Your search keyword '"Isoptera anatomy & histology"' showing total 78 results

1. Revised systematic position of Nasutitermes brevipilus Emerson, 1925 (Isoptera: Termitidae: Nasutitermitinae) and the designation of Hyleotermes gen. nov.

Author

Cuezzo C, Scheffrahn RH, and Constantino R

Subjects

Animals, Phylogeny, Bayes Theorem, Isoptera anatomy & histology

Abstract

A new monotypic nasute termite genus, Hyleotermes gen. nov., is proposed for Nasutitermes brevipilus Emerson, 1925. Hyleotermes brevipilus, comb. nov., is redescribed and illustrated based on the morphology of the imago, soldier, and worker castes. It is expanded into Amazonia. The soldier of Hyleotermes differs from that of Nasutitermes Dudley, 1890 in that the former has a long and cylindrical nasus and the head capsule lacks long setae and is covered with microscopic setae. Unlike the worker of Nasutitermes, the Hyleotermes worker has a short mixed segment and an enteric valve is adorned with narrow spines on conical bases. The phylogenetic position of H. brevipilus comb nov., is reconstructed based on a dataset with two mitochondrial markers (COI and 16SrRNA) for 36 terminals, under maximum likelihood and Bayesian inference. Results corroborate that this species is unrelated to Nasutitermes and should be excluded from the genus.

Published

2022

2. A loop-mediated isothermal amplification (LAMP) assay for the detection of Cryptotermes brevis West Indian drywood termite (Blattodea: Kalotermitidae).

Author

Andjic V, Maxwell A, Gorton M, and White DM

Subjects

Animals, Australia, Molecular Diagnostic Techniques, Nucleic Acid Amplification Techniques, RNA, Ribosomal, 16S genetics, Cockroaches, Isoptera anatomy & histology

Abstract

Cryptotermes brevis is one of the most destructive invasive termites in the subtropics and tropics and is a common biosecurity intercept at the Australian border. Drywood termite species are cryptic and difficult to identify morphologically in situations when soldiers or imagos are unavailable. We developed a novel DNA based loop-mediated isothermal amplification (LAMP) assay to detect C. brevis and differentiate it from other drywood termites. Validated voucher specimens of 30 different drywood termite species were obtained from several insect collections from which DNA was extracted and amplified. The amplicons containing partial mitochondrial 16S rRNA were sequenced and a DNA database was created from which C. brevis LAMP primers were developed, optimized, and tested. The assay was assessed against a range of target and non-target species and found to be specific, successfully amplifying the target specimens of C. brevis in under 30 min. Amplification success was variable against C. brevis faecal pellets due to minute, unmeasurable or degraded DNA. This LAMP test is a new tool for the rapid detection of C. brevis that will enable faster and less destructive management of drywood termite infestations., (© 2022. Crown.)

Published

2022

3. Taxonomic and Ecological Notes on Termes propinquus Holmgren, 1914 Known from Sumatra (Blattodea: Termitoidae: Termitidae).

Author

Muarrif S, Samadi S, Jauharlina J, Sutekad D, and Syaukani S

Subjects

Animals, Indonesia, Islands, Isoptera anatomy & histology, Somatotypes, Ecosystem, Isoptera classification

Abstract

The genus Termes Linneus, 1758 consisting of a total of 24 valid named species known from the Old World, is a very heterogeneous group of termites and seems to involve many taxonomic obscurities and confusions. In the island of Sumatra, the sixth-largest island located in the Southeast Asian tropics, four species of Termes have been found, namely, T. comis , T. laticornis , T. rostratus , and T. propinquus . Termes propinquus is also known from Brunei, Indonesia (Kalimantan and Sumatra), Malaysia, and Thailand. However, previous authors have mentioned that T. propinquus has been poorly discriminated from the other congeners, especially T. rostratus . Therefore, the present study aimed at clarifying the discrimination of Termes propinquus from the morphologically similar congeners from Sumatra. A total of 14 nests were collected using a standardized sampling protocol and visual colony searching in Sumatra and its adjacent island. As a result of a careful morphological examination of the soldier caste, T. propinquus was discriminated from the three other congeners by a combination of the following characteristics: distinctly long frontal projection, larger head capsule, and 2 nd antennal segment distinctly longer than the 3 rd . The redescription of the soldier caste of T. propinquus and a key to Termes species known from Sundaland are provided. The nests of T. propinquus were attached to the bases of living trees, clinging to stumps or the bases of the dead tree, or were epigeal., Competing Interests: The authors declare that they have no conflicts of interest., (Copyright © 2022 Samsul Muarrif et al.)

Published

2022

4. Caste development and sex ratio of the Ryukyu drywood termite Neotermes sugioi and its potential mechanisms.

Author

Miyaguni Y, Agarie A, Sugio K, Tsuji K, and Kobayashi K

Subjects

Animals, Biological Evolution, Body Size, Female, Isoptera anatomy & histology, Longevity, Male, Quantitative Trait, Heritable, Reproduction, Isoptera growth & development, Life Cycle Stages, Sex Ratio

Abstract

Sex allocation is one of the most studied traits in evolutionary biology because its theoretical predictions match the empirical data. Here, using the Ryukyu dry-wood termite Neotermes sugioi, we investigated several factors that could bias the sex allocation in three populations (Okinawa, Ishigaki/Iriomote, and Yonaguni). Our survey showed that there were more queen-only colonies than king-only colonies in these populations, suggesting a longer lifespan of the queens than that of the kings. In this condition, sex-asymmetric reproductive value (SRV) theory predicts female bias, because even after the short-lived kings die, the long-lived queens can continue reproduction with their sons. However, sex allocation in this species seemed to be biased toward males. Furthermore, we examined the possibility of intrasexual competition among siblings (ICS). If ICS is the cause of the bias, the allocation is expected to change depending on the total investment in sexual offspring. However, the biomass of both male and female alates increased linearly with the increase in the total biomass of the alates in these populations. Thus, neither the SRV nor the ICS theory could explain the male-biased sex ratio of N. sugioi. On the basis of these results, we discuss the remaining possibilities in this species., (© 2021. The Author(s).)

Published

2021

5. Biochemical, molecular, and morphological variations of flight muscles before and after dispersal flight in a eusocial termite, Reticulitermes chinensis.

Author

Zhang ZY, Ren J, Chu F, Guan JX, Yang GY, Liu YT, Zhang XY, Ge SQ, and Huang QY

Subjects

Animals, Female, Male, Microscopy, Electron, Transmission, Muscles anatomy & histology, Muscles chemistry, Muscles physiology, Muscles ultrastructure, Reproduction, Flight, Animal, Isoptera anatomy & histology, Isoptera chemistry, Isoptera physiology, Isoptera ultrastructure

Abstract

Swarming behavior facilitates pair formation, and therefore mating, in many eusocial termites. However, the physiological adjustments and morphological transformations of the flight muscles involved in flying and flightless insect forms are still unclear. Here, we found that the dispersal flight of the eusocial termite Reticulitermes chinensis Snyder led to a gradual decrease in adenosine triphosphate supply from oxidative phosphorylation, as well as a reduction in the activities of critical mitochondrial respiratory enzymes from preflight to dealation. Correspondingly, using three-dimensional reconstruction and transmission electron microscopy (TEM), the flight muscles were found to be gradually deteriorated during this process. In particular, two tergo-pleural muscles (IItpm5 and III-tpm5) necessary to adjust the rotation of wings for wing shedding behavior were present only in flying alates. These findings suggest that flight muscle systems vary in function and morphology to facilitate the swarming flight procedure, which sheds light on the important role of swarming in successful extension and fecundity of eusocial termites., (© 2020 Institute of Zoology, Chinese Academy of Sciences.)

Published

2021

6. Anatomical specializations of the gizzard in soil-feeding termites (Termitidae, Apicotermitinae): Taxonomical and functional implications.

Author

Romero Arias J, Chevalier C, and Roisin Y

Subjects

Animals, Diet, Gastrointestinal Tract anatomy & histology, Isoptera classification, Soil, Species Specificity, Isoptera anatomy & histology

Abstract

The anatomy of the workers' digestive tube is essential in taxonomical studies of soil-feeding Apicotermitinae termites, especially in soldierless lineages. Two structures, the mesenteric-proctodeal junction and the enteric valve, have long been important to distinguish genera and species. By contrast, the gizzard (proventriculus) has been almost ignored by taxonomists because of its generally regressed state in soil-feeding termites. In this study, we document in detail for the first time the sclerotized structures and ornamentations in the gizzard in the Apicotermitinae subfamily. We identified two main clusters of species: those without ornamentations and those exhibiting a sclerotized pulvillar armature, which may include spicules or spines of diverse sizes, numbers and dispositions. The latter group comprises the majority of African soldierless species, a widely diverse and dominant group in tropical forests and savannas. We outline the potential role of the anatomy of the gizzard in the taxonomy of Apicotermitinae based on the interspecific anatomical variation of the pulvillar armatures. We suggest that sclerotized ornamentations regulate the flow of food particles and break or lacerate aggregates to facilitate the access of enzymes in the midgut., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

7. Comparative anatomy of the gut of the South American species of Amitermes, with description of two new species and an identification key based on soldiers and workers.

