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UB Sonderstandort M8 Systemwissenschaft

Arbeitsgruppen Angewandte und Theoretische Systemwissenschaft

Barbarastr. 12, Raum 66/107, Tel. 969-2499 (Prof. Dr. H. Malchow)

  1. Acheson, D. (1998). From calculus to chaos. Oxford University Press, Oxford.

  2. Adami, C. (1998). Introduction to artificial life. Springer-Verlag, New York.

  3. Aga, D.S., ed. (2008). Fate of pharmaceuticals in the environment and in water treatment systems. CRC Press, Boca Raton. (bei Michael Matthies)

  4. Akan, A.O., Houghtalen, R.J. (2003). Urban hydrology, hydraulics, and stormwater quality. Wiley, Hoboken NJ. (bei Jörg Klasmeier)

  5. Albert, A., ed. (1995). Chaos and society. Frontiers in Artificial Intelligence and Applications, vol. 29. IOS Press, Amsterdam.

  6. Alexander, M. (1999). Biodegradation and bioremediation. Academic Press, San Diego. (bei Michael Matthies)

  7. Allen, L.S. (2003). An introduction to stochastic processes with applications to biology. Pearson Education, Upper Saddle River NJ.

  8. Allen, L.S. (2007). An introduction to mathematical biology. Pearson Education, Upper Saddle River NJ.

  9. Allen, R.B., Lee, W.G., eds. (2006). Biological invasions in New Zealand. Ecological Studies, vol. 186. Springer, Berlin.

  10. Alligood, K.T., Sauer, T.D., Yorke, J.A. (1997). Chaos. An introduction to dynamical systems. Springer, Berlin.

  11. Allman, E.S., Rhodes, J.A. (2007). Mathematical models in biology. An introduction. Cambridge University Press, Cambridge.

  12. Alloway, B.J., Ayres, D.C. (1996). Chemical principles of environmental pollution. Chapman & Hall, London.

  13. Alt, W., Deutsch, A., Dunn, G. (1997). Dynamics of cell and tissue motion. Birkhäuser, Basel.

  14. Anderson, R.M., May, R.M. (1991, repr. 2010). Infectious diseases of humans. Dynamics and control. Oxford University Press, Oxford.

  15. 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.

  16. Angermann, A., Beuschel, M., Rau, M., Wohlfahrt, U. (2007). MATLAB - Simulink - Stateflow. Mit CD-Rom. Oldenbourg, München. (bei Christian Ehling)

  17. Aquaprox, Hrsg. (2007). Kühlwasserbehandlung. Springer-Verlag, Berlin. (bei Elke Fries)

  18. Archer, D., Rahmstorf, S. (2010). The climate crisis. Cambridge University Press, Cambridge.

  19. Auger, P., Lett, C., Poggiale, J.-P. 2010). Modélisation mathématique en écologie. Cours et exercises corrigés. Dunod, Paris.

  20. Bacaer, N. (2011). A short history of mathematical population dynamics. Springer, London.

  21. Backhaus, K., Erichson, B., Plinke, W., Weiber, R. (2006). Multivariate Analysemethoden. Eine anwendungsorientierte Einführung. (2 Exemplare) (1x bei Christian Ehling, 1x bei Elke Fries)

  22. Balanov, A., Janson, N., Postnov, D., Sosnovtseva, O. (2009). Synchronization: From simple to complex. Springer Series in Synergetics. Springer, Berlin.

  23. Baneth, A. (2010). The ultimate EU test book 2010). John Harper Publ., London. (bei Elke Fries)

  24. Banks, H.T., Tran, H.T. (2009). Mathematical and experimental modelling of physical and biological processes. Textbooks in Mathematics, CRC Press, Boca Raton.

  25. Banks, R.B. (1994). Growth and diffusion phenomena. Springer, Berlin.

  26. 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)

  27. Baretta-Bekker, H.J.G., Duursma, E.K., Kuipers, B.R. (1998). Encyclopedia of marine sciences. Springer-Verlag, Berlin.

  28. Barthelme, N. (2005). Geoinformatik. Modelle, Strukturen, Funktionen. Springer, Berlin. (bei Jürgen Berlekamp)

  29. Bar-Yam, Y. (2004). Making things work. Solving complex problems in a complex world. NECSI - Knowledge Press.

  30. Baum, E.J. (1998). Chemical Property Estimation. Theory and Application. Lewis Publ., Boca Raton. (bei Jörg Klasmeier)

  31. Bazykin, A.D. (1998). Nonlinear dynamics of interacting populations. World Scientific, Singapore.

  32. Beck, M., Hrsg. (1996). Umweltrecht für Nichtjuristen. Vogel, Würzburg.

  33. Begon, M., Townsend, C.R., Harper, J.L. (2006). From individuals to ecosystems. Blackwell, Oxford.

  34. Behrendt, S., Kreibich, R., Hrsg. (1994). Die Mobilität von Morgen: Umwelt- und Verkehrsentlastung in den Städten. ZukunftsStudien, Bd. 12. Beltz, Weinheim.

