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University Library Books M8 @ 66/E16

 

  1. Arzneiverordnungs-Report: aktuelle Daten, Kosten, Trends und Kommentare Berlin : Springer, 1985-.
  2. Critical thinking. Using systems thinking & dynamic modeling. Creative Learning Exchange, 2012. (bei Frank Hilker)
  3. Communicating critical thinking. Visual tools for student projects. Creative Learning Exchange, 2014. (bei Frank Hilker)
  4. CRC handbook of chemistry and physics: a ready-reference book of chemical and physical data. Chemical Rubber Company. Boca Raton, Fla. [u.a.]. Taylor & Francis, 1977-. (bei Jörg Klasmeier)
  5. Daten zur Umwelt. Dessau-Roßlau, Umweltbundesamt, 1998.
  6. Deutscher Akademischer Austauschdienst (2013). Die Internationale Hochschule - Strategien anderer Länder. DAAD.
  7. Deutscher Akademischer Austauschdienst (2014). Die internationale Hochschule - Die Internationalisierung der deutschen Hochschulen im Zeichen virtueller Lehr und Lernszenarien. DAAD.
  8. Deutsches Beamten-Jahrbuch Niedersachsen 2013. Walhalla. (bei Elke Altekruse)
  9. Deutsches gewässerkundliches Jahrbuch / Rheingebiet / 2. München, 1981-2003.
  10. Deutsches gewässerkundliches Jahrbuch / Rheingebiet / 2. Augsburg : Bayerisches Landesamt für Umwelt, 2000-
  11. Encyclopedia of Environmental Change (Matthews, J.A., ed.), 3 Bde., Sage Reference.
  12. Encyclopedia of Biodiversity (Levin, S., ed.), 7 Bde., Elsevier.
  13. OECD environmental performance reviews. Czech Republic, Organisation for Economic Co-operation and Development. Paris, OECD Publ., 2005-.
  14. The Ecology Book (2019). Penguin. (bei Frank Hilker)
  15. TV-L Jahrbuch der Länder 2013. Walhalla. (bei Elke Altekruse)
  16. Abarbanel, H.D.I. (1996). Analysis of observed chaotic data. Springer. 
  17. Abarbanel, H.D.I. (2013). Predicting the future. Completing models of observed complex systems. Springer.
  18. Abe, T., Levin, S., Higashi, M. (1997). Biodiversity. An ecological perspective. Springer. (bei Frank Hilker)
  19. Abraham, R.H., Gardini, L., Mira, C. (1997). Chaos in discrete dynamical systems. A visual introduction in 2 dimensions. Springer. (bei Frank Hilker)
  20. Abraham, R.H., Shaw, C.D. (1989). Dynamics: The geometry of behavior. Part I: Periodic behavior. Aerial Press, Santa Cruz CA.
  21. Abraham, R.H., Shaw, C.D. (1990). Dynamics: The geometry of behavior. Part II: Chaotic behavior. Aerial Press, Santa Cruz CA.
  22. Abraham, R.H., Shaw, C.D. (1989). Dynamics: The geometry of behavior. Part III: Global behavior. Aerial Press, Santa Cruz CA.
  23. Abraham, R.H., Shaw, C.D. (1988). Dynamics: The geometry of behavior. Part IV: Bifurcation behavior. Aerial Press, Santa Cruz CA.
  24. Acevedo, M.F. (2013). Simulation of ecological and environmental models.CRC, Boca Raton. (bei Frank Hilker)
  25. Acheson, D. (1998). From calculus to chaos. Oxford University Press, Oxford.
  26. Adami, C. (1998). Introduction to artificial life. Springer-Verlag, New York.
  27. Aga, D.S., ed. (2008). Fate of pharmaceuticals in the environment and in water treatment systems. CRC Press, Boca Raton. (bei Jörg Klasmeier)
  28. Ågren, G.I., Andersson, F.O. (2012). Terrestrial ecosystem ecology. Cambridge University Press. (bei Frank Hilker)
  29. Ågren, G.I., Bosatta, E. (1998). Theoretical ecosystem ecology. Cambridge University Press. (bei Frank Hilker)
  30. Akan, A.O., Houghtalen, R.J. (2003). Urban hydrology, hydraulics, and stormwater quality. Wiley, Hoboken NJ. (bei Jörg Klasmeier)
  31. Albert, A., ed. (1995). Chaos and society. Frontiers in Artificial Intelligence and Applications, vol. 29. IOS Press, Amsterdam. (bei Friedemann Liebaug)
