Pathways and fine structure of neurons forming the nervi corporis allati II of the cockroach Periplaneta americana (L.)

Summary By back-filling the nervus corporis allati II (NCA2) with Co²⁺ and precipitating the sulfide, two groups of somata (A and B) are revealed on the ipsilateral side of the subesophageal ganglion (SG). These occur ante-roventrally, adjacent to the midsaggital plane. Group A consists of two cells; group B of five. Their processes form two discrete tracts issuing dorsoposteriorly into the neuropile between and slightly behind the circumesophageal connectives (CEC). After producing separate arborization fields in the dorsal neuropile, the tracts circumscribe the base of the ipsilateral CEC, unite, and their seven fibers enter NCA2 anteriorly.Prograde diffusion reveals 4-6 NCA2 axons penetrating the corpus allatum (CA) near a cap-like neurohemal organ. These axons form the transverse allatal tract (TAT), from whence they branch amongst the CA cells, and into the cap, the postallatal nerves, and the opposite CA.Electron microscopy of transverse sections demonstrates nine neurosecretory axons entering the SG through NCA2. Proximal to the CA, NCA2 consists of a central bundle of neurosecretory axons and a peripheral zone confluent with the CA cap. Depending upon the level of sectioning, there are 7–20 axons at the center, and seven pass into the TAT. The peripheral zone has the structure of a neurohemal organ.     

New features of the brain-retrocerebral neuroendocrine complex of the locust Schistocerca vaga (scudder)

Summary The techniques of axonal iontophoresis and cobalt sulfide precipitation were used to elucidate the relationships of the brain's neurosecretory cell groups and the retrocerebral complex of the locust Schistocerca vaga. The axons of the nervi corporis cardiaci I (NCC I) arise (1) from the medial neurosecretory cells of the protocerebrum, showing only limited branching, looping or spiraling; and (2) from a cell group previously undescribed for this species, located in the tritocerebrum. The axons project into the neurohemal and the glandular portions of the corpora cardiaca and into the hypocerebral ganglion, but not into the corpora allata. Axons of the NCC II arise from the lateral neurosecretory cells of the protocerebrum and project into the center of the corpora allata via the nervi corporis allati I (NCA I), as well as into the neurohemal and glandular portions of the corpora cardiaca. Axons of the NCC III arise from another newly described cell group in the tritocerebrum and end in both the corpora cardiaca and corpora allata. Axons of the NCA II arise from cells in the subesophageal ganglion and also end in the corpora allata.Supported by NIH Predoctoral Fellowship No. 5 F 01 GM 43816-03, NSF Grant GB-23033 and NIH Grant CA-05045 to H. A. Bern and USPHS Grant 1 R 01 NS09404 to C.H.F. Rowell.I wish to express my gratitude to Professors H.A. Bern and C.H.F. Rowell for unending encouragement and advice. I am indebted to Dr. Mick O'Shea for instruction in the cobalt/axonal iontophoresis method, and to Ms. Bea Bacher for excellent technical assistance.     

Corpus allatum regulation during the metamorphosis of Periplaneta americana: Axon pathways

