Salinity-induced changes in ammonia excretion rate of the shrimp Crangon crangon over a winter tidal cycle

Regnault, Michèle

doi:10.3354/meps020119

Cited by 28 publications

(19 citation statements)

References 21 publications

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“…The effect of a salinity increase upon nitrogen excretion, however, appears to be more complex as inconsistent responses have been reported (Regnault, 1984). In the present study, exposure of low saline acclimated shrimps to high-saline media resulted in a significant decrease in ammonia excretion rate.…”

Section: Discussionmentioning

confidence: 54%

“…In P. chinensis, Chen and Nan (1993) reported an increase in O:N ratio with an increase in salinity of the environment. In Crangon crangon Linnaeus, an O:N ratio of 27 was reported to be reflective of mostly lipid catabolism (Regnault, 1984). Upon continued stress, the O:N ratio in the above species declined to 10, indicating that only proteins were catabolised.…”

Section: Discussionmentioning

confidence: 99%

“…Similarly, the effect of salinity on the rate of crustacean ammonia excretion has extensively been studied (Regnault, 1984;Taylor et al, 1987;Diwan and Baskaran, 1992;Chen and Chia, 1996). Further, researchers are also looking into the influence of environmental factors, including salinity, on the relationship between oxygen consumed and excreted nitrogen (atomic O:N ratio), as it can provide information on the changes in energy substrate utilization under various environmental regimes (Mayzaud and Conover, 1988).…”

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confidence: 99%

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Effects of Acute Salinity Stress on Oxygen Consumption and Ammonia Excretion Rates of the Marine Shrimp Metapenaeus Monoceros

Pillai

2002

Journal of Crustacean Biology

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however, few studies deal with the energy requirement under different salinity regimes (Cheng and Fang, 1986;Guerin and Stickle, 1992). Similarly, the effect of salinity on the rate of crustacean ammonia excretion has extensively been studied (Regnault, 1984;Taylor et al., 1987;Diwan and Baskaran, 1992;Chen and Chia, 1996). Further, researchers are also looking into the influence of environmental factors, including salinity, on the relationship between oxygen consumed and excreted nitrogen (atomic O:N ratio), as it can provide information on the changes in energy substrate utilization under various environmental regimes (Mayzaud and Conover, 1988).The present study was carried out with the objective of understanding the metabolic responses of M. monoceros, a candidate species for aquaculture, in response to abrupt salinity changes in the medium. Variations in metabolic response (measured as oxygen conMetapenaeus monoceros, a tropical penaeid with wide distribution in the Indo-Pacific region is considered a candidate species for aquaculture. Although it is a smaller species when compared to tiger shrimp Penaeus monodon (Fabricius), it nevertheless has several good attributes for aquaculture such as tolerance to a wide range of salinities, resistance to handling and transportation stress, and good market acceptability. These shrimps, like other penaeids, have an estuarine phase in their life cycle and thus get exposed to wide fluctuations in salinity. Because salinity is an important environmental variable that has significant influence on the energy budget of estuarine and marine animals, knowledge of the energy requirement of the animal under different salinity regimes will be useful to aquaculturists in formulating improved culture practices for maximizing growth and returns.A great deal of research has been carried out to study the effect of salinity on the metabolic rate of crustaceans (Rao, 1958 in) A B S T R A C TThe present investigation was undertaken to study the effect of an abrupt change in the salinity of the medium on the oxygen consumption and ammonia-N excretion of the marine penaeid shrimp Metapenaeus monoceros (Fabricius). Results showed that in both low-saline (5‰) as well as highsaline (35‰) acclimated shrimps the respiratory rates were significantly lower in midrange salinities (20‰ and 25‰) and significantly higher in both low (5‰, 10‰, and 15‰) and high (30‰ and 35‰) salinities. A significant increase in ammonia-N excretion was observed when high-saline acclimated shrimps were abruptly exposed to different grades of low-saline media. Exposure to different grades of high-saline media on the other hand induced a significant decrease in ammonia excretion rate of low-saline acclimated shrimps. The O:N ratio (ratio of oxygen consumed to nitrogen excreted in atomic equivalents) showed a decreasing trend when the high-saline acclimated shrimps were abruptly exposed to low-saline media, indicating a shift towards protein dominated metabolism. A reverse trend could be observed in the O:N ratio when ...

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Section: Discussionmentioning

confidence: 54%

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

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Effects of Acute Salinity Stress on Oxygen Consumption and Ammonia Excretion Rates of the Marine Shrimp Metapenaeus Monoceros

Pillai

2002

Journal of Crustacean Biology

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“…Al disminuir la salinidad de 35 a 24o/oo, la respuesta obtenida para C. similis fue un incremento en la tasa de excreción de amonio, resultado que ya ha sido reportado para varias especies de crustáceos eurihalinos como Ca&rus maenas (Needham, 1957) Callinectes sapidus (Mangum et al, 1976;Pressley et al, 1981) Cmngon crangon (Regnault, 1984) y 1981) Cmngon crungon (Regnault, 1984) and Palaemon elegans (Taylor et al, 1987). When salinity decreases, the increase in ammonia excretion can be attributed to the active uptake of sodium required by the animals to compensate for the loss in hypotonic media, as mentioned by Mangum et al (1976) and Pressley et al (1981).…”

Section: Discussionunclassified

Oxygen consumption, ammonia excretion and osmoregulation of callinectes similis Juveniles (Crustacea: Portunidae) exposed to fluctuating salinities

Díaz-Herrera

Pérez-Cruz²,

Luna-Figueroa³

et al. 1992

Cienc. Mar.