  32. D'Alisa, G., Demaria, F., Kallis, G., eds. (2015). Degrowth. A vocabulary for a new era. Routledge.
  33. Alexander, M. (1999). Biodegradation and bioremediation. Academic Press, San Diego.
  34. Allan, J.D., Castillo, M.M. (2009). Stream ecology. Structure and function of running waters. Springer.
  35. Allen, C.R., Garmestani, A.S., eds. (2015). Adaptive management of social-ecological systems. Springer. (bei Frank Hilker)
  36. Allen, L.S. (2003). An introduction to stochastic processes with applications to biology. Pearson Education, Upper Saddle River NJ.
  37. Allen, L.S. (2007). An introduction to mathematical biology. Pearson Education, Upper Saddle River NJ.
  38. Allen, R.B., Lee, W.G., eds. (2006). Biological invasions in New Zealand. Ecological Studies, vol. 186. Springer, Berlin.
  39. Alligood, K.T., Sauer, T.D., Yorke, J.A. (1997). Chaos. An introduction to dynamical systems. Springer, Berlin.
  40. Allman, E.S., Rhodes, J.A. (2007). Mathematical models in biology. An introduction. Cambridge University Press, Cambridge.
  41. Alloway, B.J., Ayres, D.C. (1996). Chemical principles of environmental pollution. Chapman & Hall, London.
  42. Alt, W., Deutsch, A., Dunn, G. (1997). Dynamics of cell and tissue motion. Birkhäuser, Basel.
  43. Andersen, J., La Vigne, A. (2014). Systems in motion. Exploring complexity through an interdisciplinary lens. Level A. Creative Learning Exchange. (bei Frank Hilker)
  44. Andersen, J., La Vigne, A. (2014). Systems in motion. Exploring complexity through an interdisciplinary lens. Level B. Creative Learning Exchange. (bei Frank Hilker)
  45. Andersen, J., La Vigne, A. (2014). Systems in motion. Exploring complexity through an interdisciplinary lens. Level C. Creative Learning Exchange. (bei Frank Hilker)
  46. Anderson, R.M., May, R.M., eds. (1982). Population biology of infectious diseases. Springer.
  47. Anderson, R.M., May, R.M. (1991, repr. 2010). Infectious diseases of humans. Dynamics and control. Oxford University Press, Oxford.
  48. Andrewartha, H.G., Birch, L.C. (1954). The distribution and abundance of animals. The University of Chicago Press.
  49. Andrewartha, H.G., Birch, L.C. (1984). The ecological web. The University of Chicago Press.
  50. Andriof, C. (2021) Praxisbuch für wirksame Veränderung - mit der Theorie arbeiten. Springer Gabler (Bei Carolin Janssen)
  51. Anishenko, V.S., Astakhov, V., Neiman, A., Vadisova, T., Schimansky-Geier, L. (2007). Nonlinear dynamics of chaotic and stochastic systems. Springer Series in Synergetics. Springer, Berlin.
  52. Angermann, A., Beuschel, M., Rau, M., Wohlfahrt, U. (2007). MATLAB - Simulink - Stateflow. Mit CD-Rom. Oldenbourg, München.
  53. Aquaprox, Hrsg. (2007). Kühlwasserbehandlung. Springer-Verlag, Berlin.
  54. Archer, D., Rahmstorf, S. (2010). The climate crisis. Cambridge University Press, Cambridge.
  55. Arditi, R., Ginzburg, L.R. (2012). How species interact. Altering the standard view on trophic ecology. Oxford University Press, Oxford.
  56. Arnold, L., Lefever, R., eds. (1981). Stochastic nonlinear systems in physics, chemistry, and biology. Springer.
  57. Arnold, V.I. (2004). Catastrophe theory. Springer. (bei Frank Hilker)
  58. Auger, P., Lett, C., Poggiale, J.-P. 2010). Modélisation mathématique en écologie. Cours et exercises corrigés. Dunod, Paris.
