[Abella A.J., Caddy J.F., Serena F. 1997 – Do natural mortality and availability decline with age? An alternative yield paradigm for juvenile fisheries, illustrated by the hake Merluccius merluccius fishery in the Mediterranean – Aquat. Living Resour. 10: 257-269.10.1051/alr:1997029]Search in Google Scholar
[Alagaraja K.1984 – Simple methods for estimation of parameters for assessing exploited fish stocks – Indian J. Fish. 31: 177-208.]Search in Google Scholar
[Bandura V.I., Shybaev S.V. 1986 – Ispolzovanie metodov matematicheskogo modelirovaniya v tsielyakh opredeleniya parametrov optimalnogo rybolovstva na vnutriennykh vodoemakh. Ed. V – Izuchenie i racionalnoe ispolzovanie zapasov ryb vo vnutriennykh vodoemakh. GosNiorkh, NPO PromRybVod, Leningrad, Sbornik Nauchnykh Trudov, vypusk 244: 4-37 (in Russian).]Search in Google Scholar
[Beverton R.J., Holt S.J. 1957 – On the dynamics of exploited fish populations – Fishery Investigations Series II Vol. XIX London.10.2307/1440619]Search in Google Scholar
[Bieniarz K., Epler P., Sych R. 1990. Recreational catches in Rożnowskie Reservoir – Rocz. Nauk. PZW 3: 15-31 (in Polish).]Search in Google Scholar
[Biró P. 1978 – Yield–per–recruit estimates for bream (Abramis brama L.) in Lake Balaton, Hungary – Aquacul. Hungar. (Szarvas) 1: 80-95.]Search in Google Scholar
[Buras P.C., Wiśniewolski W. 2011 – Simulation of common bream stock dynamics in the Zegrze Reservoir by changes of the exploitation system – In: Current state of inland waters biological resources, Izdatelstvo AQUAROS, Moscow: 99-107.]Search in Google Scholar
[Buras P., Wiśniewolski W. 2014 – Numerical Model of Fish Exploitation (NMFE) – a historical outline of the development of the method – Komun. Ryb. 2: 33-34 (in Polish).]Search in Google Scholar
[Clark W.G. 1991 – Groundfish exploitation rates based in life history parameters – Can. J. Fish. Aquat. Sci. 48: 734-750.10.1139/f91-088]Open DOISearch in Google Scholar
[Cushing D.H. 1971 – The dependence of recruitment on parent stock in different groups of fishes – J. Cons. Int. Explor. Mer. 33: 340-362.10.1093/icesjms/33.3.340]Search in Google Scholar
[EIFAC–FAO 1991 – Report of the International seminar on Mass removal of (Unwanted) Fish in Large Inland Water Bodies – Occasional Paper no 26, 10-12 June 1991.]Search in Google Scholar
[Epler K., Bieniarz K. 1977 – Ichthyofauna of the Tresna Reservoir – Gosp. Ryb. 10: 8-11 (in Polish).]Search in Google Scholar
[Epler K., Kuboszek A., Łuszczek-Trojnar E., Socha M., Drąg-Kozak E. 2005 – The ichthyofauna of the Goczałkowice Dam reservoir in southern Poland in the 1986–2001 period – Arch. Pol. Fish. 13: 267-273.]Search in Google Scholar
[Falkowski S. 2008 – Fisheries management in selected dam reservoirs in 2007 – In: State and conditions for fisheries management in inland waters (Ed.) M. Mickiewicz Wyd. IRS Olsztyn: 67-72 (in Polish).]Search in Google Scholar
[Gaertner D. 2015 – Indirect estimates of natural mortality rates for Atlantic skipjack (Katsuwonus pelamis), using life history parameters – Collect. Vol. Sci. Pap. ICCAT, 71(1): 189-204.]Search in Google Scholar
[García C.B., Duarte L.O. 2006 – Length-based estimates of growth parameters and mortality rates of fish populations of the Caribbean Sea – J. Appl. Ichthyol. 22: 193-200.10.1111/j.1439-0426.2006.00720.x]Open DOISearch in Google Scholar
[Gislason H. 1999 – Single and multispecies reference points for Baltic fish stocks – ICES J. Mar. Sci. 56: 571-583.10.1006/jmsc.1999.0492]Search in Google Scholar
