Your search keyword '"MALACOSTRACA"' showing total 262 results

1. A new species of Leipsuropus Stebbing, 1899 (Amphipoda: Podoceridae) from Japan

Author

Matsumoto, Yu, 1000030360895, Kajihara, Hiroshi, 1000070723360, Kakui, Keiichi, Matsumoto, Yu, 1000030360895, Kajihara, Hiroshi, 1000070723360, and Kakui, Keiichi

Abstract

A new podocerid amphipod, Leipsuropus seisuiae sp. nov., from 338-340 m depth in the Kumano Sea, Japan, Northwestern Pacific, is described. This is the deepest record of any Leipsuropus species. Leipsuropus seisuiae sp. nov. is distinguished from four other congeneric species in having: i) pereonites 2-5 each with five narrow spiniform projections on tergal plate, ii) one dorsal tubercle on the telson, and iii) one small, proximal, denticulate projection on gnathopod-2 palmar margin. A key to males of the species of Leipsuropus is provided.

Published

2023

2. A new species of Leipsuropus Stebbing, 1899 (Amphipoda: Podoceridae) from Japan

Author

Matsumoto, Yu, 1000030360895, Kajihara, Hiroshi, 1000070723360, Kakui, Keiichi, Matsumoto, Yu, 1000030360895, Kajihara, Hiroshi, 1000070723360, and Kakui, Keiichi

Abstract

A new podocerid amphipod, Leipsuropus seisuiae sp. nov., from 338-340 m depth in the Kumano Sea, Japan, Northwestern Pacific, is described. This is the deepest record of any Leipsuropus species. Leipsuropus seisuiae sp. nov. is distinguished from four other congeneric species in having: i) pereonites 2-5 each with five narrow spiniform projections on tergal plate, ii) one dorsal tubercle on the telson, and iii) one small, proximal, denticulate projection on gnathopod-2 palmar margin. A key to males of the species of Leipsuropus is provided.

Published

2023

3. A new species of Leipsuropus Stebbing, 1899 (Amphipoda: Podoceridae) from Japan

Author

Matsumoto, Yu, Kajihara, Hiroshi, Kakui, Keiichi, Matsumoto, Yu, Kajihara, Hiroshi, and Kakui, Keiichi

Abstract

A new podocerid amphipod, Leipsuropus seisuiae sp. nov., from 338-340 m depth in the Kumano Sea, Japan, Northwestern Pacific, is described. This is the deepest record of any Leipsuropus species. Leipsuropus seisuiae sp. nov. is distinguished from four other congeneric species in having: i) pereonites 2-5 each with five narrow spiniform projections on tergal plate, ii) one dorsal tubercle on the telson, and iii) one small, proximal, denticulate projection on gnathopod-2 palmar margin. A key to males of the species of Leipsuropus is provided.

Published

2023

4. Major Revisions in Pancrustacean Phylogeny and Evidence of Sensitivity to Taxon Sampling

Author

Bernot, James P., Owen, Christopher L., Wolfe, Joanna M., Meland, Kenneth, Olesen, Jørgen, Crandall, Keith A., Bernot, James P., Owen, Christopher L., Wolfe, Joanna M., Meland, Kenneth, Olesen, Jørgen, and Crandall, Keith A.

Abstract

The clade Pancrustacea, comprising crustaceans and hexapods, is the most diverse group of animals on earth, containing over 80% of animal species and half of animal biomass. It has been the subject of several recent phylogenomic analyses, yet relationships within Pancrustacea show a notable lack of stability. Here, the phylogeny is estimated with expanded taxon sampling, particularly of malacostracans. We show small changes in taxon sampling have large impacts on phylogenetic estimation. By analyzing identical orthologs between two slightly different taxon sets, we show that the differences in the resulting topologies are due primarily to the effects of taxon sampling on the phylogenetic reconstruction method. We compare trees resulting from our phylogenomic analyses with those from the literature to explore the large tree space of pancrustacean phylogenetic hypotheses and find that statistical topology tests reject the previously published trees in favor of the maximum likelihood trees produced here. Our results reject several clades including Caridoida, Eucarida, Multicrustacea, Vericrustacea, and Syncarida. Notably, we find Copepoda nested within Allotriocarida with high support and recover a novel relationship between decapods, euphausiids, and syncarids that we refer to as the Syneucarida. With denser taxon sampling, we find Stomatopoda sister to this latter clade, which we collectively name Stomatocarida, dividing Malacostraca into three clades: Leptostraca, Peracarida, and Stomatocarida. A new Bayesian divergence time estimation is conducted using 13 vetted fossils. We review our results in the context of other pancrustacean phylogenetic hypotheses and highlight 15 key taxa to sample in future studies.

Published

2023

5. Protogynous hermaphroditism in Crustacea : a new example from Tanaidacea

Author

1000070723360, Kakui, Keiichi, 1000020723018, Hiruta, Chizue, 1000070723360, Kakui, Keiichi, 1000020723018, and Hiruta, Chizue

Abstract

Hermaphroditism has been widely reported in the Crustacea, but protogyny, in which females change to males, is apparently rare and restricted to the peracarid orders Isopoda and Tanaidacea. In the latter, protogyny has been demonstrated in only seven species representing six genera by rearing experiments and indicated for several other genera and species through morphology. Here, we show through rearing experiment and histological observations, protogynous hermaphroditism in the tanaidacean species Nesotanais sp. aff. ryukyuensis Kakui, Kajihara and Mawatari, 2010. Our rearing experiment and size distribution data for wild individuals showed that females can change sex at various sizes (= ages). We found one individual identified externally as a female containing both ovaries and testes, indicating that overt female individuals undergo a short transitional phase as simultaneous hermaphrodites before the sex-change molt. We discuss the relationship among the wide size distribution of sex-changing females, the short life span of males, and the tube-dwelling mode of life.

Published

2022

6. Integrative taxonomy of Zeuxo (Crustacea : Peracarida : Tanaidacea) from Japan, with the description of a new species

Author

Okamoto, Nobuya, 1000070723360, Kakui, Keiichi, Okamoto, Nobuya, 1000070723360, and Kakui, Keiichi

Abstract

We describe a new tanaidid species, Zeuxo molybi sp. n., from Kominato, Chiba, Japan. Zeuxo molybi closely resembles the Japanese congener Zeuxo ezoensis, but differs in having (1) the pereopod-1 carpus without dorsodistal spiniform setae; (2) two or three ventrodistal simple setae on the pereopod-1 propodus in females, and three or four in males; and (3) the pereopod-6 propodus with four or five flattened denticulate setae. The two species also differ in the pattern of dorsal pigmentation on the carapace. Kimura 2-parameter distances between the two species were 15.6-16.9% for the cytochrome c oxidase subunit I (COI) gene and 2.8% for the 18S rRNA gene; the former value is much greater than intraspecific distances previously reported for Z. ezoensis (0-1.5%), confirming our conclusion from morphology that Z. molybi and Z. ezoensis are not conspecific. In a COI-based maximum-likelihood phylogenetic tree, the Japanese taxa Z. molybi, Z. ezoensis, and Z. cf. normani did not form a clade.

Published

2022

7. Protogynous hermaphroditism in Crustacea : a new example from Tanaidacea

Author

1000070723360, Kakui, Keiichi, 1000020723018, Hiruta, Chizue, 1000070723360, Kakui, Keiichi, 1000020723018, and Hiruta, Chizue

Abstract

Hermaphroditism has been widely reported in the Crustacea, but protogyny, in which females change to males, is apparently rare and restricted to the peracarid orders Isopoda and Tanaidacea. In the latter, protogyny has been demonstrated in only seven species representing six genera by rearing experiments and indicated for several other genera and species through morphology. Here, we show through rearing experiment and histological observations, protogynous hermaphroditism in the tanaidacean species Nesotanais sp. aff. ryukyuensis Kakui, Kajihara and Mawatari, 2010. Our rearing experiment and size distribution data for wild individuals showed that females can change sex at various sizes (= ages). We found one individual identified externally as a female containing both ovaries and testes, indicating that overt female individuals undergo a short transitional phase as simultaneous hermaphrodites before the sex-change molt. We discuss the relationship among the wide size distribution of sex-changing females, the short life span of males, and the tube-dwelling mode of life.

