16Oct 2018

THE EFFECT OF FOOD QUANTITY ON PHYSIOLOGICAL RESPONSES OF THE BEARDED HORSE MUSSEL MODIOLUS BARBATUSAND THE NOAHS ARK SHELL ARCA NOAE.

  • University of Dubrovnik, Institute for Marine and Coastal Research, KnezaDamjana Jude 12, 20000 Dubrovnik, Croatia
  • Ministry of Agriculture of Republic of Croatia, Fisheries Directorate, Vukovarska 2, 20000 Dubrovnik, Croatia
  • RuđerBo?ković Institute, Centre for Marine Research, Giordano Paliaga 5, 52210 Rovinj, Croatia
Crossref Cited-by Linking logo
  • Abstract
  • Keywords
  • References
  • Cite This Article as
  • Corresponding Author

The aim of the work was to investigate oxygen consumption, ammonia excretion, O:N ratio derived from oxygen consumption and ammonia excretion, and the clearance rate of the bearded horse mussel Modiolusbarbatus(Linnaeus, 1758) and the Noah\'s Ark shell ArcanoaeLinnaeus, 1758with regard to different food availability (100%, 50% and starving) during a fifteen day experiment. In this study, food quantity significantly affected ammonia excretion and O:N ratio for both species. Time spent under feeding regime resulted to increasing oxygen consumption and clearance rate values of the bearded horse mussel and the ammonia excretion values and O:N ratios of both species. Clearance rate and ammonia excretion followed a similar increasing trend over time. The consequence of increasing ammonia excretion over time was the concomitant reduction of the O:Nratio.Both species showed high values of clearance rate, an important information when choosing the farming site. Metabolic cost of respiration for starving animals was higher for M. barbatus than for A. noae, which suggests that A. noae would be a better choice for farming in oligotrophic environments.