Author

Rocha MM and Cancello EM

Subjects

Animals, Gastrointestinal Tract anatomy & histology, Isoptera anatomy & histology, Isoptera classification

Abstract

In this contribution we present updates on the taxonomy and morphology of the South American species of Amitermes. Two new species are described: Amitermes bandeirai, sp. n., from Brazil, and Amitermes lilloi, sp. n., from Argentina. Amitermes nordestinus is a junior synonym of Amitermes aporema. The imago of A. aporema is described for the first time. Detailed comparative gut anatomy of the eight species is presented for the first time. The geographic distribution of Amitermes in South America is expanded and the distribution patterns of some species are discussed.

Published

2020

8. Comparative study with scanning electron microscopy on the antennal sensilla of two main castes of Coptotermes formosanus Shiraki (Blattaria:Rhinotermitidae).

Author

Fu BX, Rong NH, Hong J, Zhu ZR, Mo JC, and Zhang D

Subjects

Animals, Arthropod Antennae anatomy & histology, Chemoreceptor Cells physiology, Female, Male, Mechanoreceptors physiology, Microscopy, Electron, Scanning, Sex Characteristics, Cockroaches anatomy & histology, Isoptera anatomy & histology, Sensilla anatomy & histology

Abstract

Sensilla on antennae of the workers and soldiers of Coptotermes formosanus Shiraki were examined by scanning electron microscopy in this study. As the two castes were allocated totally different tasks in the termite colony, we wondered if there was a big difference between their antennae which were recognized as the main sensory appendages of insects. Therefore, detailed information about the morphology, distribution and abundance of various types of sensilla was described in this report. However, our results showed no obvious caste dimorphism was observed. The morphology of antennae and sensilla as well as the general sensilla distribution pattern did not differ between the workers and soldiers of C. formosanus. In total, seven types of sensilla including sensilla chaetica (I, II, III), Böhm bristles, sensilla campaniformia (I, II, III), sensilla trichodea, sensilla basiconica, sensilla trichodea curvata and sensilla capitula were found on the antennae. Additionally, small apertures were found scattered randomly in the antennal cuticle. Functions of these sensilla or structures were proposed to be mechanoreceptors, chemo-receptors, thermo-hygroreceptors, co 2 -receptors etc. which probably play crucial roles in their various social behaviors., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

9. Development and comparative morphology of the reproductive system in different aged males of the drywood termite Cryptotermes brevis (Blattaria, Isoptera, Kalotermitidae).

Author

Laranjo LT, da Silva IB, and Costa-Leonardo AM

Subjects

Animals, Genitalia cytology, Genitalia ultrastructure, Male, Aging physiology, Genitalia anatomy & histology, Genitalia growth & development, Isoptera anatomy & histology, Isoptera growth & development

Abstract

Termites are eusocial cockroaches, which have received great attention due to their diversity of reproductive strategies. Although these novelties allow new interpretations concerning the mating biology of these insects, studies highlighting the structure of the reproductive system are limited to some termite lineages. Here we provide the first comparative analysis of the reproductive system of a drywood termite, using different aged males of Cryptotermes brevis as models. This species represents an important structural pest in tropical regions, and most aspects of its reproductive biology remain unknown, especially on males. The reproductive apparatus of C. brevis is equipped with paired testes, composed of seven testicular lobes, in which developing spermatozoa are located. The basal portion of the lobes connects to the vasa deferentia and transport spermatozoa to a pair of enlarged chambers, the seminal vesicles. These structures join in a median ejaculatory duct, which opens to the external region through a retractile penis. Spermatozoa were observed in all C. brevis males, exhibiting elongated morphology and measuring about 10 μm in length/4 μm in width. Compared with last-instar nymphs and alates, functional kings showed enlarged testes and seminal vesicles, as well as an intense secretory activity towards the lumen of the latter structures. Histochemical tests evidenced strongly PAS and xylidine Ponceau positive reactions of the secretion only in functional kings, indicating the occurrence of glycoproteins. Thus, we suggest that morphophysiological changes establish during the maturation of the reproductive system in C. brevis.

Published

2020

10. Unique Morphogenesis in the Damp-Wood Termite: Abscission of the Stylus during Female Reproductive Caste Differentiation.

Author

Oguchi K and Miura T

Subjects

Animals, Female, Isoptera anatomy & histology, Sex Differentiation, Isoptera growth & development, Molting, Morphogenesis

Abstract

Eusocial insects organize their colonies based on division of labor and caste differentiation, in which caste-specific morphologies are sculpted during postembryonic development. In the differentiation between reproductive and sterile castes, characteristics related to mating and reproduction are developed in reproductives, and degenerated in neuters, although little is known about the developmental regulations during the differentiation. In some species of termites, a sensory protrusion at the posterior end of the abdomen, the stylus, is known to disappear in female reproductives. In the present study, we performed anatomical and histological analyses in the damp-wood termite Hodotermopsis sjostedti to elucidate the developmental process underlying the disappearance of the stylus during neotenic and alate differentiation. Although it was first hypothesized that styli were hidden beneath the enlarged seventh sternite, our observation results found out that the styli were completely lost in reproductive females. Further histological observations revealed that the stylus disappearance was not accomplished by degeneration process; rather, styli were separated from the abdomen and discarded with the exoskeleton (exuviae) during the molt into the reproductive caste. This phenomenon in which live tissues are discarded through developmental processes is suggested to be a case of abscission, as seen in plant leaves.

Published

2019

11. Drywood Pest Termite Cryptotermes brevis (Blattaria: Isoptera: Kalotermitidae): a Detailed Morphological Study of Pseudergates.

Author

Cesar CS, Giacometti D, Costa-Leonardo AM, and Casarin FE

Subjects

Animals, Isoptera anatomy & histology, Juvenile Hormones, Larva anatomy & histology, Nymph anatomy & histology, Wings, Animal anatomy & histology, Isoptera classification

Abstract

The Kalotermitidae Cryptotermes brevis (Walker) presents colonies that lack a true worker caste. They have totipotent worker-like individuals named pseudergates. Few studies have characterized the morphology of immature instars, including pseudergates. In order to identify these instars and characterize the pseudergates, we conducted a comparison between morphometric and morphological variations among immature individuals of C. brevis colonies. Juvenile hormone analog (JHA) was used in the first instar nymphs to induce regressive molts and compare morphological differences between nymphs and pseudergates. Results showed the existence of three larval instars and four nymphal instars. These immatures were morphologically characterized. Individuals classified as third instar larvae presented white body, 10 to 12 antennal articles, absent or small non-pigmented compound eyes, and absence of wing buds. Pseudergates presented pigmented abdomen and sclerotized cuticle, 10 to 12 antennal articles, and absent or small compound eyes, and few specimens had large pigmented compound eyes and absence of wing buds. First instar nymphs had pigmented abdomen and sclerotized cuticle, 10 to 12 antennal articles, both large non-pigmented and pigmented compound eyes, the presence of wing buds. Bioassays using JHA on first instar nymphs resulted in a large percentage of nymph-soldier intercastes. We concluded that abdomen pigmentation and sclerotized cuticle are good characters to differentiate pseudergates from larvae and the absence of wing buds is a good character to differentiate pseudergates from nymphs. Our findings not only contribute to the basic biological and morphological information of this species but also help to identify correctly pseudergates in further studies that involve applied bioassays.

Published

2019

12. Symbiogenesis: Beyond the endosymbiosis theory?

Author

Aanen DK and Eggleton P

Subjects

Animals, Gastrointestinal Tract anatomy & histology, Isoptera anatomy & histology, Biological Evolution, Phylogeny, Symbiosis

Abstract

Symbiogenesis, literally 'becoming by living together', refers to the crucial role of symbiosis in major evolutionary innovations. The term usually is reserved for the major transition to eukaryotes and to photosynthesising eukaryotic algae and plants by endosymbiosis. However, in some eukaryote lineages endosymbionts have been lost secondarily, showing that symbiosis can trigger a major evolutionary innovation, even if symbionts were lost secondarily. This leads to the intriguing possibility that symbiosis has played a role in other major evolutionary innovations as well, even if not all extant representatives of such groups still have the symbiotic association. We evaluate this hypothesis for two innovations in termites (Termitoidae, also known informally as "Isoptera"): i) the role of flagellate gut protist symbionts in the transition to eusociality from cockroach-like ancestors, and ii) the role of non-gut associated symbionts in the transition to 'higher' termites, characterized by the absence of flagellate gut protists. In both cases we identify a crucial role for symbionts, even though in both cases, subsequently, symbionts were lost again in some lineages. We also briefly discuss additional possible examples of symbiogenesis. We conclude that symbiogenesis is more broadly applicable than just for the endosymbiotic origin of eukaryotes and photosynthetic eukaryotes, and may be a useful concept to acknowledge the important role of symbiosis for evolutionary innovation. However, we do not accept Lynn Margulis's view that symbiogenesis will lead to a paradigm shift from neoDarwinism, as the role of symbiosis in evolutionary change can be integrated with existing theory perfectly., (Copyright © 2017. Published by Elsevier Ltd.)