Published

2022

8. Integrative taxonomy of Zeuxo (Crustacea : Peracarida : Tanaidacea) from Japan, with the description of a new species

Author

Okamoto, Nobuya, Kakui, Keiichi, Okamoto, Nobuya, and Kakui, Keiichi

Abstract

We describe a new tanaidid species, Zeuxo molybi sp. n., from Kominato, Chiba, Japan. Zeuxo molybi closely resembles the Japanese congener Zeuxo ezoensis, but differs in having (1) the pereopod-1 carpus without dorsodistal spiniform setae; (2) two or three ventrodistal simple setae on the pereopod-1 propodus in females, and three or four in males; and (3) the pereopod-6 propodus with four or five flattened denticulate setae. The two species also differ in the pattern of dorsal pigmentation on the carapace. Kimura 2-parameter distances between the two species were 15.6-16.9% for the cytochrome c oxidase subunit I (COI) gene and 2.8% for the 18S rRNA gene; the former value is much greater than intraspecific distances previously reported for Z. ezoensis (0-1.5%), confirming our conclusion from morphology that Z. molybi and Z. ezoensis are not conspecific. In a COI-based maximum-likelihood phylogenetic tree, the Japanese taxa Z. molybi, Z. ezoensis, and Z. cf. normani did not form a clade.

Published

2022

9. Protogynous hermaphroditism in Crustacea : a new example from Tanaidacea

Author

Kakui, Keiichi, Hiruta, Chizue, Kakui, Keiichi, and Hiruta, Chizue

Abstract

Hermaphroditism has been widely reported in the Crustacea, but protogyny, in which females change to males, is apparently rare and restricted to the peracarid orders Isopoda and Tanaidacea. In the latter, protogyny has been demonstrated in only seven species representing six genera by rearing experiments and indicated for several other genera and species through morphology. Here, we show through rearing experiment and histological observations, protogynous hermaphroditism in the tanaidacean species Nesotanais sp. aff. ryukyuensis Kakui, Kajihara and Mawatari, 2010. Our rearing experiment and size distribution data for wild individuals showed that females can change sex at various sizes (= ages). We found one individual identified externally as a female containing both ovaries and testes, indicating that overt female individuals undergo a short transitional phase as simultaneous hermaphrodites before the sex-change molt. We discuss the relationship among the wide size distribution of sex-changing females, the short life span of males, and the tube-dwelling mode of life.

Published

2022

10. Description of a New Hamatipeda Species, with an 18S Molecular Phylogeny (Crustacea : Tanaidacea : Typhlotanaidae)

Author

Kakui, Keiichi, Hiruta, Chizue, Kakui, Keiichi, and Hiruta, Chizue

Abstract

We describe a new typhlotanaid species, Hamatipeda kohtsukai sp. nov., collected from between 167 and 488 m depth in the Sagami Sea, Japan. This is the first record of Hamatipeda from the northern hemisphere. Hamatipeda kohtsukai resembles Hamatipeda trapezoida from the Subantarctic region in having pereonites 1–3 widest anteriorly (not rectangular), but differs from it in the length ratio of antennal articles 4/5; the number of setae on the dactyli of pereopods 1–3, ischia of pereopods 4–6, and carpi of pereopods 4–6; the shape of the unguis of pereopods 4–6; and the shape of the uropodal endopod. We determined partial sequences for the cytochrome c oxidase subunit I (COI; cox1) and 18S rRNA (18S) genes in H. kohtsukai. A phylogenetic reconstruction based on the 18S sequences recovered a highly supported Typhlotanaidae clade containing H. kohtsukai and Typhlotanais mixtus, with Paranarthrura sp. (Agathotanaidae) as the sister taxon. A key to species of Hamatipeda is presented.

Published

2022

11. A new species of Deutella (Amphipoda: Caprellidae) from the Gulf of Mexico

Author

Universidad de Sevilla. Departamento de Zoología, Winfield, Ignacio, Guerra García, José Manuel, Universidad de Sevilla. Departamento de Zoología, Winfield, Ignacio, and Guerra García, José Manuel

Abstract

A new species of the genus Deutella Mayer, 1890 is described and illustrated, and a key to identify the Deutella species from the Gulf of Mexico is given. The specimens were collected from coral rubble at 18 m depth in Tuxpan-Lobos coral reef system, W Gulf of Mexico. Deutella pseudoincerta n. sp. is remarkably close to Deutella incerta (Mayer, 1903), but can be easily distinguished by: length and shape of pereopod 5 especially distal article; length and width of adult male gnathopod 2; shape and size of tubercles in male abdominal appendages. The new species increases the number of Deutella species to 14 worldwide, and 18 species of Caprellidae from the Gulf of Mexico.

Published

2021

12. A new species of Deutella (Amphipoda: Caprellidae) from the Gulf of Mexico

Author

Universidad de Sevilla. Departamento de Zoología, Winfield, Ignacio, Guerra García, José Manuel, Universidad de Sevilla. Departamento de Zoología, Winfield, Ignacio, and Guerra García, José Manuel

Abstract

A new species of the genus Deutella Mayer, 1890 is described and illustrated, and a key to identify the Deutella species from the Gulf of Mexico is given. The specimens were collected from coral rubble at 18 m depth in Tuxpan-Lobos coral reef system, W Gulf of Mexico. Deutella pseudoincerta n. sp. is remarkably close to Deutella incerta (Mayer, 1903), but can be easily distinguished by: length and shape of pereopod 5 especially distal article; length and width of adult male gnathopod 2; shape and size of tubercles in male abdominal appendages. The new species increases the number of Deutella species to 14 worldwide, and 18 species of Caprellidae from the Gulf of Mexico.

Published

2021

13. Presumptive stridulatory organs in Paranthura cf. japonica Richardson, 1909 (Isopoda : Cymothoida : Paranthuridae)

Author

1000070723360, Kakui, Keiichi, Shiraki, Shoki, 1000070723360, Kakui, Keiichi, and Shiraki, Shoki

Abstract

Morphological diversity of sound-producing structures has not been well investigated among members of superorder Peracarida. Presumptive stridulatory sound-producing organs have been reported in some amphipods and tanaidaceans, and sound production by these organs has been documented in two isopod species in Oniscidea and Sphaeromatidea. Here we describe three presumptive stridulatory organs in the paranthurid isopod Paranthura cf. japonica Richardson, 1909, the first case known in Cymothoida. One type, consisting of a scale-bearing knob on the posterolateral corner of a pereonite and the scale-bearing anterolateral corner of the succeeding pereonite, was found between two pairs of pereonites (1, 2 and 2, 3). A second type involves a serrated structure in the sub-posterolateral region of pereonites 1 and 2, with the sharp anterolateral margins of pereonites 2 and 3 appearing to provide corresponding plectra. The third type involves an extension bearing a pair of serrated structures on the posteroventral margin of pereonites 1 and 2; the anterior-ventrolateral edges of pereonites 2 and 3 appear to provide corresponding plectra. All three organs occurred in both sexes of P. cf. japonica. Our discovery of novel, presumptive stridulatory organs in an intertidal isopod indicates that much remains to be learned about the biology of even common peracarid species.

Published

2021

14. A new species of Deutella (Amphipoda: Caprellidae) from the Gulf of Mexico

Author

Universidad de Sevilla. Departamento de Zoología, Winfield, Ignacio, Guerra García, José Manuel, Universidad de Sevilla. Departamento de Zoología, Winfield, Ignacio, and Guerra García, José Manuel

Abstract

A new species of the genus Deutella Mayer, 1890 is described and illustrated, and a key to identify the Deutella species from the Gulf of Mexico is given. The specimens were collected from coral rubble at 18 m depth in Tuxpan-Lobos coral reef system, W Gulf of Mexico. Deutella pseudoincerta n. sp. is remarkably close to Deutella incerta (Mayer, 1903), but can be easily distinguished by: length and shape of pereopod 5 especially distal article; length and width of adult male gnathopod 2; shape and size of tubercles in male abdominal appendages. The new species increases the number of Deutella species to 14 worldwide, and 18 species of Caprellidae from the Gulf of Mexico.

Published

2021

15. A new species of Deutella (Amphipoda: Caprellidae) from the Gulf of Mexico

Author

Universidad de Sevilla. Departamento de Zoología, Winfield, Ignacio, Guerra García, José Manuel, Universidad de Sevilla. Departamento de Zoología, Winfield, Ignacio, and Guerra García, José Manuel

Abstract

A new species of the genus Deutella Mayer, 1890 is described and illustrated, and a key to identify the Deutella species from the Gulf of Mexico is given. The specimens were collected from coral rubble at 18 m depth in Tuxpan-Lobos coral reef system, W Gulf of Mexico. Deutella pseudoincerta n. sp. is remarkably close to Deutella incerta (Mayer, 1903), but can be easily distinguished by: length and shape of pereopod 5 especially distal article; length and width of adult male gnathopod 2; shape and size of tubercles in male abdominal appendages. The new species increases the number of Deutella species to 14 worldwide, and 18 species of Caprellidae from the Gulf of Mexico.

