- A -

Abele-Oeschger, D., Szaniawska, A., Theede, H., 1992. Do pigments reflect the turnover of plant material in food chain studies? Analysis of plant pigments in the intestine of Saduria (Mesidotea) entomon. Mar. Ecol. Prog. Ser. 81: 43-49.

Adcock, J.A., 1982. Energetics of a population of Asellus aquaticus (Crustacea, Isopoda): respiration and energy budgets. Freshw. Biol. 12: 257-269.

Allen, K.R., 1950. The computation of production in fish populations. New Zealand Sci. Rev. 8: 89.

Allen, K.R., 1971. Relation between production and biomass. J. Fish. Res. Bd. Canada 28: 1537-1581.

Ansell, A.D., 1968. The rate of growth if the heart clam Mercenaria mercenaria (L) throughout the geographical rate. J. Cons. Perm. Int. Explor. Mer 31: 364-409.

Appeldoorn, R.S., 1987. Modification of a seasonally oscillating growth function for use with mark-recapture data. J. Cons. int. Explor. Mer 43: 194-198.

Arntz, W.E., 1973. Periodicity of diel food intake of cod Gadus morhua in the Kiel Bay. Oikos Supl. 15: 138-145.


- B -

Baker, T.T., Lafferty, R. & Quinn, II, T.J., 1991. A general growth model for mark-recapture data. Fish. Res. 11:257-281.

Benke, A.C., 1979. A modification of the Hynes method for estimating secondary production with particular significance for multivoltine populations. Limnol. Oceanogr. 24: 168-171.

Benson, B.B., Krause, D., 1984. The concentration and isotopic fractionation of oxygen dissolved in freshwater and seawater in equilibrium with the atmpsphere. Limnology and Oceanography 29: 620-632.

Bhattacharya, C.G., 1967. A simple method of resolution of a distribution into gaussian components. Biometrics 23: 115-135.

Bianchi, T.S., Findlay, S., 1990. Plant pigments as tracers of emergent and submergentmacrophytes from the Hudson River. Ca. J. Fish. Aquat. Sci. 47: 492-494.

Blanchard, G.F., Guarini, J.-M., Provot, L., Richard, P., Sauriau, P.-G., 2000. Measurement of ingestion rate of Hydrobia ulvae (Pennant) on intertidal epipelic microalgae: the effect of mud snail density. J. Exp. Mar. Biol. Ecol. 255: 247-260.

Bluhm, B.A., Brey, T., 2001. Age determination in the Antarctic shrimp Notocrangon antarcticus (Pfeffer, 1887) (Crustacea: Decapoda) unsing the autofluorescent pigment lipofuscin. Marine Biology 138: 247-257.

Bluhm, B.A., Brey, T., Klages, M., 2001. The autofluorescent age pigment lipofuscin: key to age, growth and productivity of the Antarctic amphipod Waldeckia obesa (Chevreux, 1905). Journal of Experimental Marine Biology and Ecology 258: 215-235.

Breen, P.A. & Fournier, D.A., 1984. A user´s guide to estimating mortality rates from length frequency data with the method of Fournier and Breen. Can. Tech. Rep. Fish. Aquat. Sci. 1239, 63p.

Brey, T., 1986. Estimation of annual P/B-ratio and production of marine benthic invertebrates from length-frequency data. Ophelia Suppl. 4: 45-54.

Brey, T., 1990a. Confidence limits for secondary production estimates: application of the bootstrap to the increment summation method. Mar. Biol. 106: 503-508.

Brey, T., 1990b. Estimating productivity of macrobenthic invertebrates from biomass and mean individual weight. Meeresforsch. 32: 329-343.

Brey, T. 1991. Population dynamics of Sterechinus antarcticus (Echinodermata: Echinoidea) on the Weddell Sea shelf and slope, Antarctica. Antarctic Science 3: 251-256.

Brey, T., 1999a. Growth performance and mortality in aquatic benthic invertebrates. Advances in Marine Biology 35: 153-223.

Brey, T., 1999b. A collection of empirical relations for use in ecological modelling. NAGA The ICLARM Quarterly 22(3): 24-28.

Brey, T., Arntz, W.E., Pauly, D. & Rumohr, H., 1990. Arctica (Cyprina) islandica in Kiel Bay (Western Baltic): Growth, production and ecological significance. J. Exp. Mar. Biol. Ecol. 136: 217-235.

Brey, T., Gerdes, D., Gutt, J., Mackensen, A., Starmans, A., 1999. Growth and age of the Antarctic bryozoan Cellaria incula on the Weddell Sea shelf. Antarctic Science 11: 408-414.

Brey,T., Hain, S., 1992. Growth, reproduction and production of Lissarca notorcadensis (Bivalvia: Philobryidae) on the Weddell Sea shelf, Antarctica. Marine Ecology Progress Series 82: 219-226.

Brey, T., Jarre-Teichmann, A. & Borlich, O., 1996. Artificial neural network versus multiple linear regression: predicting P/B ratios from empirical data. Mar. Ecol. prog. Ser. 140: 251-256.

Brey, T., Mackensen, A., 1997. Stable isotopes prove shell growth bands in the Antarctic bivalve Laternula elliptica to be formed annually. Polar Biology 17: 465-468.

Brey, T., Pauly, D., 1986. Electronic length frequency analysis. A revised and expanded user's guide to ELEFAN 0, 1 and 2. Berichte aus dem Institut für Meeres-kunde Kiel, No 149, 76p.

Brey, T., Pearse, J., Bosch, L., McClintock, J., 1995. Growth and production of Sterechinus neumayeri (Echinoidea: Echinodermata) in McMurdo Sound, Antarctica. Mar. Biol. 124: 279-292.

Brey, T., Rumohr, H., Ankar, S., 1988. Energy content of macrobenthic invertebrates: general conversion factors from weight to energy. J. Exp. Mar. Biol. Ecol. 117: 271-278.

Brey, T., Soriano, M., Pauly, D., 1988. Electronic length frequency analysis. A revised and expanded user's guide to ELEFAN 0, 1 and 2. (Second edition). Berichte aus dem Institut für Meereskunde Kiel, No 177, 31p.