  35. Bellomo, N., Preziosi, L. (1995). Modelling mathematical methods and scientific computation. CRC Press, Boca Raton.

  36. Beltrami, E. (1987). Mathematics for dynamic modelling. Academic Press, Boston.

  37. Beltrami, E. (1993). Von Krebsen und Kriminellen. Mathematische Modelle in Biologie und Soziologie. Vieweg, Braunschweig.

  38. Berg, E., Kuhlmann, F. (1993). Systemanalyse und Simulation für Agrarwissenschaftler und Biologen. Ulmer, Stuttgart.

  39. Berryman, A.A. (1999). Principles of population dynamics. Stanley Thornes, Cheltenham, UK.

  40. Berryman, A.A., ed. (2002). Population cycles. The case for trophic interactions. Oxford University Press.

  41. Berryman, A.A., Kindlmann, P. (2008). Population systems. A general introduction (mit 1 CD). Springer.

  42. Beucher, O. (2006). MATLAB und Simulink. Grundlegende Einführung für Studenten und Ingenieure in der Praxis. Pearson, München. (bei Christian Ehling)

  43. 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.

  44. Bisswanger, H. (2000). Enzymkinetik. Theorie und Methodem. Wiley-VCH, Weinheim (mit 1 CD). (bei Tanja Müller)

  45. Blasius, B., Kurths, J., Stone, L., eds. (2007). Complex population dynamics. World Scientific, New Jersey.

  46. Bode, M. (1995). Umweltmanagement in Unternehmen. Information-Verlag, Freiburg.

  47. Boersema, J.J., Reijnders, L., eds. (2009). Principles of environmental sciences. Springer, Dordrecht. (bei Michael Matthies)

  48. 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.

  49. Bossel, H. (1994). Modellbildung und Simulation. Konzepte, Verfahren und Modelle zum Verhalten dynamischer Systeme. Vieweg, Braunschweig.

  50. Bossel, H. (2004). Systeme, Dynamik, Simulation. Modellbildung, Analyse und Simulation komplexer Systeme Systeme. Books on Demand GmbH, Norderstedt. (bei Elke Fries)

  51. Bossel, H. (2004). Systemzoo I - Elementarsysteme, Technik und Physik. Books on Demand GmbH, Norderstedt.

  52. Bossel, H. (2004). Systemzoo II - Klima, Ökosysteme und Ressourcen. Books on Demand GmbH, Norderstedt.

  53. Bossel, H. (2004). Systemzoo III - Wirtschaft, Gesellschaft und Entwicklung. Books on Demand GmbH, Norderstedt.

  54. Bossel, H. (2005). Systemzoo. CompactDisc. co.Tec Verlag, Rosenheim.

  55. Box, G.E.P., Hunter, J.S., Hunter, W.G. (2005). Statistics for experimenters. Design, innovation, and discovery. Wiley, Hoboken NJ. (bei Elke Fries)

  56. Box, G.E.P., Hunter, G.M., Reinsel, G.C. (2008). Time series analysis. Forecasting and control. Wiley, Hoboken NJ.

  57. Brauer, F., Castillo-Chavez, C. (2001). Mathematical models in population biology and epidemiology. Text in Applied Mathematics, Vol. 40. Springer-Verlag, New York.

  58. Brauer, F., van den Driesche, P., Wu, J., eds. (2008). Mathematical epidemiology. Mathematical Biosciences Subseries, Vol. 1945. Springer-Verlag, Berlin.

  59. Britton, N.F. (2003). Essential mathematical biology. Springer Undergraduate Mathematics Series. Springer-Verlag, Berlin. (bei Klaus Brauer)

  60. Brüggemann, R., Drescher-Kaden, U. (2003). Einführung in die modellgestützte Bewertung von Umweltchemikalien. Springer-Verlag, Berlin.

  61. Bullock, J.M., Kenward, R.E., Hails, R.S., eds. (2002). Dispersal ecology. Cambridge University Press.

  62. Bulmer, M. (1994). Theoretical evolutionary ecology. Sinauer, Sunderland.

  63. Bungartz, H.-J., Zimmer, S., Buchholz, M., Pflüger, D. (2009). Modellbildung und Simulation. Eine anwendungsorientierte Einführung. Springer.