Published

2017

13. Secondary queens in the parthenogenetic termite Cavitermes tuberosus develop through a transitional helper stage.

Author

Hellemans S, Fournier D, Hanus R, and Roisin Y

Subjects

Animals, Female, Isoptera anatomy & histology, Male, Nymph, Parthenogenesis, Principal Component Analysis, Sex Ratio, Sexual Behavior, Animal, Social Behavior, Biological Evolution, Isoptera growth & development

Abstract

In termite species with asexual queen succession (AQS), parthenogenetically produced immatures mostly differentiate into secondary queens, called "neotenics." In order to elucidate the ontogenetic origin of neotenics in Cavitermes tuberosus (Termitidae: Termitinae), a neotropical termite with AQS, we investigated developmental pathways of offspring according to their sex and genetic origin using both morphometric and genetic tools. The caste system of C. tuberosus follows the classical pathway of Termitidae. After the first larval instar, there is a bifurcation between two developmental lines. The apterous line is composed of a second larval instar, several worker instars, presoldiers, and soldiers. Workers display a consistent male bias and soldiers are female-only. The nymphal line is composed of five nymphal instars and the imago stage. We highlight that neotenic queens derive from third and fourth instar nymphs displaying peculiar morphological traits, here termed "aspirants," most of which are produced by parthenogenesis. Aspirants are present in all nests and perform worker tasks while waiting for the queen's death to differentiate into neotenic queens. Aspirants can successfully be used to demonstrate the occurrence of parthenogenesis in termite species whose reproductive cores are difficult to access., (© 2017 Wiley Periodicals, Inc.)

Published

2017

14. Hypopharynx in termites: Morphological and functional aspects.

Author

Silva IBD and Costa-Leonardo AM

Subjects

Animals, Isoptera physiology, Microscopy, Electron, Scanning, Hypopharynx anatomy & histology, Hypopharynx physiology, Isoptera anatomy & histology

Abstract

The hypopharynx morphology in workers, pseudergates, and soldiers was described in six families of Isoptera using scanning electronic microscopy. This is the first comparative study to detail the hypopharynx among different species of termites, and included 4 one-piece type (OP) and 9 multiple-pieces type termites (MP). The results showed different arrangements of the hypopharynx trichomes, with fewer of these structures in the frontal region of the hypopharynx in pseudergates and soldiers of OP termites. These characteristics did not apply to Serritermes serrifer, since its pseudergates displayed a large quantity of trichomes on the frontal surface. This species may not resemble other OP termites because it does not live inside a piece of wood, but rather are inquilines inside Cornitermes spp. nests. Similar morphology of this mouthpart was observed in the different species of MP termites, with workers exhibiting many unidirectional trichomes on the frontal surface and soldiers presenting fewer of these trichomes. The morphology of the hypopharynx seems to reflect the lifestyle of these species, because MP termites are able to exploit external water sources. Since different arrangements of hypopharynx trichomes are used for water intake via capillary action, the present data reinforce the soldiers' dependence on workers to obtain water and food through the process of trophallaxis. Three different types of sensilla were observed on the lateral region of the hypopharynx: chaetica, basiconica and campaniformia. Chaetica act as chemoreceptors, while basiconica and campaniformia are mechanoreceptors, used in feeding and environmental perception. Better understanding of hypopharynx morphology permits the inference of ecological habits among OP and MP termites, and reflects the physiological differences between workers and soldiers., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

15. Morphophysiological study of digestive system litter-feeding termite Cornitermes cumulans (Kollar, 1832).

Author

de Sousa G, Dos Santos VC, de Figueiredo Gontijo N, Constantino R, de Oliveira Paiva E Silva G, Bahia AC, Gomes FM, and de Alcantara Machado E

Subjects

Animals, Digestive System anatomy & histology, Feeding Behavior, Hydrogen-Ion Concentration, Isoptera physiology, Isoptera ultrastructure, Salivary Glands anatomy & histology, Salivary Glands ultrastructure, Isoptera anatomy & histology

Abstract

Termites are the major decomposers of lignocellulosic biomass on Earth and are commonly considered as biological reactor models for lignocellulose degradation. Despite their biotechnological potential, few studies have focused on the morphophysiological aspects of the termite digestive system. We therefore analyze the morphology, ultrastructure and gut luminal pH of the digestive system in workers of the litter-feeding termite Cornitermes cumulans (Blattodea: Termitidae). Their digestive system is composed of salivary glands and an alimentary canal with a pH ranging from neutral to alkaline. The salivary glands have an acinar structure and present cells with secretory characteristics. The alimentary canal is differentiated into the foregut, midgut, mixed segment and hindgut, which comprises the ileum (p1), enteric valve (p2), paunch (p3), colon (p4) and rectum (p5) segments. The foregut has a well-developed chewing system. The midgut possesses a tubular peritrophic membrane and two cell types: digestive cells with secretory and absorptive features and several regenerative cells in mitosis, both cell types being organized into regenerative crypts. The mixed segment exhibits cells rich in glycogen granules. Hindgut p1, p4 and p5 segments have flattened cells with a few apical invaginations related to mitochondria and a thick cuticular lining. Conversely, the hindgut p3 segment contains large cuboid cells with extensive apical invaginations associated with numerous mitochondria. These new insights into the morphophysiology of the digestive system of C. cumulans reveal that it mobilizes lignocellulose components as a nutritional source by means of a highly compartmentalized organization with specialized segments and complex microenvironments.

Published

2017

16. A taxonomic revision of the neotropical termite genus Diversitermes (Isoptera: Termitidae: Nasutitermitinae).

Author

Oliveira DE and Constantino R

Subjects

Animal Distribution, Animal Structures anatomy & histology, Animal Structures growth & development, Animals, Body Size, Ecosystem, Female, Isoptera anatomy & histology, Isoptera growth & development, Male, Organ Size, Isoptera classification

Abstract

The taxonomy of the neotropical termite genus Diversitermes Holmgren 1912 is revised. Three species are recognized as valid: D. castaniceps (Holmgren 1910), D. diversimiles (Silvestri 1901) and D. tiapuan, sp. n. Identification keys based on soldiers and workers are presented. Diversitermes aporeticus Mathews 1977 is transferred to the genus Velocitermes Holmgren 1912. Diversitermes needhami Roonwal, Chhotani & Verma 1981 is a junior synonym of Velocitermes heteropterus (Silvestri 1901), and D. eidmanni Roonwal, Chhotani & Verma 1981 is a junior synonym of D. castaniceps (Holmgren 1910). Eutermes strelnicovi John 1920 (=Nasutitermes strelnicovi) is a junior synonym of D. diversimiles. All castes of the three valid species are described and illustrated. Distribution maps are presented for all species.

Published

2016

17. A taxonomic revision of the Neotropical termite genus Rhynchotermes (Isoptera, Termitidae, Syntermitinae).

Author

Constantini JP and Cancello EM

Subjects

Animal Distribution, Animal Structures anatomy & histology, Animal Structures growth & development, Animals, Body Size, Ecosystem, Female, Isoptera anatomy & histology, Isoptera growth & development, Male, Organ Size, Isoptera classification

Abstract

We herein revise the taxonomy of the Neotropical syntermitine genus Rhynchotermes Holmgren. Seven species were recognized and diagnosis given for all available castes. This includes two new species: Rhynchotermes amazonensis Constantini & Cancello sp. nov. and Rhynchotermes matraga Constantini & Cancello sp. nov. Rhynchotermes guarany Cancello is recognized as syn. nov. of Rhynchotermes nasutissimus (Silvestri) and Rhynchotermes nyctobius Mathews syn. nov. of Rhynchotermes diphyes Mathews. The three other formerly described species include Rhynchotermes perarmatus (Snyder), Rhynchotermes piauy Cancello and Rhynchotermes bulbinasus Scheffrahn. We also provide a key to the soldiers of the genus, a distribution map of the species as well as illustrations and biological notes for all species.

Published

2016

18. Functional transformation series and the evolutionary origin of novel forms: evidence from a remarkable termite defensive organ.

Author

Kaji T, Keiler J, Bourguignon T, and Miura T

Subjects

Animals, Female, Head anatomy & histology, Isoptera classification, Male, Biological Evolution, Isoptera anatomy & histology, Isoptera genetics

Abstract

The origins of evolutionary novelties are often deeply puzzling. They are generally associated with new functions that were absent in ancestors. The new functional configuration should arise via intermediate stages without any loss of function or impediment to the whole organism during the transitions. Therefore, understanding of the functional configurations of transitional states can shed light on how novel forms arise. Here we infer the evolutionary origin of a highly specialized termite defensive organ "nasus" where different functions overlap in different structural configurations at intermediate evolutionary stages to ensure that each phase is functional. Soldiers of a nasutitermitine termite use reconfigured mandibular muscles to squirt a viscous secretion from a nozzle-like head projection (the nasus). This contrasts sharply with the primitive defensive strategy where mandibles are used to bite. MicroCT observations of soldiers of Nasutitermes takasagoensis and of species with the ancestral state (Hodotermopsis sjostedti, Embiratermes neotenicus) revealed three different yet fully functional configurations in the transition from ancestral to novel state: (i) elevated hydrostatic pressure induced by contraction of mandibular muscles when biting gently oozes secretion from a gland; (ii) direct pressure on an enlarged gland arises from expansion of the mandibular muscles when biting; (iii) squirting in a piston-like manner by an inflated gland enveloped by highly modified mandibular muscles. Even a structure as exotic as the nasus therefore appears to have evolved with no loss of function at any stage. Such a functional approach, holds much promise for understanding the evolutionary origin of seemingly preposterous novel forms., (© 2016 Wiley Periodicals, Inc.)