Brody, S. 1945. Bioenergetics and Growth. Reinhold, New York.

Brown, J.H., Gillooy, J.F., Allen, A.P., Savage, V.M., West, G.B., 2004. Toward a metabolic theory of ecology. Ecology 85: 1771-1789.

Brun, E., 1972. Food and feeding habits of Luidia ciliaris Echinodermata: Asteroidea. J. Mar. Biol. Ass. U.K. 52: 225-236.

Buchanan, J.B. & Warwick, R.M., 1974. An estimate of benthic macrofaunal production in the offshore mud of the Northumberland coast. J. Mar. Biol. Ass. U.K. 54: 197-222.

Burke, M.V. & Mann, K.H., 1974. Productivity and production biomass ratios of the bivalve and gastropod populations in an eastern Canadian Estuary. J. Fish. Res. Bd. Canada 31: 167-177.

Burrow, M.T., Hughes, R.N., 1990. Variation in growth and consumption among individuals and populations of dogwhelks, Nucella lapillus: A link between foraging behaviour and fitness. J. Anim. Ecol. 59: 723-742.

Butman, C.A, 1987. Larval settlement of soft-sediment invertebrates: The spatial scales of pattern explained by active habitat selection and the emerging role of hydrodynamical processes. Oceanogr. Mar. Biol. Ann. Rev. 25: 113-165.

- C -

Cadée, G.C., 1976. Sediment reworking by Arenicola marina on tidal flats in the Dutch Wadden Sea.

Calow, P. & Fletcher, C.R., 1972. A new radiotracer technique involving 14C and 51Cr, for estimating the assimilation efficiencies of aquatic, primary consumers. Oecologia 9: 155-170.

Cammen, L.M., 1980. The significance of microbial carbon in the nutrition of the deposit feeding polychaete Nereis succinea. Mar. Biol. 61: 9-20.

Cammen, L.M., 1980b. Ingestion rate: an empirical model for aquatic deposit feeders and detritovores. Oecologia 44: 303-310.

Chien, Y.-H., 1987. Bias in estimating growth parameters using Faben´s mark-recapture procedure. Asian Fish. Sci. 1: 65-74.

Clarke, A., 1987. Temperature, lattitude and reproductive effort. Mar. Ecol. Prog. Ser. 38: 89-99.

Clasing, E., Brey, T., Stead, R., Navarro, J., Ascenio, G., 1994. Population dynamics of Venus antiqua (Bivalvia: Veneracea) in the Bahía de Yaldad, Isla de Chiloé, Southern Chile. J. Exp. Mar. Bio. Ecol. 177: 171-176.

Connor, M.S., Edgar, R.K., 1982. Selective grazing by the mud snail Ilyanassa obsoleta. Oecologia 53: 271-275.

Conover, R.J., 1966. Assimilation of organic matter by zooplankton. Limn. Oceanogr. 11: 338-354.

Collie, J.S., 1985. Life history and production of three amphipod species on Georges Bank. Mar. Ecol. Prog. Ser. 22: 229-238.

Craig JF, Kenley MJ, Talling JF, 1978. Comparative estimations of the energy content of fish tissue from bomb calorimetry, wet oxidation and proximate analysis. Freshwater Biology 8: 585-590.

Cranford, P.J., 1999. Seasonal variation in food utilization by sea scallops and blue mussels. J. Shellfish. Res. 18 (1).

Crisp, D.J., 1984. Energy flow measurement. In: N.A. Holme & A.D. McIntyre (eds) Methods for the study of marine benthos. IBP Handbook No 16, 2nd edition, Blackwell, Oxford, pp. 284-372.

Cushman, R.M., Shugart, H.H., Hildebrandt, S.G. & Elwood, J.W., 1978. The effect of growth curve and sampling regime on instantaneous-growth, removal-summation, and Hynes/Hamilton estimates of aquatic insect production: A computer simulation. Limnol. Oceanogr. 23: 184-189.

Cusson, M., Bourget, E., 2005. Global patterns of macroinvertebrate production in marine benthic habitats. Mar. Ecol. Prog. Ser. 297: 1-14.

- D -

Dahm, C., 1996.Ecology and population dynamics of Antarctic ophiuroids (Echinodermata). Berichte zur Polarforsch. / Reports on Polar Res. 194: 289pp (in German).

Dauvin, J.-C., 1989. Life cycle, dynamics and productivity of Crustacea-Amphipoda from the western English Channel. 5. Ampelisca sarsi Chevreux. J. Exp. Mar. Biol. Ecol. 128: 31-56.

Dauvin, J.-C., Joncourt, M., 1989. Energy values of marine benthic invertebrates from the western English Channel. J. Mar. Biol. Ass. U.K. 69: 589-595.

Davis, J.P. & Wilson, J.G., 1983. Seasonal changes in tissue weight and biochemical composition of the bivalve Nucula turgida in Dublin Bay with reference to gametogenesis. Netherlands J. Sea Res. 17: 84-95

Dearborn, J.H., Ferrari, F.D., Edwards, K.C., 1986. Can pelgic aggregations cause benthic satiation? Feeding biology of the Antarctic brittle star Astrotoma agassizii (Echinodermata: Ophiuroidea). Ant. Res. Ser. 44 (Biology of the Antarctic Seas XVII): 1-28.

Doering, P.H., Oviatt, C.A., 1986. Application of filtration rate models to field populations of bivalves: an assessment using experimental mesocosms. Mar. Ecol. Prog. Ser. 31: 265-275.

Dolbeth, M., Lillebø, A.I., Cardoso, P.G., Ferreira, S.M., Pardal, M.A., 2005. Annual production of estuarine fauna in different environmental conditions: An evaluation of the estimation methods. J. Exp. Mar. Biol. Ecol. 326: 115-127.

Downing, J.A. & Rigler, F.H., 1984. A manual on methods for the assessment of secondary productivity in fresh waters. IBP Handbook No.17. Blackwell, Oxford, 2nd edition, 501p.

