Species New to Science's Journal

Species New to Science's Journal

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Monday, December 9th, 2024

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12:11a

[Crustacea • 2024] Cryptione grandis • Resurrection of the parasitic isopod genus Cryptione Hansen, 1897 (Epicaridea: Bopyridae) and Description of A New Species of parasitic isopod (Epicaridea: Bopyridae) from the deep-sea shrimp Notostomus gibbosus (Car

Cryptione grandis sp. nov. from Notostomus gibbosus

Williams, Horch, Ceballos & Bracken-Grissom, 2024

DOI: doi.org/10.1007/s12526-024-01475-z

Abstract

A new species of pseudionine parasite is described from the deep-sea shrimp Notostomus gibbosus A. Milne-Edwards, 1881, collected in the Gulf of Mexico, the first record of a bopyrid parasitizing any member of the family Acanthephyridae Spence Bate, 1888. Morphological and molecular data are provided to support the inclusion of the new species and 12 other branchial ectoparasites of caridean shrimps in the genus Cryptione Hansen, 1897 that is resurrected herein. Cryptione is sister to the genus Pseudione sensu stricto, ectoparasites of axiid and callianassid shrimps as well as nephropid lobsters. The new species Cryptione grandis can be distinguished from its closest congeners including C. parviramus (Adkison, 1988) from the Gulf of Mexico by several female and male characters. The epicaridium larvae of C. grandis were examined with scanning electron microscopy (SEM), only the second description of this stage for any species in the genus. A table listing all species in Cryptione and taxonomic notes on some species are provided.

Keywords: Bopyrid, Ectoparasite, Epicaridium larva, New species, Pseudioninae

Systematics

Order Isopoda Latreille, 1816

Suborder Epicaridea Latreille, 1825

Superfamily Bopyroidea Rafinesque, 1815

Family Bopyridae Rafinesque, 1815

Subfamily Pseudioninae Codreanu, 1967

Cryptione Hansen, 1897

Cryptione grandis sp. nov. from Notostomus gibbosus
(a–d female holotype (USNM 1716194); e male allotype (USNM 1716195)).
a Lateral view of N. gibbosus with C. grandis sp. nov. extending from right branchial chamber (ventral view of female with larvae in brood chamber shown); b lateral view of N. gibbosus with C. grandis sp. nov. removed and positioned dorsal side up (male attached to posterior pleon, shown with arrow); c female dorsal view; d female ventral view; e male dorsal view.

Scale bars: a–d = 5 mm; e = 1.5 mm

Cryptione grandis sp. nov.

Etymology: The species epithet grandis is Latin for large or great, denoting the size of the female parasite.

Type locality: Northern Gulf of Mexico ...; type host: Notostomus gibbosus.

Jason D. Williams, Amanda P. Horch, Angela Ceballos and Heather Bracken-Grissom. 2024. Resurrection of the parasitic isopod genus Cryptione Hansen, 1897 (Epicaridea: Bopyridae) and Description of A New Species of parasitic isopod (Epicaridea: Bopyridae) from the deep-sea shrimp Notostomus gibbosus (Caridea: Acanthephyridae) with an analysis of its phylogenetic position based on molecular data. Marine Biodiversity. 54, 86. DOI: doi.org/10.1007/s12526-024-01475-z

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2:54a

[Paleontology • 2024] Theropod Dinosaur Diversity of the lower English Wealden: Analysis of a tooth-based fauna from the Wadhurst Clay Formation (Lower Cretaceous: Valanginian) via phylogenetic, discriminant and machine learning methods

An Early Cretaceous floodplain in southeastern England, 135 million years ago:
a spinosaur takes over the carcass of an ornithopod, much to the annoyance of the smaller tyrannosaurs (left) and dromaeosaurids.

in Barker, Handford, Naish, Wills, Hendrickx, ... et Gostling, 2024.

DOI: doi.org/10.1002/spp2.1604

artwork by Anthony Hutchings.

