Expression of Hox4 during development of the pentamerous juvenile sea star, Parvulastra exigua

Expression of Hox4 during development of the bilateral larva and pentameral juvenile sea star was investigated in Parvulastra exigua. The role of Hox4, possibly the anterior-most gene in the echinoderm Hox cluster, in the formation of the echinoderm adult body plan has not been examined previously. In the larva of P. exigua, PeHox4 is expressed in the developing coeloms—the anterior and the right and left coeloms that generate the aboral and oral coeloms of the juvenile. At the rudiment stage, PeHox4 was expressed in the five primary lobes of the hydrocoel that give rise to primary podia, the foundation of the adult body plan. This suggests a role for this gene in the development of the echinoderm body plan. In contrast to other bilaterians, Hox4 was not expressed in the developing asteroid central nervous system.     

Organic,inorganic, and caloric composition of eggs,pentaculae, and adults of the brooding sea cucumber Cucumaria curata cowles (Echinodermata: Holothuroidea)

Levels (percentage composition) of water, ash, carbohydrate, lipid, protein, and calories were determined for eggs, pentaculae, and adults of the sea cucumber Cucumaria curata Cowles. Component contents (μg/individual) were calculated for eggs and pentaculae. During the 28 days of development to hatching, the large yolky eggs gain water and ash, the total dry weight increasing from 169 to 190 μg/egg during embryogenesis. There were no statistically significant changes in lipid, protein, and caloric contents during embryogenesis, but carbohydrate decreased by 0.82 μg/egg.The decrease in carbohydrate is sufficient to account for estimated embryonic energy requirements. Based on the utilization of carbohydrate, embryos of C. curata show a nutritional pattern similar to that of the planktonic embryos of sea urchins and different from that of embryos developing from terrestrial eggs, freshwater eggs, and planktonic and demersal marine eggs.Although broods varied widely in egg number and mean egg dry weight, C. curata gives eggs which contain a constant proportion of organic components.Levels of ash, water, and protein in the adults exceeded those in the pentacula, and lipid comprises a much smaller proportion of the adult body than it did of the pentacula.     

Diversity of developmental patterns in achelate lobsters—today and in the Mesozoic

Modern achelate lobsters, slipper and spiny lobsters, have a specific post-embryonic developmental pattern with the following phases: phyllosoma, nisto (slipper lobsters) or puerulus (spiny lobsters), juvenile and adult. The phyllosoma is a peculiar larva, which transforms through a metamorphic moult into another larval form, the nisto or puerulus which largely resembles the juvenile. Unlike the nisto and puerulus, the phyllosoma is characterised by numerous morphological differences to the adult, e.g. a thin head shield, elongate appendages, exopods on these appendages and a special claw. Our reinvestigation of the 85 million years old fossil “Eryoneicus sahelalmae” demonstrates that it represents an unusual type of achelatan lobster larva, characterised by a mixture of phyllosoma and post-phyllosoma characters. We ascribe it to its own genus: Polzicaris nov. gen. We study its significance by comparisons with other cases of Mesozoic fossil larvae also characterised by a mixture of characters. Accordingly, all these larvae are interpreted as ontogenetic intermediates between phyllosoma and post-phyllosoma morphology. Remarkably, most of the larvae show a unique mixture of retained larval and already developed post-larval features. Considering the different—and incompatible—mixture of characters of each of these larvae and their wide geographical and temporal distribution, we interpret all these larvae as belonging to distinct species. The particular character combinations in the different larvae make it currently difficult to reconstruct an evolutionary scenario with a stepwise character acquisition. Yet, it can be concluded that a larger diversity of larval forms and developmental patterns occurred in Mesozoic than in modern faunas.     

不同发育期诸氏鲻虾虎鱼对钻井液的敏感性比较

目的筛选试验鱼适宜急性毒性试验的发育期。方法将诸氏鲻虾虎鱼早期仔鱼、中期仔鱼、晚期仔鱼、稚鱼、幼鱼及成鱼暴露于一定浓度的钻井液中,比较钻井液对不同发育期诸氏鲻虾虎鱼的急性毒性。结果早期仔鱼48 h LC50为157 mg/L,中期仔鱼48 h LC50大于500 mg/L;中期仔鱼96 h LC50为79 mg/L,晚期仔鱼96h LC50为625 mg/L,稚鱼、幼鱼、成鱼96 h LC50显著大于500 mg/L;卤虫无节幼体96 h LC50为105 mg/L;不同发育期诸氏鲻虾虎鱼对钻井液的敏感性顺序为：早期仔鱼〉中期仔鱼〉晚期仔鱼〉稚、幼、成鱼。结论诸氏鲻虾虎鱼的早期仔鱼适用于海洋污染物急性毒性评价。     