- E -

Ebert, T.A., 1967. Negative growth and longevity in the purple sea urchin Strongylocentrotus purpuratus (Stimpson). Science 157: 557-558.

Ebert, T.A., 1968. Growth rates of the sea urchin Strongylocentrotus purpuratus related to food availability and spine abraison. Ecology 49: 1075-1091.

Ebert, T.A., Dixon, J.D., Schroeter, S.C., Kalvass, P.E., Richmond, N.T., Bradbury, W.A., Woodby, D.A.,1999. Growth and mortality of red sea urchins Strongylocentrotus franciscanus across a latitudinal gradient. Mar. Ecol. Prog. Ser. 190: 189-209.

Edgar, G.J., 1990. The use of the size structure of benthic macrofaunal communities to estimate faunal biomass and secondary production. J. Exp. Mar. Biol. Ecol. 137: 195-214.

Efron, B., Gong, G., 1983. A leisurely look at the bootstrap, the jackknife and cross validation. Am. Stat. 37: 36-45.

Eggers, D.M., 1979. Comments on some recent methods for estimating food consumption by fish. J. Fish. Res. Bd. Can. 36: 1018-1019.

Elliott, J.M., Davidson, W., 1975. Energy equivalents of oxygen consumption in animal energetics. Oecologia 19: 195-201.

Eleftheriou, A., 2013. Methods for the study of marine benthos. 4th edition, Wiley-Blackwell, UK.

Epstein, S., Buchsbaum, R., Lowenstam, H.A., Urey, H.C., 1953. Revised carbonate-water isotopic temperature scale. Geol. Soc. Am. Bull. 64: 1315-1326.

Ettershank, G., 1984. A new approach to the assessment of longevity in the Antarctic krill Euphausia superba. J. Crust. Biol. 4: 295-305.

Esminger AH, Esminger ME, 1995. The Concise Encyclopedia of Foods and Nutrition. Boca Raton, FL, USA

- F -

Fabens, A.J., 1965. Properties and fitting of the von Bertalanffy growth curve. Growth 29: 265-289.

Feio, M.J., Graca, M.A.S., 2000. Food consumption by the larvae of Sericostoma vittatum (Trichoptera), an endemic species from the Iberian Peninsula. Hydrobiologia 439: 7-11.

Forbes, V.E., Lopez, G.R., 1986. Changes in feeding and crawling rates of Hydrobia truncata (Prosobranchia: Hydrobiidae) in response to sedimentary chlorophyll-a and recently egested sediment. Mar. Ecol. Prog. Ser. 33: 287-294.

Fournier, D.A: & Breen, P.A., 1983. Estimates of abalone mortality rates with growth analysis. Trans. Am. Fish. Soc. 112: 403-411.

Fournier, D.A., Sibert, J.R., Majkowski, J., Hampton, J., 1990. Multifan a likelihood-based method for estimating growth and age composition from multiple length frequency data sets illustrated using data for Southern Bluefin Tuna (Thunnus maccoyii). Can. J. Fish. Aquat. Sci. 47: 301-317.

Francis, R.I.C.C., 1988. Are growth parameters estimated from tagging and age-length data comparable? Can. J. Fish. Aquat. Sci. 45: 936-942.

Francis, R.I.C.C., 1995. An alternative mark-recapture analogue of Schnute´s growth model. Fish. Res. 23: 95-111.

Fratt, D.B., Dearborn, J.H., 1984. Feeding biology of the Antarctic brittle star Ophionotus victoriae (Echinodermata: Ophiuroidea). Polar Biol. 3: 127-139.

- G -

Gage, J.D., 1990. Skeletal growth bands in brittle stars: Microstructure and significance as age markers. J. Mar. Biol. Ass. U.K. 70: 209-224.

Gage, J.D., 1995. Demographic modelling in the analysis of population dynamics of deep-sea macrobenthos. Int. Rev. Ges. Hydrobiol. 80: 171-185.

Gage, J.D. & Tyler, P.A., 1985. Growth and recruitment of the deep-sea urchin Echinus affinis. Mar. Biol. 90: 41-53.

Gallucci, V.F.& Quinn, T.J., 1979. Reparameterizing, fitting, and testing a simple growth model. Transactions of the American Fisheries Society 108: 14-25.

Gardener, J.P.A., 2002. Effects of seston variability on the clearance rate and absorption efficiency of the mussels Aulacomya maoriana, Mytilus galloprovincialis and Perna canaliculus from New Zealand. J. Exp. Mar. Biol. Ecol. 268: 83-101.

Gayanilo, F.C., Pauly, D. User guide to FISAT. http://www.fisat2000.org/WebHelp/FiSAT2000.htm.

Giberson, D.J., Galloway, T.D., 1985. Life history and production of Ephoron album (Say) (Ephemeroptera: Polymitarcidae) in the Valley river, Manitoba. Can. J. Zool. 63: 1668-1674.

Gnaiger, E., 1983. Calculation of energetic and biochemical equivalents of respiratory oxygen consumption. In Gnaiger, E., Forstner, H. (eds): Polarographic oxygen sensors. Springer, Berlin.

Gnaiger E, Bitterlich G, 1984. Proximate biochemical composition and caloric content calculated from elemental CHN analysis: a stoichiometric concept. Oecologia 62: 289-298.

Goarant, E., Prensier, G., Lair, N., 1994. Specific immunological probes for the identification and tracing of prey in crustacean gut contents. The example of cyanobacteria. Arch. Hydrobiol. 131: 243-252.

Gorny, M., Arntz, W.E., Clarke, A., Gore, D.J., 1992. Reproductive biology od caridean decapods from the Weddell Sea. Pol. Biol. 12: 111-120.

Grant, A., Morgan, P.J. & Olive, P.J.W., 1987. Use made in marine ecology of methods for estimating demographic parameters from size/frequency data. Mar. Biol. 95: 201-208.

Greenwood, P.J., 1980. Growth, respiration and tentative energy budgets for two populations of the sea urchin Parechinus angulosus (Leske). Est. Coast. Mar. Sci. 10: 347-367.