[Gonçalves J.M.S., Bentes L., Coelho R., Correia C., Lino P.G., Monteiro C.C., Ribeiro J., Erzini K. 2003 – Age and growth, maturity, mortality and yield-per-recruit for two banded bream (Diplodus vulgaris Geoffr.) from the south coast of Portugal – Fish. Res. 62: 349-359.10.1016/S0165-7836(02)00280-1]Search in Google Scholar
[Helminen H., Ennola K., Hirvonen A., Sarvala J. 1993 – Fish stock assessment in lakes based on mass removal – J. Fish Biol. 42: 255-263.10.1111/j.1095-8649.1993.tb00326.x]Open DOISearch in Google Scholar
[Hewitt D.A., Hoenig J.M. 2005 – Comparison of two approaches for estimating natural mortality based on longevity – Fish. Bull. 103: 433-437.]Search in Google Scholar
[Hewitt D.A., Lambert D.M., Hoenig J.M., Lipcius R.N., Bunnell D.B, Miller T.J. 2007 – Direct and indirect estimates of natural mortality for Chesapeake Bay blue crab – Trans. Am. Fish. Sci. 136: 1030-1040.10.1577/T06-078.1]Search in Google Scholar
[Hightower J.E., Gilbert R.J. 1984 – Using the Jolly-Seber model to estimate population size, mortality and recruitment for a reservoir fish population – Trans. Am. Fish. Sci. 113: 633-641.10.1577/1548-8659(1984)113<633:UTJMTE>2.0.CO;2]Search in Google Scholar
[Horppila J., Peltonen H. 1994 – The fate of a roach Rutilus rutilus stock under an extremely strong fishing pressure and its predicted development after the cessation of mass removal – J. Fish Biol. 45: 777-786.10.1111/j.1095-8649.1994.tb00943.x]Open DOISearch in Google Scholar
[Jelonek M., Amirowicz A. 1987a – Density and biomass of fish in the Rożnów Reservoir – Acta Hydrobiol. 29: 243-251.]Search in Google Scholar
[Jelonek M., Amirowicz A. 1987b – Composition, density and biomass of the ichthyofauna of the Goczałkowice Reservoir – Acta Hydrobiol. 29: 253-259.]Search in Google Scholar
[Jurado-Molina J, Gatica C, Arancibia H., Neira S., Alarcón R. 2016 – A multispecies virtual population analysis for the Southern Chilean demersal fishery – Mar. Coast. Fish. 8: 350-360.10.1080/19425120.2016.1167796]Search in Google Scholar
[Kazanskiy A.B. 1977 – Matematicheskaya model populatsyi sinca Abramis ballerus (L.) Tsymlyanskogo Vodokhranilishcha – Vopr. Ikhtiol. 17: 1024-1033 (in Russian).]Search in Google Scholar
[Kazanskiy A.B., Koval W.P. 1980 – Matematicheskaya model populatsyi sudaka Tsymlyanskogo Vodokhranilishcha. Ed. V. Rybnoe khozyaistvo vodokhranilishch razlichnykh klimaticheskikh zon – GosNiorkh, Leningrad, Sbornik Nauchnykh Trudov, 152: 76-89 (in Russian).]Search in Google Scholar
[Kazanskiy A.B., Koval W.P., Sappo G.B. 1986 – Imitatsyonnaya dinamicheskaya model populatsyi leshcha Ivankovskogo Vodokhranilishcha. Ed. V. Izuchenie i racionalnoe ispolzovanie zapasov ryb vo vnutriennykh vodoemakh – GosNiorkh, NPO PromRybVod, Leningrad, Sbornik Nauchnych Trudov, 244: 38-44 (in Russian).]Search in Google Scholar
[Kienzle M.J. 2016 – Hazard function models to estimate mortality rates affecting fish populations with application to the sea mullet (Mugil cephalus) fishery on the Queensland Coast (Australia) – J. Agric. Biol. Environ. Stat. 21: 76-91.10.1007/s13253-015-0237-y]Open DOISearch in Google Scholar
[Kinzey D., Punt A.E. 2009 – Multispecies and single-species models of fish population dynamics: comparing parameter estimates – Nat. Resour. Model. 22: 67-104.10.1111/j.1939-7445.2008.00030.x]Search in Google Scholar