Assays on Rhodnius for juvenile hormone activity

Contrary to expectation the effect of a given quantity of juvenile hormone (JH) topically applied to the abdomen of Rhodnius is greatly reduced if the cuticle is thin; either newly stretched by a large meal or wasted by prolonged starvation. The active substance apparently enters the body too rapidly and is eliminated in metabolism.The activity of the juvenile hormone and the most active JH-mimics is increased ten to fifteenfold if they are topically applied in dilute solution in peanut oil or triolein.Assays of the juvenile hormones of Cecropia at a concentration of 1 : 1000 in peanut oil (suitably diluted with octane) show that synthetic (racemic) C₁₈-JH of Röller (JH-1) is considerably less active than the natural enantiomorph; and the synthetic C₁₇-JH of Meyer (JH-2) has only about two-thirds of the activity of JH-1. Using this method of application, the natural juvenile hormone applied to the fifth instar larva of Rhodnius will cause a 50 per cent suppression of adult characters (grade 10 in the assay) at a dose of about 15 ng.     

Some effects of allatectomy in the female tsetse,Glossina austeni

The effects of juvenile hormone on the milk gland, ovaries, and fat body of adult female G. austeni were studied by allatectomy and hormone replacement therapy. In the absence of juvenile hormone, milk synthesis is slow, leading to the production, in a few cases, of small larvae over a prolonged inter-larval period. In most cases, no viable larva is produced and the fat body hypertrophies. Replacement of the corpus allatum with C₁₆JH leads to a rapid synthesis of milk, production of normal-sized larvae and a reversal of the effect on the fat body. It is therefore suggested that the milk gland activity is directly influenced by JH. Allatectomy in most cases also results in only one egg being matured. The others do not enter vitellogenesis. Similarly, this effect on the ovaries can be reversed by topical application of C₁₆JH.     

Features of Transition from Larva to Juvenile in Fishes with Different Types of Early Ontogeny

The transition from the larva state to the juvenile state (i.e. morphological condition characterised by mainly adult characters) was examined in three marine fish species: herring Clupea pallasi marisalbi, wolffish Anarhichas lupus, and eelpout Zoarces viviparus, based on external morphology and skeletal development. In spite of the different reproductive styles (oviparity, facultative viviparity, and obligate viviparity, respectively) and different types of early ontogeny (indirect, transitory, and direct, respectively), the beginning of the juvenile state occurred at similar total lengths (TL), which were approximated as 35 mm TL in herring and eelpout, and 32 mm TL in wolffish. Features of ontogeny were compared, assuming that the beginning of the juvenile state represented an uniform characteristic of morphological development for these species. It was proposed that the beginning of the larva or juvenile periods (sensu Balon) could not coincide with the beginning of the larva and juvenile states in the ontogeny of some species.     

Juvenile hormone III biosynthesis by the larval corpora allata of Manduca sexta

A radioimmunoassay (RIA) for juvenile hormone III has been established which quantifies the biosynthesis of this hormone in vitro by the corpora allata of larvae and pupae of the tobacco hornworm, Manduca sexta. The specificity of the RIA for homologues and metabolites of juvenile hormone III was determined and it was found that the antibody was specific for juvenile hormone III and its acid. The juvenile hormone III RIA activity synthesized in vitro by corpora allata from day-5 last-instar larvae was identified as juvenile hormone III by high pressure liquid chromatography. The kinetics of hormone synthesis by corpora allata from selected stages during larval-pupal development revealed differential rates of synthesis, suggesting that juvenile hormone III may have a hormonal function in the larva and that regulation of its synthesis may occur. The significance of these developmental fluctuations in rates of juvenile hormone III synthesis by the corpora allata is discussed in relation to the haemolymph titres of the hormone.     

Juvenile hormone and the induction of larval polymorphism and the diapause of the southwestern corn borer, Diatraea grandiosella

The southwestern corn borer, Diatraea grandiosella, enters diapause as an immaculate mature larva which is a polymorphic variant of the spotted non-diapause larva. Because dormant immaculate larvae could be obtained by treating last stage non-diapause larvae with a juvenile hormone mimic (JHM), experiments were conducted to determine whether these hormonally induced immaculate larvae (HIL) were physiologically comparable to the normal environmentally induced immaculate diapause larvae (EIL). Comparative data obtained about pupation rates, response to JHM, metabolic reserves, oxygen consumption, and the state of spermatogenesis of HIL and EIL led to the conclusion that the HIL were physiologically similar to the EIL. The results demonstrate that the developmental programme of non-diapause larvae could be switched and ‘diapause’ induced solely by the topical application of JHM. We believe that the data further support our hypothesis that the larval diapause of D. grandiosella is initiated and maintained by the juvenile hormone.     