Published

2016

19. The Termite Worker Phenotype Evolved as a Dispersal Strategy for Fertile Wingless Individuals before Eusociality.

Author

Bourguignon T, Chisholm RA, and Evans TA

Subjects

Animal Distribution, Animals, Phylogeny, Reproduction, Social Behavior, Biological Evolution, Isoptera anatomy & histology, Isoptera physiology

Abstract

Termites are eusocial insects that evolved from solitary cockroaches. It is not known precisely what factors drove the evolution of termite eusociality, that is, skewed reproduction with distinct winged reproductive and wingless worker phenotypes. In other eusocial insects (bees and wasps), reproductive skew evolved first and phenotype differences evolved second. We propose that the reverse pattern occurred in termites, that is, that the winged-wingless diphenism evolved before eusociality. We discuss existing phylogenetic and pheromonal evidence supporting our hypothesis. We provide new experimental evidence from the most basal termite species (Mastotermes darwiniensis), suggesting that the ancestral state was indeed diphenic but presocial. We propose that the mechanism promoting a winged-wingless diphenism-in the absence of eusociality-was greater predation of aerial than terrestrial dispersers, and we support this with a game theoretic model. We augment our hypothesis with a novel explanation for the evolution of the developmental pathways leading to winged and wingless phenotypes in termites. An added benefit of our hypothesis is that it neatly explains the origin of termite eusociality itself: in the pre-eusocial ancestral species, the poor dispersal ability of the wingless phenotype would have led to clustering of relatives around shared resources-a prerequisite for nonparental care of close relatives.

Published

2016

20. Dehiscent organs used for defensive behavior of kamikaze termites of the genus Ruptitermes (Termitidae, Apicotermitinae) are not glands.

Author

Poiani SB and Costa-Leonardo AM

Subjects

Animals, Electrophoresis, Polyacrylamide Gel, Exocrine Glands anatomy & histology, Exocrine Glands chemistry, Fat Body ultrastructure, Isoptera physiology, Isoptera ultrastructure, Larva anatomy & histology, Larva physiology, Microscopy, Confocal, Microscopy, Electron, Transmission, Microscopy, Polarization, Reproduction, Toxins, Biological chemistry, Toxins, Biological metabolism, Vacuoles ultrastructure, Behavior, Animal, Fat Body physiology, Isoptera anatomy & histology

Abstract

During Isoptera evolution, the caste of soldiers disappeared in some Apicotermitinae termites as in the Neotropical Ruptitermes. Paired dorsolateral structures located between the metathorax and abdomen of foraging workers of Ruptitermes were previously denominated dehiscent glands, and are responsible for releasing an adhesive secretion that immobilizes enemies, causing their death. In this study, we investigated the morphology of dehiscent organs of workers of Ruptitermes reconditus, Ruptitermes xanthochiton, and Ruptitermes pitan and also second instar larvae of R. reconditus using light, laser scanning confocal, and transmission electron microscopy. Additionally, we performed a preliminary protein analysis using SDS-PAGE to further characterize the secretion of Ruptitermes dehiscent organs. Our results showed that the dehiscent organs do not exhibit the typical characteristics of the exocrine glandular cells class I, II or III of insects, suggesting that they constitute a new type of defensive organ. Thus, the denomination dehiscent gland was not used but dehiscent organ. Dehiscent organs in larvae are formed by fat body cells. In workers, dehiscent organs are composed by compact masses of cells that accumulate a defensive secretion and are poor in organelles related to the production of secretion. Since the dehiscent organs are not glands, we hypothesize that the dehiscent organs originate from larval fat body. The defensive secretion may have been produced at younger developmental stages of worker or the defensive compounds were absorbed from food and accumulated in the worker fat body. Histochemical techniques and SDS-PAGE revealed that the secretion of Ruptitermes dehiscent organs is constituted mainly by a protein of high molecular weight (200 kDa). In conclusion, the dehiscent organs are extremely different from the exocrine glands of termites and other insects described until now. In fact, they seem to be a specialized fat body that is peculiar and exclusive of Ruptitermes termites., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

21. Morphologically Specialized Termite Castes and Advanced Sociality in the Early Cretaceous.

Author

Engel MS, Barden P, Riccio ML, and Grimaldi DA

Subjects

Amber, Animals, Fossils anatomy & histology, Isoptera anatomy & histology, Isoptera physiology, Myanmar, Phylogeny, Social Behavior, Biological Evolution, Isoptera classification

Abstract

A hallmark of animals that are eusocial, or those with advanced sociality, is reproductive specialization into worker and queen castes. In the most derived societies, these divisions are essentially fixed and in some arthropods, include further specialization--a tripartite system with a soldier caste that defends the colony. Eusociality has originated numerous times among insects but is believed to have appeared first in the termites (Isoptera), in the Early Cretaceous. However, all termites known from the Cretaceous have, until now, only been winged reproductives (alates and dealates); the earliest soldiers and definitive workers were known from just the Miocene (ca. 17-20 million years ago [mya]). Here, we report six termite species preserved in Early Cretaceous (ca. 100 mya) amber from Myanmar, one described as Krishnatermes yoddha gen. et sp. nov., comprising the worker/pseudergate, winged reproductive, and soldier, and a second species, Gigantotermes rex gen. et sp. nov., based on one of the largest soldier termites yet known. Phylogenetic analysis indicates that Krishnatermes are in the basal "Meiatermes-grade" of Cretaceous termites. Workers/pseudergates of another four species are briefly described, but not named. One of these workers/pseudergates reveals that ants--the most serious enemies of modern termites--lived in close proximity to termites in the Burmese paleofauna. These discoveries demonstrate the Mesozoic antiquity of specialized termite caste systems and corroborate that among all social species, termites probably had the original societies., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

22. Expansion of presoldier cuticle contributes to head elongation during soldier differentiation in termites.

Author

Sugime Y, Ogawa K, Watanabe D, Shimoji H, Koshikawa S, and Miura T

Subjects

Animals, Head anatomy & histology, Isoptera anatomy & histology, Molting, Isoptera growth & development, Morphogenesis physiology

Abstract

In termites, the soldier caste possesses morphological features suitable for colony defence, despite some exceptions. Soldiers are differentiated via two moultings through a presoldier stage with dramatic morphogenesis. While a number of morphological modifications are known to occur during the presoldier moult, growth and morphogenesis seem to continue even after the moult. The present study, using the damp-wood termite Hodotermopsis sjostedti, carried out morphological and histological investigations on the developmental processes during the presoldier stage that is artificially induced by the application of a juvenile hormone analogue. Measurements of five body parameters indicated that head length significantly increased during the 14-day period after the presoldier moult, while it did not increase subsequently to the stationary moult (pseudergate moult as control). Histological observations also showed that the cuticular development played a role in the presoldier head elongation, suggesting that the soft and flexible presoldier cuticle contributed to the soldier morphogenesis in termites.

Published

2015

23. A taxonomic revision of the neotropical termite genus Ruptitermes (Isoptera, Termitidae, Apicotermitinae).

Author

Acioli AN and Constantino R

Subjects

Animal Distribution, Animal Structures anatomy & histology, Animal Structures growth & development, Animals, Body Size, Ecosystem, Female, Isoptera anatomy & histology, Isoptera growth & development, Male, Organ Size, Panama, South America, Trinidad and Tobago, Isoptera classification

Abstract

The taxonomy of Ruptitermes Mathews 1977 is revised. Nine new species are described: R. araujoi, sp. n. (from Brazil), R. atyra, sp. n. (from Brazil, Peru, and Panama), R. bandeirai, sp. n. (from Brazil), R. cangua, sp. n. (from Brazil), R. kaapora, sp. n. (from Paraguay and Brazil), R. krishnai, sp. n. (from Trinidad), R. maraca, sp. n. (from Brazil), R. piliceps, sp. n. (from Brazil), and R. pitan, sp. n. (from Brazil). Ruptitermes franciscoi (Snyder 1959), new combination, is transferred from Anoplotermes Fr. Müller to Ruptitermes. Ruptitermes proratus Emerson 1949 is placed under the synonymy of R. reconditus (Silvestri, 1901). The genus is redescribed to accommodate all the species included. Ruptitermes arboreus, R. reconditus and R. xanthochiton are redescribed based on the examination of large series. A key to the 13 species of the genus based on the external morphology of workers is provided. The enteric valve armature is described and illustrated for all species except R. kaapora. Distribution maps are presented for all species.

Published

2015

24. Muelleritermes: A new termite genus with two species from the Brazilian Atlantic Forest (Isoptera: Termitidae: Nasutitermitinae).

Author

Oliveira DE, Rocha MR, and Cancello EM

Subjects

Animal Distribution, Animal Structures anatomy & histology, Animal Structures growth & development, Animals, Body Size, Brazil, Female, Forests, Isoptera anatomy & histology, Isoptera growth & development, Larva anatomy & histology, Larva classification, Larva growth & development, Male, Organ Size, Isoptera classification

Abstract

We present the description of Muelleritermes, new genus, and two new species: M. fritzi, sp. n. and M. globiceps, sp. n. Both species were found only in the Atlantic Forest of southern Brazil. All castes are described and illustrated, and a distribution map is provided. These species seem to be closely related to the genera Velocitermes and Diversitermes, sharing traits such as the presence of three types of soldiers and workers and a short mixed segment. This genus differs from Velocitermes and Diversitermes in the presence of a few ommatids on soldier's head, behind the antennae. It also differs from Velocitermes in the lack of a constriction on the head of major soldiers, and from Diversitermes in the presence of short hairs on top of the soldier's head, instead of microscopic ones.

Published

2015

25. Tarsomere and distal tibial glands: structure and potential roles in termites (Isoptera: Rhinotermitidae, Termitidae).