  59. Bacaer, N. (2011). A short history of mathematical population dynamics. Springer, London.
  60. Backhaus, K., Erichson, B., Plinke, W., Weiber, R. (2006). Multivariate Analysemethoden. Eine anwendungsorientierte Einführung. (2 Exemplare)
  61. Bakunin, O.G. (2011). Chaotic flows. Correlation effects, transport, and structures. Springer.
  62. Bala, B.K., Arshad, F.M., Noh, K.M. (2017). System dynamics. Modelling and simulation. Springer. (bei Frank Hilker)
  63. Balanov, A., Janson, N., Postnov, D., Sosnovtseva, O. (2009). Synchronization: From simple to complex. Springer Series in Synergetics. Springer, Berlin.
  64. Bakunin, O.G. (2008). Turbulence and diffusion. Scaling versus equations. Springer. (bei Frank Hilker)
  65. Baneth, A. (2010). The ultimate EU test book 2010). John Harper Publ., London.
  66. Banks, H.T., Tran, H.T. (2009). Mathematical and experimental modelling of physical and biological processes. Textbooks in Mathematics, CRC Press, Boca Raton. (+ 1 CD)
  67. Banks, R.B. (1994). Growth and diffusion phenomena. Springer, Berlin.
  68. Barabási, A.-L. (2016). Network Science. Cambridge University Press. 2 Ex (1x bei Claudia Pahl-Wostl)
  69. Bárdossy, A., Duckstein, L. (1995). Fuzzy rule-based modeling with applications to geophysical, biological and engineering systems. Systems Engineering Series. CRC Press, Boca Raton. (bei Michael Matthies)
  70. Baretta-Bekker, H.J.G., Duursma, E.K., Kuipers, B.R. (1998). Encyclopedia of marine sciences. Springer-Verlag, Berlin.
  71. Barnes, D.J., Chu, D. (2010). Introduction to modeling for biosciences. Springer.
  72. Barnett, W.A., Kirman, A.P., Salmon, A., eds. (1996). Nonlinear dynamics and economics. Cambridge University Press.
  73. Barnthouse, L.W., Munns, W.R., Sorensen, M.T. (2008). Population-level ecological risk assessment. SETAC, CRC, Boca Raton.
  74. Barthelme, N. (2005). Geoinformatik. Modelle, Strukturen, Funktionen. Springer, Berlin. (bei Jürgen Berlekamp)
  75. Barrett, S., Mäler, K.-G., Maskin, E.S., eds. (2014). Environment and development economics. Oxforf University Press.
  76. Bar-Yam, Y. (2004). Making things work. Solving complex problems in a complex world. NECSI - Knowledge Press.
  77. Baum, E.J. (1998). Chemical Property Estimation. Theory and Application. Lewis Publ., Boca Raton. (bei Jörg Klasmeier)
  78. Baumann, B. (2016). Physik für Ingenieure. Harri Deutsch.
  79. Bazykin, A.D. (1998). Nonlinear dynamics of interacting populations. World Scientific, Singapore.
  80. Beauchamp, G. (2014). Social predation. How group living benefits predators and prey. Academic Press / Elsevier.
  81. Beck, H. (2014). Behavioral Economics. Eine Einführung. Springer. (AG Umweltökonomie)  
  82. Beck, M., Hrsg. (1996). Umweltrecht für Nichtjuristen. Vogel, Würzburg.
  83. Begon, M., Townsend, C.R., Harper, J.L. (2006). From individuals to ecosystems. Blackwell, Oxford.
  84. Behrendt, S., Kreibich, R., Hrsg. (1994). Die Mobilität von Morgen: Umwelt- und Verkehrsentlastung in den Städten. ZukunftsStudien, Bd. 12. Beltz, Weinheim.
  85. Bellomo, N., Preziosi, L. (1995). Modelling mathematical methods and scientific computation. CRC Press, Boca Raton.
  86. Beltrami, E. (1987). Mathematics for dynamic modelling. Academic Press, Boston.
  87. Beltrami, E. (1998). Mathematics for dynamic modelling. 2nd ed., Academic Press, Boston.
  88. Beltrami, E. (1993). Von Krebsen und Kriminellen. Mathematische Modelle in Biologie und Soziologie. Vieweg, Braunschweig.
