Exoskeletal cuticle differentiation during intramarsupial development of Porcellio scaber (Crustacea: Isopoda)

“…The apical membrane protrusions in some regions suggest the secretion of the procuticle components. In this stage the procuticle in the hindgut is not sublayered as it is in fully formed cuticle, while the exoskeletal cuticle already displays ultrastructure similar to that in adults (Mrak et al 2014). As an electron dense lamina apposed to the apical membrane of the hindgut cells was observed in the preceding developmental stage – stage 18 embryo – we consider this the first epicuticle formation.…”

“…The apical matrix secreted by hindgut cells in late embryos of stages 16 and 18 consists of loose material overlaid by an intensely ruffled electron dense lamina and thus resembles the epidermal precuticular matrix that is formed prior to exoskeletal cuticle during embryonic development (Mrak et al 2014). Thickness of this hindgut matrix is in the same range as that of the epidermal precuticular matrix.…”

“…A cuticular matrix with the general characteristics of crustacean exoskeletal cuticle is formed in the last stages of embryonic development. The new cuticle formation in the subsequent marsupial manca stages and the renewal of the exoskeleton in late-stage marsupial mancae have been described by Mrak et al (2012, 2014). Larvae, termed postmarsupial mancae, are released from the marsupium and develop in the external environment until the juvenile stage (Tomescu and Craciun 1987, Brum and Araujo 2007, Montesanto et al 2012).…”

“…Several early ultrastructural studies, probing embryonic surface matrices, were made in branchiopods, isopods and decapods (Morris and Afzelius 1967, Goudeau 1976, Goudeau and Lachaise 1983, Glas et al 1997). Recent studies, focusing primarily on the ultrastructural aspect of exoskeletal cuticle differentiation during embryonic development, refer mostly to the insect cuticle (Konopova and Zrzavy 2005, Moussian et al 2006, Moussian 2010), and were performed also in the aquatic amphipod Parhyale hawaiensis (Havemann et al 2008) and in Porcellio scaber (Mrak et al 2014). As revealed in both these studies, the early extracellular matrix of epidermal cells appears as a thin delicate sheet of material.…”

Formation of the hindgut cuticular lining during embryonic development of Porcellio scaber (Crustacea, Isopoda)

“…The apical membrane protrusions in some regions suggest the secretion of the procuticle components. In this stage the procuticle in the hindgut is not sublayered as it is in fully formed cuticle, while the exoskeletal cuticle already displays ultrastructure similar to that in adults (Mrak et al 2014). As an electron dense lamina apposed to the apical membrane of the hindgut cells was observed in the preceding developmental stage – stage 18 embryo – we consider this the first epicuticle formation.…”

“…The apical matrix secreted by hindgut cells in late embryos of stages 16 and 18 consists of loose material overlaid by an intensely ruffled electron dense lamina and thus resembles the epidermal precuticular matrix that is formed prior to exoskeletal cuticle during embryonic development (Mrak et al 2014). Thickness of this hindgut matrix is in the same range as that of the epidermal precuticular matrix.…”

“…A cuticular matrix with the general characteristics of crustacean exoskeletal cuticle is formed in the last stages of embryonic development. The new cuticle formation in the subsequent marsupial manca stages and the renewal of the exoskeleton in late-stage marsupial mancae have been described by Mrak et al (2012, 2014). Larvae, termed postmarsupial mancae, are released from the marsupium and develop in the external environment until the juvenile stage (Tomescu and Craciun 1987, Brum and Araujo 2007, Montesanto et al 2012).…”

“…Several early ultrastructural studies, probing embryonic surface matrices, were made in branchiopods, isopods and decapods (Morris and Afzelius 1967, Goudeau 1976, Goudeau and Lachaise 1983, Glas et al 1997). Recent studies, focusing primarily on the ultrastructural aspect of exoskeletal cuticle differentiation during embryonic development, refer mostly to the insect cuticle (Konopova and Zrzavy 2005, Moussian et al 2006, Moussian 2010), and were performed also in the aquatic amphipod Parhyale hawaiensis (Havemann et al 2008) and in Porcellio scaber (Mrak et al 2014). As revealed in both these studies, the early extracellular matrix of epidermal cells appears as a thin delicate sheet of material.…”

Formation of the hindgut cuticular lining during embryonic development of Porcellio scaber (Crustacea, Isopoda)

“…Because the same hatchling size was attained, we infer that processes that govern completion of intramarsupial development might be differentially affected by oxygen availability during the two marsupial phases; any effect during the aquatic phase may be compensated for during the gaseous phase. At present, we can only speculate about potential constraints leading to the ratio between the two phases, such as growth and development of the digestive system, cuticular protuberances or the tubular heart (Milatovičet al, 2010;Mrak et al, 2014;Štrus et al, 2008;Wolff, 2009). …”

An evolutionary solution of terrestrial isopods to cope with low atmospheric oxygen levels

Exoskeletal cuticle of cavernicolous and epigean terrestrial isopods: A review and perspectives