Facultative planktotrophy in the tropical echinoid Clypeaster rosaceus (Linnaeus) and a comparison with obligate planktotrophy in Clypeaster subdepressus (Gray) (Clypeasteroida: Echinoidea)

Larval development to metamorphosis and early juvenile growth and survivorship were examined in Clypeaster subdepressus (Gray) and C. rosaceus (Linnaeus). C. subdepressus has an obligatorily planktotrophic larva that metamorphoses after 16 to 28 days at 27°C. The larva of C. rosaceus can, but need not feed prior to metamorphosis, which occurs after 5 to 7 days at 27°C. Feeding by larvae of C. rosaceus does not change the time to metamorphosis but does increase size at metamorphosis, early juvenile growth and may increase juvenile survivorship relative to unfed larvae. Size at metamorphosis increases in larvae of C. rosaceus that feed for several days after they are competent to metamorphose, but there may be a limit to this increase because the condition of the rudiment degenerates after a period of time. The development of C. rosaceus may represent a transition between planktotrophy and lecithotrophy. This intermediate state has advantages for the juvenile stage that are not included in the trade of fecundity against risk to offspring usually considered in life history discussions of developmental mode of marine invertebrates.     

瓦氏黄颡鱼的胚后发育观察

2002年5~6月,在四川省泸州市、合江县分数批收集到长江野生瓦氏黄颡鱼(Pelteobagrusvachelli)亲本,通过人工催产、人工授精获得受精卵,对其胚后发育过程进行了观察。瓦氏黄颡鱼的胚后发育过程可以分为卵黄囊仔鱼、晚期仔鱼和幼鱼3个阶段。初孵仔鱼淡黄色,肌节40对,平均全长5.2mm。水温20~22℃时,孵出后第3d口张开;第7d开始摄食;第9d卵黄吸尽,此时鱼苗平均全长12mm,卵黄囊仔鱼阶段结束。晚期仔鱼阶段的仔鱼,胸鳍、尾鳍、臀鳍、背鳍、腹鳍先后发育,至鳍褶消失时晚期仔鱼阶段结束。经过30d的生长和发育,进入幼鱼阶段;此时平均全长达37mm,其形态特征和生态习性均与成鱼相似。     

Utilization of U-14C amino acids or U-14C protein by adult Glossina morsitans during in utero development of larva

Administration of U¹⁴C protein hydrolysate in the diet of adult female Glossina morsitans at different times throughout the second reproductive cycle was followed by analysis of the distribution of radioactivity between the adult flies, their excreta, and the fully grown third instar larvae produced by these flies. A constant proportion of the total administered label was recoverable independently of the time lapse between administration and assay. Peak incorporation of labelled material occurred in the larva between the seventh and eighth day of a 9 or 10 day interlarval period, indicating that the larva feeds avidly on recently synthesized maternal uterine gland secretion at this time. Haemocoelic injection of U¹⁴C protein hydrolysate into similar adult females, between feeds, resulted in continued incorporation of labelled material by the larva to within 12 hr of parturition. Results are consistent with the hypothesis that uterine gland secretion and larval feeding continue throughout the intrauterine life of the larva.A constant and low proportion of detectable label remained in the adult fly while increased incorporation by the larva was paralleled by a reduction of detectable label in the adult excreta. This indicates direct competition between the uterine gland cells and those of the Malpighian tubules for free amino acids in the haemolymph.Administration of U¹⁴C protein in the adult diet did not result in incorporation of label by the developing larva, and the bulk was excreted as protein by the adult fly. Apparently the midgut trypsin of G. morsitans is incapable of splitting this labelled protein.Analysis of urine and haemolymph samples from flies in early pregnancy, recently fed on a diet containing U¹⁴C protein hydrolysate or U¹⁴C protein, shows that free labelled amino acids in the diet enter the adult haemolymph almost immediately after feeding, and are excreted along with dietary water during initial diuresis. The labelled protein used in these experiments was not taken up by the haemolymph and consequently did not appear in the urine.Implications are that the adult female G. morsitans possesses little storage capacity for substances in the diet which are destined to provide nutrients for the developing larva. Assuming a 48 hr digestion time, the digestive products of a blood meal ingested on day 5 or 6 of a 9 day interlarval period will provide the bulk of nutrients for larval growth. It is therefore significant that blood meals ingested at this time are larger than those ingested earlier or later in the cycle.     

