Calcium transport from Malpighian tubules to puparial cuticle ofMusca autumnalis

Summary The transport of calcium from mineralized granules stored in the Malpighian tubules to the puparium of the face fly,Musca autumnalis De Geer, was studied. Calcium was transported directly from the tubules to the cuticle via the hemolymph. Little, if any, calcium entered the hindgut or other tissues during or prior to transport. A total of approximately 0.8 mg of calcium per larva was transported, beginning at the wandering stage; peak hemolymph concentrations occurred at anterior retraction. Hemolymph calcium levels subsequently decreased as puparial calcium increased. Puparial mineralization utilized most of the minerals stored during the larval stage, with lesser amounts of minerals being recovered in the adult or excreted. Deposition of mineral salts in the cuticle was accompanied by an increase in cuticular pH from 7.0 to 8.4. The house fly,Musca domestica L., which contains much lower concentrations of minerals in the puparial cuticle, exhibited no increase in cuticular pH during pupariation. Biomineralization of the face fly puparial cuticle appears to occur, in part, as a result of ionic equilibria involving calcium and magnesium phosphates and carbonates, which have relatively low solubility products at alkaline pH.Contribution No. 87-237-J from the Kansas Agricultural Experiment Station, Kansas State University, Manhattan, Kansas. Cooperative investigation between Agricultural Research Service, U.S. Department of Agriculture and the Kansas Agricultural Experiment Station. K.J.K. is a research chemist and adjunct professor at U.S. Grain Marketing Research Laboratory and Kansas State University, respectively. Mention of a proprietary product in this paper does not imply its approval by the USDA to the exclusion of other products that may also be suitable. Reprint requests to A.B. Broce     

Diapausing pupae of the flesh fly Sarcophaga crassipalpis (Diptera: Sarcophagidae) are more resistant to inoculative freezing than non-diapausing pupae

The resistance of diapausing (overwintering) and non‐diapausing (summer) Sarcophaga crassipalpis (Diptera: Sarcophagidae) pupae to inoculative freezing was examined. Although both types of pupae resisted inoculative freezing after 24‐h submergence in water, diapausing pupae were overall significantly more resistant than non‐diapausing pupae. Exposing the thin pupal cuticle by removing the ends of the puparial case eliminated the capacity of both pupal types to resist inoculative freezing, indicating that resistance to inoculative freezing resides with the puparium. Pupae submerged in surfactant solution were significantly less resistant to inoculative freezing than those submerged in water. Furthermore, the puparial water content of pupae submerged in surfactant solution was significantly greater than that of puparia from pupae submerged in water. Surfactant may have promoted inoculative freezing by facilitating the spread of water over the surface of and into the puparium, thereby creating bridges between external ice and pupal body fluids. Extracting puparial surface lipids with chloroform/methanol (2 : 1, v:v) decreased the resistance of non‐diapausing pupae to inoculative freezing but did not significantly affect that of diapausing pupae. This finding indicates that the puparium of diapausing pupae contains protection against inoculative freezing separate from its surface lipids. This barrier may be important in protecting the freezing‐intolerant overwintering pupae against inoculative freezing within their soil hibernaculum.     

The calcified puparium of the face fly, Musca autumnalis (Diptera: Muscidae)

The general composition of the calcified puparium of Musca autumnalis was determined. Ash-weight analyses show that 62% of the puparium is inorganic material. The major components of the puparium are calcium, magnesium, phosphate and carbonate. Calcium and magnesium phosphate are the predominant salts in the puparium, with a lesser contribution by their respective carbonates. Scanning electron microscopy revealed that the exocuticle was the site of calcification in the puparium. Inorganic analyses of the insoluble salt isolated from face fly larvae showed it to be compositionally identical with the puparial salt. Major organic components of the puparium are lipid, chitin and protein. The presence of carbonic anhydrase and alkaline phosphatase activity in post-feeding larvae was confirmed.     

