Mongolodiaptomus dumonti n. sp., a new freshwater copepod (Calanoida,Diaptomidae) from Thailand

Mongolodiaptomus dumonti n. sp. from several localities in northeast Thailand is described and figured. The new species shares some features with Mongolodiaptomus gladiolus (Shen & Lee), M. calcarus (Shen & Tai) and M. rarus (Reddy, Sanoamuang & Dumont), thus the gladiolus-group is created. However, it stands out in the female, by the extraordinary large postero-laterally spine at left proximal margin of genital somite. In the male, the right caudal ramus has a large tooth and a bilobed knob on ventral side; basis of the right P5 has a distinct, spur-like process on mid-distal surface; the second exopodite-segment of the right P5 has characteristically irregular outer margin, enlarged at proximal 1/3, but narrowed at distal 2/3 and bearing three lateral spines of unequal sizes; the inner margin of basis of the left P5 is fringed with a narrow hyaline lamella and dilated distally in lateral angle.     

Amended delimitation of Mongolodiaptomus against Neodiaptomus and Allodiaptomus and redescription of the little known Mongolodiaptomus uenoi (Kikuchi, 1936) from Thailand (Copepoda: Calanoida: Diaptomidae)

Mongolodiaptomus uenoi (Kikuchi, 1936), a little known diaptomid copepod from Taiwan and Indonesia, is re-described based on specimens from Thailand, and its relationship with its congeners is discussed. To clear up the generic confusion between the closely allied genera Mongolodiaptomus Kiefer, Neodiaptomus Kiefer and Allodiaptomus Kiefer, a new criterion relating to the armature of the second exopodite-segment of the male right P5 is introduced. Accordingly, some dubious species of Neodiaptomus and Allodiaptomus are transferred to Mongolodiaptomus.     

A reappraisal of the genus Phyllodiaptomus Kiefer, 1936, with the description of P. wellekensae n.sp. from India,and a redescription of P. tunguidus Shen & Tai, 1964 from China (Copepoda,Calanoida)

Phyllodiaptomus wellekensae n. sp. is described from south India. In the female, the genital somite is dilated at the left proximal margin and armed with an extraordinarily large, somewhat curved, laterally-directed spine; the right genital spine is much smaller than the left one. The terminal claw of leg 5 has a secretory pore at its tip and a characteristic conveyor canal on its anterior surface. In the right male P5, the coxal plate is short and unique in shape. The basis is 1.3 times as long as wide, with a long, sinuous, hyaline lamella on its medial margin. The first exopodite segment is short and optuse at its outer distal corner. The second segment is rectangular and has a short, hyaline, spinous projection between the lateral spine and the terminal claw. The left P5 has a large, serrate, hyaline fan between its apical thumb and medial apical seta. P. tunguidus is redescribed based on material newly collected from three localities in China.     

Description ofPhyllodiaptomus christineae n.sp. from Thailand, and distinction of two subgenera withinPhyllodiaptomus Kiefer,1936 (Copepoda, Calanoida)

Phyllodiaptomus christineae n.sp. is described from Thailand. It stands out, in the male, by the shape and the armature of the second exopodite-segment of the right P5 and by the elongate apical process and ornamentation of the second exopodite-segment of the left P5; in the female, by the reduced lateral wings of the fifth pediger, and by the form of the genital somite. Together withP. blanci, P. tunguidus andP. longipes, the new species constitutes the blanci-group, here raised to the level of a subgenus (Phyllodiaptomus s.s.) with representatives in Central Asia, China, Borneo and Thailand. A second subgenus (Ctenodiaptomus subgen. nov.) is created to accommodate the four Asian species of the annae-group.     

Asymmetry of Leg Use During Prey Handling in the Spider Scytodes globula (Scytodidae)

In spitting spiders Scytodes globula collected in the field, anterior leg loss was more frequent on the left than on the right side, possibly as an outcome of predatory episodes. A laboratory study was performed in which intact adult females of S. globula were placed with individuals from three species of recluse spiders, Loxosceles intermedia, L. gaucho, and L. laeta. The frequency of probing touches by spitting spiders to their prey was significantly higher with left leg I than with right leg I. Left leg II and right leg II also differed in touching frequency, but in a less marked way. The results, which may represent the first evidence of behavioral laterality in a spider species, suggest that behavioral asymmetry may be an ancient evolutionary trait.     