Grémare, A., 1990. Consumption of diatoms and diatom filtrates by the tentaculate deposit-feeder Eupolymnia nebulosa (Annelida: Polychaeta). Mar. Biol. 106: 139-143.

Grodzinski, W., Klekowski, R.Z., Duncan, A., 1975. Methods for ecological bioenergetics. IBP Handbook No.24. Blackwell, Oxford, 367p.

Gröger, J., 2000. Biometrische Analysen zur Optimierung spezieller populationsdynamischer Kenngrössen in der Fischereibiologie. Habilitation thesis, Univ. Rostock, Germany, 204pp.

Grossman, E.L., 1982. Stable isotopes in live benthic foraminifera from the southern California borderland. Thesis Univ. S. California, Los Angeles, Calif. 164p.

Grossmann, S., Reichardt, W., 1991. Impact of Arenicola marina on bacteria in intertidal sediments. Mar. Ecol. Prog. Ser. 77: 85-93.

Gulland, J.A. & Hold, S.J., 1959. Estimation of growth parameters for data at unequal time intervals. J. Cons. Perm. Explor. Mer 24: 47-49.

- H -

Hamilton, A.L., 1969. On estimating annual production. Limnol. Oceanogr. 14: 771-782.

Hannan, C.A., 1981. Polychaete larval settlement: correspondence of patterns in suspended jar collectors and in the adjacent natural habitat in Monterey Bay, California. Limnol. Oceanogr. 26: 159-171.

Hannan, C.A., 1984. Planctonic larvae may act like passive particles in turbulent near bottom flows. Limnol. Oceanogr. 29: 1108-1116.

Harrold, C., Lisin, S., Light, K.H., Tudor, S., 1991. Isolating settlement from recruitment of sea urchins. J. Exp. Mar. Biol. Ecol. 147: 81-94.

Hawkins, A.J.S., Bayne, B.L., Bougrier, S., Héral, M., Iglesias, J.I.P., Navarro, E., Smith, R.F.M., Urrutia, M.B., 1998. Some general relationships in comparing the feeding physiology of suspension-feeding bivalve molluscs. J. Exp. Mar. Biol. Ecol. 219: 87-103.

Héroux, D., Magnan, P., 1996. In situ determination of food dayly ration in fish: review and field evaluation. Environ. Biol. Fish. 46: 61-74.

Hibbert, C.J., 1976. Biomass and production of a bivalve community on an intertidal flat. J. Exp. Mar. Biol. Ecol. 25: 249-261.

Hoenig, N. & Choudary Hanumara, R., 1982. A statistical study of seasonal growth models for fishes. Tech. Rep. Dept. Comp. Sci. Stat., Univ. of Rhode Island, Kingston, USA.

Holme, N.A., McIntyre, A.D., 1984. Methods for the study of marine benthos. IBP Handbook No.16. Blackwell, Oxford, 2nd edition, 387p.

Hummel, H., 1985. Food intake of Macoma balthica (Mollusca) in relation to seasonal changes in its potential food on a tidal flat in the Dutch Wadden Sea. Neth. J. Sea. Res. 19: 52-76.

Humphreys, W.F., 1981. Towards a simple index based on life-weight and biomass to predict assimilation in animal populations. J. Anim. Ecol. 50: 543-561.

Huryn, A.D., Wallace, J.B., 1987. Production and litter processing by crayfish in an Appalachian mountain stream. Freshw. Biol. 18: 277-286.

Hylleberg, J., 1975. Selectife feeding by Abarenicola pacifica with notes on Abarenicola vagabunda and a concept of gardening in lugworms. Ophelia 14: 113-137.

Hynes, H.B.N., 1950. The food of fresh-water sticklebacks (Gasterosteus aculeatus and Pygosteus pungitius), with a review of methods used in studies of the food of fishes. J. Anim. Ecol. 19: 36-58.

Hynes, H.B.N. & Coleman, M.J., 1968. A simple method of assessing the annual production of stream benthos. Limnol. Oceanogr. 13: 569-573.

- I -

Iken, K., 1999. Feeding ecology of the Antarctic herbivorous gastropod Laevilacunaria antarctica Martens. J. Exp. Mar. Biol. Ecol. 236: 133-148.

Ingram, C.I. & Hessler, R.R., 1987. Population biology of the deep-sea amphipod Eurythenes gryllus: inferences from instar analysis. Deep-Sea Res. 34: 1889-1910.

Ivlev, V.S., 1935. Eine Mikromethode zur Bestimmung des Kaloriengehalts von Naehrstoffen. Biochem. z. 275: 49-55

Ivlev, V.S., 1966. The biological productivity of waters. J. Fish. Res. Board. Can. 23: 1727-1759.

- J -

Jacob, U., Mintenbeck, K., Brey, T., Knust, R., Beyer, K., 2005. Stable isotope food web studies: a case for standardized sample treatment. Marine Ecology Progress Series 287: 251-253.

Jacobsen, V.H., 1967. The feeding of the lugworm, Arenicola marina (L.). Ophelia 4: 91-109.

James, D.W., 2000. Diet, movement, and covering behavior of the sea urchin Toxopneustes roseus in rhodolith beds in the Gulf of California, México. Mar. Biol. 137: 913-923.

James, M.R., Hawes, I., Weatherhead, M., Stanger, C., Gibbs, M., 2000. Carbon flow in the littoral food web of an oligothrophic lake. Hydrobiologia 441: 93-106.

Jarre, A., 1992. MAXIMS -- a computer program for estimating the food consumption of fish. ICES Council Meeting Papers., ICES, Copenhagen (Denmark), 1992, 12 pp.

Jarre, A., Palomares, M.L., Soriano, M.L., Sambilay, V.C., Pauly, D., 1991. Some new analytical and comparative methods for estimating the food consumption of fish. ICES mar. Sci. Symp. 193: 99-108.

Jarre, A., Palomares, M.L., Soriano, M.L., Sambilay, V.C., Pauly, D., 1990. A user´s manual for MAXIMS: A computer program for estimating the food consumption of fishes from diel stomach contents data and population parameters. ICLARM Software, International Center for Living Aquatic Resources Management, Manila, Philippines.