Abstract

The Lower Cretaceous Wealden Supergroup of southern England yields a diverse assemblage of theropod dinosaurs, its taxa being represented by fragments in addition to some of the most informative associated skeletons of the European Mesozoic. Spinosaurids, neovenatorid allosauroids, tyrannosauroids and dromaeosaurids are among reported Wealden Supergroup clades. However, the majority of relevant specimens are from the Barremian Upper Weald Clay and Wessex formations, and theropod diversity in the older Berriasian–Valanginian Hastings Group has remained poorly known, the fragmentary specimens reported thus far remaining enigmatic both in terms of phylogenetic affinities and sometimes provenance. A better understanding would be welcome given the paucity of Berriasian–Valanginian dinosaurs worldwide. Here, we describe an assemblage of Hastings Group theropod teeth from the Valanginian Wadhurst Clay Formation, mostly collected from the Ashdown Brickworks locality near Bexhill, East Sussex. These teeth were assessed using phylogenetic, discriminant and machine learning analyses and were found to include members of Spinosauridae, Tyrannosauroidea and Dromaeosauridae, in addition to others that remain of uncertain affinity within Coelurosauria. The taxa appear distinct from those already known from Wealden Supergroup strata: the spinosaurid cannot be referred to Baryonyx or the tyrannosauroid to Eotyrannus, for example, but we have not named new taxa at this time. Combined with other findings in the Wadhurst Clay Formation, our study indicates that Valanginian theropod diversity was comparable to that of younger Wealden Supergroup units, implying that the ‘characteristic’ theropod components of Wealden faunas were established early in the deposition of this famous geological succession.

Keywords: theropod, Wealden Supergroup, phylogenetics, machine learning, dinosaur, Cretaceous

Theropod teeth from the Wadhurst Clay Formation.
A, BEXHM 1995.485 (morphotype I). B, BEXHM 2002.50.123 (morphotype II). C, BEXHM 2002.50.124 (morphotype III). D, BEXHM 2005.29 (morphotype IV). E, NHMUK PV R37630 (morphotype V).

A, C–E, lingual; B, labial view. Scale bar represents 10 mm.

Schematic representation of the theropod diversity throughout the Wealden Supergroup, with specimens from the Wealden Group (Wessex sub-basin) and the Hastings and Weald Clay groups (Weald sub-basin).

DOI: doi.org/10.1002/spp2.1604

An Early Cretaceous floodplain in southeastern England, 135 million years ago: a spinosaur (centre) takes over the carcass of an ornithopod, much to the annoyance of the smaller tyrannosaurs (left) and dromaeosaurids (bottom right).

artwork by Anthony Hutchings.

Chris T. Barker, Lucy Handford, Darren Naish, Simon Wills, Christophe Hendrickx, Phil Hadland, Dave Brockhurst and Neil J. Gostling. 2024. Theropod Dinosaur Diversity of the lower English Wealden: Analysis of a tooth-based fauna from the Wadhurst Clay Formation (Lower Cretaceous: Valanginian) via phylogenetic, discriminant and machine learning methods. Papers in Palaeontology. DOI: doi.org/10.1002/spp2.1604

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5:31a

[Botany • 2024] Impatiens bungeusing (Balsaminaceae) • A New species from the Northern Gayo Plateau, Sumatra, Indonesia

Impatiens bungeusing Mustaqim & Ruchis.,

in Mustaqim, Arico, Jayanthi, Andini, Pratiwi et Ruchisansakun, 2024.

taiwania.ntu.edu.tw/abstract/2035

facebook.com/TaiwaniaOffice

Abstract

Impatiens is a diverse genus within the Balsaminaceae family, comprising over 1,120 species. The northern Gayo Plateau of Sumatra, an island in Southeast Asia, is renowned for its rich Impatiens diversity. In this paper, we described and illustrated a new species named Impatiens bungeusing from this area. This species is most similar to Impatiens vitellina Grey-Wilson but differs in having the distinct abaxial leaf venation in a dry state (vs obscure), lateral sepals falcate-oblong (vs narrowly lanceolate), lower sepals with U-shaped spur (vs straight), broadly ovate dorsal petal (vs ovate), and ovate sub-rhomboidal upper lateral united petals (vs oblong). This discovery brings the total number of known Impatiens species in Sumatra to forty-eight.