Control of Distal-less expression in the Drosophila appendages by functional 3' enhancers

The expression of the Hox gene Distal-less (Dll) directs the development of appendages in a wide variety of animals. In Drosophila, its expression is subjected to a complex developmental control. In the present work we have studied a 17 kb genomic region in the Dll locus which lies downstream of the coding sequence and found control elements of primary functional importance for the expression of Dll in the leg and in other tissues. Of particular interest is a control element, which we have called LP, which drives expression of Dll in the leg primordium from early embryonic development, and whose deletion causes severe truncation and malformation of the adult leg. This is the first Dll enhancer for which, in addition to the ability to drive expression of a reporter, a role can be demonstrated in the expression of the endogenous Dll gene and in the development of the leg. In addition, our results suggest that some enhancers, contrary to the widely accepted notion, may require a specific 5′ or 3′ position with respect to the transcribed region.     

Boeckella diamantina n.sp. (Calanoida,Centropagidae), from a high Andean lake in Mendoza,Argentina

A new species of Boeckella from limnetic samples of Laguna del Diamante, a high lake in the Andes (34°10 S) is described and illustrated. The species is defined by the characters of the male fifth leg: the right two segmented endopod bears four peculiar, short, claw-like spines, the left endopod is a simple finger-like projection. This species is related to B. gibbosa, also a species from the Andes and B. vallentini from Malvinas (Falkland Islands) and other subantarctic islands. It is distinguished from them by diagnostic features of the fifth legs of the male and abdominal structure and fifth legs of the female. Some current views on the features used in the taxonomy of the genus Boeckella are discussed.     

Serotonin-like immunoreactivity in the central nervous system of two ixodid tick species

Immunocytochemistry was used to describe the distribution of serotonin-like immunoreactive (5HT-IR) neurons and neuronal processes in the central nervous system (CNS), the synganglion, of two ixodid tick species; the winter tick, Dermacentor albipictus and the lone star tick, Amblyomma americanum. 5HT-IR neurons were identified in the synganglion of both tick species. D. albipictus had a significantly higher number of 5HT-IR neurons than A. americanum. The labeling pattern and number of 5HT-IR neurons were significantly different between sexes in D. albipictus, but were not significantly different between sexes in A. americanum. 5HT-IR neurons that were located in the cortex of the synganglion projected processes into the neuropils, invading neuromeres in the supraesophageal ganglion including the protocerebrum, postero-dorsal, antero-dorsal and cheliceral neuromeres. In the subesophageal ganglion, dense 5HT-IR neuronal processes were found in the olfactory lobes, pedal, and opisthosomal neuromeres. Double-labeling with neurobiotin backfilled from the first leg damaged at the Haller’s organ revealed serotoninergic neuronal processes surrounding the glomeruli in the olfactory lobes. The high number of the 5HT-IR neurons and the extensive neuronal processes present in various regions of the synganglion suggest that serotonin plays a significant role in tick physiology. This article reports the results of research only. Mention of a proprietary product does not constitute an endorsement or a recommendation by the USDA for its use. The U.S. Government’s right to retain a non-exclusive, royalty free license in and to any copyright is acknowledged.     

Genetic studies of mutations at two loci of Drosophila melanogaster which cause a wide variety of homeotic transformations

Summary The ash-1 locus is in the proximal region of the left arm of the third chromosome of Drosophila melanogaster and the ash-2 locus is in the distal region of the right arm of the third chromosome. Mutations at either locus can cause homeotic transformations of the antenna to leg, proboscis to leg and/or antenna, dorsal prothorax to wing, first and third leg to second leg, haltere to wing, and genitalia to leg and/or antenna. Mutations at the ash-1 locus cause, in addition, transformations of the posterior wing and second leg to anterior wing and second leg, respectively. A similar spectrum of transformations is caused by mutations at yet another third chromosome locus, trithorax. One extraordinary aspect of mutations at all three of these loci is that they cause such a wide variety of transformations. For mutations at both of the loci that we have studied the expression of the homeotic phenotype is both disc-autonomous (as shown by injecting mutant discs into metamorphosing larvae) and cell autonomous (as shown by somatic recombination analysis). The original mutations which identified these two loci, although lethal, manifest variable expressivity and incomplete penetrance of the homeotic phenotype suggesting that they are hypomorphic. The phenotype of double mutants which were synthesized by combining different pairs of those original mutations manifest for two of the four pairs a greater degree of expressivity and slightly more penetrance of the homeotic transformations. This mutual enhancement suggests that the products of both loci interact in the same process. A third double mutant expresses a discless phenotype.Additional alleles have been recovered at both the ash-1 and the ash-2 loci. Some of these alleles as homozygotes or transheterozygotes express the wide range of transformations revealed first by double mutants. One of the alleles at the ash-1 locus when homozygous and several transheterozygous pairs can cause either the homeotic transformation of discs or the absence of those discs. The fact that these two defects, absence of specific discs and homeotic transformations of those same discs can be caused by mutations within a single gene suggests that the activity of the product of this gene is essential for normal imaginal disc cell proliferation. Loss of that activity leads to the absence of discs, whereas, reduction of that activity leads to homeotic transformations.     