  89. Berg, E., Kuhlmann, F. (1993). Systemanalyse und Simulation für Agrarwissenschaftler und Biologen. Ulmer, Stuttgart. (bei Frank Hilker)
  90. Berkes, F., Folke, C., eds. (2002). Linking social and ecological systems. Management practices and social mechanisms for building resilience. Cambridge University Press. (bei Daniel Schweigatz)
  91. Berg, H. van den (2011). Mathematical models of biological systems. Oxford University Press.
  92. Bernardo, M. di, Budd, C.J., Champneys, A.R., Kowalczyk, P. (2008). Piecewise-smooth dynamical systems. Theory and applications. Springer. (bei Frank Hilker)
  93. Berryman, A.A. (1999). Principles of population dynamics. Stanley Thornes, Cheltenham, UK.
  94. Berryman, A.A., ed. (2002). Population cycles. The case for trophic interactions. Oxford University Press.
  95. Berryman, A.A., Kindlmann, P. (2008). Population systems. A general introduction (mit 1 CD). Springer.
  96. Bertalanffy, L. v. (1969). General system theory. Braziller, New York. (bei Frank Hilker)
  97. Bertalanffy, L. v., Beier, W., Laue, R. (1977). Biophysik des Fließgleichgewichts. Akademieverlag, Berlin. (bei Frank Hilker)
  98. Beucher, O. (2006). MATLAB und Simulink. Grundlegende Einführung für Studenten und Ingenieure in der Praxis. Pearson, München.
  99. Beuter, A., Glass, L., Mackey, M.C., Titcombe, M.S., eds. (2003). Nonlinear dynamics in physiology and medicine. Interdisciplinary Applied Mathematics, vol. 25. Springer-Verlag, Berlin.
  100. Beverton, R.J.H., Holt, S.J. (1993). On the dynamics of exploited fish populations. Blackburn Press.
  101. Bezruchko, B.P., Smirnov, D.A. (2010). Extracting knowledge from time series. An introduction to nonlinear empirical modeling. Springer.
  102. Bisswanger, H. (2000). Enzymkinetik. Theorie und Methodem. Wiley-VCH, Weinheim (mit 1 CD).
  103. Bjørnstad, O.N. (2018). Epidemics. Models and data using R. Springer. (bei Frank Hilker)
  104. Blasius, B., Kurths, J., Stone, L., eds. (2007). Complex population dynamics. World Scientific, New Jersey.
  105. Blickhan, D. (2021). Positive Psychologie und Coaching - Von der Lösung- zur Wachstumsorientierung. Junfermann. (bei Carolin Janssen)
  106. Blickhan, D. (2018). Positive Psychologie - Ein Handbuch für die Praxis. Junfermann. (Bei Carolin Janssen)
  107. Boccara, N. (2010). Modeling complex systems. Springer.
  108. Bode, M. (1995). Umweltmanagement in Unternehmen. Information-Verlag, Freiburg.
  109. Bodine, E.N., Lenhart, S., Gross, L.J. (2014). Mathematics for the life sciences. Princeton University Press, Princeton.  (bei Frank Hilker)
  110. Boersema, J.J., Reijnders, L., eds. (2009). Principles of environmental sciences. Springer, Dordrecht.
  111. Bolgar, M., Hubball, J., Groeger, J., Meronek, S. (2016). Handbook for the chemical analysis of plastic and polymer additives. CRC Press. (bei Jörg Klasmeier)
  112. Bolker, B.M. (2008). Ecological models and data in R. Princeton University Press, Princeton.
  113. Borisyuk, A., Ermentrout, G.B., Friedman, A., Terman, D., eds. (2005). Tutorials in mathematical biosciences I. Mathematical neuroscience. Lecture Notes in Mathematics, v. 1860. Springer.
  114. Bossel, H. (1994). Modellbildung und Simulation. Konzepte, Verfahren und Modelle zum Verhalten dynamischer Systeme. Vieweg, Braunschweig. (bei Andreas Focks)
  115. Bossel, H. (2004). Systeme, Dynamik, Simulation. Modellbildung, Analyse und Simulation komplexer Systeme Systeme. Books on Demand GmbH, Norderstedt.
