of spermatozeugmata. The male reproductive tract of P. magdalenae is similar to other elasmobranchs; however, two types of primary spermatogonia, an epididymis internally regionalized, and the presence and structure of spermatozeugmata are specific features not yet described in freshwater stingrays. Most of the year, the males were reproductively active, however, few resting adult males occurred during one of the months of the lowest waters. J. Morphol. 276:273–289, 2015. © 2014 Wiley Periodicals, Inc.     

Labial gland marking secretions of male Bombus lucorum bumblebees from Europe and China reveal two separate species: B. lucorum (Linnaeus 1761) and Bombus minshanicola (Bischoff 1936)

Differences in male bumblebee labial gland secretions can be used to separate species pairs. Cephalic labial gland secretions from male Bombus lucorum Linnaeus bumblebees from Europe, and male ‘B. lucorum’ bumblebees from China, were analyzed by gas chromatography/mass spectrometry (GC/MS). In the European B. lucorum L., ethyl tetradec-9-enoate was identified as the major compound (58% peak area), along with a complex mixture of straight-chain alkenols, acetates, hydrocarbons, and wax type esters. In contrast, the main component of the labial gland secretions of the Chinese ‘B. lucorum’, ethyl dodecanoate (31%), did not dominate the secretion, which additionally contained large amounts of 3,7,11-trimethyldodeca-6,10-dien-1-ol (=2,3-dihydrofarnesol, 24% peak area), ethyl octadec-9-enoate (15% peak area) and a mixture of acyclic diterpenes (alcohols, aldehydes, and acetates). Furthermore, in B. lucorum, 3,7,11-trimethyldodeca-6,10-dien-1-ol was only detected in trace amounts (0.05%) and ethyl octadec-9-enoate corresponded to only 0.8% of the mixture. These results indicate that ‘B. lucorum’ from China is a separate taxon from B. lucorum L. Further analysis revealed that ‘B. lucorum’ from China has been previously described as Bombus minshanicola Bischoff 1936 from Gansu/China. Differences in the chemical composition of male bumblebee labial gland secretions are discussed in comparison with other known bumblebee species pairs.     

The management of metabolic energy storage during the life cycle of mayflies: a comparative field investigation of the collector-gatherer <Emphasis Type="Italic">Ephemera danica</Emphasis> and the scraper <Emphasis Type="Italic">Rhithrogena semicolorata</Emphasis>

The concentration and seasonal dynamics of the major energy storage components, triglycerides and glycogen, were measured in two species of mayfly (Rhithrogena semicolorata and Ephemera danica) with contrasting life cycle strategies living in a small mountain stream. E. danica is a burrowing, semivoltine collector-gatherer; R. semicolorata is univoltine and scrapes periphyton from stones. This is the first publication which focuses on the role of metabolic energy sources during the larval life span of two mayfly species until the larvae emerge. Although triglycerides are the major energy reserve in both species (>84% of total energy storage) throughout the whole larval development their seasonal dynamic differed considerably. In R. semicolorata the triglyceride concentration declined during the last weeks prior to emergence in both sexes. The same pattern was found in female larvae of E. danica, but not in male E. danica. It is suggested that females use triglycerides in the last larval stages for egg maturation, which is completed in the last larval instar. In male E. danica the triglyceride concentrations remained high until emergence, presumably due to their high energy demands as adults for their swarming flights. Glycogen concentrations did not show such a difference between species and sexes. Its significance as a storage substrate for energy is rather low; however, concentrations decreased in both species and sexes prior to emergence.     