Intertidal interstitial Halicyclops from the Brazilian coast (Copepoda: Cyclopoida)

H. tageae sp. n. and Halicyclops ytororoma sp. n. are described from the intertidal interstitial water of Brazilian beaches. H. tageae is distinguished from all congeneric species by the number of setae on legs 1–4 endopodite 2 (1, 1, 2, 2) and by possessing a reduced inner spine on the leg 5 exopodite. It shares with H. brevispinosus, H. pusillus and H. canui the spine formula 2, 3, 3, 3 on exopodite 3 of swimming legs 1–4. H. ytororoma closely resembles H. gauldi and differs from this species by having 4 setae on leg 1 endopodite 3; H. gauldi has 3 setae on this segment.This is the first record of Halicyclops from marine interstitial water in Brazil.     

A new species of Acontiophorus Brady, 1880 (Copepoda: Siphonostomatoida) from Ushuaia,Argentina

A new species of Acontiophorus belonging to the family Asterocheridae was found in Ushuaia, Patagonia, southern Argentina. The new species is distinctive in having 9-segmented antennule, five setae on terminal endopodal segment of leg 1, seven elements on terminal segment of leg 1 and leg 4 exopods, and characteristic setation on maxillule lobes. This combination of characteristic features does not occur in any other species of the genus. The genus Acontiophorus is recorded for the first time from the South Atlantic.     

Speleohvarella gamulini gen. et sp. nov., a new copepod (Calanoida, Stephidae) from an anchialine cave in the Adriatic Sea

A new copepod genus and species, Speleohvarella gamulini, collectedfrom the anchialine cave iva Voda on Hvar Island (Croatia),is described from both sexes. This is the first record of acalanoid copepod found in an Adriatic anchialine cave. The newgenus is distinguished from other Stephidae by a combinationof the following features: the cephalosome is separate fromthe first pedigerous somite, and the fourth and fifth pedigeroussomites are fused; the female urosome has 4 segments, the genitaldouble-somite is symmetrical and the caudal rami is asymmetricalwith the right longer than the left; antennules of both sexesare symmetrical and 24-segmented, with the fusion of ancestralsegments II–IV, X–XI and XXVII–XXVIII; theexopod of antenna is 7-segmented; 2 setae are present on thebasal exite of maxillule; in the male the right leg 5 is shortand 3-segmented, and the left leg elongate and 5-segmented.     

A maternal effect mutation leading to deficiencies of organs and homeotic transformations in the adults ofDrosophila

Summary The temperature sensitive mutationfs(l)h is characterized at the restrictive temperature of 29°C by both a maternal effect responsible for the early embryonic lethality and pupal zygotic lethality. The two phenotypes are inseparable and map at a short deletion in the X chromosome (7Dl, 7D5-6). At semipermissive temperatures, hemizygous mutant females produce adults with morphological defects, such as organ deficiencies and homeotic transformations of haltere to wing and third leg to second leg. These defects depend on the maternal genotype and are governed by an early temperature sensitive period, which covers the end of oogenesis and the first hours of embryogenesis. Furthermore, this maternal effect mutation interacts with some dominant mutations of the bithorax system. These properties suggest thatfs(l)h is somehow involved in segmental determination.     

Development of the adult leg epidermis in <Emphasis Type="Italic">Manduca sexta</Emphasis>: contribution of different larval cell populations

During metamorphosis of the tobacco hornworm Manduca sexta, the simple thoracic legs of the larva are remodeled into the more complex adult legs. Most of the adult leg epidermis derives from the adult primordia, small sets of epidermal cells located in specific regions of the larval leg, which proliferate rapidly in the final larval instar. In contrast, the contribution of the epidermal cells outside the primordia is unknown. In this study we have determined their contribution to the adult leg by labeling them with 5-bromodeoxyuridine (BUdR) and following their fate. Although the labeled cells diminished drastically in number, small groups of these cells persisted into the midpupal stage suggesting that they do contribute to the adult leg epidermis. We also found that during the wandering stage the adult primordia went through active proliferation and very little cell death, while the cells outside the primordia went through extensive cell death accounting for the decrease in their number. Our results indicate that two distinct cell populations exist outside the adult primordia. Most cells belong to the first population, which is larval-specific and disappears through apoptosis early in metamorphosis. The second population consists of polymorphic cells that contribute to the larval, pupal and adult leg epidermis.Edited by D. Tautz     