The anatomy of the retrocerebral complex was studied after supravital staining with methylene blue, and axonal tracts within the corpora allata (CA) were traced after applying the CoCl₂ technique together with Timm's sulfide-silver enhancement. Cobalt chloride fills of the nerves to and from the CA revealed two major sources of innervation: the brain and the subesophageal ganglion. Three cell clusters in the brain contribute axons that reach each nervus corporis allati I (NCA I) and, apparently, pass to or beyond the CA. These are: a cluster of 8 to 12 cells in the contralateral pars lateralis, a cluster of 16 to 20 cells in the ipsilateral pars lateralis, and a cluster of 50 to 60 cells in the contralateral pars intercerebralis. PAF-stained sections of other brains revealed a corresponding number of PAF-positive cells in these same regions. The medial and lateral neurons arborize in the neuropile adjacent to the pars intercerebralis, and may associate there. The lateral group also arborizes extensively in the neuropile surrounding the pedunculus of the mushroom body. At least four cell bodies located antero-ventrad in the subesophageal ganglion send axons to the CA via each nervus corporis allati II (NCA II).To determine possible inhibitory pathways to the CA, the NCA I, NCA II, and postallatal nerves of last instar larvae were severed; either singly, or in combination. Additional experiments were performed on last instar larvae to substantiate that superlarvae were a direct result of an enhanced or sustained juvenile hormone titre. These experiments included: implanting two or more CA, extirpating one CA, or applying 100 μg of Altosid topically onto allatectomized larvae. The experiments indicated that only NCA I is an inhibitory pathway and that superlarvae were a direct consequence of CA activation. NCA II does not seem to provide the CA with an essential excitatory innervation; when it and NCA I are severed a supernumerary apolysis will still result. Some of the cells in the brain stainable by the CoCl₂ method are most probably identical to those that are PAF-positive. These cells may inhibit the CA in last instar larvae via neurosecretomotor junctions.     

Proctolin-like immunoreactivity in the central and peripheral nervous systems of the locust, Locusta migratoria

Proctolin-like immunoreactivity (PLI) was widely distributed in the locust, Locusta migratoria, within the central, peripheral and stomatogastric nervous systems, as well as the digestive system and retrocerebral complex. Proctolin-like immunoreactivity was observed in cells and processes of the brain and all ganglia of the ventral nerve cord. Of interest, PLI was found in the lateral neurosecretory cells, which send axons within the paired nervi corporis cardiaci II (NCC II) to the corpus cardiacum (CC). The CC contained extensive processes displaying PLI, which continued on within the paired nervi corporis allata (NCA) to the paired corpora allata (CA) where the axons entered and branched therein. The frontal and hypocerebral ganglia of the stomatogastric nervous system contained PLI within processes, resulting in a brightly staining neuropile. Each region of the gut contained PLI in axons and processes of varying patterns and densities. The paired ingluvial ganglia contained PLI, including an extensively stained neuropile and immunoreactive axons projecting through the nerves to the foregut. The hindgut contained PLI within longitudinal tracts, with lateral projections originating from the 8th abdominal ganglion via the proctodeal nerve. The midgut contained PLI in a regular latticework pattern with many varicosities and blebs. No difference in PLI in cells and processes of the central nervous system (CNS) was found between males and females.     

Commissural ring nerve: A female-specific neurosecretory tract supplied by bifurcating median neurons in the cockroach Periplaneta americana (L.) and the cricket Teleogryllus commodus (Walker)

Summary In the American cockroach, Periplaneta americana, and the Australian field cricket, Teleogryllus commodus, the two nerves supplying the bases of the cerci are joined by a branch that crosses behind the last abdominal ganglion. This commissural ring nerve is restricted to females, and it contains many axons filled with granular and agranular vesicles. The axons stem from somata located within the ganglion. There are one (Periplaneta) or two (Teleogryllus) groups of median neurons with bilaterally symmetrical bifurcations, and a group of postero-ventral neurons on each side. In T. commodus, these neurons are distinct from others associated with the cerci. In the two species, the ring nerve neurons contribute to a neuropile near the root of each cereal nerve. The bifurcating median neurons arborize on both sides before entering the ring nerve, while the postero-ventral ones branch more extensively ipsilateral to their somata. The possibilities are discussed that the bifurcating neurons may be homologous to dorsal unpaired median neurons, and that the ring nerve may be a neurohemal area.     