Jobling, 1986. Mythical models of gastric emptying and implications for food consumption studies. Env. Biol. of Fishes 16: 51-58.

Jorgensen, C.B., 1990. Bivalve filter feeding: hydrodynamics, bioenergetics, physiology and ecology. Olsen & Olsen, Fredensborg, Denmark.

Jorgensen, C.B., 1996. Bivalve filter feeding revisited. Mar. Ecol. Prog. Ser. 142: 287-302.

Jumars, P.A., Self, R.F.L., 1986. Gut-marker and gut-fullness methods for estimating field and laboratory effects of sediment transport on ingestion rates of deposit-feeders. J. Exp. Mar. Biol. Ecol. 98: 293-310.

Juniper, S.K., 1981. Stimulation of bacterial activity by a deposit feeder in two New Zealand intertidal inlets. Bull. Mar. Sci. 31: 691-701.

- K -

Kay, D.G., Brafield, A.E., 1973. The energy relations of the polychaete Neanthes (= Nereis) virens (Sars). J. Anim Ecol. 42: 673-692.

Kimmerer, W.J:, 1987. The theory of secondary production calculations for continuously reproducing populations. Limnol. Oceanogr. 32: 1-13.

Kimmerer, W. J. 1990. Simplicity in secondary production measurements: A reply to the comment by Polishchuk. Limnol. Oceanogr. 35: 1651-1655.

Kiorboe, T., Mohlenberg, F., Nohr, O., 1980. Feeding, particle selection and carbon absorption in Mytilus edulis in different mixtures of algae and resuspended bottom material. Ophelia 19: 193-205.

Klumpp, D.W., Salita-Espinosa, J.T., Fortes, M.D., 1993. Feeding ecology and trophic role of sea urchins in a tropical sea grass community. Aquat. Botany 45: 205-229.

Krantz, D.E., Williams, F.D., Jones, D.S., 1987. Ecological and paleoenvironmental information using stable isotope profiles from living and fossil molluscs. Palaeogeogr. Palaeoclimat. Palaeoecol. 58: 249-266.

Krueger, C.C. & Martin, F.B., 1980. Computation of confidence intervals for the size-frequency (Hynes) method of estimating secondary production. Limnol. Oceanogr. 25: 773-777.

Kuang, S., Fang, J., Sun, H., Li, F., 1997. Seasonal studies of the filtration rate and absorption efficiency in the scallop Chlamys farreri. J. Shellf. res. 16: 39-45.

- L -

Lasta, M, Valero, J., Brey, T., Bremec, C., 2001. Zygochlamys patagonica beds on the Argentinian shelf. Part II: Population dynamics of Z. patagonica. Arch. Fish. Mar. Res. 49: 125-137.

Lesage, V., Hammill, M.O., Kovacs, K.M., 2001. Marine mammals and the community structure of the Estuary and Gulf of St Lawrence, Canada: Evidence from stable isotope analysis. Mar Ecol Progr Ser 210: 203-221.

Lindeman, R.L., 1942.The trophic-dynamic aspect of ecology. Ecology 23: 399-418.

Linton, D.L., Taghon, G.J., 2000. Feeding, growth, and fecundity of Abarenicola pacifica in relation to sediment organic concentration. J. Exp. Mar. Biol. Ecol. 254: 85-107.

Lisbjerg, D., Petersen, J.K., 2000. Clearance capacity of Electra bellula (Bryozoa) in seagrass meadows of Western Australia. J. Exp. mar. Biol. Ecol. 244: 285-296.

Lisbjerg, D., Petersen, J.K., 2001. Feeding activity, retention efficiency, and effects of temperature and particle concentration on clearance rate in the marine bryozoan Electra crustulenta. Mar. Ecol. Prog. Ser. 215: 133-141.

Lomovasky, B., Brey, T., Morriconi, E., Calvo, J., 2002. Growth and production of the venerid bivalve Eurhomalea exalbida in the Beagle Channel, Tierra del Fuego, Journal of Sea Research 48:xxx-xxx [DOI 10.1016/s1385-1101(02)00134-X].

Lopez, G.R., Cheng, I.-J., 1983. Synoptic measurements of ingestion rate, ingestion selectivity, and absorption efficiency of natural foods in the deposit-feeding molluscs Nucula annulata (Bivalvia) and Hydrobia totteni (Gastropoda). Mar. Ecol. Prog. Ser. 11: 55-62.

Lopez, G.R., Levinton, J.S., 1987. Ecology of deposit-feeding animals in marine sediments. Quart. Rev. Biol. 62: 235-260.

- M -

MacDonald, P.D.M. & Pitcher, T.J., 1979. Age-groups from size-frequency data: A versatile and efficient method of analyzing distribution mixtures. J. Fish. Res. Bd. Can. 36: 987-1001.

Mayfield, S., Lopata, A.L., Branch, G.M., 2000. Limitation and failure of immunological technique (ELISA) inresolving the diet of the South African rock lobster Jasus lalandii. Mar. Bio. 137: 595-604.

Maynou, F., Cartes, J.E., 1997. Field estimation of daily ration in deep-sea shrimp Aristeus antennatus (Crustacea: Decapoda) in the western Mediterranean. Mar. Ecol. Prog. Ser. 153: 191-196.

Maynou, F., Cartes, J.E., 1998. Daily ration estimates and comparative study of food consumption in nine species of deep-water decapod crustaceans of the NW Mediterranean. Mar. Ecol. Prog. Ser. 171: 221-231.

McClary,D.J., Mladenov,P.V., 1990. Brooding biology of the sea star Pteraster militaris (O. F. Müller): energetic and histological evidence for nutrient translocation to brooded juveniles. J. Exp. Mar. Biol. Ecol.

McClintock, J.B., Pearse,J.S., 1987. Reproductive biology of the common antarctic crinoid Promachocrinus kerguelensis (Echinodermata: Crinoidea). Mar. Biol. 96: 375-383.

McGinnis, A.J. & Kasting,R., 1964. Chromic oxide indicator method for measuring food utilization in a plant feeding insect. Science 111: 1464-1465.