Published

2021

16. A new species of Deutella (Amphipoda: Caprellidae) from the Gulf of Mexico

Author

Universidad de Sevilla. Departamento de Zoología, Winfield, Ignacio, Guerra García, José Manuel, Universidad de Sevilla. Departamento de Zoología, Winfield, Ignacio, and Guerra García, José Manuel

Abstract

A new species of the genus Deutella Mayer, 1890 is described and illustrated, and a key to identify the Deutella species from the Gulf of Mexico is given. The specimens were collected from coral rubble at 18 m depth in Tuxpan-Lobos coral reef system, W Gulf of Mexico. Deutella pseudoincerta n. sp. is remarkably close to Deutella incerta (Mayer, 1903), but can be easily distinguished by: length and shape of pereopod 5 especially distal article; length and width of adult male gnathopod 2; shape and size of tubercles in male abdominal appendages. The new species increases the number of Deutella species to 14 worldwide, and 18 species of Caprellidae from the Gulf of Mexico.

Published

2021

17. Presumptive stridulatory organs in Paranthura cf. japonica Richardson, 1909 (Isopoda : Cymothoida : Paranthuridae)

Author

Kakui, Keiichi, Shiraki, Shoki, Kakui, Keiichi, and Shiraki, Shoki

Abstract

Morphological diversity of sound-producing structures has not been well investigated among members of superorder Peracarida. Presumptive stridulatory sound-producing organs have been reported in some amphipods and tanaidaceans, and sound production by these organs has been documented in two isopod species in Oniscidea and Sphaeromatidea. Here we describe three presumptive stridulatory organs in the paranthurid isopod Paranthura cf. japonica Richardson, 1909, the first case known in Cymothoida. One type, consisting of a scale-bearing knob on the posterolateral corner of a pereonite and the scale-bearing anterolateral corner of the succeeding pereonite, was found between two pairs of pereonites (1, 2 and 2, 3). A second type involves a serrated structure in the sub-posterolateral region of pereonites 1 and 2, with the sharp anterolateral margins of pereonites 2 and 3 appearing to provide corresponding plectra. The third type involves an extension bearing a pair of serrated structures on the posteroventral margin of pereonites 1 and 2; the anterior-ventrolateral edges of pereonites 2 and 3 appear to provide corresponding plectra. All three organs occurred in both sexes of P. cf. japonica. Our discovery of novel, presumptive stridulatory organs in an intertidal isopod indicates that much remains to be learned about the biology of even common peracarid species.

Published

2021

18. Iberian Peninsula and Balearic Island Bathynellacea (Crustacea, Syncarida) database

Author

Camacho Pérez, Ana I. and Camacho Pérez, Ana I.

Abstract

This is the first published database of Bathynellacea. It includes data of bathynellids (Crustacea, Bathynellacea) from the Iberian Peninsula and Balearic Island collected along 64 years (1949 to 2013). The samples come from groundwater (caves, springs, wells and hyporrheic habitat associated rivers) from both sampling campaigns and occasional sampling conducted throughout the Iberian Peninsula and Balearic Islands. The dataset lists ocurrence data of bathynellids distribution, sampling sites (with localities, county and geographic coordinates), taxonomic information (from family to species level) and sampling sources (collector and sampling dates) for all records. The data were compiled by A.I. Camacho (AIC) and come from own samples, literature and samples donated by several Spanish and foreign researchers which were studied by AIC. The descriptions of new species and species identifications have been carried out by an expert taxonomist (AIC) with 25 years experience in the bathynellids studies. Many of the sampling sites are type localities of endemic species from Iberian Peninsula. The data set includes 409 samples record corresponding to two families, 12 genera and 60 species, 42 of them formally described plus 18 taxa unpublished. This represents everything known for the study area, and nearly a quarter of all known species of Bathynellacea in the world. The main collectors are J. Notenboom & I. Meijers, R. Rouch et coll., A.I. Camacho et coll. (C. Puch, F. Molinero, A.G. Valdecasas, J. Rodriguez, members of G.E. Edelweiss and G. E. Bathynellidae).

Published

2021

19. Paradoxapseudes shimojiensis sp. nov. (Crustacea: Tanaidacea: Apseudidae) from a submarine limestone cave in Japan, with notes on its chelipedal morphology and sexual system

Author

1000070723360, Kakui, Keiichi, Fujita, Yoshihisa, 1000070723360, Kakui, Keiichi, and Fujita, Yoshihisa

Abstract

We describe Paradoxapseudes shimojiensis sp. nov. from a submarine limestone cave at Shimoji-jima Island, Ryukyu Islands, southwestern Japan. This species resembles five species (P. basibidens, P. bassoprofundo, P. bermudeus, P. edgari, and P. heroae, among 17 congeners) that bear a long pleotelson, but differs from them in having (i) a naked antennal article 1, (ii) the maxillipedal basis with one inner distal plumose seta, (iii) the chelipedal basis with one dorsodistal and one ventro-subproximal simple setae, (iv) the pereopod-1 basis with four dorsal simple setae longer than the width of the pereopod-1 basis, but without ventrodistal spiniform setae, (v) the pereopod-1 merus with three mid-inner ventral simple setae, and (vi) the pleopodal protopod with two inner plumose setae. We determined partial nucleotide sequences for the cytochrome c oxidase subunit I (COI) and 18S rRNA (18S) genes in P. shimojiensis for future use in DNA barcoding and phylogeny. Paradoxapseudes shimojiensis has serial ridges on the inner surfaces of the left and right chelipedal bases that quite resemble the stridulatory organs in harvestmen (Opiliones); by analogy, we speculate that these ridges may be stridulatory sound-producing organs. Two specimens had both a fully-developed marsupium and genital cone, suggesting that P. shimojiensis is simultaneously hermaphroditic.

Published

2020

20. First in Situ Observations of Behavior in Deep-Sea Tanaidacean Crustaceans

Author

1000070723360, Kakui, Keiichi, Fujiwara, Yoshihiro, 1000070723360, Kakui, Keiichi, and Fujiwara, Yoshihiro

Abstract

We report on the behavior of a deep-sea tanaidacean, Gigantapseudes sp. (Apseudomorpha: Gigantapseudidae), recorded at the depths of 6446–6447 m by the manned submersible Shinkai 6500. From recordings of at least three individuals walking on the sea floor, we confirm that Gigantapseudes sp. is epibenthic, as previously inferred from leg shape. One individual was recorded entering a hole. All individuals in the videos kept pereopods 4 raised from the seafloor while walking, implying that those legs have a function other than for walking, such as mechano- or chemoreception, or posture control. Our in situ observations of behavior are the first for any deepsea tanaidacean and illustrate the importance of recording high-resolution videos in the deep sea and archiving them for future use. Our identification of Gigantapseudes sp. from video footage provides the first record of this genus from Japanese waters and extends the northern limit of the known generic distribution.

Published

2020

21. Unexpected low genetic differentiation between Japan and Bering Sea populations of a deep-sea benthic crustacean lacking a planktonic larval stage (Peracarida: Tanaidacea)

Author

1000070723360, Kakui, Keiichi, Nomaki, Hidetaka, Komatsu, Hironori, 1000020344294, Fujiwara, Yoshihiro, 1000070723360, Kakui, Keiichi, Nomaki, Hidetaka, Komatsu, Hironori, 1000020344294, and Fujiwara, Yoshihiro

Abstract

Information on the extent, diversity and connectivity of populations is lacking for most deep-sea invertebrates. Species of the order Tanaidacea (Crustacea), one of the most diverse and abundant macrofaunal groups in the deep sea, are benthic, lack a planktonic larval stage, and thus would be expected to have narrow distributional ranges. However, with molecular evidence from the COI gene, we show here that the deep-sea tanaidacean Carpoapseudes spinigena has a distributional range spanning at least 3700 km, from off northern Japan to the south-eastern Bering Sea. Living individuals found in a sediment core indicated that the species is a sedentary burrower. COI analyses revealed a low level of genetic diversity overall, and low differentiation (p-distance, 0.2–0.8%) between the Japan and Bering Sea populations. One hypothesis to explain the low genetic diversity over a broad region is that the Japan population was founded by individuals transported by ocean currents from the Bering Sea. However, due to limited data, other explanations cannot be ruled out. Our results indicate that continued sampling is of fundamental importance to understanding how genetic and taxonomic diversity originate and are maintained in the deep sea.