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Recibido en septiembre de 1991; aceptado en diciembre de 1991 RESUMEN El consumo de oxigeno de Callinectes similis sometido a fluctuaciones de salinidad no se modificó significativamente (P > 0.05) y se mantuvo en un intervalo metabólico de 1.23 a 2.08 mg 02.h-l.g-1P.S. que correspondió al tipo de respuesta IV propuesta por Kinne (1971). La tasa de excreción de amonio aumentó significativamente a 0.028 mg N-NHb.h-1.g'lP.S. (P < 0.05) al disminuir la salinidad de 35 a 26o/oo; en el intervalo de salinidad de 1&12-18o/oo se mantuvo constante en 0.021 mg N-NI%,.h'l.g-1P.S.Al incrementar la salinidad a 26o/oo el valor fue de 0.029 mg N-NI-Ib.h-l.g-lP.S., y el núnirno de 0.012 mg N-NI-Ih.h-l.g-1P.S. se obtuvo en 35o/oo. La relación atómica 0:N calculada para C. simifis demostró que las jaibas no fueron afectadas de manera significativa (P > 0.05) por el estrés osmótico al que fueron sometidas, ya que en las salinidades altas catabolizaron carbohidratos y en las bajas utilizaron como los principales sustratos energéticos una mezcla de lipidos y carbohidratos.El patrón de osmorregulación de C. similis fue el típico de un organismo osmoconformador debido a que el medio interno en las salinidades altas se mantuvo ligeramente hiperosmótico e isosmótico en las bajas. 93http://dx.doi.org/10.7773/cm.v18i3.901Ciencias Matinas, Vol. 18, No. 3, 1992 ABSTRACT The oxygen consumption of Callinectes similis was determined under salinity fluctuations. The metabolic rate remained unchanged (P > 0.05) and within a metabolic range of 1

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“…Salinity tolerance is temperature and age dependent, but generally brown shrimp are found at salinities between 7 and 40 PSU (McLusky et al 1982). In spring tide periods, shrimp are exposed to tidal salinity fluctuations ranging from 25 to 25 PSU in summer and from 14 to 34 PSU in winter (Regnault 1984). Egg development can occur at salinities >15 PSU, (Broekema 1942) and temperatures between 6 and 21°C (Wear 1974).…”

Section: Opposing Trends In the Dutch Wadden Sea: Possible Mechanismsmentioning

confidence: 99%

Brown shrimp abundance in northwest European coastal waters from 1970 to 2010 and potential causes for contrasting trends

Tulp¹,

Bolle²,

Meesters³

et al. 2012

Mar. Ecol. Prog. Ser.

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We investigated long-term trends in abundance of the NE Atlantic population of brown shrimp Crangon crangon based on data collected in annual autumn surveys carried out along the coasts of the North Sea in The Netherlands, Germany and Denmark. Surveys covered some estuaries and intertidal areas, as well as shrimp fishery grounds. The 40 yr period showed distinct regional trend differences, but only in estuarine areas: the Western Dutch Wadden Sea (increase), the Eastern Dutch Wadden Sea (decrease) and the Oosterschelde (decrease). The decrease in the Oosterschelde coincided with the closure of this sea arm from fresh water inflow. Increases in the Western and Eastern Dutch Wadden Sea were driven primarily by increased abundance of small shrimp, suggesting that the causative mechanism likely affected younger shrimp. Trends in potential causes were examined in the 2 regions. Of all abiotic factors investigated, only water clarity decreased significantly in the west but not in the east. Mean abundance of potential predators (cod, whiting, shore crab and swimming crab) was used as an indicator of predation pressure. Shore crab showed similar increases in both areas. In the other 3 species, predator abundance in the east was generally initially higher than in the west, but declined towards similar densities in recent years. Shrimp fishing pressure in NW Europe has increased strongly since the 1990s. Preliminary, spatially resolved logbook data show that shrimp landings from the Western Wadden Sea followed this increase, but those from the Eastern Wadden Sea remained stable. Apart from mechanisms related to fishing pressure and water clarity, a candidate cause of differences in abundance may be differences in food condition or competition for food. Generally biomass of benthos, a primary food for shrimp, increased in the west and remained stable in the east. However, because brown shrimp are omnivorous, quantification of changing fractions of food available to them is difficult.

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Salinity-induced changes in ammonia excretion rate of the shrimp Crangon crangon over a winter tidal cycle

Cited by 28 publications

References 21 publications

Effects of Acute Salinity Stress on Oxygen Consumption and Ammonia Excretion Rates of the Marine Shrimp Metapenaeus Monoceros

Effects of Acute Salinity Stress on Oxygen Consumption and Ammonia Excretion Rates of the Marine Shrimp Metapenaeus Monoceros

Oxygen consumption, ammonia excretion and osmoregulation of callinectes similis Juveniles (Crustacea: Portunidae) exposed to fluctuating salinities

Brown shrimp abundance in northwest European coastal waters from 1970 to 2010 and potential causes for contrasting trends

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