Immunological evidence for an allatostatin-like neuropeptide in the central nervous system of Schistocerca gregaria,Locusta migratoria and Neobellieria bullata

Methanolic brain extracts of Locusta migratoria inhibit in vitro juvenile hormone biosynthesis in both the locust L. migratoria and the cockroach Diploptera punctata. A polyclonal antibody against allatostatin-5 (AST-5) (dipstatin-2) of this cockroach was used to immunolocalize allatostatin-5-like peptides in the central nervous system of the locusts Schistocerca gregaria and L. migratoria and of the fleshfly Neobellieria bullata. In both locust species, immunoreactivity was found in many cells and axons of the brain-retrocerebral complex, the thoracic and the abdominal ganglia. Strongly immunoreactive cells were stained in the pars lateralis of the brain with axons (NCC II and NCA I) extending to and arborizing in the corpus cardiacum and the corpora allata. Although many neurosecretory cells of the pars intercerebralis project into the corpus cardiacum, only 12 of them were immunoreactive and the nervi corporis cardiaci I (NCC I) and fibers in the nervi corporis allati II (NCA II) connecting the corpora allata to the suboesophageal ganglion remained unstained. S. gregaria and L. migratoria seem to have an allatostatin-like neuropeptide present in axons of the NCC II and the NCA I leading to the corpus cardiacum and the corpora allata. All these data suggest that in locusts allatostatin-like neuropeptides might be involved in controlling the production of juvenile hormone by the corpora allata and, perhaps, some aspects of the functioning of the corpus cardiacum as well. However, when tested in a L. migratoria in-vitro juvenile hormone-biosynthesis assay, allatostatin-5 did not yield an inhibitory or stimulatory effect. There is abundant AST-5 immunoreactivity in cell bodies of the fleshfly N. bullata, but none in the CA-CC complexes. Apparently, factors that are immunologically related to AST-5 do occur in locusts and fleshflies but, the active protion of the peptide required to inhibit JH biosynthesis in locusts is probably different from that of AST-5.     

Allatotropic and nervous control of corpora allata in the adult male loreyi leafworm, Mythimna loreyi (Lepidoptera: Noctuidae)

Allatotropic activity is found in methanolic extracts of the brain–suboesophageal ganglion (SOG)–corpora cardiaca (CC) complex from virgin males of Mythimna loreyi Duponchel (Lepidoptera, Noctuidae). Corpora allata (CA) from 6‐day‐old virgin males exhibit low rates of release of Juvenile Hormone (JH) acid (JHA) in vitro. Release of JHA can be activated by the addition of an extract of brain–SOG–CC complex in a dose‐dependent manner, and this allatotropic activation can be sustained consistently in the continuous presence of such extracts. Based on its trypsin sensitivity and heat stability, the allatotropic factor is most likely a peptide. The allatotropic activity is dependent on the concentration of calcium ions in the medium, with the highest activation achieved beyond 2 m m . The results of nerve transection experiments suggest that both nervi corporis allati I (NCA I) and NCA II are involved in mediating the allatotropic control of CA in vitro. Isolated CA alone show significantly higher rates of release of JHA than the intact brain–SOG–CC–CA complex during the first 3 h of incubation, but the release of JHA reaches almost the same range in both groups by the end of the fourth hour of incubation.     

Serotonin-immunoreactive and dopamine-immunoreactive neurones in the terminal ganglion of the cricket,Acheta domestica: Light- and electron-microscopic immunocytochemistry

Summary The distribution and ultrastructure of serotonin- and dopamine-immunoreactive (5-HTi and DAi) neurones have been investigated in the terminal ganglion of the cricket, Acheta domestica, using a pre-embedding chopper technique. Special attention has been paid to the immunoreactive structures in the neuropil. 5-HTi structures are extensively distributed and densely packed throughout the 5 neuromeres of the terminal ganglion and originate from several interneurones and efferent neurones. In contrast, DAi fibres are distributed sparsely although they extend to all neuromeres of the ganglion and originate from 6 interneurons only. For both 5-HTi and DAi neurones characteristic axonal projections and branching patterns can be distinguished. The 5-HTi axons exhibit rich varicose arborizations, whereas DAi neurones possess fewer varicosities in the neuropil. Electron microscopy shows that 5-HTi varicosities contain small ( 60 nm) and large ( 100 nm) agranular vesicles, and large ( 100 nm) granular vesicles, whereas in DAi varicosities small ( 60 nm) agranular and large ( 100 nm) granular vesicles are seen. Both 5-HTi and DAi varicosities form synaptic contacts. We conclude that both serotonin and dopamine may be used as neurotransmitters in the terminal ganglion of the cricket.Fellow of the Alexander von Humboldt-Stiftung     

Neuroendocrine organs of the lemon-butterfly, Papilio demoleus L. II. The corpora cardiaca-allata complex of the adult.