Published

2020

22. A new species of Zeuxo (Crustacea: Peracarida: Tanaidacea) from Japan, with remarks on carapace pigmentation as a potentially useful taxonomic character

Author

Okamoto, Nobuya, Oya, Yuki, 1000070723360, Kakui, Keiichi, Okamoto, Nobuya, Oya, Yuki, 1000070723360, and Kakui, Keiichi

Abstract

We describe Zeuxo ezoensis sp. nov. from Hokkaido, Japan. This species closely resembles Z. phytalensis, Z. shitipingensis and Z. turkensis in having the pleopodal endopod with one inner plumose seta, maxillipedal palp article 4 with one outer simple seta, the left mandible with a wide, denticulate lacinia mobilis and one bifurcate accessory seta, and the right mandible with a peg-like lacinia mobilis and two accessory setae. It differs from them in having (1) antennal article 6 longer than wide, (2) the distal region of the maxillipedal endite with four spiniform setae and two circumplumose setae, (3) maxillipedal palp article 2 with one outer simple seta, (4) the chelipedal carpus with three or four dorsodistal simple setae, (5) the chelipedal dactylus with one inner simple seta, (6) the pereopod-1 basis with one or two ventrodistal simple setae, (7) the pereopod-1 carpus with one ventrodistal simple seta, and (8) the uropod with four or five articles (basal article plus three or four ramus articles). Partial nucleotide sequences for the cytochrome c oxidase subunit I (COI) gene (655 nt) from Z. ezoensis specimens from four localities in Hokkaido showed Kimura 2-parameter (K2P) divergences of 0–0.5% and 0.6–1.5% within and between populations, respectively. Based on the COI data, we examined the phylogenetic position of Z. ezoensis within Zeuxo. Six specimens used for morphological observations and 10 specimens used for COI sequencing showed a similar dorsal pigmentation pattern on carapace. We briefly discuss the validity of using this pattern as a diagnostic character in Zeuxo taxonomy.

Published

2020

23. First in Situ Observations of Behavior in Deep-Sea Tanaidacean Crustaceans

Author

Kakui, Keiichi, Fujiwara, Yoshihiro, Kakui, Keiichi, and Fujiwara, Yoshihiro

Abstract

We report on the behavior of a deep-sea tanaidacean, Gigantapseudes sp. (Apseudomorpha: Gigantapseudidae), recorded at the depths of 6446–6447 m by the manned submersible Shinkai 6500. From recordings of at least three individuals walking on the sea floor, we confirm that Gigantapseudes sp. is epibenthic, as previously inferred from leg shape. One individual was recorded entering a hole. All individuals in the videos kept pereopods 4 raised from the seafloor while walking, implying that those legs have a function other than for walking, such as mechano- or chemoreception, or posture control. Our in situ observations of behavior are the first for any deepsea tanaidacean and illustrate the importance of recording high-resolution videos in the deep sea and archiving them for future use. Our identification of Gigantapseudes sp. from video footage provides the first record of this genus from Japanese waters and extends the northern limit of the known generic distribution.

Published

2020

24. A new species of Zeuxo (Crustacea: Peracarida: Tanaidacea) from Japan, with remarks on carapace pigmentation as a potentially useful taxonomic character

Author

Okamoto, Nobuya, Oya, Yuki, Kakui, Keiichi, Okamoto, Nobuya, Oya, Yuki, and Kakui, Keiichi

Abstract

We describe Zeuxo ezoensis sp. nov. from Hokkaido, Japan. This species closely resembles Z. phytalensis, Z. shitipingensis and Z. turkensis in having the pleopodal endopod with one inner plumose seta, maxillipedal palp article 4 with one outer simple seta, the left mandible with a wide, denticulate lacinia mobilis and one bifurcate accessory seta, and the right mandible with a peg-like lacinia mobilis and two accessory setae. It differs from them in having (1) antennal article 6 longer than wide, (2) the distal region of the maxillipedal endite with four spiniform setae and two circumplumose setae, (3) maxillipedal palp article 2 with one outer simple seta, (4) the chelipedal carpus with three or four dorsodistal simple setae, (5) the chelipedal dactylus with one inner simple seta, (6) the pereopod-1 basis with one or two ventrodistal simple setae, (7) the pereopod-1 carpus with one ventrodistal simple seta, and (8) the uropod with four or five articles (basal article plus three or four ramus articles). Partial nucleotide sequences for the cytochrome c oxidase subunit I (COI) gene (655 nt) from Z. ezoensis specimens from four localities in Hokkaido showed Kimura 2-parameter (K2P) divergences of 0–0.5% and 0.6–1.5% within and between populations, respectively. Based on the COI data, we examined the phylogenetic position of Z. ezoensis within Zeuxo. Six specimens used for morphological observations and 10 specimens used for COI sequencing showed a similar dorsal pigmentation pattern on carapace. We briefly discuss the validity of using this pattern as a diagnostic character in Zeuxo taxonomy.

Published

2020

25. Paradoxapseudes shimojiensis sp. nov. (Crustacea: Tanaidacea: Apseudidae) from a submarine limestone cave in Japan, with notes on its chelipedal morphology and sexual system

Author

Kakui, Keiichi, Fujita, Yoshihisa, Kakui, Keiichi, and Fujita, Yoshihisa

Abstract

We describe Paradoxapseudes shimojiensis sp. nov. from a submarine limestone cave at Shimoji-jima Island, Ryukyu Islands, southwestern Japan. This species resembles five species (P. basibidens, P. bassoprofundo, P. bermudeus, P. edgari, and P. heroae, among 17 congeners) that bear a long pleotelson, but differs from them in having (i) a naked antennal article 1, (ii) the maxillipedal basis with one inner distal plumose seta, (iii) the chelipedal basis with one dorsodistal and one ventro-subproximal simple setae, (iv) the pereopod-1 basis with four dorsal simple setae longer than the width of the pereopod-1 basis, but without ventrodistal spiniform setae, (v) the pereopod-1 merus with three mid-inner ventral simple setae, and (vi) the pleopodal protopod with two inner plumose setae. We determined partial nucleotide sequences for the cytochrome c oxidase subunit I (COI) and 18S rRNA (18S) genes in P. shimojiensis for future use in DNA barcoding and phylogeny. Paradoxapseudes shimojiensis has serial ridges on the inner surfaces of the left and right chelipedal bases that quite resemble the stridulatory organs in harvestmen (Opiliones); by analogy, we speculate that these ridges may be stridulatory sound-producing organs. Two specimens had both a fully-developed marsupium and genital cone, suggesting that P. shimojiensis is simultaneously hermaphroditic.

Published

2020

26. Unexpected low genetic differentiation between Japan and Bering Sea populations of a deep-sea benthic crustacean lacking a planktonic larval stage (Peracarida: Tanaidacea)

Author

Kakui, Keiichi, Nomaki, Hidetaka, Komatsu, Hironori, Fujiwara, Yoshihiro, Kakui, Keiichi, Nomaki, Hidetaka, Komatsu, Hironori, and Fujiwara, Yoshihiro

Abstract

Information on the extent, diversity and connectivity of populations is lacking for most deep-sea invertebrates. Species of the order Tanaidacea (Crustacea), one of the most diverse and abundant macrofaunal groups in the deep sea, are benthic, lack a planktonic larval stage, and thus would be expected to have narrow distributional ranges. However, with molecular evidence from the COI gene, we show here that the deep-sea tanaidacean Carpoapseudes spinigena has a distributional range spanning at least 3700 km, from off northern Japan to the south-eastern Bering Sea. Living individuals found in a sediment core indicated that the species is a sedentary burrower. COI analyses revealed a low level of genetic diversity overall, and low differentiation (p-distance, 0.2–0.8%) between the Japan and Bering Sea populations. One hypothesis to explain the low genetic diversity over a broad region is that the Japan population was founded by individuals transported by ocean currents from the Bering Sea. However, due to limited data, other explanations cannot be ruled out. Our results indicate that continued sampling is of fundamental importance to understanding how genetic and taxonomic diversity originate and are maintained in the deep sea.