Water loss and respiration of Lucilia cuprina during development within the puparium

The rate of loss of water and the rate of uptake of oxygen were measured continuously throughout the development of Lucilia cuprina within the puparium. Changes in these parameters were correlated with changes observed in morphology of cuticles and respiratory structures during development.In development at 26°C, there is, at 20–22 hr after puparium formation a major loss of water by mechanical expulsion of moulting fluid chiefly through the posterior larval spiracles after the severing of the posterior larval tracheae. This loss of water is essential to survival and is followed by an extremely low rate of water loss attributed to slow diffusion of water through the resulting air gap between the pupal cuticle and the puparium. There is an increase in oxygen consumption during the pupal movements associated with the casting of the larval tracheae followed by a sharp reduction in oxygen consumption until the pupal horns are everted a short time later. This combination of physiological events enables development to proceed over a wide range of conditions in the puparial environment.     

Oxidation of N-β-alanyldopamine by insect cuticles and its role in cuticular sclerotization

The oxidation products formed when various types of insect cuticle were incubated with N-β-alanyldopamine (NBAD) have been studied by means of reversed phase high performance liquid chromatography, and compared to the corresponding products obtained when N-acetyldopamine (NADA) was incubated with the cuticles. The results indicate that NBAD is oxidized to o-quinone and quinone methide derivatives. In contrast, NADA can be oxidized by some cuticles not only to o-quinone and quinone methide derivatives, but it can also be desaturated to α,β-dehydro-N-acetyldopamine, a probable intermediate in β-sclerotization. Some implications for in vivo sclerotization are discussed.     

Mode of action of an insect neuropeptide leucopyrokinin (LPK) on pupariation in fleshfly (Sarcophaga bullata) larvae (Diptera: Sarcophagidae)

An insect neuropeptide leucopyrokinin (LPK) (pQTSFTPRLamide) accelerates pupariation in wandering larvae of the fleshfly Sarcophaga bullata. The period of sensitivity to the action of LPK begins approximately 4 h before pupariation. Within this period the degree of acceleration of contraction into the shape of a puparium is practically independent of the age at which the larvae are injected, while acceleration of tanning is distinctly more age dependent. From ligation experiments we conclude that intact central innervation is essential for the action of LPK on puparial contraction, whereas central neurones take no part in mediation of LPK action on tanning of the cuticle. An analysis of tensiometric recordings of muscular activity revealed that the actual time of LPK accelerated puparial contraction coincides with the beginning of the immobilisation/retraction phase. LPK accelerates the switch from wandering behaviour to immobilisation/retraction behaviour but has no effect on the onset and duration of motor patterns that normally underlie puparial contraction in controls. The morphology of an accelerated puparium is normal but its formation is temporally dissociated from normal ‘contraction patterns’ that are performed a long time after the puparium has contracted. It means that neuromuscular activity of larvae accelerated by LPK does not cease upon formation of the white puparium, but continues until the whole motor programme of pupariation behaviour is completed. Apparently the peptide acts on the integument by stimulating it to contract and shrink, and no specific patterns of muscular contractions are needed to properly shape the puparium. This finding sheds a new light on our understanding of the mechanism of puparium formation.     

Some effects of low oxygen partial pressures on the development of Calliphora vomitoria;

The influence of wet conditions and low pO₂ on the survival and development of non-feeding final instar larvae and puparia of Calliphora vomitoria has been investigated. The larvae delay the formation of the puparium in wet conditions in air and in dry or wet conditions in 10 and 5% oxygen. This may be related to the susceptibility of the newly formed puparia to oxygen shortage. The pupal respiratory horns play an important part in maintaining O₂ uptake when the puparia are surrounded by particles covered with a film of water but are not involved in aiding survival in low pO₂. Zero age puparia are killed by a 2 day exposure to 10% O₂ but later stages can continue to develop in this gas. Fifty per cent of the 0, 1 and 9 day old puparia are killed by about a 12 hr exposure to 1% O₂ whereas 50 per cent of the 2 to 8 day old puparia can survive over 1·5 days exposure to this gas. Development, as measured by respiration rates and the timing of the emergence of the adults, is delayed by 1% O₂ by the amount of time that the insects spend in that gas. However, the first phase of elongation of the pharate adult longitudinal flight muscle, occurring between the third and fourth day of puparial life, is only slightly slowed down in 1% O₂. The variations in susceptibility to 1% O₂ and the growth of the muscles are discussed in relation to published accounts of protein synthesis in the puparium.     