Author

Costa-Leonardo AM, Soares HX, Haifig I, and Laranjo LT

Subjects

Animals, Exocrine Glands anatomy & histology, Exocrine Glands ultrastructure, Extremities anatomy & histology, Isoptera ultrastructure, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Isoptera anatomy & histology

Abstract

Social insects have numerous exocrine glands, but these organs are understudied in termites compared to hymenopterans. The tarsomere and distal tibial glands of the termites Heterotermes tenuis, Coptotermes gestroi and Silvestritermes euamignathus were investigated by scanning and transmission electron microscopy. Pore plates are visible in scanning micrographs on the distal tibial surfaces and on the ventral surface of the first and second tarsomeres of workers of H. tenuis and C. gestroi. In contrast, workers of S. euamignathus have isolated pores spread throughout the ventral surfaces of the first, second, and third tarsomeres and the distal tibia. In all three species each pore corresponds to the opening of a class-3 secretory unit, composed of one secretory and one canal cell. Clusters of class-3 glandular cells are arranged side by side underneath the cuticle. The main characteristics of these exocrine glands include their presence on all the legs and the electron-lucent secretion in the secretory cells. Possible functions of these glands are discussed., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

26. The nasus gland: a new gland in soldiers of Angularitermes (Termitidae, Nasutitermitinae).

Author

Šobotník J, Bourguignon T, Carrijo TF, Bordereau C, Robert A, Křížková B, Constantini JP, and Cancello EM

Subjects

Animals, Exocrine Glands anatomy & histology, Exocrine Glands ultrastructure, Isoptera ultrastructure, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Isoptera anatomy & histology

Abstract

Termites have developed many exocrine glands, generally dedicated to defence or communication. Although a few of these glands occur in all termite species, or represent synapomorphies of larger clades, others are morphological innovations of a single species, or a few related species. Here, we describe the nasus gland, a new gland occurring at the base of the nasus of Angularitermes soldiers. The nasus gland is composed of class 1, 2, and 3 secretory cells, a rare combination that is only shared by the sternal and tergal glands of some termites and cockroaches. The ultrastructural observations suggest that the secretion is produced by class 2 and 3 secretory cells, and released mostly by class 3 cells. The base of the nasus has a rough appearance due to numerous pits bearing openings of canals conducting the secretion from class 3 secretory cells to the exterior. We tentatively assign a defensive function to the nasus gland, although further research is needed to confirm this function. Although the gland is described only from species of Angularitermes, other genera of Nasutitermitinae also present a rough nasus base, suggesting the presence of a similar, possibly homologous, gland., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

27. Phylogenetic diversity of Archaea in the intestinal tract of termites from different lineages.

Author

Shi Y, Huang Z, Han S, Fan S, and Yang H

Subjects

Animals, Gastrointestinal Microbiome, Gastrointestinal Tract microbiology, Genes, rRNA, Genetic Variation, Isoptera anatomy & histology, Isoptera classification, Phylogeny, RNA, Ribosomal, 16S genetics, Symbiosis, Archaea classification, Archaea genetics, Isoptera microbiology

Abstract

Termites are among the few arthropods that emit methane to the atmosphere, which is a significant source of global greenhouse gas due to their huge biomass on earth. In this study, phylogenetic diversity of Archaea of five termite species from different lineages were analyzed based on 16S rRNA genes. Archaea associated with wood-feeding lower termite, R. chinensis were exclusively Methanobrevibacter in the order Methanobacteriales. This type of methanogens was also found in Nasutitermes sp. and Microcerotermes sp. but not in the fungus-cultivating termites, Odontotermes formosanus and Macrotermes barneyi, which harbor Archaea of the order Methanoplasmatales and Methanosarcinales in their guts. Archaeal diversity of wood-feeding higher termites was higher than wood-feeding lower termites. The highest archaeal diversity was found in Nasutitermes sp. In addition to methanogens affiliated with the orders Methanobacteriales, Methanomicrobiales, and Methanoplasmatales, 37% of archaeal clones were affiliated with non-methanogenic Thaumarchaeota. The results of this study will be significant for further understanding of symbiotic relationship between intestinal microbiota and termites., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2015

28. The detection and mapping of the spatial distribution of insect defense compounds by desorption atmospheric pressure photoionization Orbitrap mass spectrometry.

Author

Rejšek J, Vrkoslav V, Hanus R, Vaikkinen A, Haapala M, Kauppila TJ, Kostiainen R, and Cvačka J

Subjects

Animals, Atmospheric Pressure, Equipment Design, Heteroptera anatomy & histology, Isoptera anatomy & histology, Aldehydes analysis, Heteroptera chemistry, Isoptera chemistry, Mass Spectrometry instrumentation, Nitro Compounds analysis

Abstract

Many insects use chemicals synthesized in exocrine glands and stored in reservoirs to protect themselves. Two chemically defended insects were used as models for the development of a new rapid analytical method based on desorption atmospheric pressure photoionization-mass spectrometry (DAPPI-MS). The distribution of defensive chemicals on the insect body surface was studied. Since these chemicals are predominantly nonpolar, DAPPI was a suitable analytical method. Repeatability of DAPPI-MS signals and effects related to non-planarity and roughness of samples were investigated using acrylic sheets uniformly covered with an analyte. After that, analytical figures of merit of the technique were determined. The spatial distribution of (E)-1-nitropentadec-1-ene, a toxic nitro compound synthesized by soldiers of the termite Prorhinotermes simplex, was investigated. Then, the spatial distribution of the unsaturated aldehydes (E)-hex-2-enal, (E)-4-oxohex-2-enal, (E)-oct-2-enal, (E,E)-deca-2,4-dienal and (E)-dec-2-enal was monitored in the stink bug Graphosoma lineatum. Chemicals present on the body surface were scanned along the median line of the insect from the head to the abdomen and vice versa, employing either the MS or MS(2) mode. In this fast and simple way, the opening of the frontal gland on the frons of termite soldiers and the position of the frontal gland reservoir, extending deep into the abdominal cavity, were localized. In the stink bug, the opening of the metathoracic scent glands (ostiole) on the ventral side of the thorax as well as the gland reservoir in the median position under the ventral surface of the anterior abdomen were detected and localized. The developed method has future prospects in routine laboratory use in life sciences., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

29. Phylogeny of Dictyoptera: Dating the Origin of Cockroaches, Praying Mantises and Termites with Molecular Data and Controlled Fossil Evidence.

Author

Legendre F, Nel A, Svenson GJ, Robillard T, Pellens R, and Grandcolas P

Subjects

Animals, Cockroaches anatomy & histology, Cockroaches genetics, Isoptera anatomy & histology, Isoptera genetics, Mantodea anatomy & histology, Mantodea genetics, Molecular Sequence Data, Phylogeny, Sequence Analysis, DNA, Cockroaches classification, Fossils anatomy & histology, Isoptera classification, Mantodea classification

Abstract

Understanding the origin and diversification of organisms requires a good phylogenetic estimate of their age and diversification rates. This estimate can be difficult to obtain when samples are limited and fossil records are disputed, as in Dictyoptera. To choose among competing hypotheses of origin for dictyopteran suborders, we root a phylogenetic analysis (~800 taxa, 10 kbp) within a large selection of outgroups and calibrate datings with fossils attributed to lineages with clear synapomorphies. We find the following topology: (mantises, (other cockroaches, (Cryptocercidae, termites)). Our datings suggest that crown-Dictyoptera-and stem-mantises-would date back to the Late Carboniferous (~ 300 Mya), a result compatible with the oldest putative fossil of stem-dictyoptera. Crown-mantises, however, would be much more recent (~ 200 Mya; Triassic/Jurassic boundary). This pattern (i.e., old origin and more recent diversification) suggests a scenario of replacement in carnivory among polyneopterous insects. The most recent common ancestor of (cockroaches + termites) would date back to the Permian (~275 Mya), which contradicts the hypothesis of a Devonian origin of cockroaches. Stem-termites would date back to the Triassic/Jurassic boundary, which refutes a Triassic origin. We suggest directions in extant and extinct species sampling to sharpen this chronological framework and dictyopteran evolutionary studies.

Published

2015

30. Compound eye formation in the termite Incisitermes minor (Isoptera: Kalotermitidae).

Author

Rose TC, Ediger EF, Lehman-Schletewitz J, McClane NW, Schweigert KC, Alzweideh S, Wadsworth L, Husseneder C, Morris JW, and Ziesmann J

Subjects

Animals, Compound Eye, Arthropod physiology, Electrophysiological Phenomena, Isoptera embryology, Isoptera ultrastructure, Compound Eye, Arthropod embryology, Compound Eye, Arthropod ultrastructure, Isoptera anatomy & histology

Abstract

The postembryonic development and caste differentiation patterns of lower termites have been described multiple times in a variety of different species. However, most of these studies focused on gross ontogeny, without carefully describing the maturation of any particular organ or organ system. The few studies that have attempted to correlate caste development and organ differentiation have produced somewhat inconsistent results, especially in the area of eye formation. Therefore, in order to help further elucidate the relationship between eye formation and postembryonic differentiation in lower termites, we studied eye development in the termite, Incisitermes minor (Hagen). Eye formation in I. minor began in the earliest larvae, with only an eye primordium. However, in all later larval stages, characteristic eye structures were observed and were shown to progressively differentiate through larval and nymphal stages. Curiously, pigmentation began with three to eight groups of cells in early larvae and the number of these pigmented groups increased along the developmental time course. Ultimately, a uniformly pigmented eye area was formed by the early nymphal stage. The overall eye area also gradually increased along with normal caste development, but the characteristic lenses seen in a prototypical insect compound eye did not completely form until after the final nymphal stage. Electrophysiological measurements provided clear evidence that eyes were indeed functional at all stages of development where pigment was present. Based upon this data, the eye development pattern in I. minor appeared to follow a divergent pathway from holometabolous insects and an intermediate pathway between typical hemimetabolous eye development and the heterochronic shift observed in other termite species.