Published

2020

27. Crustáceos depositados na coleção científica de invertebrados marinhos do laboratório de biologia marinha, da universidade castelo branco, rio de janeiro

Author

Costa, Fabio Moraes da, Pinto, Ingrid Ferreira, Alcantara, Alessandra Araujo de, Paschoal, Fabiano, Costa, Fabio Moraes da, Pinto, Ingrid Ferreira, Alcantara, Alessandra Araujo de, and Paschoal, Fabiano

Abstract

The specimens deposited in the scientific collection of the Laboratório de Biologia Marinha (LabMar) of Universidade Castelo Branco (UCB) help to inform taxonomic information and about its distribution in the biodiversity of certain regions of the southeastern region of Brazil. The Collections are references to collaborate with the dissemination in taxonomic research indicating the importance of preserving the local fauna. In Brazil, there are 21 institutions, which maintain Collections of the Crustacean Group. The Scientific Collection of Marine Invertebrates of the LabMar is organized by phylum, therefore, each Collection has its specimens deposited and preserved, after sorting, identification and cataloging of the specimens. The present study aims to carry out a taxonomic survey of the species of the subphylum Crustacea present in the Scientific Collection of Marine Invertebrates, of LabMar, from Universidade Castelo Branco. The crustaceans were stored in airtight glass containers, with 70% alcohol, for the conservation and maintenance of their structure. The batches of crustaceans that make up the LabMar collection are cataloged in the Book of Register by order and alphanumeric code of entry in the collection. The Collection of the subfile Crustacea of LabMar, currently consists of 24 species totaling 257 specimens, divided into 2 classes, Malacostraca and Thecostraca and 12 families, where the specimens of Caprellidae, Menippidae and Pilumnidae are the most abundant in the collection., Os espécimes depositados na coleção científica do Laboratório de Biologia Marinha (LabMar) da Universidade Castelo Branco (UCB) ajudam a divulgar informações taxonômicas e sobre sua distribuição na biodiversidade de determinadas regiões da região sudeste brasileira. As Coleções que são referências colaboram com a divulgação em pesquisas taxonômicas indicando a importância da preservação da fauna local. No Brasil, existem 21 instituições, que mantém Coleções do Grupo de Crustáceos. A Coleção Científica de Invertebrados Marinhos, do LabMar, da UCB é organizada por filo, sendo assim, cada Coleção possui seus exemplares depositados e preservados, após a triagem, identificação e catalogado dos espécimes. O presente estudo tem como objetivo realizar o levantamento taxonômico das espécies do subfilo Crustacea presentes na Coleção Científica de Invertebrados Marinhos, do LabMar, da Universidade Castelo Branco. Os crustáceos foram armazenados em recipientes de vidro hermeticamente fechados, com álcool 70%, para a conservação e manutenção de sua estrutura. Os lotes de crustáceos, que compõem a coleção do LabMar estão catalogados no Livro de Registro por ordem e código alfanumérico de entrada na coleção. A Coleção do subfilo Crustacea do LabMar, consta atualmente com 24 espécies que totalizam 257 espécimes, divididas em 2 classes, Malacostraca e Thecostraca e 12 famílias, onde os espécimes de Caprellidae, Menippidae e Pilumnidae são os mais abundantes na coleção.

Published

2020

28. An annotated checklist of the Niphargidae (Crustacea: Amphipoda) of Greece

Author

Ntakis, Alexandros, Karaouzas, Ioannis, Fišer, Cene, Stoch, Fabio, Ntakis, Alexandros, Karaouzas, Ioannis, Fišer, Cene, and Stoch, Fabio

Abstract

Despite Greece being a global hotspot of subterranean biodiversity, its hypogean fauna is largely neglected from both an ecological and conservational point of view. An overview of the Niphargidae occurring in Greece is presented as an annotated list of all available published records. These records have resulted in an updated species list reflecting taxonomic corrections and species distribution range in the Greek peninsula. A total of 23 species, attributed to 3 genera, is up to date known from Greece with a high rate of endemicity found particularly in Crete. The endemic species of Greece amount to 21 (91% of total species richness), with the remaining species distributing also in the Republic of North Macedonia. Currently, none of them is listed in the national, European or global IUCN Red Lists of Threatened Species. Considering the increasing habitat degradation due to anthropic pressure, groundwater harvesting and climate change we could lose rare and endemic species without even acknowledging their existence., SCOPUS: ar.j, DecretOANoAutActif, info:eu-repo/semantics/published

Published

2020

29. Structure of the stomach cuticle in adult and larvae of the spider crab Maja brachydactyla (Brachyura, Decapoda)

Author

Ministerio de Economía y Competitividad (España), Castejón, Diego, Rotllant, Guiomar, Ribes, Enric, Durfort, Mercè, Guerao, Guillermo, Ministerio de Economía y Competitividad (España), Castejón, Diego, Rotllant, Guiomar, Ribes, Enric, Durfort, Mercè, and Guerao, Guillermo

Abstract

The stomach of decapods is a complex organ with specialized structures that are delimited by a cuticle. The morphology and ontogeny of the stomach are largely described, but few studies have focused on the morphology of its cuticle. This study examined the morphology of the stomach cuticle of cardiac sacs, gastric mill ossicles, cardio‐pyloric valve and pyloric filters, and during various stages (zoea I and II, megalopa, first juvenile, and adult) of the common spider crab Maja brachydactyla using dissection, histology and transmission electron microscopy. The results show that cuticle morphology varies among structures (e.g., cardiac sacs, urocardiac ossicle, cardio‐pyloric valve, pyloric filters), within a single structure (e.g., different sides of the urocardiac ossicle) and among different life stages. The cuticle during the larval stages is very thin and the different layers (epicuticle, exocuticle, and endocuticle) are infrequently distinguishable by histology. Major changes during larval development regarding cuticle morphology are observed after the molt to megalopa, including the increment in thickness in the gastric mill ossicles and cardio‐pyloric valve, and the disappearance of the long thickened setae of the cardio‐pyloric valve. The cuticle of all the stomach structures in the adults is thicker than in larval and juvenile stages. The cuticle varies in thickness, differential staining affinity and morphology of the cuticle layers. The structure–function relationship of the cuticle morphology is discussed

Published

2019

30. Haimormus shimojiensis, a new genus and species of Pseudozeuxidae (Crustacea: Tanaidacea) from a submarine limestone cave in Northwestern Pacific

Author

1000070723360, Kakui, Keiichi, Fujita, Yoshihisa, 1000070723360, Kakui, Keiichi, and Fujita, Yoshihisa

Abstract

We establish a new pseudozeuxid genus Haimormus gen. nov. based on a new species Haimormus shimojiensis sp. nov. which was collected from a submarine limestone cave with the entrance at 35 m depth, in the Northwestern Pacific Ocean. H. shimojiensis differs from the other confamilial members, Pseudozeuxo belizensis Sieg, 1982 and Charbeitanais spongicola Bamber & Bird, 1997, in having the pleonite 1 without the pleopod, the pereopods 2 and 3 propodus with a ventral spiniform seta, and the pereopods 4-6 propodus with one long and two short dorsodistal setae. A key to females of species of Pseudozeuxidae is presented. This is the first tanaidacean report from submarine caves around Japan.

Published

2018

31. Haimormus shimojiensis, a new genus and species of Pseudozeuxidae (Crustacea: Tanaidacea) from a submarine limestone cave in Northwestern Pacific

Author

Kakui, Keiichi, Fujita, Yoshihisa, Kakui, Keiichi, and Fujita, Yoshihisa

Abstract

We establish a new pseudozeuxid genus Haimormus gen. nov. based on a new species Haimormus shimojiensis sp. nov. which was collected from a submarine limestone cave with the entrance at 35 m depth, in the Northwestern Pacific Ocean. H. shimojiensis differs from the other confamilial members, Pseudozeuxo belizensis Sieg, 1982 and Charbeitanais spongicola Bamber & Bird, 1997, in having the pleonite 1 without the pleopod, the pereopods 2 and 3 propodus with a ventral spiniform seta, and the pereopods 4-6 propodus with one long and two short dorsodistal setae. A key to females of species of Pseudozeuxidae is presented. This is the first tanaidacean report from submarine caves around Japan.

Published

2018

32. First record of the terrestrial isopod Platyarthrus parisii Arcangeli, 1930 (Crustacea: Oniscidea: Platyarthridae) for the European continent, with remarks on Platyarthrus schoblii Budde-Lund, 1885

Author

Garcia, Lluc, Baena, Manuel, Pérez-Gómez, Álvaro, Rojas, Daniel, Garcia, Lluc, Baena, Manuel, Pérez-Gómez, Álvaro, and Rojas, Daniel

Abstract

[eng] The terrestrial isopod Platyarthrus parisii Arcangeli, 1930 (Oniscidea: Platyarthridae), a myrmecophilous species, is recorded for the first time at continental Europe. All the specimens studied come from different locations in the south of the Iberian Peninsula (Cádiz, Tarifa and Jerez de la Frontera, in the region of Andalusia, Spain). Besides, some morphological traits of this species are illustrated for the first time. Differences with Platyarthrus schoblii Budde-Lund, 1885, of which it was considered a subspecies, are discussed. The validity of the current subspecies Platyarthrus schoblii intermedius Vandel, 1946 is also discussed., [cat] Es cita per primera vegada a Europa continental l'isòpode terrestre mirmecòfil Platyarthrus parisii Arcangeli, 1930 (Oniscidea: Platyarthridae). Tots els exemplars estudiats procedeixen de diverses localitats del sud de la península Ibèrica (Cádiz, Tarifa i Jerez de la Frontera, a la regió d'Andalusia, Espanya). S'il·lustren per primer cop alguns dels seus caràcters morfològics i es discuteixen les diferències entre aquesta espècie i Platyarthrus schoblii, de la qual va ser considerada una subespècie. També es discuteix la validesa de la subespècie Platyarthrus schoblii intermedius Vandel, 1946.