N-β-Alanyldopamine levels and synthesis in integument and other tissues of Manduca sexta (L.) during the larval-pupal transformation

N-β-Alanyldopamine (NBAD) and other diphenols in tissues of the fifth larval instar of the tobacco hornworm, Manduca sexta (L.), were analyzed by HPLC with electrochemical detection. NBAD accumulated in the integument during the intermolt feeding period, with maximal levels in the wandering stage (6 mmol/g). It then declined to a low level during apolysis and endocuticle digestion, while hemolymph NBAD increased during the same interval to a peak concentration (3 mM) shortly before pupal ecdysis. Trachea and foregut contained lesser amounts of NBAD (0.5 mmol/g), perhaps associated with cuticle, whereas fat body, muscle, midgut and hindgut had 0.1 mmol/g or less. Dopamine (DA), N-acetyldopamine and 3,4-dihydroxyphenylalanine (DOPA) were at least 10-fold less abundant than NBAD in the integument. NBAD synthase, which catalyzes the formation of NBAD from DA and β-alanine, was assayed in both integument and fat body. Highest activity was detected in the integument, where two peaks were observed, one at day 3 near the end of larval feeding and the other at day 9 as pupal cuticle tanning was initiated. Fat body enzyme was substantially less and was detected only in the pharate pupa. Maximal NBAD synthesis by integument cultured in vitro was dependent upon DA supplementation of at least 1.4 mM. 20-Hydroxyecdysone did not alter NBAD synthesis in vitro in either the integument or the fat body, even though injection of this hormone into isolated larval abdomens induced synthesis and/or transport of integumental NBAD back into the hemolymph. The rate-limiting steps in the NBAD biosynthetic pathway appear to be the production of DOPA and DA, because β-alanine occurs in the hemolymph at relatively high levels throughout larval-pupal development.     

Cuticular strength and pigmentation of rust-red and black strains of Tribolium castaneum: Correlation with catecholamine and β-alanine content

Rust-red wild and black mutant strains of the red flour beetle, Tribolium castaneum, were used to investigate temporal patterns of catecholamine and β-alanine content during sclerotization and pigmentation of adult cuticle and to relate these patterns to corresponding changes in cuticle resistance to puncture. Rust-red elytral cuticle sclerotized more rapidly than black cuticle until 6 days after adult eclosion when both became equal in puncture resistance. The cuticular concentrations of $\text{N-β-}\text{alanyldopamine}$ (NBAD), β-alanine and 3,4-dihydroxyphenylacetic acid (DOPAC) increased more rapidly in the rust-red strain than in the black strain during the first 7 days following adult eclosion. Conversely, cuticular dopamine increased more rapidly in black than in the red strain. Thus the rust-red pigmentation and rapid sclerotization appear to be related to the availability of β-alanine, $\text{N-β-}\text{alanyldopamine}$ and DOPAC. Melanization was prevented and rust-red pigmentation induced by injections of β-alanine or NBAD into newly ecdysed black mutant beetles. Crosses of the two strains generally had intermediate levels of cuticular dopamine and β-alanine, but the NBAD levels were similar to those of the rust-red strain. Dopamine, NBAD and DOPAC levels became similar in both black and rust-red strains about 6 days after adult ecdysis as did resistance to puncture. Therefore, dopamine appears to be directed initially into the melanin pathway in black adults due to a temporary lack of $\text{N-}\text{acylation}$ with β-alanine. After the melanization phase, dopamine is metabolized to sclerotization precursors eventually resulting in normal physical properties of the exoskeleton.     