Ménard, F., Gentil, F. & Dauvin, J.-C., 1990. Population dynamics and secondary production of Owenia fusiformis Delle Chiaje (Polychaeta) from the Bay of Seine (eastern English Channel). J. Exp. Mar. Biol. Ecol. 133: 151-167.

Meziane, T., Bodineau, L., Retiere, C., Thoumelin, G., 1997. The use of lipid markers to define sources of organic matter in sediment and food web of the intertidal salt-marsh-flat ecosystem of Mont-Saint-Michel Bay, France. J. Sea Res. 38: 47-58.

Michener, R.H., Schell, D.M., 1994 Stable isotope ratios as tracers in marine aquatic food webs, p. 138-158. In K Lajtha and RH Michener (eds.) Stable isotopes in ecology and environmental science. Blackwell Scientific.

Mileikovsky, S.A., 1971. Types of larval development in marine bottom invertebrates, their distribution and ecological ignificance: A re-evaluation. Mar. Biol. 10: 93-213.

Miller, R.J., Mann, K.H., 1973. Ecological energetics of the seaweed zone in a marine bay on the Atlantic coast of Canada. III. Energy transformations by sea urchins.

Møhlenberg, F. & Riisgård, H.U., 1978. Efficiency of particle retention in 13 species of suspension feeding bivalves. Ophelia 17: 239-246.

Møhlenberg, F. & Riisgård, H.U., 1979. Filtration rate, using a new indirect technique, in thirteen species of suspension-feeding bivalves. Mar. Biol. 54: 143-147.

Moran, A.L., 2000. Calcein as a marker in experimental studies of newly-hatched gastropods. Mar. Biol. 137: 893-898.

Moreau, J., Bambino, C., Pauly, D., 1986. Indices of overall growth performance of 100 Tilapia (Cichlidae) populations. In: Maclean, J.L., Dizon, L.B., Hosillos, L.V. (eds.): The first Asian fisheries forum. Asian Fisheries Society, Manila, Philippines, 201-206.

Morin, A., Mousseau, T.A., Roff, D.A., 1987. Accuracy and precision of secondary production estimates. Limnol. Oceanogr. 32: 1342-1352.

Morin, A., Back, C., Chalifour, A., Boisvert, J., Peters, R.H., 1988. Empirical models predicting ingestion rates of black fly larvae. Can. J. Fish. Aquat. Sci. 45: 1711-1719.

Morin, A., Bourassa, N., 1992. Modèles empiriques de la production anuelle et du rapport P/B d´invertébrés benthiques d´eau courante. Can. J. Fish. Aquat. Sci. 49: 532-539.

Munch-Petersen, S., 1973. An investigation of a population of the soft clam (Mya arenaria L.) in a Danish estuary. Meddel. Danm. Fisk.- og Havunders. N.S. 7: 47-73.

Munro, J.L., 1982. Estimation of the parameters of the von Bertalanffy growth equation from recapture data at variable time intervals. J. Cons. Int. Explor. Mer 40: 199-200.

Munro, J.L. & Pauly, D., 1983. A simple method for comparing the growth of fishes and invertebrates. Fishbyte 1: 5-6.

- N -

Napolitano, G.E., Pollero, R.J., Gayoso, A.M., MacDonald, BA., Thompson, R.J., 1997. Fatty acids as trophic markers of phytoplankton blooms in the Bahia Blanca estuary (Buenos Aires, Argentina) and in Trinity Bay (Newfoundland, Canada). Biochem. Syst. Ecol. 25: 739-755.

Nichols, F.H., 1974. Sediment turnover by a deposit-feeding polychaete. Lim. Oc.

Nichols, F.H. & Thompson, J.K., 1982. Seasonal growht in the bivalve Macoma balthica near the southern limit of its range. Estuaries 5: 110-120.

- O -

Orejas C., López-González, P.J., Gili, J.M., Teixidó, N., Gutt, J., Arntz, W.E., 2002. Distribution and reproductive ecology of the Antarctic octocoral Ainigmaptilon antarcticum in the Weddell Sea. Mar. Ecol. Prog. Ser. 231: 101-114.

- P -

Pakhomov, E.A., Froneman, P.W., Kuun, P.J., Balarin, M., 1999.Nauticaris marionis Bate, 1888 (Crustacea: Decapoda) in the vicinity of Marion Island (Southern Ocean). Polar Biol. 21: 112-121.

Pakhomov, E.A., Perissinotto, R., 1996. Antarctic neritic krill Euphausia crystallorophias: spatio-temporal distribution, growth and grazing rates. Dee-Sea Res. 43: 59-87.

Palmer, R.E., Williams, L.G., 1980. Effect of particle concentration on filtration efficiency of the Bay scallop Argopecten irradians and the oyster Crassostrea virginica. Ophelia 19: 163-174.

Pauly, D., 1979. Gill size and temperature as governing factors in fish growth: a generalization of von Bertalanffy´s growth formula. Berichte aus dem Institut für Meereskunde Kiel 63: 1-156.

Pauly, D., 1983. Length-converted catch curves: a powerful tool for fisheries research in the tropics (Part I). Fishbyte 1(2): 9-13.

Pauly, D., 1984a. Length-converted catch curves: a powerful tool for fisheries research in the tropics (Part II). Fishbyte 2(1): 17-19.

Pauly, D., 1984b. Length-converted catch curves: a powerful tool for fisheries research in the tropics (Part III). Fishbyte 2(3): 8-10.

Pauly, D., 1984c. Fish population dynamics in tropical waters: A manual for use with programmable calculators. ICLARM, Manila, Philippines, 325p, ISSN 0115-4389, ISBN 971-1022-04-4.

Pauly, D., 1986. A simple method for estimating the food consumption of fish populations from growth data and food conversion experiments.Fish. Bull. 84: 827-839.

Pauly, D., 1990. Length-converted catch curves and the seasonal growth of fishes. Fishbyte 8: 33-38.

Pauly, D. & David, N., 1981. ELEFAN I, a BASIC program for the objective extraction of growth parameters from length-frequency data. Meeresforsch. 28: 205-211.