Published

2018

33. Comparative studies in the development of the nervous system in malacostracan crustaceans

Author

Scholtz, Gerhard, Harzsch, Steffen, Minelli, Alessandro, Biffis, Caterina, Scholtz, Gerhard, Harzsch, Steffen, Minelli, Alessandro, and Biffis, Caterina

Abstract

Die vorliegende Studie untersucht die Entwicklung des Nervensystems von drei Arten der Höheren Krebse (Malacostraca): Die Leuchtgarnele (Euphausiacea) Meganyctiphanes norvegica und die beiden Zehnfußkrebse (Decapoda) Penaeus monodon (Dendrobranchiata) und Procambarus fallax f. virginalis (Astacida). Auf Basis von Antikörper- und Fluoreszenzfärbungen in Verbindung mit Konfokaler Laser-Scanning Mikroskopie und 3D Rekonstruktionen, umfasst die Studie den Beginn der Axogenese und zeichnet die Entstehung eines axonalen Grundgerüstes in einer umfassenden Abfolge durch die Embryonal- wie auch die Postembryonalentwicklung nach. Die Daten zeigen, dass die drei untersuchten Arten ein allgemeines Muster bei der Entwicklung des Nervensystems teilen. Mittels eines vergleichenden Zuganges wird das gefundene Muster in Hinblick auf die segmentale Körperorganisation der Tiere diskutiert. Insbesondere die Entwicklung des peripheren und des enteralen Nervensystems spielen eine Schlüsselrolle im Prozess der Führung des grundlegenden axonalen Grundgerüstes. Der Vergleich zeigt, dass die medulla terminalis, welche sich bei den Naupliuslarven von M. norvegica und P. monodon in enger Verbindung zu einem Paar sensorischer Frontalorgane entwickelt, eine separate ontogenetische Einheit darstellt, die keinen Teil des dreiteiligen Gehirns der Tiere repräsentiert. Auf Grundlage der phylogenetischen Verwandtschaftsbeziehungen wird die Frage einer möglichen Homologie zwischen diesen sensorischen Organen und den “Frontalfilamenten“ bei nicht-malakostrakten Krebsen, sowie eine neue Interpretation des sogenannten “lateralen Protocerebrums” im Grundmuster der Crustacea-Entwicklung diskutiert. Darüber hinaus liefert die Studie die Identifikation der einzelnen Strukturen des sich entwickelnden stomatogastrischen Nervensystems und enthält eine Zusammenfassung der bisherigen diesbezüglich verwendeten Nomenklatur. Abschließend wird die Hypothese der Entwicklung des Nervensystems als Ergebnis der koordinier, The present study addresses the development of the nervous system in three malacostracans species: the euphausiacean Meganyctiphanes norvegica, and the two decapods Penaeus monodon (Dendrobranchiata) and Procambarus fallax f. virginalis (Astacida). Based on the use of antibody stainings and fluorescent dyes in combination with CLSM and 3D reconstruction, the observations cover the onset of axogenesis and follow the establishment of the axonal scaffold in a consistent and comprehensive sequence through the embryonic and the post-embryonic development. The development of the nervous system reveals a general developmental pattern shared by the three investigated species. With a comparative approach, the observed pattern is discussed with respect to the segmental organization of the animals’ body. In particular, the development of the peripheral and of the enteric nervous systems plays a crucial role in the process of guiding the main axonal scaffold. In this context, the medulla terminalis, which in the nauplius larvae of M. norvegica and P. monodon develops strictly associated to a pair of frontal sensory organs, is proposed as a separate unit and not part of the tripartite brain. The homology of these sensory organs with the “frontal filaments” of non-malacostracan crustaceans and a new interpretation of the so called “lateral protocerebrum” in the developmental ground pattern of the Crustacea are discussed against the current phylogenetic background. Moreover, the present study offers a precise identification of the single structures forming the stomatogastric nervous system and provides a review of the former nomenclature. The interpretation of the labrum as a non-segmental appendage associated to the stomatogastric nervous system is advanced. Finally, the present study proposes the development of the nervous system as the result of the coordinated interaction of three independent nervous systems, i.e. the central, the enteric and the peripheral. As a consequence

Published

2017

34. Comparative studies in the development of the nervous system in malacostracan crustaceans

Author

Scholtz, Gerhard, Harzsch, Steffen, Minelli, Alessandro, Biffis, Caterina, Scholtz, Gerhard, Harzsch, Steffen, Minelli, Alessandro, and Biffis, Caterina

Abstract

Die vorliegende Studie untersucht die Entwicklung des Nervensystems von drei Arten der Höheren Krebse (Malacostraca): Die Leuchtgarnele (Euphausiacea) Meganyctiphanes norvegica und die beiden Zehnfußkrebse (Decapoda) Penaeus monodon (Dendrobranchiata) und Procambarus fallax f. virginalis (Astacida). Auf Basis von Antikörper- und Fluoreszenzfärbungen in Verbindung mit Konfokaler Laser-Scanning Mikroskopie und 3D Rekonstruktionen, umfasst die Studie den Beginn der Axogenese und zeichnet die Entstehung eines axonalen Grundgerüstes in einer umfassenden Abfolge durch die Embryonal- wie auch die Postembryonalentwicklung nach. Die Daten zeigen, dass die drei untersuchten Arten ein allgemeines Muster bei der Entwicklung des Nervensystems teilen. Mittels eines vergleichenden Zuganges wird das gefundene Muster in Hinblick auf die segmentale Körperorganisation der Tiere diskutiert. Insbesondere die Entwicklung des peripheren und des enteralen Nervensystems spielen eine Schlüsselrolle im Prozess der Führung des grundlegenden axonalen Grundgerüstes. Der Vergleich zeigt, dass die medulla terminalis, welche sich bei den Naupliuslarven von M. norvegica und P. monodon in enger Verbindung zu einem Paar sensorischer Frontalorgane entwickelt, eine separate ontogenetische Einheit darstellt, die keinen Teil des dreiteiligen Gehirns der Tiere repräsentiert. Auf Grundlage der phylogenetischen Verwandtschaftsbeziehungen wird die Frage einer möglichen Homologie zwischen diesen sensorischen Organen und den “Frontalfilamenten“ bei nicht-malakostrakten Krebsen, sowie eine neue Interpretation des sogenannten “lateralen Protocerebrums” im Grundmuster der Crustacea-Entwicklung diskutiert. Darüber hinaus liefert die Studie die Identifikation der einzelnen Strukturen des sich entwickelnden stomatogastrischen Nervensystems und enthält eine Zusammenfassung der bisherigen diesbezüglich verwendeten Nomenklatur. Abschließend wird die Hypothese der Entwicklung des Nervensystems als Ergebnis der koordinier, The present study addresses the development of the nervous system in three malacostracans species: the euphausiacean Meganyctiphanes norvegica, and the two decapods Penaeus monodon (Dendrobranchiata) and Procambarus fallax f. virginalis (Astacida). Based on the use of antibody stainings and fluorescent dyes in combination with CLSM and 3D reconstruction, the observations cover the onset of axogenesis and follow the establishment of the axonal scaffold in a consistent and comprehensive sequence through the embryonic and the post-embryonic development. The development of the nervous system reveals a general developmental pattern shared by the three investigated species. With a comparative approach, the observed pattern is discussed with respect to the segmental organization of the animals’ body. In particular, the development of the peripheral and of the enteric nervous systems plays a crucial role in the process of guiding the main axonal scaffold. In this context, the medulla terminalis, which in the nauplius larvae of M. norvegica and P. monodon develops strictly associated to a pair of frontal sensory organs, is proposed as a separate unit and not part of the tripartite brain. The homology of these sensory organs with the “frontal filaments” of non-malacostracan crustaceans and a new interpretation of the so called “lateral protocerebrum” in the developmental ground pattern of the Crustacea are discussed against the current phylogenetic background. Moreover, the present study offers a precise identification of the single structures forming the stomatogastric nervous system and provides a review of the former nomenclature. The interpretation of the labrum as a non-segmental appendage associated to the stomatogastric nervous system is advanced. Finally, the present study proposes the development of the nervous system as the result of the coordinated interaction of three independent nervous systems, i.e. the central, the enteric and the peripheral. As a consequence

Published

2017

35. Tube construction by a tanaidacean crustacean using a novel mucus secretion system involving the anal opening

Author

1000070723360, Kakui, Keiichi, Hiruta, Chizue, 1000070723360, Kakui, Keiichi, and Hiruta, Chizue

