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Hartmann, J. (1977). Fischereiliche Veränderungen in kulturbedingt eutrophierenden Seen (Vol. 39).
Schlüsselwörter: Fisch, Eutrophierung
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Hewett, S. H. (1800). Bioenergetics Modell (Vol. 53705).
Schlüsselwörter: Bioenergetik, dokumentation, theorie, mathematik, modell, wachstum, modell
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Bohl, E., Keller, M., & Oidtmann, B. (2002). Flusskrebse in Bayern – Teil 2: Bedrohungsfaktoren für die Flußkrebse.
Schlüsselwörter: Krebs, Krankheit, Parasit, Bayern
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English, K. K., & Bocking, R. C. (1992). A Robust Procedure for Estimating Salmon Escapement based on the Area-Under-the-Curve Method (Vol. 49).
Schlüsselwörter: Fischerei, population, wachstum, methode, mathematik, theorie
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Thompson, K. R., & Page, F. H. (1989). Detecting Synchrony of Recruitment using Short, Autocorrelated Time Series (Vol. 46).
Schlüsselwörter: Fischerei, statistik, methode, zeitreihe
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Richards, L. J., Schnute, J. T., Kronlund, A. R., & Beamish, R. J. (1801). Statistical Models for the Analysis of Ageing Error (Vol. 49).
Schlüsselwörter: Fischerei, population, alter, lÄngenfrequenz, statistik, methode, mathematik
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Cloern, J. E., & Nichols, F. H. (1978). A von Bertalanffy Growth Model with a Seasonally Varying Coefficient (Vol. 35).
Schlüsselwörter: Wachstum, modell, theorie, fisch, statistik
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Misra, R. K. (1987). A Program to Compare Statistically the Generalized von Bertalanffy Growth Curves and their Parameters (Vol. 1439).
Schlüsselwörter: Wachstum, fisch, statistik, modell, fortran, listing
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Richards, L. J., & Schnute, J. T. (1992). Statistical Models for Estimating CPUE from Catch and Effort Data (Vol. 49).
Schlüsselwörter: Fischerei, cpue, methode, statistik, modell
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Eckmann, R., Gaedke, U., & Wetzlar, H. J. (1988). Effects of Climatic and Density-Dependent Factors on Year-Class Strength of Coregonus lavaretus in Lake Constance (Vol. 45).
Zusammenfassung: The influences of density-dependent and density-independent factors on year-class strength (YCS) of Corogonus lavaretus in Lake Constance were studied by multiple linear regression analyses for the period from 1962 to 1982. Meteorological conditions that lead to early thermal stratification of the lake in April are of prime importance for YCS and account for 41% of the total YCS variance. Zooplankton concentration during spring has no significant influence on YCS. The extensive stocking program on the lake (50-200 million larvae stocked per year) significantly supports YCS, but this relationship becomes apparent only after the influence of meteorological conditions are removed from the data.
Schlüsselwörter: Fischerei, zeitreihe, modell, statistik
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