Pauly, D. & Gaschütz, G., 1979. A simple method for fitting oscillating length growth data, with a program for pocket calculator. Int. Council. Explor. Sea, Council Meeting 1979/G:24, Demersal Fish Cttee., 26p.

Pauly, D., Moreau, J., Gayanilo, F., 1994. A new method for comparing the growth performance of fishes, applied to wild and farmed Tilapias. In: Pullin, R.S.V., Lazard, J., Legendre, M., Amon Kothias, J.B., Pauly, D. (eds): The third international symposium on Tilapia in aquaculture. ICLARM Conf. Proc. 41.

Pearse, J.S., 1965. Reproductive periodicities in several contrasting populations of Odontaster validus Koehler, a common Antarctic asteroid. In: Llano,G.A.

Peck, L., Baker, A.C., Conway, L.Z., 1996. Strontium labelling of the shell of the Antarctic limpet Nacella concinna (Strebel, 1908). J. Moll. Stud. 62: 315-325.

Pennington, M. 1985. Estimating the average food consumption by fish in the field from stomach contents data. Dana 5: 81-86.

Peters, R.H., 1983. The ecological implications of body size. Cambridge University Press, Cambridge, 329p.

Petrusewicz, K., MacFayden, A., 1970. Productivity of terrestrial animals. Principles and methods. IBP Handbook No.13. Blackwell, Oxford, 190p.

Pihl, L., Rosenberg, R., 1984.Crangon crangon in some shallow marine areas in western Sweden. Mar. Ecol. Prog. Ser. 15: 159-168.

Plante, C., Downing, J.A., 1989. Production of freshwater invertebrate populations in lakes. Ca. J. Fish. Aquat. Sci. 46: 1489-1498.

Polishchuk, L. V. 1990. A comment on "The theory of secondary production calculations for continuously reproducing populations" (Kimmerer). Limnol. Oceanogr. 35: 1645-1651.

Powell, E.N., Cummins, H., Stanton, R.J., Staff, G., 1984. Estimation of the size of molluscan larval settlement using the death assemblage. Estuar. Cost. Shelf Sci.18: 367-384.

- Q -

- R -

Ribes, M., Coma, R., Gili, J.-M., 1998. Seasonal variation of in situ feeding rates by the temperate ascidian Halocynthia papillosa. Mar. Ecol. Prog. Ser. 175: 201-213.

Ricciardi, A., Bourget, E., 1998. Weight-to-weight conversion factors for marine benthic macroinvertebrates. Mar. Ecol. Prog. Ser. 163: 245-251.

Richter, H., Focken, U., Becker, K., 1999. A review of the fish feeding model MAXIMS. Ecol. Modelling 120: 47-64.

Riisgard,H.U., 2001a. On measurement of filtration rates in bivalves - the stony road to reliable data: review and interpretation. Mar. Ecol. Prog. Ser. 211: 275-291.

Riisgard,H.U., 2001b. Inaccurate bivalve clearance rate measurements: a reply. Mar. Ecol. Prog. Ser. 221: 307-309.

Riisgard,H.U., Mohlenberg, F., 1979. An improved automatic recording apparatus for determining the filtration rate of Mytilus edulis as a function of size and algal concentration. Mar. Biol. 52: 61-67.

Rigler, F.H & Downing, J.A., 1984. The calculation of secondary production. In: Downing, J.A. & Rigler, F.H. (eds) A manual on methods for the assessment of secondary productivity in fresh waters. IBP Handbook No.17. Blackwell, Oxford, 2nd edition, 19-58.

- S -

Sadava D, Orians, GH, 2000. Life: The Science of Biology. New York, W. H. Freeman and Co.

Sainsbury, K.J., 1980. Effect of individual variability on the von Bertalanffy growth equation. Can. J. Fish. Aquat. Sci. 37: 241-247.

Sainsbury, K., 1986. Estimation of food consumption from field observations of fish feeding cycles. J. Fish Biol. 29: 23-36.

Salonen,K., Sarvala,J., Hakala,I., Viljanen,M-L., 1976. The relation of energy and organic content in aquatic invertebrates. Limnol. Oceanogr. 21: 724-730.

Salzwedel, H., 1980. Energy budgets for two populations of the bivalve Tellina fabula in the German Bight. Veröff. Inst. Meeresforsch. Bremerh. 18: 257-287.

Santos, P.J.P., 1994. Population dynamics and production of Scolelepis gaucha (Polychaeta: Spionidae) on the sandy beaches of Southern brazil. Mar. Ecol. Prog. Ser. 110: 159-165.

Schinner, G.O., McClintock, J.B., 1993. Structural characteristics of marsupial brood pouches of the Antarctic sea urchins Abatus nimrodi and Abatus shackletoni (Echinoidea: Spatangoidea). J. Morphol. 216: 79-93.

Schnute, J., 1981.A versatile growth model with statistically stable parameters. Can. J. Aquat. Sci. 38: 1128-1140.

Schnute, J., 1982. A manual for easy nonlinear parameter estimation in fishery research with interactive microcomputer programs. Canadian Tech. Rep. Fish. Aquat. Sci. No. 1140, 116p.

Schnute, J. & Fournier, D., 1980. A new approach to length-frequency analysis. Growth structure. Can. J. Fish. Aquat. Sci. 37: 1337-1351..

Schraer, WD, Stoltze HJ, 1999. Biology: The Study of Life. New York, Prentice Hall.

Schwinghamer, P., Hargrave, B., Peer, D. & Hawkins, C.M., 1986. Partitioning of production and respiration among size groups of organisms in an intertidal benthic community. Mar. Ecol. Prog. Ser. 31: 131-142.

Somers, I.F., 1988. On a seasonally oscillation growth function. Fishbyte 6(1): 8-11.

Sprung. M., 1994. Macrobenthic secondary production in the intertidal zone of the Ria Formosa - a lagoon in southern Portugal. Estuar. Coast. Shelf Sci.

Stamatopoulos, C. & Caddy, J.F., 1989. Estimation of von Bertalanffy growth parameters: A versatile linear regression approach. J. Cons. Int. Explor. Mer 45: 200-208.