Published

2015

31. Redescription and reclassification of the African termite, Forficulitermes planifrons (Isoptera, Termitidae, Termitinae).

Author

Scheffrahn RH and Křeček J

Subjects

Africa, Animals, Isoptera anatomy & histology, Isoptera classification

Abstract

Forficulitermes planifrons is a monotypic genus and species described by Emerson (1960) from three soldiers and a single worker. All known occurrences of Forficulitermes (Emerson 1960, Wango & Josens 2011, this study) originate from equatorial middle Africa. Emerson (1960) compared soldiers of Forficulitermes with Basidentitermes, Proboscitermes, Orthotermes, Profastigitermes, and Fastigitermes, (the latter all in the Cubitermitinae) with respect to the general shape of the labrum, but found no similarities among these genera with respect to either the former's mandibles or the undulating profile surrounding its fontanelle. The only worker morphology noted for F. planifrons by Emerson (1960) was a pair of worn mandibles. Based largely on the enteric valve armature, we herein redescribe F. planifrons and assign this genus to the subfamily Termitinae.

Published

2015

32. Compositermes bani sp.n. (Isoptera, Termitidae, Apicotermitinae), a new species of soldierless termite from Bolivia.

Author

Carrijo TF, Scheffrahn RH, and Křeček J

Subjects

Animal Distribution, Animal Structures anatomy & histology, Animal Structures growth & development, Animals, Body Size, Bolivia, Isoptera anatomy & histology, Isoptera genetics, Isoptera growth & development, Organ Size, Phylogeny, Isoptera classification

Abstract

Species of neotropical Apicotermitinae (Termitidae) are soldierless, restricting species identification in this group to workers or seasonally present winged imagos. All neotropical Apicotermitinae were placed in the genus Anoplotermes, until Mathews (1977) described two new genera, Grigiotermes and Ruptitermes. Fontes (1986) described two more genera, Aparatermes and Tetimatermes. Twenty years passed without any taxonomic advances in this group until Scheffrahn et al. 2006 described two new Anoplotermes species from the West Indies and Bourguignon et al. 2010 described Longustitermes manni, (=Anoplotermes manni Snyder), Anoplotermes janus, and placed six other species into synonymy. Finally, Scheffrahn 2013 described a new genus and species, Compositermes vindai, characterized by a ring of sclerotized paddles at the junction of the enteric valve seating (EVS) and paunch (P3).

Published

2015

33. Caetetermes taquarussu Fontes (Isoptera, Termitidae, Nasutitermitinae): description of the imago caste and new distributional records.

Author

Cuezzo C, Carrijo TF, and Cancello EM

Subjects

Animal Distribution, Animal Structures anatomy & histology, Animal Structures growth & development, Animals, Body Size, Female, Isoptera anatomy & histology, Isoptera growth & development, Male, Organ Size, Isoptera classification

Published

2015

34. Incisitermes nishimurai, a new drywood termite species (Isoptera: Kalotermitidae) from the highlands of Central America.

Author

Scheffrahn RH

Subjects

Animal Distribution, Animal Structures anatomy & histology, Animal Structures growth & development, Animals, Body Size, Central America, Ecosystem, Female, Isoptera anatomy & histology, Isoptera growth & development, Male, Organ Size, Isoptera classification

Abstract

Incisitermes nishimurai is described from soldiers and winged imagos collected in the highlands of Honduras. It is distinguished from all other Incisitermes species by the dark rugosity of the soldier frons and by the rather large, uniformly very dark, imago.

Published

2014

35. A taxonomic revision of the soil-feeding termite genus Anhangatermes (Isoptera: Termitidae: Nasutitermitinae).

Author

Oliveira DE, Cunha HF, and Constantino R

Subjects

Animal Distribution, Animal Structures anatomy & histology, Animal Structures growth & development, Animals, Body Size, Brazil, Ecosystem, Feeding Behavior, Female, Isoptera anatomy & histology, Isoptera growth & development, Isoptera physiology, Male, Organ Size, Soil chemistry, Isoptera classification

Abstract

The taxonomy of Anhangatermes Constantino 1990 is revised. Four new species are described: Anhangatermes anhanguera, sp. n., Anhangatermes eurycephalus, sp. n., Anhangatermes juruena, sp. n., and Anhangatermes pilosus, sp. n. The imago of Anhangatermes is described for the first time (A. pilosus). A key to the species of the genus based on soldiers and workers is provided. The diagnosis of the genus is updated to accommodate the new species. The geographic range of the genus is expanded to the Cerrado region of Central Brazil. The gizzard armature of the worker of Anhangatermes is described in detail for the first time.

Published

2014

36. Behavioral and histological changes in the Formosan subterranean termite (Isoptera: Rhinotermitidae) induced by the chitin synthesis inhibitor noviflumuron.

Author

Xing L, Chouvenc T, and Su NY

Subjects

Animals, Florida, Isoptera anatomy & histology, Isoptera physiology, Benzamides pharmacology, Chitin antagonists & inhibitors, Epidermis drug effects, Hydrocarbons, Fluorinated pharmacology, Insecticides pharmacology, Isoptera drug effects, Molting drug effects

Abstract

This study describes the behavioral and histological changes of the molting process in Coptotermes formosanus Shiraki caused by the chitin synthesis inhibitor noviflumuron. Termites exposed to noviflumuron initiated ecdysis as untreated individuals did; however, peristalsis contractions were weak and the expansion of the dorsal breach of the exoskeleton did not occur. Treated termites could not complete their molting process and died after the initiation of the ecdysis. Histological observations showed that the process of voiding the gut protozoa during premolting was not affected by the noviflumuron treatment. However, the formation of the new cuticle was disrupted resulting in the loss of integrity of the cuticle. The alteration of the cuticle was visible in the gizzard (foregut), the thoracic pleurons, and most of the exoskeleton. Muscles were partially able to reattach to the incompletely formed new cuticle, and muscle contractions resulted in tearing off the cuticle. Because the integrity of the newly formed cuticle was compromised by the noviflumuron treatment, we concluded that termites' death was caused primarily by the loss of hemolymph as a result of the damage done by the muscle contractions on the exoskeleton during the peristalsis. As the physiological homeostasis was disrupted, termites were too weak to shed their old cuticle, ultimately resulting in termite dying during the molting process.

Published

2014

37. Delineating species boundaries using an iterative taxonomic approach: the case of soldierless termites (Isoptera, Termitidae, Apicotermitinae).

Author

Bourguignon T, Šobotník J, Hanus R, Krasulová J, Vrkoslav V, Cvačka J, and Roisin Y

Subjects

Animals, DNA Barcoding, Taxonomic, French Guiana, Gas Chromatography-Mass Spectrometry, Hydrocarbons chemistry, Isoptera anatomy & histology, Isoptera chemistry, Isoptera genetics, Species Specificity, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Classification methods, Genetic Speciation, Isoptera classification, Phylogeny

Abstract

Species boundaries are traditionally inferred using morphological characters, although morphology sometimes fails to correctly delineate species. To overcome this limitation, researchers have widely taken advantage of alternative methods such as DNA barcoding or analysis of cuticular hydrocarbons (CHs) profiles, but rarely use them simultaneously in an iterative taxonomic approach. Here, we follow such an approach using morphology, DNA barcoding and CHs profiles to precisely discriminate species of soldierless termites, a diversified clade constituting about one-third of the Neotropical termite species richness, but poorly resolved taxonomically due to the paucity of useful characters. We sampled soldierless termites in various forest types of the Nouragues Nature Reserve, French Guiana. Our results show that morphological species determination generally matches DNA barcoding, which only suggests the existence of three cryptic species in the 31 morphological species. Among them, Longustitermes manni is the only species whose splitting is corroborated by ecological data, other widely distributed species being supported by DNA barcoding. On the contrary, although CHs profiles provide a certain taxonomic signal, they often suggest inconsistent groupings which are not supported by other methods. Overall, our data support DNA barcoding and morphology as two efficient methods to distinguish soldierless termite species., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

38. High Laccase2 expression is likely involved in the formation of specific cuticular structures during soldier differentiation of the termite Reticulitermes speratus.