Keyword: Ericales, herbs, Impatiens tapanuliensis, Impatiens vitellina, Malesia, limestone plant, taxonomy, Uniflorae

Morphology of Impatiens bungeusing Mustaqim & Ruchis., sp. nov.
A. Plants in habitat. B. Living plant. C. Inflorescence. D. Flower. E. Lateral sepals. F. Dorsal petals. G. Lateral united petals. H. Lower sepal. I. Pedicel and ovary. J. Fruit.

Scale: A = 4 cm, B = 3 cm, C–D = 1 cm, E = 2 mm, F = 3 mm, G–J = 5 mm. Photographs by Wendy A. Mustaqim.

Morphology of Impatiens bungeusing Mustaqim & Ruchis., sp. nov.
A. Plant. B. Leaves showing petiole. C. Leaves showing apex and margin. D. Inflorescence. E. Flower, frontal view. F. Flower, lateral view. G. Pedicel, lower sepal, stamens, and ovary. H. Lateral sepal. I. Dorsal petal. J. Lateral united petals.

Scale: A = 3 cm, B–D = 5 mm, E–G = 1 cm, H = 3 mm, I–J = 5 mm.

Illustrated by Yuanito Eliazar.

Impatiens bungeusing Mustaqim & Ruchis., sp. nov.

Type: Indonesia. Aceh Province: Aceh Tengah Regency, Jagong Jeget, ..., 2100 m asl, 11 January 2023, Mustaqim 2577 (holotype: LGS; isotype: MEDA).

Diagnosis: Impatiens bungeusing is similar to Impatiens vitellina Grey-Wilson. However, it differs in having the distinct abaxial leaf venation in a dry state (vs obscure), flowers with lower sepal having U-shaped spur (vs straight), broadly ovate dorsal petal (vs ovate), and ovate sub-rhomboidal upper lateral united petals (vs oblong) (Table 1).

Etymology: The specific epithet "bungeusing" is derived from the Gayo language. "Bunge" means flower, and "using" means yellow, reflecting the plant's bright yellow flowers.

Wendy A. Mustaqim, Zulfan Arico, Sri Jayanthi, Wanda R. Andini, Devi Pratiwi and Saroj Ruchisansakun. 2024. Impatiens bungeusing (Balsaminaceae), A New species from the Northern Gayo Plateau, Sumatra, Indonesia. Taiwania. 69(4); 554-559. DOI: 10.6165/tai.2024.69.554 taiwania.ntu.edu.tw/abstract/2035

facebook.com/TaiwaniaOffice/posts/959589396191752

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2:17p

[Botany • 2024] Iris cangshanensis (Iridaceae) • A New Species from southwest China

Iris cangshanensis

in Jiang, Yang, Liu et Xie, 2024.

DOI: doi.org/10.1111/njb.04400

Abstract

A new species of Iris, Iris cangshanensis, was discovered in Cangshan Nature Reserve, Dali City, Yunnan Province, China. Morphologically, I. cangshanensis shares several key features with species in Iris subg. Crossiris, including prominent crests and stout rhizomes, but it is easily distinguished from other Iris species by its unique crest, dark purple spots on the falls, erect standards recurved to the style branches, and slightly fimbriate tips of the style branches. Phylogenetic analysis including 115 related species based on matk/trnk and trnL-F sequences indicates that I. cangshanensis forms a distinct clade, and reveals a strong genetic connection between I. cangshanensis, the Iris tectorum complex and Iris latistyla. Overall, both morphological and phylogenetic evidence strongly support the classification of I. cangshanensis as a newly discovered species. A comprehensive description of this species is provided, including a detailed illustrations and photographs, geographical distribution, habitat and ecology, as well as its IUCN conservation status.

Keywords: Iris cangshanensis, Iris, new species, phylogeny, subgenus Crossiris

Xianfeng Jiang, Ying Yang, Jinfeng Liu and Yanping Xie. 2024. Iris cangshanensis (Iridaceae), A New Species from southwest China. Nordic Journal of Botany. DOI: doi.org/10.1111/njb.04400

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