  1. Albentosa, M., Fern?ndez-Reiriz, M. J., Labarta, U. and P?rez-Camacho, A. (2007): Response of two species of clams, Ruditapesdecussatus and Venerupispullastra, to starvation: physiological and biochemical parameters. Biochem. Physiol. Part B: Biochem. Mol. Biol., 146(2): 241-249. https://doi.org/10.1016/j.cbpb.2006.10.109
  2. Anestis, A., P?rtner, H.O., Lazou, A. and Michaelidis, B. (2008): Metabolic and molecular stress responses of sublittoral bearded horse musselModiolusbarbatusto warming sea water: implications for vertikal zonation. J. Exp. Biol., 211(17): 2889-2898.
  3. Bayne, B. L. (1973a): Aspects of the metabolism of Mytilusedulis during starvation. J. Sea Res.,7: 399-410.https://doi.org/10.1016/0077-7579(73)90061-6
  4. Bayne, B. L. (1973b): Physiological changes in Mytilusedulis induced by temperature and nutritive stress. J. Mar. Biol. Assoc. U. K., 53(1): 39-58. https://doi.org/10.1017/S0025315400056629
  5. Bayne, B.L. and Newell, R.C. (1983): Physiological energetics of marine molluscs. In: Saleuddin ASM, Wilbur KM (eds)The mollusca, Volume 4 Physiology, Part Academic Press, New York. pp. 407-515.
  6. Bayne, B. L. and Scullard, C. (1977a): An apparent specific dynamic action in Mytilusedulis L. J. Mar. Biol. Assoc. U. K., 57(2): 371-378. https://doi.org/10.1017/S0025315400021810
  7. Bayne, B. L. and Scullard, C. (1977b): Rates of nitrogen excretion by species of Mytilus (Bivalvia: Mollusca). Journal J. Mar. Biol. Assoc. U. K.,57(2): 355-369. https://doi.org/10.1017/S0025315400021809
  8. Bayne, B. L. and Thompson, R. J. (1970): Some physiological consequences of keeping Mytilusedulis in the laboratory. Wiss. Meersunters.,20(1): 526-552. https://doi.org/10.1007/BF01609927
  9. Brown, M. R. (1991): The amino-acid and sugar composition of 16 species of microalgae used in mariculture. Exp. Mar. Biol. Ecol.,145(1): 79-99. https://doi.org/10.1016/0022-0981(91)90007-J
  10. Clausen, I. B. and Riisg?rd, H. U. (1996): Growth, filtration and respiration in the mussel Mytilusedulis: no evidence for physiological regulation of the filter-pump to nutritional needs. Ecol. Prog. Ser.,141: 37-45.
  11. Coughlan, J. (1969): The estimation of filtering rate from the clearance of suspensions. Biol.,2(4): 356-358.https://doi.org/10.1007/BF00355716
  12. Dimitriadis, V.K., Gougoula, C., Anestis, A., P?rtner, H.O. and Michaelidis, B. (2012): Monitoring the biochemical and cellular responses of marine bivalves during thermal stress by using biomarkers. Mar. Environ. Res., 73: 70-77.
  13. Ezgeta-Balić, D., Rinaldi, A., Peharda, M., Prusina, I., Montalto, V. Niceta, andSar?, G. (2011): An energy budget for the subtidal bivalve Modiolusbarbatus (Mollusca) at different temperatures. Mar. Environ. Res.,71(1): 79-85. https://doi.org/10.1016/j.marenvres.2010.10.005
  14. Fern?ndez-Reiriz, M. J., Navarro, J. M. and Labarta, U. (2005): Enzymatic and feeding behaviour of Argopectenpurpuratus under variation in salinity and food supply. Biochem. Physiol., Part A: Mol. Integr. Physiol., 141(2): 153-163. https://doi.org/10.1016/j.cbpb.2005.04.020
  15. Gilek, M., Tedengren, M. and Kautsky, N. (1992): Physiological performance and general histology of the blue mussel, Mytilusedulis, from the Baltic and North seas. Neth. J. Sea Res., 30: 11-21. https://doi.org/10.1016/0077-7579(92)90041-C
  16. Glavić, N., Vla?ić, M., Bolotin, J., DupčićRadić, I., Hrustić, E., Antolović, N. and Ko?ul, V. (2018): The Size Driven Variations in Physiological Responses of the Bearded Horse Mussel ModiolusBarbatus and the Noah?s Ark Shell Arcanoae. Turk J Fish Aquat Sci. 18, 1355-1362.https://doi.org/ 10.4194/1303-2712-v18_12_03