  64. Cantrell, R.S., Cosner, C. (2003). Spatial ecology via reaction-diffusion equations. Wiley, Chichester.

  65. Cantrell, R.S., Cosner, C., Ruan, S., eds. (2010). Spatial ecology. Mathematical and Computational Biology Series, CRC Press, Boca Raton.

  66. Capdevila-Argüelles, L., Zilleti, B., eds. (2005). Issues in bioinvasion science. Springer, Dordrecht.

  67. Case, T.J. (2000). An illustrated guide to theoretical ecology. Oxford University Press, New York.

  68. Caswell, H. (2001). Matrix population models. Sinauer, Sunderland MA.

  69. Chornei, R.K., Daduna, H., Knopov, P.S. (2006). Control of spatially structured random processes and random fields with applications. No0nconvex Optimization and Its Applications, vol. 86. Springer, New York.

  70. Christakis, N.A., Fowler, J.H. (2010). Connected! Die Macht sozialer Netzwerke und warum Glück ansteckend ist. S. Fischer, Frankfurt/Main.

  71. Christensen, K., Moloney, N.R. (2005). Complexity and criticality. Imperial College Press Advanced Physics Texts, vol. 1. Imperial College Press, London.

  72. Clark, M.M. (2009). Transport modeling for environmental engineers and scientists. Wiley, Hoboken NJ.

  73. Clayton, P., Davies, P., eds. (2006). The re-emergence of emergence. Oxford University Press, Oxford.

  74. 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.

  75. Coleman, M.P. (2005). An introduction to partial differential equations with MATLAB. Chapman & Hall / CRC, Boca Raton.

  76. Courchamp, F., Berec, L., Gascoigne, J. (2008). Allee effects in ecology and conservation. Oxford University Press, Oxford.

  77. Cousens, R., Dytham, C., Law, R. (2008). Dispersal in plants. A üpopulation perspective. Oxford Biology. Oxford University Press, Oxford.

  78. Crane, M., Newman, M.C., Chapman, P.F., Fenlon, J., Eds. (2002). Risk assessment with time to event models. Lewis Publ., Boca Raton.

  79. Cull, P., Flahive, M., Robson, R. (2005). Difference equations. From Rabbits to chaos. Springer, Berlin.

  80. 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.

  81. Cushing, J.M., Costantino, R.F., Dennis, B., Desharnais, R.A., Henson, S.M. (2003). Chaos in ecology. Experimental nonlinear dynamics. Academic Press, Amsterdam.

  82. Cussler, E.L. (2009). Diffusion. Mass transfer in fluid systems. Cambridge University Press, Cambridge. (bei Jörg Klasmeier)

  83. Czaran, T. (1997). Spatiotemporal models of population and community dynamics. Chapman & Hall, London.

  84. Daley, D.J., Gani, J. (1999). Epidemic modelling. An introduction. Cambridge Studies in Mathematical Biology, Vol. 15. Cambridge University Press, Cambridge UK.

  85. Danzer, K., Hobert, H., Fischbacher, C., Jagemann, K.-U. (2001). Chemometrik. Grundlagen und Anwendungen. Springer, Berlin. (bei Elke Fries)

  86. Davis, T.A. (2011). MATLAB Primer. CRC Press, Boca Raton.

  87. DeAngelis, D.L., Gross, L.J., eds. (1992). Individual-based models and approaches in ecology. Populations, communities and ecosystems. Chapman and Hall, New York.

  88. DeAngelis, D.L. (1992). Dynamics of nutrient cycling and food webs. Chapman & Hall, New York.

  89. Denny, M.W. 1993). Air and water. The biology and physics of life's media. Princeton University Press, Princeton. (bei Jörg Klasmeier)

  90. 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.

  91. 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.

  92. Deutsch, A., Dormann, S., eds. (2005). Cellular automaton modelling of biological pattern formation. Characterization, applications, and analysis. Birkhäuser, Boston.

  93. 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.

  94. Dieckmann, U., Metz, J.A.J., Sabelis, M.W., Sigmund, K. (2002). Adaptive dynamics of infectious diseases: in pursuit of virulence management. Cambridge University Press, Cambridge.

  95. Diekmann, O., Heesterbeck, J.A.P. (2000). Mathematical epidemiology of infectious diseases. Model building, analysis and interpretation. Wiley, Chichester.