DELAYED MATURATION,NEOTENY, AND SOCIAL SYSTEM DIFFERENCES IN TWO MANAKINS OF THE GENUS CHIROXIPHIA

Long-tailed manakins (Chiroxiphia linearis) and swallow-tailed manakins (C. caudata) are closely related, sexually dichromatic, lek-breeding species in which male mating success is highly skewed. Males of both species delay plumage maturation. Before reaching the definitive state, they wear a sequence of feather coats less conspicuous than that of the adult. Nondefinitive plumages probably enhance male survival in the two species; in C. caudata they may also enhance breeding success of young males, who may be fully reproductively mature their first year. In C. linearis testicular development is retarded along with that of plumage, although males may be physiologically capable of breeding prior to the acquisition of the definitive plumage. This difference probably reflects differences in the social systems of the two species. Five hypotheses have been proposed to explain the evolution of delayed plumage maturation. The sexual-selection, cryptic-breeder, and winter-adaptation hypotheses suggest that it functions primarily to enhance survival of young males. The juvenile- and female-mimicry hypotheses emphasize enhancement of immediate mating success. Support is provided for all but the female-mimicry hypothesis; it is argued that data are more consistent with juvenile mimicry and a neotenic origin of nondefinitive plumages.     

Reduced cephalic labial glands in the male bumblebees of the subgenus Rhodobombus Dalla Torre (Hymenoptera: Apidae: Bombus Latreille)

Until now, all males of bumblebees are known to attract conspecific females by marking places with a chemical signal secreted by their cephalic labial gland. The specific combination of patrolling flight and scentmarking is of outmost importance to bumblebees as it is their main species specific recognition system. We report here the lack of that recognition system in species of the subgenus Rhodobombus by comparing the morphology and histology of the cephalic labial glands of Bombus (Rhodobombus) mesomelas with those of a well known species, B. (Bombus) terrestris (L.) The cephalic labial glands are much smaller in B. mesomelas than in other bumblebees species and most likely non-functional. This morphology is also observed in B. pomorum and B. brodmanni which also belong to the subgenus Rhodobombus. Our morphological observations are consistent with the chemical analyses of the secretions in B. mesomelas and B. pomorum which are very limited and of most unusual composition for a bumblebee. In addition, whereas other species are thought to use their barbae mandibularis to spread their secretion onto the substrate, these structures are absent in all Rhodobombus. All these observations would mean that the males of Rhodobombus do not attract females from far away by the use of their cephalic labial gland secretions.     

THE VULNERABILITY OF POLLEN AND FUNGAL SPORES TO ANT SECRETIONS: EVIDENCE AND SOME EVOLUTIONARY IMPLICATIONS

The quality of Brassica and Acacia pollen is adversely affected by exposure to secretions drawn from the metapleural gland of the ant Myrmecia nigriscapa. Ultrastructural studies show that the apparently lipoidal secretions destroy both the plasma membranes and those of the cytoplasmic organelles. Exposure to the integument of this ant prevents the normal hydration of pollen grains. Exposure to the integument of a species of Camponotus, which does not appear to possess metapleural gland openings, also reduces pollen quality. Mycelial development in seven species of soil-dwelling fungi is inhibited by secretions of the metapleural gland. Two fungal species that are normally entomogenous are most vulnerable to the secretion. It is suggested that the metapleural gland is producing a powerful antibiotic and that the antibiosis that results from its activity, on one hand, alleviates the attacks of microorganisms in nest cavities, while on the other, incidentally kills pollen grains, possibly blocking the evolution of ant pollination systems.     

First Chemical Analysis and Characterization of the Male Species‐Specific Cephalic Labial‐Gland Secretions of South American Bumblebees

The evolution of signals and reproductive traits involved in the pre‐mating recognition has been in focus of abundant research in several model species, such as bumblebees (genus Bombus). However, the most‐studied bumblebee reproductive trait, the male cephalic labial gland secretions (CLGS), remains unknown among bumblebee species from South America. In this study, the CLGS of five South American bumblebees of the subgenera Thoracobombus (Bombus excellens and B. atratus) and Cullumanobombus (B. rubicundus, B. hortulanus, and B. melaleucus) were investigated, by comparing the chemical compositions of their secretions to those of closely related European species. The results showed an obvious interspecific differentiation in both subgenera. The interspecific differentiation among the species of the Thoracobombus subgenus involved different compounds present at high contents (main compounds), while those of the Cullumanobombus subgenus shared the same main components. This suggests that among the species of the Cullumanobombus subgenus, the differentiation in minor components could lead to species discrimination.     