  116. Bossel, H. (2004). Systemzoo I - Elementarsysteme, Technik und Physik. Books on Demand GmbH, Norderstedt. (bei Andreas Focks)
  117. Bossel, H. (2004). Systemzoo II - Klima, Ökosysteme und Ressourcen. Books on Demand GmbH, Norderstedt. (bei Andreas Focks)
  118. Bossel, H. (2004). Systemzoo III - Wirtschaft, Gesellschaft und Entwicklung. Books on Demand GmbH, Norderstedt. (bei Andreas Focks)
  119. Bossel, H. (2005). Systemzoo. CompactDisc. co.Tec Verlag, Rosenheim.
  120. Botsford, L.W., Wilson White, J., Hastings, A. (2019). Population dynamics for conservation. Oxford University Press. (bei Frank Hilker)
  121. Box, G.E.P., Draper, N.R. (2007). Response surfaces, mixtures, and ridge analyses. Wiley.
  122. Box, G.E.P., Hunter, J.S., Hunter, W.G. (2005). Statistics for experimenters. Design, innovation, and discovery. Wiley, Hoboken NJ. (bei Jörg Klasmeier)
  123. Box, G.E.P., Hunter, G.M., Reinsel, G.C. (2008). Time series analysis. Forecasting and control. Wiley, Hoboken NJ.
  124. Brauer, F., Castillo-Chavez, C. (2001). Mathematical models in population biology and epidemiology. Text in Applied Mathematics, Vol. 40. Springer-Verlag, New York.
  125. Brauer, F., Castillo-Chavez, C. (2012). Mathematical models in population biology and epidemiology. Text in Applied Mathematics, Vol. 40. Springer-Verlag, New York (2nd ed.) 2 Ex (1x bei Frank Hilker)
  126. Brauer, F., Kribs, C. (2016). Dynamical systems for biological modeling. CRC. (bei Frank Hilker)
  127. Brauer, F., van den Driesche, P., Wu, J., eds. (2008). Mathematical epidemiology. Mathematical Biosciences Subseries, Vol. 1945. Springer-Verlag, Berlin.
  128. Britton, N.F. (2003). Essential mathematical biology. Springer Undergraduate Mathematics Series. Springer-Verlag, Berlin.
  129. Bronstein, I.N., Semendjajew, K.A., Musiol, G., Mühlig, H. (2016). Taschenbuch der Mathematik. Harri Deutsch.
  130. Broom, M., Rychtár, J. (2013). Game-theoretical models in biology. CRC. (bei Frank Hilker)
  131. Brown, D., Rothery, P. (1994). Models in biology. Mathematics, statistics and computing. Wiley.
  132. Brown, P.J. (2002). Measurement, regression, and calibration. Clarendon Press, Oxford.
  133. Brüggemann, R., Drescher-Kaden, U. (2003). Einführung in die modellgestützte Bewertung von Umweltchemikalien. Springer-Verlag, Berlin.
  134. Buchanan, M. (2002). NEXUS: Small worlds and the groundbreaking world of networks. Norton.
  135. Bullock, J.M., Kenward, R.E., Hails, R.S., eds. (2002). Dispersal ecology. Cambridge University Press.
  136. Bulmer, M. (1994). Theoretical evolutionary ecology. Sinauer, Sunderland.
  137. Bunde, A., Kropp, J., Schellnhuber, H.J., eds. (2002). The science of disasters. Springer.
  138. Bungartz, H.-J., Zimmer, S., Buchholz, M., Pflüger, D. (2009). Modellbildung und Simulation. Eine anwendungsorientierte Einführung. Springer.
  139. Buongiorno, J., Keith Gilles, J. (2003). Decision methods for forest resource management. Elsevier.
  140. Burgman, M. (2007). Risks and decisions for conservation and environmental management. Cambridge University Press.
  141. Camazine, S., Deneubourg, J.-L., Franks, N.R., Sneyd, J., Theraulaz, G., Bonabeau, E. (2003). Self-organization in biological systems. Princeton University Press, Princeton NJ.
  142. Canham, C.D., Cole, J.J., Lauenroth, W.K., eds. (2003). Models in ecosystem science. Princeton University Press.
  143. Cantrell, R.S., Cosner, C. (2003). Spatial ecology via reaction-diffusion equations. Wiley, Chichester.
  144. Cantrell, R.S., Cosner, C., Ruan, S., eds. (2010). Spatial ecology. Mathematical and Computational Biology Series, CRC Press, Boca Raton.