Catecholamines in the cuticles of four strains of the german cockroach Blattella germanica (L.) during sclerotization and melanization

Catecholamines were extracted from the cuticles of four strains of the cockroach Blattella germanica at different times 48 h after adult ecdysis and analyzed by reverse phase HPLC with electrochemical detection. The wild (VPl), black (Bl), orange (or), and yellow (y) phenotypes differ in cuticular pigmentation, particularly in the extent of melanization. N-β-Alanyldopamine (NBAD) and N-β-alanylnorepinephrine (NBANE) were major o-diphenolic compounds in extracts from cuticle of all strains during the main period of sclerotization. N-Acetyldopamine (NADA) and N-acetylnorepinephrine (NANE) were minor the first day after ecdysis, but accumulated to higher levels thereafter. Dopamine (DA) concentrations were higher in the darker pigmented cuticles of strains Bl and or than in the lighter-colored cuticles of strains VPl and y. Extractable DA rapidly increased in VPl, Bl, and or cuticles shortly after ecdysis, reached peak levels 6–24 h later, and then decreased after melanization. Only small amounts of DA were detected in strain y cuticle, whereas NBANE concentrations were very high. Therefore, high DA levels in cuticle are correlated with melanization that occurs during the first few hours after adult ecdysis, whereas sclerotization is correlated with high levels of the N-β-alanylcatecholamines. Sclerotization appears to be delayed in strain Bl, since only low concentrations of the N-acylated catecholamines accumulate until after melanization is completed.     

Juvenile hormone activity of substituted aryl 3,7-dimethyl-6-octenyl ethers in the stable fly and house fly

Tests of substituted aryl 3,7-dimethyl-6-octenyl ethers and their epoxidized analogues produced a juvenile hormone (JH) mimic that was active against both the stable fly, Stomoxys calcitrans, and the house fly, Musca domestica. The criterion of activity in the JH bioassays was the formation of pupal-adult intermediates within the puparia.     

Host range testing of a prospective classical biological control agent against cabbage maggot,Delia radicum,in Canada

The introduction of a European natural enemy, Aleochara bipustulata L. (Coleoptera: Staphylinidae), is being considered for control of cabbage maggot, Delia radicum (L.) (Diptera: Anthomyiidae) in canola in Canada, and the host specificity of this pupal parasitoid must first be studied. Contemporary guidelines were used to select 18 species of Diptera to represent non-target species taxonomically related or ecologically similar to reported hosts of A. bipustulata, or beneficial species. No-choice tests were used to determine which of the 18 species are within A. bipustulata’s fundamental host range, and whether puparial structure or mass or duration of pupal development influence their acceptability and suitability as hosts. Five species were consistently suitable as hosts, and these were either relatively small or were taxonomically closely related to the target host. The probability that a puparium would be entered by a parasitoid larva was greatest for small puparia, but was unaffected by pupal duration. The probability of completing parasitoid development once a puparium was entered was influenced by both puparial mass and duration of pupal development. Pitfall traps to assess habitat associations caught A. bipustulata adults in a variety of crop habitats but none were caught in forests. Host range and habitat data are used to argue that there is little risk of parasitism to beneficial taxa. Non-target species taxonomically closely related to the target D. radicum or with small puparia may fall within the fundamental host range of A. bipustulata. However, risk to many of these species may be minimal because of the habitat preferences of the parasitoid and its cues for host-finding and recognition.     

Tyrosine and catecholamine levels in the hemolymph of tobacco hornworm larvae,Manduca sexta,parasitized by the braconid wasp,Cotesia congregata,and in the developing parasitoids

Parasitism of fifth instar Manduca sexta larvae by the gregarious parasitoid Cotesia congregata prevented normal storage of tyrosine in the hemolymph, whereas total tyrosine levels increased over eight times in the hemolymph of unparasitized larvae by day 4. Tyrosine glucoside, the hemolymph storage form of tyrosine and the precursor for pupal cuticle sclerotizing agents, was found only in trace amounts in parasitized larvae at the time of parasitoid emergence, but had increased to over 6 mM in hemolymph of unparasitized larvae. Concentrations of dopamine and N-β-alanyldopamine (NBAD), precursors for melanization and sclerotization of cuticle, respectively, had approximately doubled in the hemolymph of parasitized larvae by the day of parasitoid emergence, but not in unparasitized larvae. Catecholamine biosynthesis may be transiently stimulated for wound-healing, as black melanic pigmentation appeared around the wasp emergence holes in the host integument. C. congregata larvae accumulate tyrosine, dopamine, and NBAD by the time of emergence and cocoon spinning, either by direct uptake or by synthesis from precursors obtained from the host. NBAD increased in parasitoid larvae close to pupation, suggesting it functions as the main precursor for pupal cuticle tanning. Both dopamine and NBAD increased dramatically in pharate adult wasps just before eclosion and N-acetyldopamine (NADA) appeared for the first time. Dopamine was highest in concentration and total amount, and it can serve both as a precursor for black melanic pigmentation of adult wasp cuticle and for synthesis of NADA and NBAD, the precursors for cuticle sclerotization. Arch. Insect Biochem. Physiol. 38:193–201, 1998. © 1998 Wiley-Liss, Inc.     

