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Ultrastructure of the ‘onion bodies’ of the sensory pore X-organ ofParatya tasmaniensis Reik (Crustacea, Decapoda) (1970)

Lake, P. S. ; Ong, J. E.

Springer

Cellular and molecular life sciences 26 (1970), S. 1129-1130

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ISSN: 1420-9071

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Résumé Nous avons étudié l'ultrastructure des «corps en bulbe d'oignon» dans l'organe-X du pore sensoriel ou l'organe de Bellonci de la crevetteParatya tasmaniensis. L'ultrastructure des «corps en bulbe d'oignon» consistent en éléments tabulaires, que nous supposons Être du réticulum endoplasmique agranulaire, orienté dans deux directions. Dans les éléments tubulaires se trouvent des structures semblables aux lysosomes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02112717

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Intratidal fluctuations in stratification within a mangrove estuary (1992)

Uncles, R. J. ; Gong, W.-K. ; Ong, J.-E.

Springer

Hydrobiologia 247 (1992), S. 163-171

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ISSN: 1573-5117

Keywords: mangrove estuary ; salt transport ; estuarine stratification ; dispersion ; vertical shear transport

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The dependence of salinity stratification on the vertical structure of the longitudinal salinity gradient is investigated by solving the equations of longitudinal momentum and salt conservation. The results are used to interpret measurements made throughout 31 tidal cycles in the Merbok Estuary, Malaysia, as part of an ecological study of a tropical mangrove estuary. The solutions show that a substantial part of the salinity stratification was caused by vertical shear in the currents coupled with advection of the longitudinal salinity gradient. This mechanism led to maximum stratification around low water and minimum stratification around high water. Observed intratidal variations in stratification at neap tides greatly exceeded modelled values when a depth-independent, longitudinal salinity gradient was assumed. Simulations made using a longitudinal salinity gradient of simple depth-dependent, power-law form implied that this difference arose mainly because the near-surface, longitudinal salinity gradient in the field was significantly larger than that near the bed during neap tides and at times of high run-off. The longitudinal, dispersive transport of salt, fresh water and solutes due to vertical shear is shown to be important during periods of stratification at neap tides and during high run-off. The relevance of stratification to mangrove estuaries is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00008215

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The fine structure of the mandibular sensory receptors in the brackish water calanoid copepod Gladioferens pectinatus (Brady) (1969)

Ong, J. E.

Springer

Cell & tissue research 97 (1969), S. 178-195

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ISSN: 1432-0878

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Two types of sensory neurones are located in the mandibles, antennae, labrum, labium and maxillipeds of the brackish water calanoid copepod Gladioferens pectinatus: a ciliary type and a nonciliary type. These occur either separately in different sensilla or sometimes both are present in the same sensillum. These sensilla appear to be similar to the mechanoreceptors and chemoreceptors found in insects. The structure of the sensilla is described here and they are briefly compared with the sensory receptors of other arthropods. It is suggested that the sensilla in the mandibles and the labrum aid the animal in selective filter feeding.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00344756

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The ultrastructure of the fenestra dorsalis of the syncarid crustaceans Allanaspides helonomus and Allanaspides hickmani (1974)

Lake, P. S. ; Swain, R. ; Ong, J. E.

Springer

Cell & tissue research 147 (1974), S. 335-351

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ISSN: 1432-0878

Keywords: Fenestra dorsalis ; Allanaspides ; Syncarida ; Ion transport ; Ultrastructure

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The genus Allanaspides (Crustacea, Syncarida) is characterised by a conspicuous modification of the cephalo-thoracic tergite, the fenestra dorsalis. The ultrastructure of the fenestra dorsalis was examined in both known species of Allanaspides. The organ is separated from surrounding tissue by a clearly demarcated transition zone in which the cuticle thickens and looses its normal laminated structure. In the cells of the fenestra dorsalis, three regions may be distinguished. The apical region has an abundance of long invaginations, often packed closely together. The invaginations possess numerous microtubules plus numerous mitochondria whose membranes are closely associated with the invaginated membranes. Both microtubules and mitochondria are aligned in the same direction as the invaginations. The middle region of the cells contains many intracellular vacuoles in Allanaspides hickmani whilst in Allanaspides helonomus the same region contains extensive extracellular spaces. The basal region of the cells is marked by deep infoldings and an abundance of mitochondria. Microtubules are common and these, together with the mitochondria, are aligned along the direction of the infoldings. Adjacent cells are linked by frequent septate junctions. The fine structure of fenestra dorsalis tissue indicates an active participation in ion and/or water movement. However, in contrast to other crustacean tissues known to be involved in this function, it is postulated that the fenestra dorsalis of Allanaspides provides a two-stage transport system, in which “mitochondrial pumps” are present on both the inner and outer cell surfaces.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00307469

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