Bomolochus peruensis n. sp. (Copepoda: Bomolochidae), a parasite of sciaenid fishes from the Peruvian coast

Bomolochus peruensis n. sp., a parasite of the sciaenid fishes Menticirrhus ophicephalus and Sciaena deliciosa from the central Peruvian coast, is described and illustrated. The new taxon differs from all other Bomolochus species in a combination of characteristics of leg 2, leg 4 and leg 6 and by the presence of spinules on the ventral surface of the last abdominal segment only. This is the first record of Bomolochus from South America.     

Therodamas Krøyer, 1863 (Copepoda: Ergasilidae) from the Piauí River estuary,State of Sergipe,Brazil

The pre-metamorphic female of Therodamas serrani Krøyer, 1863 is described for the first time based on new material collected from the upper reaches of Piauí River estuary, northeastern Brazil. Females are present in the plankton throughout the year, and are common during the rainy season. Five of the six currently accepted species of Therodamas are known only from metamorphic females, making identification of pre-metamorphic stages problematic. Identification of T. serrani was made on the basis of the leg setation and the very similar proportions of the two apical endopodal spines on leg 1.     

Expression patterns of leg genes in the mouthparts of the spider<Emphasis Type="Italic"> Cupiennius salei</Emphasis> (Chelicerata: Arachnida)

The leg genes extradenticle, homothorax, dachshund, and Distal-less define three antagonistic developmental domains in the legs, but not in the antenna, of Drosophila. Here we report the expression patterns of these leg genes in the prosomal appendages of the spider Cupiennius salei. The prosoma of the spider bears six pairs of appendages: a pair of cheliceres, a pair of pedipalps, and four pairs of walking legs. Three types of appendages thus can be distinguished in the spider. We show here that in the pedipalp, the leg-like second prosomal appendage, the patterns are very similar to those in the legs themselves, indicating the presence of three antagonistic developmental domains in both appendage types. In contrast, in the chelicera, the fang-like first prosomal appendage, the patterns are different and there is no evidence for antagonistic domains. Together with data from Drosophila this suggests that leg-shaped morphology of arthropod appendages requires an underlying set of antagonistic developmental domains, whereas other morphologies (e.g. antenna, chelicera) may result from the loss of such antagonistic domains.Edited by M. Akam     

Boeckella antiqua n. sp. (Copepoda,Calanoida, Centropagidae) from Patagonia

Boeckella antiqua n. sp. from samples collected in an ephemeral pond on the Patagonian plateau is described and illustrated. Diagnostic features of B. antiqua are almost exclusively related to the male fifth pair of legs, females being almost indistinguishable from those of the closely related B. poppei. The two-segmented, spine-bearing left endopod of the male fifth leg suggests that it may be the basal species in the genus.     

The development of the sensory organs of the legs in the blowfly,Phormia regina

Summary The development of the sensory neurons of the legs of the blowfly,Phormia regina has been described from the third instar larva to the late pupa using immunohistochemical staining. The leg discs of the third instar larva contain 8 neurons of which 5 come to lie in the fifth tarsomere of the developing leg. Whereas 2 neurons persist at least to the late pupa, the other cells degenerate. The first neurons of gustatory sensilla arise in the fifth tarsomere at about 1.5 h after formation of the puparium. Most of these sensilla, however, appear within a short time period beginning at about 18 h. The femoral chordotonal sensory neurons first appear at the time of formation of the puparium, as a mass of cells situated in the distal femur. During later pupal development 2 groups of these cells come to lie at the femur-trochanter border, where they become the proximal femoral chordotonal organ of the adult; the remaining cells become the distal femoral chordotonal organ. Other scolopidial neurons appear later in development. The nerve pathways of the late pupal leg are established either by the axons of the cells that are present in the larval leg disc or by new outgrowing processes of sensory neurons. In the tibia, the initial direction of new outgrowth differs in different regions of the segment: proximal tibial neurons grow distally, while distal tibial neurons grow initially proximally.