  17. Guzm?n-Ag?ero, J. E., Nieves-Soto, M., Hurtado, M. ?., Pi?a-Valdez, P. and del Carmen Garza-Aguirre, M. (2013): Feeding physiology and scope for growth of the oyster Crassostreacorteziensis (Hertlein, 1951) acclimated to different conditions of temperature and salinity. Int.,21(2): 283-297.https://doi.org/10.1007/s10499-012-9550-4
  18. Hawkins, A. J. S., Salkeld, P. N., Bayne, B. L., Gnaiger, E. and Lowe, D. M. (1985): Feeding and resource allocation in the mussel Mytilusedulis: evidence for time-averaged optimization. Ecol. Prog. Ser., 20(3): 273-287.
  19. Hawkins, A. J. S., Magoulas, A., Heral, M., Bougrier, S., Naciri-Graven, Y. Day, A.J. and Kotoulas, G.(2000). Separate effects of triploidy, parentage and genomic diversity upon feeding behaviour, metabolic efficiency and net energy balance in the Pacific oyster Crassostreagigas. Res.,76(3): 273-284.
  20. Ikeda, T. (1977): The effect of laboratory conditions on the extrapolation of experimental measurements to the ecology of marine zooplankton. IV. Changes in respiration and excretion rates of boreal zooplankton species maintained under fed and starved conditions. Biol.,41(3): 241-252. https://doi.org/10.1007/BF00394910
  21. Ivančič, I. and Degobbis, D. (1984): An optimal manual procedure for ammonia analysis in natural waters by the indophenol blue method. Water Res.,18(9): 1143-1147..https://doi.org/10.1016/0043-1354(84)90230-6
  22. Katsikatsou, M., P?rtner, H.O. and Michaelidis, B. (2009): Field study of the molecular and metabolic responses of the bivalve Modiolusbarbatus. Comp. Biochem. Physiol.- Part A,154 (1): S8-S8.
  23. Katsikatsou, M., Anestis, A., P?rtner, H.O. andMichaelidis,B. (2010): Integrated effects of molecular and metabolic stress in Modiolusbarbatus in the field. Biochem. Physiol.- Part A, 157(1): S50-S50.
  24. Katsikatsou, M., Anestis, A., P?rtner, H.O., Kampouris, T. and Michaelidis, B. (2011): Field studies on the relation between the accumulation of heavy metals and metabolic and HSR in the bearded horse mussel Modiolusbarbatus. Comp. Biochem. Physiol. - Part C,153: 133-140.
  25. Katsikatsou, M., Anestis, A., P?rtner, H.O., Vratsistas, A., Aligizaki, K. and Michaelidis,B.(2012): Field studies and projections of climate change effects on the bearded horse mussel Modiolusbarbatus in the Gulf of Thermaikos, Greece. Ecol. Prog. Ser.,449: 183-196.
  26. Khalil, A. M. (1994): Influence of starvation, body size and temperature on ammonia excretion in the marine bivalve Tapes decussatus (L.). Res.,25(8): 839-847.
  27. Me?trov, M. and Po?ar-Domac, A. (1981): BitnasvojstvaekosistemaMalostonskogzaljeva i za?tita. p.370-377. In: Roglić J, Me?trov M (eds). ZbornikradovaSavjetovanja ?Malostonskizaljev. PrirodnaPodloga i Dru?tvenoValoriziranje?. JAZU, ZnanstvenisavjetzaZa?tituPrirode. Dubrovnik.
  28. Navarro, J. M. and Thompson, R. J. (1996): Physiological energetics of the horse mussel Modiolusmodiolus in a cold ocean environment. Ecol. Prog. Ser., 138: 135-148.
  29. Newell, R. C. and Branch, G. M. (1980): The influence of temperature on the maintenance of metabolic energy balance in marine invertebrates. Mar. Biol., 17: 329-396.https://doi.org/10.1016/S0065-2881(08)60304-1
  30. Nieves-Soto, M., Ram?rez, L. F. B., Piсa-Valdez, P., Medina-Jasso, M. A., Miranda-Baeza, Mart?nez-C?rdova, L.R. and L?pez-El?as, J.A.(2013): Combined effect of temperature and food concentration on the filtration and clarification rates and assimilation efficiency of AtrinatuberculosaSowerby, 1835 (Mollusca: Bivalvia) under laboratory conditions. Arch. Biol. Sci., 65(1): 99-106.https://doi.org/10.2298/ABS1301099N