[Kompowski A., Horbowy J. 1990 – Stock dynamics. An Introduction to the theory of optimum catches – Wyd. MIR, Gdynia, 135 p. (in Polish).]Search in Google Scholar
[Krishnan Kutty M., Qasim S.Z. 1968 – The estimation of optimum age of exploitation and potential yield in fish populations – J. Cons. Int. Explor. Mer. 32: 249-255.10.1093/icesjms/32.2.249]Search in Google Scholar
[Lammens E.H.R.R., van Nes E.H., Meijer M.L., van den Berg M.S. 2004 – Effects of commercial fishery on the bream population and the expansion of Chara aspera in lake Veluwe – Ecol. Model. 177: 233-244.10.1016/j.ecolmodel.2003.10.002]Search in Google Scholar
[Łysak A., Ligaszewski M. 1998 – Ichthyofauna composition of the Tresna Reservoir before and after its complete draining – Rocz. Nauk. PZW 11: 65-80 (in Polish).]Search in Google Scholar
[Majkowski J. 1977 -Prognosis for catches of cod, herring and sprat in the Baltic Sea, and their optimization with the aid of mathematical model – Pol. Arch. Hydrobiol. 24: 361-382.]Search in Google Scholar
[Mandecki W. 1976 – A computer simulation model for interacting fish population studies, applied to the Baltic – Pol. Arch. Hydrobiol. 23: 281-307.]Search in Google Scholar
[Marten G.G. 1978. Calculating mortality rates and optimum yields from length samples – J. Fish. Res. Board Can. 3: 197-201.10.1139/f78-032]Open DOISearch in Google Scholar
[Mastyński J. 1984 – Fish biomass of drained small reservoirs – Pol. Arch. Hydrobiol. 1: 31, 69-76.]Search in Google Scholar
[Mastyński J., Klimaszyk P. 1994 – Importance of fish fauna for the water quality of the Maltański reservoir – PTPN, Prace Komisji Biologicznej, 74: 75-82.]Search in Google Scholar
[Miller T.J. 2001 – Matrix-based modeling of blue crab population dynamics with applications to the Chesapeake Bay – Estuaries 24: 535-544.10.2307/1353255]Open DOISearch in Google Scholar
[Miroshnichenko M.P., Lapitsky I.I., Kalinina S.G. 1986 – Potentsialnaya ryboproduktivnost Tsymlyanskovo vodokhranilishcha i puti yey realizatsyi. Faktory formirovaniya ryboproduktivnosti vodokhranilishch i puti yey uvelicheniya – GosNiorch, NPO PromRybVod, Leningrad, Sbornik Nauchnych Trudov, 242: 29-41 (in Russian).]Search in Google Scholar
[Nabiałek J. 1995 – Predicting the natural effects of changes in fish exploitation using the NMFE-94 simulation model based on bream from the Zegrzyńskie Reservoir – Wydawnictwo PZW, Warszawa (in Polish).]Search in Google Scholar
[Negonovskaya I.T. 1986 – Proektnaya, fakticheskaya i potentsialnaya ryboproduktivnost’ vodokhranilishchi. Faktory formirovaniya ryboproduktivnosti vodokhranilishch i puti yey uvelicheniya – GosNiorkh, NPO PromRybVod, Leningrad, Sbornik Nauchnych Trudov, 242: 4-28 (in Russian).]Search in Google Scholar
[Paloheimo J.E., Chen Y. 1996 – Estimating fish mortalities and cohort sizes – Can. J. Fish. Aquat. Sci. 53: 1572-1579.10.1139/f96-077]Search in Google Scholar
[Pauly D. 1980 – On the interrelationship between natural mortality, growth parameters, mean environmental temperature in 175 fish stocks – J. Cons. Int. Explor. Mer. 39: 175-192.10.1093/icesjms/39.2.175]Search in Google Scholar
[Powers J.E. 2014 – Age-specific natural mortality rates in stock assessments: size-based vs. density-dependent – ICES J. Mar. Sci. 71: 1629-1637.10.1093/icesjms/fst226]Search in Google Scholar