The retrocerebral endocrine organs of the adult lemon-butterfly; Papilio demoleus have been described. The organs are subaortic lying closely behind the brain. While the nervi corporis cardiaci I (NCCI) originate from the protocerebrum of the brain, the NCCII seem to take their origin in the tritocerebrum in common with another nerve named earlier as the tegumentary nerve. The corpora cardiaca (CC) and corpora allata (CA) are closely approximated to each other obliterating the nervi corporis allati (NCA) which are conspicuous in the larva of the same species. An intercardiacal bridge (ICB) connects the CC of the two sides and acts as a possible centre of distribution for the neurosecretory material (NSM) to the gut. Histological evidence suggests that the NSM inside the CC remains intraaxonal without being primarily unloaded in the organs for storage. The intrinsic secretory cell of the CC are intimately associated with the neurosecretory fibres from the brain and bear fairly thick axons. No NSM could be detected in the CA of this insect.     

Identification of neuronal pathways between the stomatogastric nervous system and the retrocerebral complex of the cockroach Periplaneta americana (L.)

Summary The neuronal pathways connecting the stomatogastric nervous system with the retrocerebral complex of the cockroach, Periplaneta americana, were investigated by means of axonal cobalt chloride iontophoresis. Somata in the hypocerebral ganglion and in the nervus recurrens sending their axons to different parts of the stomatogastric nervous system were traced. Some axons in the oesophageal nerve arise from large perikarya in the anterior part of the pars intercerebralis and pass via the NCCI to the corpora cardiaca and the oesophageal nerve. They form a profuse dendritic tree in the protocerebrum. Fibers of the NCC I and NCC II as well as the NCA I and NCA II enter the stomatogastric nervous system via the hypocerebral ganglion.     

The roles of Dippu-allatostatin in the modulation of hormone release in Locusta migratoria

Dippu-allatostatins (ASTs) have pleiotropic effects in Locusta migratoria. Dippu-ASTs act as releasing factors for adipokinetic hormone I (AKH I) from the corpus cardiacum (CC) and also alter juvenile hormone (JH) biosynthesis and release from the corpus allatum (CA). Dippu-AST-like immunoreactivity is found within lateral neurosecretory cells (LNCs) of the brain and axons within the paired nervi corporis cardiaci II (NCC II) to the CC and the CA, where there are extensive processes and nerve endings over both of these neuroendocrine organs. There was co-localization of Dippu-AST-like and proctolin-like immunoreactivity within these regions. Dippu-ASTs increase the release of AKH I in a dose-dependent manner, with thresholds below 10(-11)M (Dippu-AST 7) and between 10(-13) and 10(-12)M (Dippu-AST 2). Both proctolin and Dippu-AST 2 caused an increase in the cAMP content of the glandular lobe of the CC. Dippu-AST 2 also altered the release of JH from the locust CA, but this effect depended on the concentration of peptide and the basal release rates of the CA. These physiological effects for Dippu-ASTs in Locusta have not been shown previously.     