Abstract

Background: Animals in diverse aquatic groups construct tubes using mucus and filaments, and the acquisition of this capability has likely played an important role in the evolution and diversification of small benthic animals. Tanaidacea is a crustacean order that includes tube-constructing species, most of which belong to Tanaidoidea and Paratanaoidea, with a few in Kalliapseudidae (Apseudoidea). Two previously reported systems used in tube construction are the thoracic-gland system, with secretory glands in thoracic segments (pereonites), and the pereopodal-gland system, with glands in pereopods. Results: Parapseudidae (Apseudoidea) also includes a tube-constructing species, Parapseudes algicola (Shiino, 1952), which lacks large secretory glands in all pereonites and pereopods, but has a pair of acinar glands in the pleotelson, lateral to the gut. Each gland connects to the gut via a short duct, and thence to the exterior via the anal opening. Secretions released from these glands are used to construct tubes, and contain acidic and neutral mucopolysaccharides. Conclusion: We report in P. algicola a third, novel secretory system, here termed the pleotelsonal-gland system, used for tube construction in Tanaidacea. It is similar to the secretory system in some "thalassinidean" decapods; both systems have secretory glands connecting to the gut and thence to the anal opening as the outlet; however, these gland systems likely evolved independently. Recent discoveries of novel secretory systems for tube construction in Tanaidacea suggest that information from smaller, less well-known groups will be necessary to understand how acquisitions of tube-constructing capability affected diversification in animals.

Published

2017

36. Tube construction by a tanaidacean crustacean using a novel mucus secretion system involving the anal opening

Author

Kakui, Keiichi, Hiruta, Chizue, Kakui, Keiichi, and Hiruta, Chizue

Abstract

Background: Animals in diverse aquatic groups construct tubes using mucus and filaments, and the acquisition of this capability has likely played an important role in the evolution and diversification of small benthic animals. Tanaidacea is a crustacean order that includes tube-constructing species, most of which belong to Tanaidoidea and Paratanaoidea, with a few in Kalliapseudidae (Apseudoidea). Two previously reported systems used in tube construction are the thoracic-gland system, with secretory glands in thoracic segments (pereonites), and the pereopodal-gland system, with glands in pereopods. Results: Parapseudidae (Apseudoidea) also includes a tube-constructing species, Parapseudes algicola (Shiino, 1952), which lacks large secretory glands in all pereonites and pereopods, but has a pair of acinar glands in the pleotelson, lateral to the gut. Each gland connects to the gut via a short duct, and thence to the exterior via the anal opening. Secretions released from these glands are used to construct tubes, and contain acidic and neutral mucopolysaccharides. Conclusion: We report in P. algicola a third, novel secretory system, here termed the pleotelsonal-gland system, used for tube construction in Tanaidacea. It is similar to the secretory system in some "thalassinidean" decapods; both systems have secretory glands connecting to the gut and thence to the anal opening as the outlet; however, these gland systems likely evolved independently. Recent discoveries of novel secretory systems for tube construction in Tanaidacea suggest that information from smaller, less well-known groups will be necessary to understand how acquisitions of tube-constructing capability affected diversification in animals.

Published

2017

37. Comparative studies in the development of the nervous system in malacostracan crustaceans

Author

Scholtz, Gerhard, Harzsch, Steffen, Minelli, Alessandro, Biffis, Caterina, Scholtz, Gerhard, Harzsch, Steffen, Minelli, Alessandro, and Biffis, Caterina

Abstract

Die vorliegende Studie untersucht die Entwicklung des Nervensystems von drei Arten der Höheren Krebse (Malacostraca): Die Leuchtgarnele (Euphausiacea) Meganyctiphanes norvegica und die beiden Zehnfußkrebse (Decapoda) Penaeus monodon (Dendrobranchiata) und Procambarus fallax f. virginalis (Astacida). Auf Basis von Antikörper- und Fluoreszenzfärbungen in Verbindung mit Konfokaler Laser-Scanning Mikroskopie und 3D Rekonstruktionen, umfasst die Studie den Beginn der Axogenese und zeichnet die Entstehung eines axonalen Grundgerüstes in einer umfassenden Abfolge durch die Embryonal- wie auch die Postembryonalentwicklung nach. Die Daten zeigen, dass die drei untersuchten Arten ein allgemeines Muster bei der Entwicklung des Nervensystems teilen. Mittels eines vergleichenden Zuganges wird das gefundene Muster in Hinblick auf die segmentale Körperorganisation der Tiere diskutiert. Insbesondere die Entwicklung des peripheren und des enteralen Nervensystems spielen eine Schlüsselrolle im Prozess der Führung des grundlegenden axonalen Grundgerüstes. Der Vergleich zeigt, dass die medulla terminalis, welche sich bei den Naupliuslarven von M. norvegica und P. monodon in enger Verbindung zu einem Paar sensorischer Frontalorgane entwickelt, eine separate ontogenetische Einheit darstellt, die keinen Teil des dreiteiligen Gehirns der Tiere repräsentiert. Auf Grundlage der phylogenetischen Verwandtschaftsbeziehungen wird die Frage einer möglichen Homologie zwischen diesen sensorischen Organen und den “Frontalfilamenten“ bei nicht-malakostrakten Krebsen, sowie eine neue Interpretation des sogenannten “lateralen Protocerebrums” im Grundmuster der Crustacea-Entwicklung diskutiert. Darüber hinaus liefert die Studie die Identifikation der einzelnen Strukturen des sich entwickelnden stomatogastrischen Nervensystems und enthält eine Zusammenfassung der bisherigen diesbezüglich verwendeten Nomenklatur. Abschließend wird die Hypothese der Entwicklung des Nervensystems als Ergebnis der koordinier, The present study addresses the development of the nervous system in three malacostracans species: the euphausiacean Meganyctiphanes norvegica, and the two decapods Penaeus monodon (Dendrobranchiata) and Procambarus fallax f. virginalis (Astacida). Based on the use of antibody stainings and fluorescent dyes in combination with CLSM and 3D reconstruction, the observations cover the onset of axogenesis and follow the establishment of the axonal scaffold in a consistent and comprehensive sequence through the embryonic and the post-embryonic development. The development of the nervous system reveals a general developmental pattern shared by the three investigated species. With a comparative approach, the observed pattern is discussed with respect to the segmental organization of the animals’ body. In particular, the development of the peripheral and of the enteric nervous systems plays a crucial role in the process of guiding the main axonal scaffold. In this context, the medulla terminalis, which in the nauplius larvae of M. norvegica and P. monodon develops strictly associated to a pair of frontal sensory organs, is proposed as a separate unit and not part of the tripartite brain. The homology of these sensory organs with the “frontal filaments” of non-malacostracan crustaceans and a new interpretation of the so called “lateral protocerebrum” in the developmental ground pattern of the Crustacea are discussed against the current phylogenetic background. Moreover, the present study offers a precise identification of the single structures forming the stomatogastric nervous system and provides a review of the former nomenclature. The interpretation of the labrum as a non-segmental appendage associated to the stomatogastric nervous system is advanced. Finally, the present study proposes the development of the nervous system as the result of the coordinated interaction of three independent nervous systems, i.e. the central, the enteric and the peripheral. As a consequence

Published

2017

38. Publicaties

Author

E.O. Colijn, M. Soesbergen, E.O. Colijn, and M. Soesbergen

Published

2017

39. Permanent slides for morphological studies of small crustaceans: Serban's method and its variation applied on Bathynellacea (Malacostraca)

Author

Perina, Giulia, Camacho, Ana I., Perina, Giulia, and Camacho, Ana I.

Abstract

Morphological studies of small invertebrates often involve the preparation of slides to observe minute body parts under a compound microscope. Preparation should facilitate observation, through traditional optical microscopy, of small surface structures on different planes, like pores, spines and setae. Various methods and techniques, using different mounting media that specialists have adopted to observe and preserve small crustaceans, have their advantages and disadvantages.Within the order Bathynellacea, specimens in the family Bathynellidae are particularly challenging due to their small size (0.5 to 2.25 mm body length) and very delicate exoskeleton, which tends to be completely digested when using common clearing mounting media, making future consultations impossible. Permanent slides are fundamental to preserve small specimens for scientific collections, because temporary slide preparations can easily result in the loss of body parts in the passage between slide and vial and vice versa. Dr Eugene Serban worked on Bathynellacea for more than 40 years, improving the preparation and preservation of delicate specimens using a stained glycerol-jelly and double cover slip mounting technique. His method is described here with a variation that speeds up the original procedure and was implemented in most recent years by one of the authors (A.I.C.). The technique provides excellent preservation and visualization of body parts on permanent slides, which do not need curation tasks and can last for many years.