[Prchalová M., Kubečka J., Čech M., Frouzová J., Draštík V., Hohausová E., Jůza T., Kratochvíl M., Matěna J., Peterka J., Říha M., Tušer M., Vašek M. 2009 – The effect of depth, distance from dam and habitat on spatial distribution of fish in an artificial reservoir – Ecol. Freshw. Fish 18: 247-260.10.1111/j.1600-0633.2008.00342.x]Open DOISearch in Google Scholar
[Quinn II T.J., Collie J.S. 2005 – Sustainability in single-species population models – Philos. Trans. R. Soc. B-Biol. Sci. 360: 147-162.10.1098/rstb.2004.1577163610915713594]Search in Google Scholar
[Rechencq M., Vigliano P.H., Lippolt G.E., Alonso M.F., Macchi P.J., Alvear P.A., Hougham V., Denegri M.A., Blasetti G., Juncos R., Fernandez M.V., Lallement M.E., Juarez S.M. 2017 – Modelling and management options for salmonid sport fisheries: A case study from Patagonia, Argentina – Fish. Manag. Ecol. 24: 103-116.10.1111/fme.12208]Search in Google Scholar
[Regier H.A. 1962 – On estimating mortality coefficients in exploited fish populations, given two censuses – Trans. Am. Fish. Soc. 91: 283-294.10.1577/1548-8659(1962)91[283:OEMCIE]2.0.CO;2]Open DOISearch in Google Scholar
[Schaefer M.B. 1954. Some aspects of the dynamics of populations important to the management of the commercial marine fisheries – Bulletin of the Inter-American Tropical Tuna Commission, 1: 26-56.]Search in Google Scholar
[Schaefer M.B. 1957 – A study of the dynamics of the fishery for yellowfin tuna in the eastern tropical pacific ocean – Bulletin of the Inter-American Tropical Tuna Commission, 2 247-285.]Search in Google Scholar
[Shybaev C.V. 1986 – Ocenka chislennosti leshcha w Cheboksarskom Vodokhranilishche po dannym pryamogo ucheta. Ed. V Izuchenie i racionalnoe ispolzovanie zapasov ryb vo vnutriennykh vodoemakh – GosNiorkh, NPO PromRybVod, Leningrad, Sbornik Nauchnykh Trudov, 244: 53-69 (in Russian).]Search in Google Scholar
[Sych R. 1972 – A numerical model of the commercial exploitation of fish – ICES, C.M. 1972/M-9.]Search in Google Scholar
[Sych R. 1976 – A numerical model of the commercial exploitation of fish – Acta Biologica Iugoslavica, Ichthyologia (Separat), 8: 155-162.]Search in Google Scholar
[Sych R., Bartel R. 1979 – Mathematical model for salmonid management in the Baltic – Referat na Międzynarodowe Sympozjum Marikultury, MIR Gdynia, manuscript (in Polish).]Search in Google Scholar
[Sych R., Wilkońska H. 1978 – Report on the first stage trials of the numerical fish exploitation model using roach from Lake Śniardwy – Inland Fisheries Institute, manuscript (in Polish).]Search in Google Scholar
[Tyurin P.V. 1962 – Faktor estestvennoy smiertnosti ryb i yego znachenye pri regulirovanii rybolovstva – Vopr. Ikhtiol. 2: 403-427 (in Russian).]Search in Google Scholar
[Walters C.J. 1969 – A generalized computer simulation model for fish population studies – Trans. Am. Fish. Soc. 3: 505-512.10.1577/1548-8659(1969)98[505:AGCSMF]2.0.CO;2]Open DOISearch in Google Scholar
[Wiśniewolski W. 1992 – Results of stocking the Zegrzyńskie Reservoir with tagged bighead carp, carp, and Prussian carp – Rocz. Nauk. PZW 5: 105-118 (in Polish).]Search in Google Scholar
[Wiśniewolski W. 2002 – Changes in the ichthyofauna composition, biomass, and catches in selected Polish dam reservoirs – Arch. Pol. Fish. 10: suppl. 2: 5-73 (in Polish).]Search in Google Scholar
[Wołos A., Mickiewicz M., Draszkiewicz-Mioduszewska H. 2008 – Analysis of lake fisheries production in 2007 – In: State and conditions of fisheries management in inland waters (Ed.) M. Mickiewicz, Wyd. IRS, Olsztyn: 5-14 (in Polish).]Search in Google Scholar