Reproductive cycle of the Azorean endemic land snail Oxychilus (Drouetia) brincki Riedel, 1964 (Gastropoda: Pulmonata)

The life history of Oxychilus (Drouetia) brincki (Riedel, 1964), an endemic species from Santa Maria island (Azores), is addressed here for the first time. One population was analyzed for 1 year, to study the reproductive cycle and to assess the validity of three morphometric parameters as maturation diagnostic characters. The positive correlation between morphometric parameters (maximum diameter and number of whorls) can be useful to define the reproductive maturation status particularly during the active reproductive season. Oxychilus brincki is reproductively active between May and October/November; the residual values of mature oocytes between February and April allow reproduction to occur throughout the year. Our observations on gonadal maturation show that there is a functional protandric tendency and that photoperiod probably triggers the maturation process, whereas temperature acts mainly as a regulatory factor. Contrary to other terrestrial pulmonate snails that have a well demarcated reproductive cycle, Azorean species are gametogenically active throughout almost all the year.     

Evidence for a coelomic maturation factor controlling oocyte maturation in the polychaete Arenicola marina (L.)

Summary

Previous studies on Arenicola marina suggested that oocyte maturation was induced by a single maturation hormone from the prostomium. This maturation hormone was thought to act directly on the oocyte (Meijer and Durchon, 1977), A recently described species, Arenicola defodiens (Cadman and Nelson-Smith, 1993), morphologically very similar to A. marina, has been found at the sampling sites described by Meijer and Durchon (1977). Results presented here from studies on British populations of Arenicola marina show that in this species, oocyte maturation is controlled by two hormonal steps. The first step involves the prostomial maturation hormone. The second step depends on a maturation inducing substance in the coelomic fluid. We will refer to this as the coelomic maturation factor (CMF). A reliable in vitro assay for oocyte maturation in the lugworm Arenicola marina has been adopted. It utilizes fluorescence staining of the chromosome material with DNA labelling dyes (Hoechst 33342 and 33258). Maturation of oocytes in A. marina involves germinal vesicle breakdown (GVBD). This is accompanied by the movement of chromosomes from late prophase to metaphase of meiosis I and chromosome condensation. The chromosomes are stained brightly by the dyes and their relative positions can be easily identified so that mature and immature eggs can be distinguished by the differences in chromosome position and form. The development of the in vitro fluorescence assay has enabled us to demonstrate that there are two endocrine steps involved in the induction of oocyte maturation. We have begun the characterization of CMF, and data show this to be a thermolabile molecule with a molecular mass greater than 10 kd.     

Ontogenetic change in effectiveness of chemical defence against different predators in Oxycarenus true bugs

Many prey species change their antipredator defence during ontogeny, which may be connected to different potential predators over the life cycle of the prey. To test this hypothesis, we compared reactions of two predator taxa – spiders and birds – to larvae and adults of two invasive true bug species, Oxycarenus hyalinipennis and Oxycarenus lavaterae (Heteroptera: Oxycarenidae) with life-stage-specific chemical defence mechanisms. The reactions to larvae and adults of both true bug species strikingly differed between the two predator taxa. The spiders were deterred by the defences of adult bugs, but the larval defences were ineffective against them. By contrast, birds attacked the larvae considerably less often than the adult bugs. The results indicate a predator-specific ontogenetic change in defence effectiveness of both Oxycarenus species. The change in defence is likely linked to the life-stage-specific composition of secretions in both species: whereas secretions of larvae are dominated by unsaturated aldehydes, secretions of adults are rich in terpenoids, which probably serve dual function of defensive chemicals and pheromones. Our results highlight the variation in defence between different life stages and the importance of testing responses of different types of predators.     

Male induction and function of workers' excitability during swarming in leaf-cutting ants (Atta and Acromyrmex) (Hymenoptera,Formicidae)

Worker excitation in species of Atta and Acromyrmex prior to and during the swarming of reproductives is initiated by secretions from the male mandibular glands. During this phase, workers are highly aggressive, attacking all foreign objects. Field data suggest that this behavior is not only advantageous in protecting sexuals as they swarm, but also to prime workers to execute queens trying to initiate colonies near mature colonies following nuptial flights.