Responsiveness of the adult cricket (Gryllus bimaculatus andAcheta domesticus) retrocerebral complex to allatostatin-1 from a cockroach,Diploptera punctata

Brain-retrocerebral complexes of female crickets,Gryllus bimaculatus andAcheta domesticus, treated with antibody to allatostatin-1 from a cockroach,Diploptera punctata, show extensive immunoreactivity. The results suggest that allatostatins or allatostatin-like molecules are produced in neurosecretory cells of the brain and are delivered to the corpora allata through nervous connections and/or via haemolymph. Radiochemical measurements of juvenile hormone III biosynthesis by isolated corpora cardiaca-corpora allata complexes from adultG. bimaculatus have been used to demonstrate an in vitro sensitivity of these glands to allatostatin-1 fromD. punctata. Allatostatin-1 is a relatively potent inhibitor of juvenile hormone III biosynthesis in corpora allata of both young adult females and males. In glands taken from 3-day virgin females, 50% inhibition of hormone biosynthesis is reached at ca. 3 nmol·l^-1 allatostatin-1. The inhibitory action of allatostatin-1 is rapid, dose-dependent and reversible. Addition of 200 mol·l^-1 farnesol to the incubation medium prevents inhibition of juvenile hormone III biosynthesis by allatostatin-1. Juvenile hormone III biosynthesis by isolated corpora allata of 3-day female house crickets,A. domesticus, is also susceptible to inhibition by 1 mol·l^-1 allatostatin-1.Abbreviations ASB2 Diploptera punctata allatostatin-5 - CA corpora allata - CC corpora cardiaca - Dip A-1 Diploptera punctata allatostatin-1 - HEPES 4-(2-hydroxyethyl)piperazine-1-ethanesulphonic acid - JH juvenile hormone(s) - Mas-AS Manduca sexta allatostatin - MF methyl farnesoate - NCA nervus corporis allati - NCC nervus corporis cardiaci - SEM standard error of mean - TRIS Tris(hydroxymethyl)aminomethane     

Axonal projections within the brain-retrocerebral complex of the cricket,Teleogryllus commodus

Summary The cerebral origins and axonal trajectories of neurons projecting to the retrocerebral complex of the cricket, Teleogryllus commodus, were examined in silver-intensified nickel preparations. Spatially separate groups of somata in the pars intercerebralis (PI) and in the pars lateralis (PL), commonly accepted as neurosecretory loci, were found to give rise to axons which terminate in the nervus corporis allati 2, the corpus allatum, or the corpus cardiacum. Additional findings demonstrated a distinct group of somata from the PI whose axons run in the esophageal nerve (stomatogastric nervous system), nine somata in the subesophageal ganglion with axons projecting into the nervus corporis allati 2, and also a small cluster of tritocerebral perikarya with axons terminating in the corpus cardiacum. Somata residing in the PI and PL were found to be compartmentally organized based upon the retrocerebral destinations of their axons. Possible functional consequences of these results with respect to the insect neurosecretory system are discussed.     

Neurosecretory system of the earwig Labedura riparia, and the rôle of the aorta as a neurohaemal organ

The neurosecretory system of Labedura riparia has been described from sections and whole mounts using a variety of techniques. The pars intercerebralis contains two clusters of medial neurosecretory cells (MNC), each cluster consisting of 8 to 10 A-cells and occasional B-cells. The lateral sides of the brain have a few B-cells. The axons of the median neurosecretory cells terminate in the cephalic aorta (AO), whereas the axons of the lateral neurosecretory cells (LNC) terminate in the corpora cardiaca (CC). It appears that the neurosecretory material (NSM) elaborated in the MNC is stored in the cephalic aorta and that elaborated in the LNC is stored in the corpora cardiaca, which are two oval or elongate bodies composed of large chromophobe and small chromophil cells. Posteriorly there is the oval or elongate corpus allatum (CA) attached to the CC by thick nerves. The CA consists of one cell type only. Both CC and CA contain no A-cell neurosecretory material. It has been suggested that the neurosecretory system of L. riparia is composed of two complexes. One is formed by the medial neurosecretory cells for which the aorta functions as a neurohaemal organ, and the other is formed by lateral neurosecretory cells-lateral neurosecretory pathways-nervi corporis cardiaci-II in which the corpora cardiaca function as a neurohaemal organ.     