Structure and development of Austramphilina elongata Johnston, 1931 (Cestodaria: Amphilinidea)

The life cycle and structure of the larva of Austramphilina elongata using light-microscopy, scanning and transmission electron microscopy are described. Eggs are round and non-operculate. Larvae hatch in freshwater and penetrate through the cuticle of juvenile crayfish, Cherax destructor, and of freshwater shrimps, Paratya australiensis and Atya (= Atyoida) sp., shedding their ciliated epidermis. In the last two hosts, development to the infective stage does not occur. In crayfish, larvae grow and reach the infective stage. Turtles, Chelodina longicollis, become infected by eating infected crayfish. Larvae penetrate through the oesophageal wall of the turtle and migrate toward the coelom, where maturation occurs. The free-swimming larva has a syncytial epidermis which covers most of the body except for the posterior region bearing the hooks. It is loosely attached to a thin underlying tegument, which is connected to ‘insunk’ nucleated cell bodies. It forms a thick surface layer in the posterior region. There are three flame cells on each side of the body and two postero-lateral excretory pores. There are no lateral flames. The weir apparatus of the flame cell has the structure typical of parasitic platyhelminths. The smaller capillaries have a smooth surface, that of the terminal ducts is covered by numerous microvilli. Three types of penetration glands open anteriorly. There are five pairs of hooks; one median ‘normal’, two submedian halberd-shaped, and two lateral serrate. Hook are not lost, they are arranged around the gonopore of the adult. Frontal glands opening into the proboscis were found in the anterior part of the body in all stages examined. Infective stages in crayfish have developing reproductive organs and ducts. The tegument of the adult has many microvilli.     

Hormonal modulation of glycogen reserves In the fat body of castor semilooperAchaea janata Linn (Lepidoptera,Noctuidea)

Histochemical details of the fat body in the fifth instar larval stage, pupa and adult moth of the castor semilooperAchaea janata were elucidated in detail using light and electron microscopy in conjunction with glycogen storage patterns using polyacrylamide gel electrophoresis. The periodic-acid Schiff staining for glycogen in fat body was maximum in the spinning stage of the larva, when compared to the feeding stage and prepupal stages, and higher in the pupa than in the larva and the adult moth. In insulin injected and juvenile hormone treated fat body, glycogen deposition was more than in glucagon injected tissues. The periodic-acid Schiff stained bands in PAGE had electrophoretic mobility similar to the corresponding protein band numbers, indicating their glycoprotein nature.     

Larvalentwicklung und Metamorphose vonPhoronis psammophila (Phoronida,Tentaculata)

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

Anisakis simplex and Anisakis physeteris: physicochemical properties of larval and adult hemoglobins

To resolve the taxonomic relationship between two types of parasitic nematode larvae (Type I and II) and two species of parasitic nematode adults (Anisakis simplex and A. physeteris) of the aquatic ascarid genus Anisakis, collected in Japanese coastal water, a comparison was made of their hemoglobins' physicochemical properties. The larval hemoglobins were more similar to each other in electrophoretic pattern than to either adult, indeed there were few similarities whatsoever in these patterns of larval and adult hemoglobins. However, isoelectric points were 6.2 for the Type I larva and for A. simplex and 5.4 for the Type II larva and for A. physeteris. All samples showed identical patterns in spectrophotometric scanning. The circular dichroic spectra of the samples were also virtually identical, although slight differences were noted in the oxygenated hemoglobins; the Type II larva and A. physeteris exhibited a small positive peak at 575 nm but the Type I larva and A. simplex exhibited a much smaller peak (negative position). The sedimentation coefficients of the samples possessed essentially identical values (11.2–12.4). The molecular weights of the samples were estimated, roughly, to be in the range 33 to 43 × 10⁴ by thin-layer chromatography on Sephadex G-200. The evidence suggests that a relationship may exist between the Type I larva and A. simplex, and between the Type II larva and A. physeteris.     

Nutrition of Glossina morsitans: metabolism of U-14C glucose during pregnancy.