  145. Capasso, V., Bakstein, D. (2015). An introduction to continuous-time stochastic processes. Birkhäuser.
  146. Capdevila-Argüelles, L., Zilleti, B., eds. (2005). Issues in bioinvasion science. Springer, Dordrecht.
  147. Caro, T. (2005). Antipredator defenses in birds and mammals. University of Chicago Press.
  148. Carpenter, S.R. (2003). Regime shifts in lake ecosystems: pattern and variation. Int'l Ecology Institute, Oldendorf. (bei Frank Hilker)
  149. Carslaw, H.S., Jaeger, J.C. (2011). Conduction of heat in solids. Clarendon Press.
  150. Case, T.J. (2000). An illustrated guide to theoretical ecology. Oxford University Press, New York.
  151. Caswell, H. (2001). Matrix population models. Sinauer, Sunderland MA.
  152. Cartwright, E. (2018). Behavioral Economics. 3rd Edition. Routledge. (AG Umweltökonomie)
  153. Caughley, G. (1980). Analysis of vertebrate populations. Blackburn, Caldwell NJ. (bei Frank Hilker)
  154. Chambers, R.G. (1988). Applied production analysis. A dual approach. Cambridge University Press.
  155. Chornei, R.K., Daduna, H., Knopov, P.S. (2006). Control of spatially structured random processes and random fields with applications. Nonconvex Optimization and Its Applications, vol. 86. Springer, New York.
  156. Christakis, N.A., Fowler, J.H. (2010). Connected! Die Macht sozialer Netzwerke und warum Glück ansteckend ist. S. Fischer, Frankfurt/Main.
  157. Christensen, K., Moloney, N.R. (2005). Complexity and criticality. Imperial College Press Advanced Physics Texts, vol. 1. Imperial College Press, London.
  158. Clark, C.W. (1976). Mathematical bioeconomics. The optimal management of renewable resources. Wiley. (1st ed.)
  159. Clark, C.W. (1990). Mathematical bioeconomics. The optimal management of renewable resources. Wiley. (2nd ed.)
  160. Clark, C.W. (2005). Mathematical bioeconomics. The optimal management of renewable resources. Wiley. (2nd ed.)
  161. Clark, C.W. (2010). Mathematical bioeconomics. The mathematics of conservation. Wiley. (bei Frank Hilker)
  162. Clark, C.W., Mangel, M. (2000). Dynamic state variable models in ecology. Methods and applications. Oxford University Press.
  163. Clark, J.S. (2007). Models for ecological data. An introduction. Princeton University Press.
  164. Clark, M.M. (2009). Transport modeling for environmental engineers and scientists. Wiley, Hoboken NJ.
  165. Clayton, P., Davies, P., eds. (2006). The re-emergence of emergence. Oxford University Press, Oxford.
  166. Coffey, W.T., Kalmykov, Yu.P., Waldron, J.T. (2005). The Langevin equation. With applications to stochastic problems in physics, chemistry and electrical engineering. World Scientific, New Jersey.
  167. Coleman, M.P. (2005). An introduction to partial differential equations with MATLAB. Chapman & Hall / CRC, Boca Raton.
  168. Conrad, J.M. (2010). Resource economics. Cambridge University Press. (bei Frank Hilker)
  169. Conrad, J.M., Clark, C.W. (1995). Natural resource econiomics. Notes and problems. Cambridge University Press. (bei Frank Hilker)
  170. Costantino, R.F., Desharnais, R.A. (1991). Population dynamics and the Tribolium model: Genetics and demography. Springer.
  171. Costanza, R., Voinov, A., eds. (2004). Landscape simulation modeling. A spatially explicit, dynamic approach. Springer.
  172. Courchamp, F., Berec, L., Gascoigne, J. (2008). Allee effects in ecology and conservation. Oxford University Press, Oxford. (bei Caroline Grumbach)
  173. Cousens, R., Dytham, C., Law, R. (2008). Dispersal in plants. A population perspective. Oxford Biology. Oxford University Press, Oxford.