The Morphology of the Stomodeal Nervous System in the Adult Dragon Flies Bradinopyga geminata and Orthetrum chrysis (Libellulidae)

The morphology of the stomodeal nervous system of the adult dragon flies Bradinopyga geminata and Orthetrum chrysis is described. No gastric ganglion or ganglion ingluviale has been found. Instead the oesophageal nerve forks near the junction of the proventriculus and the midgut. The two nerves run on either side of the midline as ingluvial nerves and enter the proventricular ganglionic masses. These ganglionic masses are connected by a transverse nerve, which has been called as the nervus transversus proventriculare. Both bipolar and multipolar types of sensory cells have been found over the surface of the crop. These cell bodies appear to be interconnected by connective tissue. Dendrites of these cells terminate on the longitudinal muscle fibres, surrounding the proventriculus and the midgut. The proximal processes of these cells enter the proventricular ganglionic mass. In methylene blue whole mounts they resemble the stretch receptors, hence it is quite probable that they play some role in the peristaltic movement of the gut. The corpora cardiaca lie dorsal to the pharynx and are connected to the brain by two pairs of nerves, the nervi corporis cardiaci (NCC I, NCC II). Unlike in other insects, the nerve connecting the corpora cardiaca with the corpora allata is slender and arises as a branch of the nerve, nervus corporis allati II. The corpora alata are spherical to ovoid in shape and lie ventral to the nerve cord. Anteriorly they are attached to the inner wall of the hypopharynx and posteriorly to the subesophageal ganglion by a pair of nerves, the nervi corporis allati II.     

Sucrose-binding lectin in regenerating cockroach (Periplaneta americana) legs: Its purification from adult hemolymph

Previously, we purified Periplaneta lectin from the hemolymph of adult Periplaneta americana (American cockroach) (Kubo and Natori Eur. J. Biochem. 168, 75–82, 1987). Immunoblotting analysis using antibody against Periplaneta lectin showed that the cockroach hemolymph contains another lectin that cross reacted immunologically with Periplaneta lectin. We have purified this new lectin (regenectin) to homogeneity. Affinity purified antibody against regenectin cross reacted with Periplaneta lectin. Thus, Periplaneta lectin and this new lectin were found to be different lectins sharing common antigenicity. After leg amputation, this new lectin was found to appear transiently at a specific stage of regeneration as revealed by immunoblotting, suggesting that it plays a role in the regeneration process.     

Studies on the neurosecretory system and retrocerebral endocrine glands of Nezara viridula Linn. (Heteroptera: Pentatomidae)

The neurosecretory system and retrocerebral endocrine glands of Nezara viridula Linn. have been described on the basis of in situ preparations and histological sections employing the paraldehyde fuchsin (PF) and performic acid-victoria blue (PAVB) techniques. In the brain of N. viridula, there are two medial groups–each consisting of five neurosecretory cells which belong to A-type. The lateral neurosecretory cells are absent. The axons of the two groups of medial neurosecretory cells (MNC) compose the two bundles of neurosecretory pathways (NSP) that decussate in the anterodorsal part of the protocerebrum. The two pathways, after the cross-over, run deep into the protocerebrum and deutocerebrum and emerge as NCC-I from the tritocerebrum. The nervi corporis cardiaci-I (NCC-I) of each side which are heavily loaded with NSM terminate in the aorta wall. Thus, the neurosecretory material (NSM), elaborated in the medial neurosecretory cells of the brain, is stored in the aortic wall and nervi corporis cardiaci-I (NCC-I). The NCC-II are very short nerves that originate from the tritocerebrum and terminate in the corpora cardiaca (CC) of their side. Below the aorta, but dorsal to the oesophagus, lie two oval or spherical corpora cardiaca. A corpus allatum (CA) lies posterior to the corpora cardiaca (CC). The corpora cardiaca do not contain NSM; only the intrinsic secretion of their cells has been occasionally observed which stains orange or green with PF staining method. The corpus allatum sometimes exhibits PF positive granules of cerebral origin. A new connection between the corpus allatum and aorta has been recorded. The suboesophageal ganglion contains two neurosecretory cells of A-type which, in structure and staining behaviour, are similar to the medial neurosecretory cells of the brain. The course and termination of axons of suboesophageal ganglion neurosecretory cells, and the storage organ for the secretion of these cells have been reported. It is suggested that the aortic wall and NCC-I axons function as neurohaemal organ for cerebral and suboesophageal secretions.     

