Results 11 to 20 of about 132 (116)

ESPERMATOGÊNESE EM Callichirus major (CRUSTACEA: AXIIDEA)

Revista UniVap, 2017
Callichirus major pertence à ordem Decapoda e família Callianassidae, sendo uma espécie que habita a região interdial de ecossistemas praianos, sendo amplamente capturada para utilização como isca viva para pesca.
Tugstênio Lima Souza, Adriane Araujo Braga, Erika Takagi Nunes   +2 more
doaj   +3 more sources

HISTOLOGIA E HISTOQUÍMICA DO DESENVOLVIMENTO OVOCITÁRIO DE Callichirus major (CRUSTACEA: AXIIDEA)

Revista UniVap, 2017
Callichirus major, conhecido popularmente como “corrupto”, é uma espécie animal de grande importância na indústria da pesca, por ser utilizado como isca viva.
Tugstênio Lima Souza, Adriane Araujo Braga, Erika Takagi Nunes   +2 more
doaj   +3 more sources

ASPECTOS MORFO-HISTOQUÍMICOS DO VASO DEFERENTE DE Callichirus major (CRUSTACEA: AXIIDEA)

Revista UniVap, 2017
Callichirus major é um decápode encontrado na região entre-marés de ambientes costeiros, em especial praias com areia de baixa granulometria. Esta espécie tem sido amplamente explorada para ser usada como isca viva para pesca.
Tugstênio Lima Souza, Adriane Araujo Braga, Erika Takagi Nunes   +2 more
doaj   +3 more sources

Host specificity and microhabitat preference of symbiotic copepods (Cyclopoida: Clausiididae) associated with ghost shrimps (Decapoda: Callichiridae, Callianideidae). [PDF]

Ecol Evol, 2020
We examined the host specificity of two ectosymbiotic Clausidium copepods on two sympatric species of host ghost shrimps. Our results revealed that both species of symbiotic copepod demonstrated extremely high host specificity. Abstract We examined the host specificity of two ectosymbiotic Clausidium Kossman, 1874 copepods (Cyclopoida: Clausiididae) on
Sepahvand V, Brown BL, Gholamifard A.
europepmc   +2 more sources

On the occurrence of <i>Ctenocheles</i> (Decapoda, Axiidea, Ctenochelidae) in the Bohemian Cretaceous Basin. [PDF]

Bull Geosci, 2014
Because of close morphological affinities, fossil cheliped fragments of the ghost shrimp Ctenocheles (Decapoda, Axiidea, Ctenochelidae) can be easily misidentified as remains of different decapod crustacean taxa. Re-examination of the Cretaceous decapods deposited in the National Museum in Prague revealed that all supposed specimens of the lobster ...
Hyžný M, Veselská MK, Dvořák P.
europepmc   +4 more sources

New Early Cenozoic ghost shrimps (Decapoda, Axiidea, Callianassidae) from Pakistan and their palaeobiogeographic implications. [PDF]

Geodiversitas, 2016
A new set of Paleocene and Eocene decapod crustaceans is described from the Kirthar Range of Pakistan. Two new ghost shrimps (Crustacea, Decapoda, Callianassidae) are described: Neocallichirus khadroensis Hyžný & Charbonnier, n. sp. from the Paleocene (Danian, Khadro Formation) of Gawar Band, Ranikot District, and Neocallichirus lakhraensis Hyžný ...
Hyžný M, Charbonnier S, Merle D, Lashari RA, Bartolini A, Mètais G.   +5 more
europepmc   +5 more sources

Caribbean species of Eiconaxius (Decapoda: Axiidea: Axiidae)  [PDF]

Zootaxa, 2018
The type status of specimens of three species of the axiid genus Eiconaxius Bate, 1888 from the Caribbean Sea is clarified. Eiconaxius agassizi Bouvier, 1905, E. borradailei Bouvier, 1905 and E. caribbaeus (Faxon, 1896) are diagnosed and illustrated.
Vahid, Sepahvand, Christopher, Tudge, Farzaneh, Momtazi   +2 more
openaire   +4 more sources

The oldest dairoidid crab (Decapoda, Brachyura, Parthenopoidea) from the Eocene of Spain

Papers in Palaeontology, Volume 9, Issue 3, May/June 2023., 2023
Abstract Eubrachyurans, or ‘higher’ true crabs, are the most speciose group of decapod crustaceans and have a rich fossil record extending into the Early Cretaceous. However, most extant families are first found in the fossil record in the Palaeogene, and particularly in the Eocene.
Fernando A. Ferratges, Javier Luque, José Luis Domínguez, Àlex Ossó, Marcos Aurell, Samuel Zamora   +5 more
wiley   +1 more source

Applicability of the source–sink population concept to marine intertidal macro‐invertebrates with planktonic larval stages

Ecological Research, Volume 38, Issue 1, Page 4-41, January 2023., 2023
It is generally believed that local populations of marine benthic macro‐invertebrates with planktonic larvae are in source–sink relationships via larval dispersal in a given regional population. Numerical simulations abound for connectivity through larvae among local/regional populations, but few empirical studies have taken local population dynamics ...
Akio Tamaki
wiley   +1 more source

The Eiconaxius cristagalli species complex (Decapoda, Axiidea, Axiidae) [PDF]

Memoirs of Museum Victoria, 2018
Four species of Eiconaxius are known to possess a denticulate median rostral carina: E. antillensis Bouvier, 1905, E. asper Rathbun, 1906, E. cristagalli Faxon, 1893, and E. indicus (De Man, 1907). They are reviewed and two similar new species are described: E. dongshaensis sp. nov., and E. gololobovi sp. nov. A key to distinguish them is presented.
Gary C. B. Poore, Peter C. Dworschak
openaire   +2 more sources