Quantitative determination of catecholic degradation products from insect sclerotized cuticles

Acid hydrolysates of cuticle from various insect species were quantitatively analyzed for five catecholic amino acid adducts. Four of the adducts are ketocatechols; in three of them the amino acid moiety, either lysine, glycine or beta-alanine, is connected via its amino group to the alpha-carbon atom of 3,4-dihydroxyacetophenone, in the fourth a tyrosine residue is connected to the same position via its phenolic group. The fifth adduct contains histidine linked via its imidazole-ring to the beta-position of the dopamine sidechain. The three ketocatecholic adducts containing alpha-amino acids were obtained in significant yields from adult cuticles of the locust Schistocerca gregaria, the cockroaches Blaberus craniifer and Periplaneta americana, and the beetles Pachynoda sinuata and Tenebrio molitor, but only in trace amounts from larval and pupal cuticles of T. molitor, pupal cuticles of the moths Manduca sexta and Hyalophora cecropia, and puparia of the blowfly Calliphora vicina. The beta-alanine-containing ketocatechol was not obtained from cuticle of locusts and T. molitor larvae and pupae, but it was present in the hydrolysates of the other cuticles. The beta-histidine-dopamine adduct was obtained from all the cuticles, the highest yield was obtained from adult P. sinuata and the lowest yield was from adult S. gregaria. The beta-histidine-dopamine adduct is derived from the product formed by reaction of p-quinone methides of N-acetyldopamine (NADA) or N-beta-alanyldopamine (NBAD) with histidine residues in the cuticular proteins. The ketocatecholic adducts are assumed to be degradation products of crosslinks formed when oxidized dehydro-NADA reacts with the cuticular proteins. The insect species investigated appear to use both pathways for sclerotization, but to widely differing extents; the dehydro-NADA pathway dominates in cuticles which are exposed to strong deforming forces, such as those of adult locusts and cockroaches, and the p-quinone methide pathway dominates in cuticle of lepidopteran pupae and blowfly puparia, which are not exposed to strong mechanical forces but have to be effectively protected against microbial and fungal attacks.     

Effects of temperature and other environmental factors on the post‐diapause development of walnut husk fly Rhagoletis completa (Diptera: Tephritidae)

To more effectively manage walnut husk fly Rhagoletis completa (Diptera: Tephritidae), in California walnut orchards, it is important to understand the factors that affect the timing of adult emergence. In the present study, we examine the effects of incubation temperature, pre‐chill and chill durations, latitude, cultivar and size on the post‐diapause development of R. completa puparia. The lower developmental threshold, upper developmental threshold and optimal temperature for puparial development are estimated to be 4, 34 and 26.6 °C, respectively. The thermal requirement for adult emergence after 120 days of chilling is estimated to be 2024 degree days. Percentage adult emergence declines at both higher and lower incubation temperatures. Chill duration at 5 °C for diapausing puparia has a nonlinear negative effect on the thermal requirement but no effect on percentage emergence. Insufficient chilling leads to poor synchronization of adult emergence. Greater pre‐chill duration at room temperature increases the thermal requirement and slightly decreased percentage emergence. Latitude has a negative effect on the thermal requirement. Puparia from northern California black walnut (Juglans hindsii) have a slightly greater thermal requirement than puparia from cultivated walnut (Julgans regia). There is no significant difference in puparial fresh weight or mean thermal requirement between males and females, although the positive correlation between thermal requirement and puparial fresh weight is stronger for females than males. The effects of temperature and other environmental factors on the post‐diapause development of R. completa are discussed in relation to observations from other Rhagoletis species.     