Author

Masuoka Y, Miyazaki S, Saiki R, Tsuchida T, and Maekawa K

Subjects

Animals, Evolution, Molecular, Gene Expression Regulation, Head anatomy & histology, Hierarchy, Social, Isoptera anatomy & histology, Isoptera genetics, Isoptera metabolism, Laccase genetics, Molting, Pigmentation, Isoptera growth & development, Laccase metabolism

Abstract

Termite soldiers are morphologically specialized for colony defense. Analysis of the mechanisms of soldier differentiation is important for understanding the establishment of termite societies. Soldiers differentiate from workers through a presoldier stage and have well-sclerotized and pigmented cuticles. These characteristics are important for nest defense and are likely to be caused by soldier-specific mechanisms of cuticular tanning. The molecular mechanisms leading to cuticular tanning have not been elucidated. Laccase2 (Lac2) plays important roles in this process in insects, and we hypothesized that Lac2 expression may be involved in soldier-specific cuticular tanning. We observed inner and outer head cuticle changes and compared the Lac2 expression patterns among three molts (worker-worker, worker-presoldier and presoldier-soldier) in the termite Reticulitermes speratus. Quantitative analyses of head cuticle colors showed that the color properties changed more conspicuously in presoldier-soldier molts than in the other two molts. Histological observations showed that the exocuticles of soldier heads were substantially thicker than those of worker and presoldier heads, underwent tanning before or just after ecdysis, and were pigmented at earlier time points than other molts. Finally, markedly higher Lac2 expression levels were observed just before and after ecdysis only in the presoldier-soldier molt. These results suggest that specific cuticular formation occurs in the exocuticles during soldier differentiation, and that the high level of Lac2 expression during the presoldier-soldier molt is related to soldier-specific cuticular tanning. We speculate that evolution of the regulatory mechanisms of Lac2 expression were important for the acquisition of soldier-specific cuticles., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013

39. Hox Gene Deformed is likely involved in mandibular regression during presoldier differentiation in the nasute termite Nasutitermes takasagoensis.

Author

Toga K, Saiki R, and Maekawa K

Subjects

Amino Acid Sequence, Animals, Base Sequence, Cloning, Molecular, Female, Gene Expression Regulation, Developmental, Head anatomy & histology, Head physiology, Histocytochemistry, Isoptera anatomy & histology, Isoptera genetics, Male, Mandible anatomy & histology, Mandible physiology, Molecular Sequence Data, Morphogenesis genetics, RNA chemistry, RNA genetics, RNA Interference, Real-Time Polymerase Chain Reaction, Sequence Analysis, DNA, Genes, Homeobox, Isoptera physiology

Abstract

Division of labor is a distinguishing characteristic of eusocial insects. To understand the proximate factors underlying caste determination, it is essential to clarify the developmental mechanisms during the differentiation of each caste. Termite soldiers have species-specific and diverse morphologies that are specialized for colony defense. Soldiers of the subfamily Nasutitermitinae (Termitidae), one of the most derived termite groups, possess a long, horn-like frontal projection (nasus), an invaginated glandular structure in the head (frontal gland), and regressed mandibles. These morphological changes occur prior to the molt into presoldiers (the preceding stage of soldiers). In Drosophila and other insects, Hox genes determine segment identities; thus they might be involved in such body-part-specific modifications during soldier differentiation. Deformed (Dfd) functions not only in the formation of the mandible and maxilla but also in other head parts (e.g., eye-antennal disc) in other insects. In this study, we examined Dfd functions in nasus/frontal gland formation and mandibular regression in Nasutitermes takasagoensis. Relative expression analyses showed that Dfd expression levels in the mouthparts were significantly higher than those in any other body parts of workers before presoldier molt. Dfd RNA interference resulted in the inhibition of mandibular regression during presoldier differentiation, but nasus and frontal gland formation were not affected. These results suggest that Dfd is involved in the determination of mandibular positional information and specific modification during presoldier differentiation in N. takasagoensis. This is the first work to show the effects of Hox genes on caste-specific morphogenesis in social insects., (Copyright © 2013 Wiley Periodicals, Inc.)

Published

2013

40. Compositermes vindai (Isoptera: Termitidae: Apicotermitinae), a new genus and species of soldierless termite from the Neotropics.

Author

Scheffrahn RH

Subjects

Animal Distribution, Animal Structures anatomy & histology, Animal Structures growth & development, Animals, Body Size, Isoptera anatomy & histology, Isoptera growth & development, Male, Organ Size, Soil chemistry, Isoptera classification

Abstract

The New World Anoplotermes group is a common and diverse clade of soil-dwelling soldierless termites that is undergoing needed taxonomic reclassification. Based on robust worker gut morphology centered near the enteric valve, a new genus and its singular species, Compositermes vindai, are described from collections encompassing a massive expanse of tropical America. The enteric valve armature is thought to enhance inoculation of the food stream with symbiotic bacteria.

Published

2013

41. Morphology and phylogeny of Reticulitermes sp. (Isoptera, Rhinotermitidae) from Cyprus.

Author

Ghesini S and Marini M

Subjects

Animals, Cyprus, Electron Transport Complex IV genetics, Genes, Mitochondrial, Haplotypes, Isoptera genetics, Male, Isoptera anatomy & histology, Phylogeny, RNA, Ribosomal, 16S

Abstract

Taxonomy and phylogeny of termites of the genus Reticulitermes in central and eastern Mediterranean lands are poorly understood, partly due to insufficient sampling. This study aims to contribute to the knowledge of east Mediterranean termites by presenting morphological and molecular data on Reticulitermes from Cyprus. Samples from 15 colonies were collected throughout the island. Qualitative and quantitative morphological characters were analyzed for alate and soldier castes. Partial sequences of the mitochondrial genes COII and 16S were used to evaluate genetic diversity of Cypriot colonies and to determine their phylogenetic relationships with taxa from central and eastern Mediterranean areas. Cypriot alates have some morphological features in common with the Israeli R. clypeatus: an enlarged postclypeus and a wide unpigmented margin of the eye. They are larger than R. clypeatus but smaller than western European species, such as R. banyulensis, R. lucifugus corsicus and R. grassei. For Cypriot soldiers, two size groups were identified, possibly in relation with the age of their mother colonies. Phylogenetic analysis shows that, contrary to what might be expected, the samples with the highest affinity with Cypriot samples are not those from the nearby mainland (south Turkey, Israel), but from north-eastern Greece. Comprehensive sampling in the nearby mainland is lacking, so the possibility that populations exist it that region with an affinity towards Cypriot Reticulitermes sp. cannot be ruled out. Together with samples from the Halkidiki peninsula, north-eastern Greece, northern Turkey and Crete, Cypriot Reticulitermes form a well-supported north-eastern Mediterranean clade.

Published

2012

42. Explosive backpacks in old termite workers.

Author

Šobotník J, Bourguignon T, Hanus R, Demianová Z, Pytelková J, Mareš M, Foltynová P, Preisler J, Cvačka J, Krasulová J, and Roisin Y

Subjects

Aggression, Aging, Animals, Copper analysis, Crystallization, Exocrine Glands anatomy & histology, Exocrine Glands chemistry, Exocrine Glands physiology, Isoptera anatomy & histology, Isoptera chemistry, Salivary Glands metabolism, Behavior, Animal, Insect Proteins chemistry, Isoptera physiology

Abstract

By nature, defensive behavior is risky. In social insects, such behavior is more likely to occur in individuals whose potential for other tasks is diminished. We show that workers of the termite Neocapritermes taracua develop an exceptional two-component suicidal apparatus consisting of copper-containing protein crystals, stored in external pouches, and internal salivary glands. During aggressive encounters, their bodies rupture, and the crystals react with the salivary gland secretion to produce a toxic droplet. Both the amount of defensive substances and the readiness to explode increase with workers' age, as their food-collecting ability declines.

Published

2012

43. Chemistry and anatomy of the frontal gland in soldiers of the sand termite Psammotermes hybostoma.

Author

Krasulová J, Hanus R, Kutalová K, Šobotník J, Sillam-Dussès D, Tichý M, and Valterová I

Subjects

Animals, Egypt, Gas Chromatography-Mass Spectrometry, Sesquiterpenes isolation & purification, Isoptera anatomy & histology, Isoptera chemistry, Sesquiterpenes chemistry

Abstract

A great diversity of defensive chemicals has been described in termite soldiers equipped with a unique defensive organ, the frontal gland. Along with the functional diversity of these compounds, reflecting the evolutionary history of particular lineages and their defensive strategies, a considerable degree of chemical variability often occurs among species and populations. Thus, the chemistry of termite defense may provide information on the phylogeny and geographic dispersal of species and populations. In this paper, we report on the anatomy of the frontal gland and on the diversity of soldier defensive chemicals in the sand termite, Psammotermes hybostoma, from nine colonies and five different localities in Egypt. Using gas chromatography-mass spectrometry, a total of 30 sesquiterpene hydrocarbons, or their oxygenated derivatives, were detected, and the chemical identity of most of them identified. In addition, a ketone, an ester, and a diterpene were identified in some colonies. Within colonies, the chemical composition was stable and did not differ among soldier size categories. However, there were pronounced quantitative and qualitative differences in frontal gland chemicals among colonies and geographic locations. The findings are discussed in a broader comparison with other termite taxa.

Published

2012

44. Termite soldier differentiation in incipient colonies is related to parental proctodeal trophallactic behavior.

Author

Maekawa K, Nakamura S, and Watanabe D

Subjects

Animals, Isoptera metabolism, Juvenile Hormones metabolism, Larva anatomy & histology, Larva growth & development, Larva metabolism, Social Behavior, Isoptera anatomy & histology, Isoptera growth & development

Abstract

Termite soldiers represent a peculiar caste among social insects in terms of their specific defensive roles. Numbers of soldiers are relatively low in a mature colony, and it is impossible to identify the individuals that will differentiate into soldiers. If it were possible to specify these individuals prior to soldier differentiation, it would facilitate a better understanding of the regulatory mechanisms of soldier differentiation under natural condition. Here we analyzed soldier differentiation in incipient colonies of Zootermopsis nevadensis, in which only a single soldier develops via a presoldier stage, and is stable during early colony ontogeny. We observed that the oldest third instar differentiated into a presoldier within about eight days from its appearance. Caste differentiation, however, was not strictly determined on an individual basis. The oldest third instars never differentiated into presoldiers if primary reproductives were removed soon after their appearance. Behavioral observations of primary reproductives and their offspring prior to presoldier differentiation, showed that primary reproductives transferred proctodeal materials to the oldest third instar significantly more frequently than to other larva. A high juvenile hormone (JH) titer is required for the soldier differentiation, and we suggest that the JH itself or some nutrients/factors increasing larval JH titer may be transferred to the oldest third instar via a parental proctodeal fluid.