Postembryonic development of serotonin-immunoreactive neurons in the central nervous system of the blowfly,Calliphora erythrocephala

Summary The postembryonic development of serotonin-immunoreactive (5-HTi) neurons was studied in the optic lobe of the blowfly. In the adult fly there are 24 5-HTi neurons invading each optic lobe. The perikarya of two of these neurons are situated in the dorso-caudal part of the protocerebrum (LBO-5HT neurons; large bilateral optic lobe 5-HTi neurons). The cell bodies of the remaining 22 neurons are located anteriorly at the medial base of the medulla (2 innervating the lobula, LO-5HT neurons; and 20 neurons innervating the medulla, ME-5HT neurons). The two central neurons (LBO-5HT neurons) are derived from metamorphosing larval neurons, while the ME- and LO-5HT neurons are imaginai optic lobe neurons differentiating during pupal development.The 5-HTi neurons of the optic lobe seem to have different ancestors. The LBO-5HT neurons are probably derived from segmental protocerebral neuroblasts, whereas the ME-and LO-5HT neurons are most likely derived from the inner optic anlage. The first 5-HTi fibers to reach the imaginal optic lobes are seen in the late third instar larva and are derived from the LBO-5HT neurons. The first ME- and LO-5HT neurons become immunoreactive at 24 h (10%) pupal development. At about 96 h (40%) of pupal development all the 5-HTi neurons of the optic lobes have differentiated and attained their basic adult morphology. The further development mainly entails increase in volume of arborizations and number of finer processes. The differentiation and outgrowth of 5-HTi processes follows that of, e.g., columnar neurons in the optic lobe neuropils. Hence, 5-HTi processes invade neuropil relatively late in the differentiation of the optic lobe.     

A taxonomic study of genus Teleogryllus from East Asia (Insecta: Orthoptera: Gryllidae)

Crickets belonging to Teleogryllus spp. are widely distributed in East Asia and they are difficult to distinguish. In this study, a phylogenetic tree of Teleogryllus is reconstructed by COI gene, and all species can be distinguished well. The possible evolutionary histories of male genitalia, songs and life history are discussed. The result supports establishing subgenera Macroteleogryllus and Brachyteleogryllus of Teleogryllus spp. from East Asia. T. boninensis is moved to Brachyteleogryllus. The calling song of four species includes both long and short chirps, and the rest just have single chirps. The species inhabit sympatrically trend to have different type of calling song. Egg overwinter type evolved several times independently.     

First record of Teleogryllus (Brachyteleogryllus) marini Otte & Alexander, 1983 (Orthoptera: Gryllidae) in korea and discussion of its continued misidentification using DNA barcoding

DNA barcoding is useful for identifying species that are difficult to distinguish via morphological analysis. However, if the public DNA barcode database includes misidentified DNA samples, subsequent molecular studies could generate incorrect results. Here, we report a misidentified DNA barcode for the North Coastal Black Field Cricket Teleogryllus (Brachyteleogryllus) marini. T. (B.) marini is routinely misidentified using DNA barcoding; it has been reported as Teleogryllus (Brachyteleogryllus) commodus since its misidentification in various studies of Asian samples. Here, we report the first occurrence of T. (B.) marini in Korea, along with its morphological diagnosis, bioacoustic signals, and DNA barcoding findings. T. (B.) marini is transferred to the subgenus Brachyteleogryllus from the subgenus Teleogryllus, based on the male genitalia morphology and phylogenetic analysis. Genetic distance analyses have shown that cytochrome c oxidase I barcoding is useful for species identification of the genus Teleogryllus, but detailed morphological investigations are essential for DNA barcoding before any molecular study.