  31. Peharda, M., Mladineo, I. and Kekez, L. (2006): The reproductive cycle and potential protandric development of the Noah\'s Ark shell, Arcanoae: implications for aquaculture. Aquaculture, 252(2), 317-327.
  32. https://doi.org/10.1016/j.aquaculture.2005.07.007
  33. Peharda, M., Ezgeta-Balić, D., Davenport, J. and Vrgoč, N. (2013): The potential for aquaculture of the bearded horse mussel (Modiolusbarbatus) and Noah?s Ark shell (Arcanoae) in southern Croatia. Int.,21(3): 639-653.
  34. https://doi.org/10.1007/s10499-012-9598-1
  35. Rodrigues, L. H. R., Raya-Rodriguez, M. T. and Fontoura, N. F. (2011): Algal density assessed by spectrophotometry: A calibration curve for the unicellular algae Pseudokirchneriellasubcapitata. Environ. Chem. Ecotoxicol., 3(8): 225-228.
  36. Savina, M. and Pouvreau, S.( 2004): A comparative ecophysiological study of two infaunal filter-feeding bivalves: Paphiarhomboıdes and Glycymerisglycymeris. Aquaculture,239(1): 289-306.https://doi.org/10.1016/j.aquaculture.2004.05.029
  37. Sobral, P. and Widdows, J. (1997): Effects of elevated temperatures on the scope for growth and resistance to air exposure of the clam Ruditapesdecussatus (L.), from southern Portugal. Mar.,61: 163-171.
  38. Solorzano, L. (1969): Determination of ammonia in natural waters by the phenolhypochlorite method. Oceanogr., 14(5): 799-801. https://doi.org/10.4319/lo.1969.14.5.0799
  39. Sprung, M. and Rose, U. (1988): Influence of food size and food quantity on the feeding of the mussel Dreissenapolymorpha. Oecologia,77(4): 526-532. https://doi.org/10.1007/BF00377269
  40. Stead, R. A. and Thompson, R. J. (2003): Physiological energetics of the protobranch bivalve Yoldiahyperborea in a cold ocean environment. Polar Biol., 26(2): 71-78.https://doi.org/10.1007/s00300-002-0457-9
  41. Thompson, R.J. and Bayne, B.L. (1974): Some relationships between growth, metabolism and food in the mussel Mytilusedulis. Biol., 27(4): 317-326.
  42. Voultsiadou, E., Koutsoubas, D. and Achparaki, M. (2010): Bivalve mollusc exploitation in Mediterranean coastal communities: an historical approach. Biol.Res.-Thessalon.,13: 35-45.
  43. Widdows, J. (1978): Combined effects of body size, food concentration and season on the physiology of Mytilusedulis. Mar. Biol. Assoc. U. K., 58 (1): 109-124. https://doi.org/10.1017/S0025315400024449
  44. Widdows, J. and Johnson, D. (1988): Physiological energetics of Mytilusedulis: scope for growth. Ecol. Prog. Ser., 46: 113-121.
  45. Widdows, J. and Staff, F. (2006): Biological effects of contaminants: measurement of scope for growth in mussels (No. 40). ICES Tech. Mar. Environ. Sci.,40: 1-30.
  46. Widdows, J., Burns, K. A., Menon, N. R., Page, D. S. and Soria, S. (1990): Measurement of physiological energetics (scope for growth) and chemical contaminants in mussels (Arca zebra) transplanted along a contamination gradient in Bermuda. Exp. Mar. Biol. Ecol.,138 (1-2): 99-117. https://doi.org/10.1016/0022-0981(90)90179-G
  47. ?upan, I., Peharda, M., Dolenec, T., Dolenec, M., Ro?ič, P. ?.,Lojen, S., Egzeta-Balić, D. and Arapov, J.(2014): Aquaculture assessment of Noah\'s ark (Arcanoae Linnaeus, 1758) in the Central Adriatic Sea (Croatia). Shellfish Res.,33(2): 433-441. https://doi.org/10.2983/035.033.0212.

[Niksa Glavic, Matea Vlasic, Enis Hrustic, Jaksa Bolotin and Iris Dupcic Radic. (2018); THE EFFECT OF FOOD QUANTITY ON PHYSIOLOGICAL RESPONSES OF THE BEARDED HORSE MUSSEL MODIOLUS BARBATUSAND THE NOAHS ARK SHELL ARCA NOAE. Int. J. of Adv. Res. 6 (Oct). 987-995] (ISSN 2320-5407). www.journalijar.com


Niksa Glavic
University of Dubrovnik, Institute for marine and coastal research, Dubrovnk, Croatia.

DOI:


Article DOI: 10.21474/IJAR01/7897      
DOI URL: https://dx.doi.org/10.21474/IJAR01/7897