Parasites that attack stable fly and house fly (Diptera: Muscidae) puparia during the winter on dairies in northwestern Florida

Throughout the winter and early spring months, stable fly, Stomoxys calcitrans (L.), and house fly, Musca domestica L., puparia were collected from silage, hay, and manure from six dairies in northwestern Florida and evaluated for parasitism. Of the puparia producing flies or parasites, 23% of the stable flies and 46% of the house flies were parasitized. The predominant parasite observed attacking muscoid flies (76% for stable flies and 58% for house flies) was Spalangia cameroni Perkins. Muscidifurax sp. was recovered from 11 and 36% of the stable fly and house fly pupae, respectively. Other parasite species encountered were Spalangia endius Walker and S. nigroaenea Curtis. Significantly more parasitized fly pupae were collected from silage than from hay residues or manure. Winter and early spring parasite populations in northwestern Florida appear to be present as long as viable fly pupae are available to support the developing parasites.     

Role of β-alanine in pupal cuticle coloration in the tobacco hornworm,Manduca sexta: Effects of β-alanine analogues on melanization and catecholamine levels

Hydrazino and aminooxy derivatives of β-alanine were found to cause blackening of Manduca sexta pupal cuticle when they were injected into pharate pupae at the onset of pre-ecdysial tanning. One of these compounds, ethyl hydrazinoacetate (EHA), was used for further study. It was effective if injected up to about 4 hr before pupal ecdysis. These melanized cuticles contained excessive amounts of dopamine and decreased amounts of N-β-alanyldopamine (NBAD) and N-acetyldopamine (NADA). Furthermore, EHA induced elevated dopamine and lowered β-alanine levels in the hemolymph. Similar blackening occurred when 20 mg/animal dopamine was injected. Injection of excess β-alanine rescued the normal brown color, irrespective of the concentration of EHA. Also, EHA caused melanization in vitro in the presence of dopamine, whereas the addition of β-alanine and NBAD allowed normal pupal coloration in vitro. These hydrazino and aminooxy compounds likely interfere with β-alanine synthesis or mobilization and thus with N-acylation of the catecholamines to form NBAD and N-β-alanylnorepinephrine.     

Aleochara suffusa andA. bilineata (Col.: Staphylinidae) as parasitoids of brassica root flies in northern Norway

A sample ofDelia puparia collected in late autumn from a brassica field at Tromsø, northern Norway, was investigated to study the level of parasitism byAleochara. BothA. suffusa andA. bilineata were reared from puparia of the cabbage root fly,Delia radicum, and the bean seed flies,D. florilega and/orD. platura. Only two specimens ofA. bilineata emerged from puparia of the turnip root fly,D. floralis. BothAleochara species hibernated in the larval state and both pupated inside the host puparium. Most specimens ofA. suffusa emerged from small hosts (D. florilega/D. platura), whereas the majority of A.bilineata emerged from host species of larger size (D. radicum/D. floralis). The time to develop from first instar larva to adult was similar for bothA. suffusa andA. bilineata. Parasitoids developing in large hosts emerged later than those in small hosts, the delay being the same for both species ofAleochara.     

Bacterial Symbionts in the Sugar Beet Root Maggot, Tetanops myopaeformis (von Röder)

Aerobic heterotrophic and facultative anaerobic bacteria were isolated from all developmental stages of the sugar beet root maggot, Tetanops myopaeformis (von Röder). Two distinct bacterial symbiotic relationships were observed. Serratia liquefaciens and Serratia marcescens were found to be associated with all developmental stages. Bacterial symbiont transmission occurred from one generation to the next. Symbionts were transferred from the male reproductive system to the female reproductive system, where both an internal infiltration of the egg chorion and an external smearing of the eggs occurred during oviposition. Pseudomonas maltophilia was found in association with the larval gut and the inner surface of the puparium. Electron microscopy of the inner puparial surface revealed symbionts within the chitinous wall. In vitro symbiont chitinase production was found, using both nephelometric (turbidimetric) and N-acetylglucosamine assays. A relationship appeared to exist between adult fly emergence and enzymatic chitin degradation of the puparium by the bacterial symbionts.