A Glossina morsitans female can synthesize alanine, aspartic acid, cystine, glutamic acid, glycine, proline, and serine, and also lipids, from d-[U-¹⁴C] glucose during pregnancy and utilize these products for nourishment of the growing intra-uterine larva. The third instar larva shortly after formation of the puparium can also synthesize these nutrients from glucose and is thus similar to the adult female fly in this respect. It is possible that some glucose taken up by the larva via the maternal uterine glands is converted to the above nutrients. Although the specific nutritional requirements of the growing larva are largely provided by its female parent, the larva has active synthetic systems for the regulation and maintenance of its inherent metabolic steady state. This is reflected in the synthesis of large amounts of glutamic acid in the larva whereas in the adult the emphasis appears to be on the synthesis of proline.Most of the injected glucose and its synthetic products are utilized to provide energy for biosynthetic activity. Uric acid is the main nitrogenous end product of catabolism of non-essential amino acids. A small proportion of such amino acids and glucose are also excreted.Embryonic development which lasts for about 4 days following ovulation is sustained by nutrients within the egg. Following eclosion, the first instar larva begins to feed upon uterine gland secretions. This instar lasts for about 1 day. Ecdysis to the second instar, which lasts for 1 to 2 days, is associated with a three- to fourfold increase in the rate of nutrient uptake. Most rapid feeding begins when the third instar develops. These results are discussed in terms of larval growth in relation to feeding by the adult female parent.     

Increased Risk Proneness or Social Withdrawal? The Effects of Shortened Life Expectancy on the Expression of Rescue Behavior in Workers of the ant <Emphasis Type="Italic">Formica cinerea</Emphasis> (Hymenoptera: Formicidae)

In social insects behavioral consequences of shortened life expectancy include, among others, increased risk proneness and social withdrawal. We investigated the impact of experimental shortening of life expectancy of foragers of the ant Formica cinerea achieved by their exposure to carbon dioxide on the expression of rescue behavior, risky pro-social behavior, tested by means of two bioassays during which a single worker (rescuer) was confronted with a nestmate (victim) attacked by a predator (antlion larva capture bioassay) or immobilized by an artificial snare (entrapment bioassay). Efficacy of carbon dioxide poisoning in shortening life expectancy was confirmed by the analysis of ant mortality. Rescue behavior observed during behavioral tests involved digging around the victim, transport of the sand covering the victim, pulling the limbs/antennae/mandibles of the victim, direct attack on the antlion (in antlion larva capture tests), and snare biting (in entrapment tests). The rate of occurrence of rescue behavior was lower in ants with shortened life expectancy, but that effect was significant only in the case of the entrapment bioassay. Similarly, only in the case of the entrapment bioassay ants with shortened life expectancy displayed rescue behavior after a longer latency and devoted less time to that behavior than ants from the control groups. Our results demonstrated that in ant workers shortened life expectancy may lead to reduced propensity for rescue behavior, most probably as an element of the social withdrawal syndrome that had already been described in several studies on behavior of moribund ants and honeybees.     

Socially cued anticipatory adjustment of female signalling effort in a moth

Juvenile population density has profound effects on subsequent adult development, morphology and reproductive investment. Yet, little is known about how the juvenile social environment affects adult investment into chemical sexual signalling. Male gumleaf skeletonizer moths, Uraba lugens, facultatively increase investment into antennae (pheromone receiving structures) when reared at low juvenile population densities, but whether there is comparable adjustment by females into pheromone investment is not known. We investigate how juvenile population density influences the ‘calling'' (pheromone-releasing) behaviour of females and the attractiveness of their pheromones. Female U. lugens adjust their calling behaviour in response to socio-sexual cues: adult females reared in high juvenile population densities called earlier and for longer than those from low juvenile densities. Juvenile density also affected female pheromonal attractiveness: Y-maze olfactometer assays revealed that males prefer pheromones produced by females reared at high juvenile densities. This strategic investment in calling behaviour by females, based on juvenile cues that anticipate the future socio-sexual environment, likely reflects a response to avoid mating failure through competition with neighbouring signallers.     

Effects of juvenile hormone on some phase characteristics in the common cutworm, Spodoptera litura

Phase characters of the common cutworm, Spodoptera litura, were influenced by different rearing densities from the 4th-larval instar. Primarily the final feeding period of isolated larvae was 1 day longer than that of crowded larvae causing an increase in pupal weight. Applications of juvenile hormone I, II, or methoprene to crowded larvae caused an increased feeding period similar to that of isolated larvae when the juvenile hormones were applied within 1 day after the last-larval ecdysis. Allatectomy of isolated Spodoptera during the moult to the final-larval instar decreased the duration of the final feeding period to that of intact crowded larvae. These results suggested that one of the characters of phase variation, pupal weight, is influenced by the differences in the regulation and activity of the corpora allata during the last-larval instar. Other characteristics of phase variation such as behaviour (feigned death) and colour were not affected by alteration in juvenile hormone levels after the last larva ecdysis.