Stockton, W.L., 1984. The biology and ecology of the epifaunal scallop Adamusium colbecki on the west side of McMurdo Sound, Antarctica. Mar. Biol. 78: 171-178.

Sundberg, P., 1984. A Monte Carlo study of three methods for estimating the parameters in the von Bertalanffy growth equation. J. Cons. Int. Explor. Mer 41: 248-258.

Sundet, J.H. & Vahl, O., 1981. Seasonal changes in dry weight and bio-chemical composition of the tissues of sexually mature and immature Iceland scallops, Chlamys islandica. J. Mar. Biol. Ass. U.K. 61: 1001-1010.

Swynnerton, G.H., Worthington, E.B., 1940. Note on the food of fish in Haweswater (Westmorland). J. Anim. Ecol. 9: 183-187.

- T -

Taghon, G.L., 1981. Beyond selection: optimal ingestion rate as a function of food value. Amer. Nat. 118: 202-214.

Taghon, G.L.,1988. The benefits and costs of deposit feeding in the polychaete Abarenicola pacifica.

Tanaka, M.,1982. A new growth curve which expresses indefinite increase. Publ. Amakusa Mar. Lab. 6: 167-177.

Tanaka, M.,1988. Eco-physiological meaning of parameters of ALOG growth curve. Publ. Amakusa Mar. Lab. 9: 103-106.

Terpstra, S., 1996. Die Nahrung dominanter Echinoiden (Echinodermata) des antarktischen Weddellmeeres. (Diet of dominant echinoids od the Antarctic Weddell Sea. Diploma thesis, Univ. Bremen, germany.

Thompson, I., Jones, D.S. & Dreibelbis, D., 1980. Annual internal growth banding and life history of the ocean quahog Arctica islandica (Mollusca: Bivalvia). Mar. Biol. 57: 25-34.

Tremblay N, Werner T, Huenerlage K, Buchholz F, Abele D, Meyer B, Brey T, 2014. Euphausiid respiration model revamped: latitudinal and seasonal shaping effects on krill respiration rates. Ecological Modeling 291: 233-241. Doi: 10.1016/j.ecolmodel.2014.07.031

Tumbiolo, M.L. & Downing, J.A., 1994. An empirical model for the prediction of secondary production in marine benthic invertebrate populations. Mar. Ecol. Prog. Ser. 114: 165-174.

- U -

Ulanowicz, R.E., 1986. Growth and development: Ecosystem phenomenology. Springer, New York, 203pp.

Usio, N., Townsend, C.R., 2001. The significance of the crayfish Paranephrops zealandicus as shredders in a New Zealand headwater stream. J. Crust. Biol. 21: 354-359.

Uthicke, S., Benzie, J.A.H., 2002. A genetic fingerprint recapture technique for measuring growth in 'unmarkable' invertebrates: negative growth in commercially fished holothurians (Holothuria nobilis). Mar. Ecol. Prog. Ser. 241: 221-226.

- V -

Vahl, O., 1973. Efficiency of particle retention in Chlamys islandica (O.F. Müller). Astarte 6: 21-25.

Valderhaug, V.A., 1985. Population structure and production of Lumbrinereis fragilis (Polychaeta: Lumbrineridae) in the Oslofjord (Norway) with a note on metal content of jaws. Mar. Biol. 86: 203-211.

Vismann, B., 1990. Field measurements of filtration and respiration rates in Mytilus edulis L. An assessment of methods. Sarsia 75: 213-216

- W -

Warwick, R.M., 1980. Population dynamics and secondary production. In: Tenore, K.R. & Coull, B.C. (eds): Marine benthic dynamics. Univ. of S. Carolina Press, p. 1-24.

Waters, T.F. & Crawford, G.W., 1973. Annual production of a stream mayfly population: A comparison of methods. Limnol. Oceanogr. 18: 286-296.

Weeks, J.M. & Rainbow, P.S., 1990. A dual-labelling technique to measure the relative assimilation efficiencies of invertebrates taking up trace metals from food. Funct. Ecol. 4: 711-717.

Wefer, G., Berger, W.H., 1991. Isotope paleontology: growth and composition of extant calcareous species. Mar. Geol. 100: 207-248.

Widdows, J., 2001. Bivalve clearance rates: inaccurate measurements or inaccurate reviews and misinterpretation? Mar. Ecol. Prog. Ser. 221: 303-305.

Wightman, J.A., 1975. An improved technique for measuring assimilation efficiency by the 51Cr-14C twin tracer method. Oecologia 19:273-284.

Wildish, D.J. & Peer, D., 1981. Methods for estimating secondary production in marine Amphipoda. Can. J. Fish. Aquat. Sci. 38: 1019-1026.

Williams, L.G., 1982. Mathematical analysis of the effects of particle retention efficiency on determination of filtration rate. Mar. Biol. 66: 171-177.

Winter, J.E., 1973. The filtration rate of Mytilus edulis and the dependence on algal concentration, measured by continuous automatic recording apparatus. Mar. Biol. 22: 317-328.

Winter, J.E., 1978. A review on the knowledge of suspension-feeding in lamellibranchiate bivalves, with special reference to artificial aquaculture systems. Aquaculture 13: 1-33.

Wolff, M., 1988. Spawning and recruitment in the Peruvian scallop Argopecten purpuratus. Mar. Ecol. Prog. Ser. 42: 213-217.

Wolff, M., Cerda, G., 1992. Feeding ecology of the crab Cancer polyodon in La Herradura Bay, northern Chile. I. Feeding chronology, food intake, and gross growth and ecological efficiency. Mar. Ecol. Prog. Ser. 89: 213-219.

- X -

- Y -

- Z -

Zoutendyk, P., 1987. Nitrogen excretion by the Cape rock lobster Jasus lalandii and its possible contribution to the inshore Benguela system. S. Afr. J. Mar. Sci. 5: 565-574.

Zoutendyk, P., 1988. Consumption rates of captive Cape rock lobster Jasus lalandii. S. Afr. J. Mar. Sci. 6: 267-271.