Published

2016

40. Permanent slides for morphological studies of small crustaceans: Serban's method and its variation applied on Bathynellacea (Malacostraca)

Author

Perina, Giulia, Camacho, Ana I., Perina, Giulia, and Camacho, Ana I.

Abstract

Morphological studies of small invertebrates often involve the preparation of slides to observe minute body parts under a compound microscope. Preparation should facilitate observation, through traditional optical microscopy, of small surface structures on different planes, like pores, spines and setae. Various methods and techniques, using different mounting media that specialists have adopted to observe and preserve small crustaceans, have their advantages and disadvantages.Within the order Bathynellacea, specimens in the family Bathynellidae are particularly challenging due to their small size (0.5 to 2.25 mm body length) and very delicate exoskeleton, which tends to be completely digested when using common clearing mounting media, making future consultations impossible. Permanent slides are fundamental to preserve small specimens for scientific collections, because temporary slide preparations can easily result in the loss of body parts in the passage between slide and vial and vice versa. Dr Eugene Serban worked on Bathynellacea for more than 40 years, improving the preparation and preservation of delicate specimens using a stained glycerol-jelly and double cover slip mounting technique. His method is described here with a variation that speeds up the original procedure and was implemented in most recent years by one of the authors (A.I.C.). The technique provides excellent preservation and visualization of body parts on permanent slides, which do not need curation tasks and can last for many years.

Published

2016

41. Publicaties

Author

E.O. Colijn, R.M.J.C. Kleukers, E.O. Colijn, and R.M.J.C. Kleukers

Published

2014

42. Iberian Peninsula and Balearic Island Bathynellacea (Crustacea, Syncarida) database

Author

Camacho Pérez, Ana I., Dorda, Beatriz A., Rey Fraile, Isabel, Camacho Pérez, Ana I., Dorda, Beatriz A., and Rey Fraile, Isabel

Abstract

This is the first published database of Bathynellacea. It includes all data of bathynellids (Crustacea, Bathynellacea) collected in the last 64 years (1949 to 2013) on the Iberian Peninsula and Balearic Island. Te samples come from groundwater (caves, springs, wells and hyporrheic habitat associated rivers) from both sampling campaigns and occasional sampling conducted throughout the Iberian Peninsula and Balearic Islands. Te dataset lists occurrence data of bathynellids distribution, sampling sites (with localities, county and geographic coordinates), taxonomic information (from family to species level) and sampling sources (collector and sampling dates) for all records. Te descriptions of new species and species identifications have been carried out by an expert taxonomist (AIC) with 25 years experience in the bathynellids studies (see references). Many of the sampling sites are type localities of endemic species from Iberian Peninsula. Te dataset includes 409 samples record corresponding to two families, 12 genera and 58 species, 42 of them formally described plus 16 taxa unpublished and 47 samples in study. All species known from the study area are included, which nearly sum up a quarter of species of Bathynellacea known in the world (250 species).

Published

2014

43. First record of a settled stomatopod Platysquilla eusebia in the North Sea (Malacostraca: Stomatopoda)

Author

Lewis, W., Gittenberger, A. (Adriaan), Lewis, W., and Gittenberger, A. (Adriaan)

Abstract

This paper describes the discovery of a settled juvenile specimen of the stomatopod Platysquilla eusebia on the Dutch part of the Dogger Bank in the central North Sea. This is the northernmost record in Europe. The species is native to the Mediterranean and to the Atlantic coast from Portugal up to France. Further investigations have to show if the species already forms populations this far north. As the planktonic stages of P. eusebia have already been recorded in prior years, the establishment of the species should not be a problem, providing the circumstances are favourable.

Published

2013

44. Selfing in a malacostracan crustacean: why a tanaidacean but not decapods

Author

1000070723360, Kakui, Keiichi, Hiruta, Chizue, 1000070723360, Kakui, Keiichi, and Hiruta, Chizue

Abstract

The crustacean class Malacostraca,with over 22,000 species, includes commercially important members, such as crabs, shrimps, and lobsters. A few simultaneous hermaphrodites are known in this group, but self-fertilization was unknown. Here we show, through microscopy and breeding experiments, that the simultaneously hermaphroditic malacostracan Apseudes sp. (order Tanaidacea) can self-fertilize; individuals reared in isolation become hermaphroditic via a male-like phase and produce eggs that develop into fertile adults. Although selfing occurs in crustaceans like the Branchiopoda, in which simultaneous hermaphrodites have the sex ducts united, in decapods the separation of gonadal ducts and gonopores, specialized mating organs, and complex mating behavior appear to have constrained the evolution of selfing. In contrast, in most tanaidaceans, sperm is released externally by a male and reaches the eggs in the female brood pouch, where fertilization occurs. This mode of fertilization permitted Apseudes sp. to achieve selfing without large modifications in morphology or behavior.

Published

2013

45. Selfing in a malacostracan crustacean: why a tanaidacean but not decapods

Author

Kakui, Keiichi, Hiruta, Chizue, Kakui, Keiichi, and Hiruta, Chizue

Abstract

The crustacean class Malacostraca,with over 22,000 species, includes commercially important members, such as crabs, shrimps, and lobsters. A few simultaneous hermaphrodites are known in this group, but self-fertilization was unknown. Here we show, through microscopy and breeding experiments, that the simultaneously hermaphroditic malacostracan Apseudes sp. (order Tanaidacea) can self-fertilize; individuals reared in isolation become hermaphroditic via a male-like phase and produce eggs that develop into fertile adults. Although selfing occurs in crustaceans like the Branchiopoda, in which simultaneous hermaphrodites have the sex ducts united, in decapods the separation of gonadal ducts and gonopores, specialized mating organs, and complex mating behavior appear to have constrained the evolution of selfing. In contrast, in most tanaidaceans, sperm is released externally by a male and reaches the eggs in the female brood pouch, where fertilization occurs. This mode of fertilization permitted Apseudes sp. to achieve selfing without large modifications in morphology or behavior.

Published

2013

46. First record of a settled stomatopod Platysquilla eusebia in the North Sea (Malacostraca: Stomatopoda)

Author

Lewis, W., Gittenberger, A. (Adriaan), Lewis, W., and Gittenberger, A. (Adriaan)

Abstract

This paper describes the discovery of a settled juvenile specimen of the stomatopod Platysquilla eusebia on the Dutch part of the Dogger Bank in the central North Sea. This is the northernmost record in Europe. The species is native to the Mediterranean and to the Atlantic coast from Portugal up to France. Further investigations have to show if the species already forms populations this far north. As the planktonic stages of P. eusebia have already been recorded in prior years, the establishment of the species should not be a problem, providing the circumstances are favourable.

Published

2013

47. First record of a settled stomatopod Platysquilla eusebia in the North Sea (Malacostraca: Stomatopoda)

Author

W. Lewis, A. Gittenberger, W. Lewis, and A. Gittenberger

Abstract

This paper describes the discovery of a settled juvenile specimen of the stomatopod Platysquilla eusebia on the Dutch part of the Dogger Bank in the central North Sea. This is the northernmost record in Europe. The species is native to the Mediterranean and to the Atlantic coast from Portugal up to France. Further investigations have to show if the species already forms populations this far north. As the planktonic stages of P. eusebia have already been recorded in prior years, the establishment of the species should not be a problem, providing the circumstances are favourable.

Published

2013

48. Publicaties

Author

E.O. Colijn, J. Noordijk, E.O. Colijn, and J. Noordijk

Published

2013

49. Landheremietkreeft : LICG huisdierenbijsluiter

Abstract

Praktische tips over het houden van landheremietkreeften door particulieren.

Published

2012

50. Ceratiocaris Papilio, een garnaalachtig fossiel met vraagtekens

Author

W. van der Brugghen and W. van der Brugghen

Abstract

Ceratiocaris papilio [Ceratiocaris = garnaal met een kleine hoorn) was een geleedpotige die tot de subklasse der phyttocariden (= garnalen met een bladvormige carapax) worden gerekend. Het dier is begin jaren '60 uitvoerig door dr. Ian Rolfe beschreven. Rolfe was hoofdconservator aan The Royal Museum of Scotland, afdeling Geologie en is sinds 1995 met pensioen. Hij heeft echter een aantal lichaamsdelen niet goed kunnen behandelen, omdat hij onder de vele honderden exemplaren die hij bestudeerde geen fossielen is tegengekomen, die een goede reconstructie van bijvoorbeeld de voelsprieten (antennae) en ledematen rechtvaardigen. ik heb een paar fossielen van C. papilio in mijn bezit die, volgens Rolfe, ongewoon goed bewaard gebleven details laten zien. Deze worden in dit artikel besproken.

Published

2006