  174. Crane, M., Newman, M.C., Chapman, P.F., Fenlon, J., Eds. (2002). Risk assessment with time to event models. Lewis Publ., Boca Raton.
  175. Crank, J. (2011). The mathematics of diffusion. Oxford University Press.
  176. Crawley, M.J., ed. (1992). Natural enemies. The population biology of predators, parasites and diseases. Blackwell, London. (bei Frank Hilker)
  177. Cull, P., Flahive, M., Robson, R. (2005). Difference equations. From Rabbits to chaos. Springer, Berlin.
  178. Cullen, A.C., Frey, H.C. (1999). Probabilistic techniques in exposure assessment. A handbook for dealing with variability and uncertainty in models and inputs. Plenum Press, New York.
  179. Cullen, M.R. (1985). Linear models in biology. Linear systems analysis with biological applications. Horwood.
  180. Cushing, J.M. (1998). An introduction to structured population dynamics. SIAM.
  181. Cushing, J.M., Costantino, R.F., Dennis, B., Desharnais, R.A., Henson, S.M. (2003). Chaos in ecology. Experimental nonlinear dynamics. Academic Press, Amsterdam. (bei Frank Hilker)
  182. Cushman, S.A., Huettmann, F., eds. (2010). Spatial complexity, informatics, and wildlife conservation. Springer.
  183. Cussler, E.L. (2009). Diffusion. Mass transfer in fluid systems. Cambridge University Press, Cambridge.
  184. Czaran, T. (1997). Spatiotemporal models of population and community dynamics. Chapman & Hall, London.
  185. Dai, L. (2008). Nonlinear dynamics of piecewise constant systems and implementation ogpiecewise constant arguments. World Scientific. (bei Frank Hilker)
  186. Daley, D.J., Gani, J. (1999). Epidemic modelling. An introduction. Cambridge Studies in Mathematical Biology, Vol. 15. Cambridge University Press, Cambridge UK.
  187. Danzer, K., Hobert, H., Fischbacher, C., Jagemann, K.-U. (2001). Chemometrik. Grundlagen und Anwendungen. Springer, Berlin.
  188. Davis, M.A. (2012). Invasion biology. Oxford University Press.
  189. Davis, T.A. (2011). MATLAB Primer. CRC Press, Boca Raton.
  190. DeAngelis, D.L., Gross, L.J., eds. (1992). Individual-based models and approaches in ecology. Populations, communities and ecosystems. Chapman and Hall, New York. (bei Andreas Focks)
  191. DeAngelis, D.L. (1992). Dynamics of nutrient cycling and food webs. Chapman & Hall, New York. (bei Frank Hilker)
  192. DreAngelis, D., Post, W.M., Travis, C.C. (1986). Positive feedback in natural systems. Springer. (bei Frank Hilker)
  193. Deaton, M.L., Winebrake, J.I. (2000). Dynamic modeling of environmental systems. Springer. (bei Frank Hilker)
  194. Denny, M.W. 1993). Air and water. The biology and physics of life's media. Princeton University Press, Princeton.
  195. Deutsch, A., Brusch, L., Byrne, H., de Vries, G., Herzel, H., eds. (2007). Mathematical modeling of biological systems, vol. I. Cellular biophysics, regulatory networks, development, biomedecine, and data analysis. Birhäuser, Boston.
  196. Deutsch, A., Bravo de la Parra, R., de Boer, R.J., Diekmann, O., Jagers, P., Kisdi, E., Kretzschmar, M., Lansky, P., Metz, H., eds. (2008). Mathematical modeling of biological systems, vol. II. Edidemiology, evolution and ecology, immunology, neural systems and the brain, and innovative mathematical methods. Birhäuser, Boston.
  197. Deutsch, A., Dormann, S., eds. (2005). Cellular automaton modelling of biological pattern formation. Characterization, applications, and analysis. Birkhäuser, Boston.
  198. Diamond, J. (2014). Kollaps. Warum Gesellschaften überleben oder untergehen. Fischer.
  199. Diamond, J., Case, T.J., eds. (1986). Community ecology. Harper & Row.
  200. Diaz, J.I., ed. (1997). The mathematics of models for climatology and environment. NATO ASI Series: Ser. I, Global Environmental Change, Vol. 48. Springer-Verlag, Berlin.
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