Published

2012

45. The TUNEL assay suggests mandibular regression by programmed cell death during presoldier differentiation in the nasute termite Nasutitermes takasagoensis.

Author

Toga K, Yoda S, and Maekawa K

Subjects

Animals, Female, In Situ Nick-End Labeling, Isoptera ultrastructure, Male, Autophagy, Isoptera anatomy & histology, Isoptera growth & development

Abstract

Termite soldiers are the most specialized caste of social insects in terms of their morphology and function. Soldier development requires increased juvenile hormone (JH) titer and the two molts via a presoldier stage. These molts are accompanied by dramatic morphological changes, including the exaggeration and regression of certain organs. Soldiers of the most apical termitid subfamily Nasutitermitinae possess not only a horn-like frontal tube, called the nasus, for the projection of defensive chemicals from the frontal gland reservoir but also regressed mandibles. Although candidate genes regulating soldier mandibular growth were reported in a relatively basal termite species, the regulatory mechanisms of mandibular regression remain unknown. To clarify these mechanisms, we performed morphological and histological examinations of the mandibles during soldier differentiation in Nasutitermes takasagoensis. Mandibular size reduced dramatically during soldier differentiation, and mandibular regression occurred just prior to the presoldier molt. Spotted TUNEL signals were observed in regressing mandibles of presoldiers, suggesting that the regression involved programmed cell death. Because soldiers of N. takasagoensis possess exaggerated organs (nasus and frontal gland), the present results suggest that JH-dependent regressive mechanisms exist in the mandibles without interfering with the formation of the exaggerated organs.

Published

2011

46. Contrasting micro/nano architecture on termite wings: two divergent strategies for optimising success of colonisation flights.

Author

Watson GS, Cribb BW, and Watson JA

Subjects

Animals, Isoptera ultrastructure, Microscopy, Electron, Scanning, Surface Properties, Wettability, Wings, Animal ultrastructure, Isoptera anatomy & histology, Wings, Animal anatomy & histology, Wings, Animal chemistry

Abstract

Many termite species typically fly during or shortly after rain periods. Local precipitation will ensure water will be present when establishing a new colony after the initial flight. Here we show how different species of termite utilise two distinct and contrasting strategies for optimising the success of the colonisation flight. Nasutitermes sp. and Microcerotermes sp. fly during rain periods and adopt hydrophobic structuring/'technologies' on their wings to contend with a moving canvas of droplets in daylight hours. Schedorhinotermes sp. fly after rain periods (typically at night) and thus do not come into contact with mobile droplets. These termites, in contrast, display hydrophilic structuring on their wings with a small scale roughness which is not dimensionally sufficient to introduce an increase in hydrophobicity. The lack of hydrophobicity allows the termite to be hydrophilicly captured at locations where water may be present in large quantities; sufficient for the initial colonization period. The high wettability of the termite cuticle (Schedorhinotermes sp.) indicates that the membrane has a high surface energy and thus will also have strong attractions with solid particles. To investigate this the termite wings were also interacted with both artificial and natural contaminants in the form of hydrophilic silicon beads of various sizes, 4 µm C(18) beads and three differently structured pollens. These were compared to the superhydrophobic surface of the planthopper (Desudaba psittacus) and a native Si wafer surface. The termite cuticle demonstrated higher adhesive interactions with all particles in comparison to those measured on the plant hopper.

Published

2011

47. The parasitoid, Verticia fasciventris causes morphological and behavioral changes in infected soldiers of the fungus-growing termite, Macrotermes carbonarius.

Author

Neoh KB and Lee CY

Subjects

Aggression, Animals, Discriminant Analysis, Isoptera anatomy & histology, Larva physiology, Diptera physiology, Host-Parasite Interactions, Isoptera parasitology

Abstract

The larval parasitoid Verticia fasciventris Malloch (Diptera: Calliphoridae) develops in the head of soldiers of the fungus-growing termite Macrotermes carbonarius (Hagen) (Isoptera: Termitidae). Morphological and behavioral changes in the host were evaluated and the termite castes and stages that were parasitized were identified. The larval emergence process is also described and possible mechanisms for the parasitoid fly's entry into the host body are discussed based on qualitative observations. Only a single larva per host was found. The mature larva pupated outside the host's body by exiting between the abdominal cerci. Parasitized soldiers possess a short and square-shaped head capsule, a pair of notably short mandibles, and a pair of 18-segmented antennae. Although parasitized soldiers were statistically less aggressive than healthy soldiers (P < 0.05), they expressed varying levels of aggression. Both minor and major soldiers can be parasitized and based on evidence from presoldiers, parasitization may begin during the precursor stages of soldiers. However, the stage at which parasitism first occurs has not been determined.

Published

2011

48. Not only soldiers have weapons: evolution of the frontal gland in imagoes of the termite families Rhinotermitidae and Serritermitidae.

Author

Šobotník J, Bourguignon T, Hanus R, Sillam-Dussès D, Pflegerová J, Weyda F, Kutalová K, Vytisková B, and Roisin Y

Subjects

Animals, Biological Evolution, Endocrine Glands physiology, Female, Head growth & development, Isoptera growth & development, Male, Microscopy, Electron, Scanning methods, Skull physiology, Species Specificity, Endocrine Glands anatomy & histology, Head anatomy & histology, Isoptera anatomy & histology

Abstract

Background: The frontal gland is a unique adaptation of advanced termite families. It has been intensively studied in soldiers with respect to its anatomy and chemistry, with numerous novel compounds being discovered within the tremendous richness of identified products. At the same time, the presence of the frontal gland in non-soldier castes received only negligible attention in the past., Principal Findings: Here, we report on the development of the frontal gland in alate imagoes of 10 genera and 13 species of Rhinotermitidae and Serritermitidae, in order to shed light on the evolution and function of this gland in imagoes. All investigated species possess a frontal gland. In most cases, it is well-developed and equipped with a sac-like reservoir, located in the postero-dorsal part of cranium, but reaching as far as the seventh abdominal segment in some Rhinotermitinae. The only exception is the genus Psammotermes, in which the gland is very small and devoid of the reservoir., Conclusions: Our direct observations and comparisons with soldiers suggest a defensive role of the gland in imagoes of all studied species. This functional analogy, along with the anatomic homology between the frontal gland in soldiers and imagoes, make it likely that the gland appeared once during the early evolution of rhinotermitid ancestors, and remained as a defensive organ of prime importance in both, soldiers and imagoes.

Published

2010

49. Inconspicuous matured males of worker form are produced in orphaned colonies of Reticulitermes speratus (Isoptera: Rhinotermitidae) and participate in reproduction.

Author

Fujita A and Watanabe H

Subjects

Animals, Female, Male, Reproduction physiology, Sex Ratio, Isoptera anatomy & histology, Isoptera physiology

Abstract

Differentiation of neotenics is easily induced by orphaning the worker termites of Reticulitermes speratus (Kolbe). Although it has previously been reported that the sex ratio of neotenics is female-biased, the background of this phenomenon and the gonad developmental process of workers in artificially orphaned colonies are unknown. Although both male and female conspicuous neotenics can emerge as a response to the orphaning of the colony, we observed that majority of the reproductive males that are formed do not molt into the neotenic morph and are therefore inconspicuous in the population. Participation of the inconspicuous reproductive males in sexual reproduction was confirmed by genetic analysis. Slight pigmentation of the abdominal sternites is the only characteristic of the inconspicuous reproductive males that enables them to be distinguished from normal male workers. The presence of the female ergatoid (one type of female neotenic) did not induce the production of inconspicuous reproductive males during the 12-week experiment time., (Copyright 2010 Elsevier Ltd. All rights reserved.)

Published

2010

50. MRT letter: A novel tegumental gland in female imagoes of the neotropical termite Cornitermes cumulans (Isoptera, termitidae, syntermitinae).

Author

Costa-Leonardo AM and Haifig I

Subjects

Animals, Female, Histocytochemistry, Life Cycle Stages, Microscopy, Electron, Transmission, Cellular Structures ultrastructure, Isoptera anatomy & histology, Isoptera cytology, Isoptera ultrastructure

Abstract

In general, the exocrine glands of social insects are structures involved in the chemical communication associated with social life. Here, we report the discovery of an unknown tegumental gland that is present in the female imagoes of Cornitermes cumulans and occurs next to the well-developed tergal glands that have previously been described. The tegumental glands release their secretion in the intersegmental membrane and are composed of bicellular units, a secretory cell and a canal cell, that are closely located to the epidermal cells in the inferior part of the eighth and ninth tergites. The ultrastructure of the glandular cells showed abundant smooth endoplasmic reticulum, suggesting that the secretion may be pheromonal, although its function is still unknown. These exocrine structures are facing the tergal glands, and we hypothesized that they act synergistically with the tergal glands to generate short-range attraction during tandem behavior., (© 2010 Wiley-Liss, Inc.)

Published

2010