  96. Diekmann, B., Heinloth, K. (1997). Energie. Teubner-Verlag, Stuttgart-Leipzig.

  97. Dirks, H. (2007). Klima - Wandel ohne Katastrophe. Wetter - beobachten und verstehen. BOD, Norderstedt.

  98. Dixon, K.R. (2012). Modeling and simulation in ecotoxicology with applications in MATLAB and Simulink. (mit 1 CD). CRC Press, Boca Raton.

  99. Dörhöfer, G. (2001). Aufbruch nach Europa : Hydrogeologie vor neuen Aufgaben. Arbeitshefte Wasser, Heft 1, 2001. Schweizerbart, Stuttgart. (bei Jürgen Berlekamp)

  100. Drake, J.A., Mooney, H.A., eds. (1989). Biological invasions. A global perspective. SCOPE 37. Wiley, Chichester.

  101. Driscoll, T.A. (2009). Learning MATLAB. SIAM, Philadelphia.

  102. Drittfinanzierung von Energiesparvorhaben im öffentlichen Sektor. Tagungsband. Energie & Management Verlagsgesellschaft, Herrsching (1995).

  103. Duursma, E.K., Carroll, J.L. (1996). Environmental compartments. Springer, Berlin.

  104. Ebeling, W., Freund, J., Schweitzer, F. (1998). Komplexe Strukturen: Entropie und Information. Teubner-Verlag, Stuttgart-Leipzig.

  105. Ebeling, W., Sokolov, I.M. (2005). Statistical thermodynamics and stochastic theory of nonequilibrium systems. Series on Advances in Statistical Mechanics, Vol. 8. World Scientific, Singapore.

  106. Edelstein-Keshet, L. (2005). Mathematical models in biology. Classics in Applied Mathematics, vol. 46. SIAM, Philadelphia.

  107. Ellner, S.P., Guckenheimer, J. (2006). Dynamic models in biology. Princeton University Press, Princeton. 2 Ex.

  108. Elton, C.S. (1958). The ecology of invasions by animals and plants. The University of Chicago Press, Chicago.

  109. Endres, A., Holm-Müller, K. (1998). Die Bewertung von Umweltschäden. Kohlhammer, Stuttgart. (bei Elke Fries)

  110. Engeln-Müllges, G., Uhlig, F. (1996). Numerical algorithms with C. Springer, Berlin.

  111. Feistel, R., Ebeling, W. (2011). Physics of self-organization and evolution. Wiley-VCH, Weinheim.

  112. Fent, K. (2007). Ökotoxikologie. Umweltchemie - Toxikologie - Ökologie. Thieme, Stuttgart. (bei Jan Priegnitz)

  113. Feudel, U., Kuznetsov, S., Pikovsky, A. (2006). Strange nonchaotic attractors. Dynamics between order and chaos in quasiperiodically forced systems. World Scientific Series on Nonlinear Science, vol. 56. World Scientific, New Jersey.

  114. Figura, L.O., Teixeira, A.A. (2007). Food physics. Physical properties - measurements and applications. Springer, Berlin. (bei Michael Matthies)

  115. Fisher, D.M. (2005). Modeling dynamic systems. Lessons for a first course. Stella Software, Teacher's Guide. (bei Michael Matthies)

  116. Flood, R.L., Carson, E.R. (1993). Dealing with complexity. Plenum Press, New York.

  117. Ford, A. (1999). Modeling the environment. An introduction to system dynamics modeling of environmental systems. Island Press, Washington DC. (2 Ex) (1x bei Michael Matthies)

  118. Fowler, A.C. (1997). Mathematical models in the applied sciences. Cambridge Texts in Applied Mathematics, Cambridge University Press, Cambridge UK.

  119. Fränzle, O., Müller, F., Schröder, W., Hrsg. (1997). Handbuch der Umweltwissenschaften. Bd.1: Grundlagen und Anwendungen der Ökosystemforschung. 3 Bde., ecomed, Landsberg.

  120. Fränzle, S., Markert, B., Wünschmann, S. (2005). Technische Umweltchemie. Innovative Verfahren der Reinigung verschiedener Umweltkompartimente. ecomed MEDIZIN, Landsberg am Lech. (bei Jörg Klasmeier)

  121. Françoise, J.-P. (2005). Oscillations en biologie. Mathématique & Applications, Vol. 46. Springer, Berlin.

  122. Freund, J.A., Hrsg. (1996). Dynamik, Evolution, Strukturen. Nichtlineare Dynamik und Statistik komplexer Strukturen. Verlag Dr. Köster, Berlin.

  123. Friedman, A., ed. (2006). Tutorials in mathematical biosciences III. Cell cycle, proliferation, and cancer. Lecture Notes in Mathematics, v. 1872. Springer.

  124. Friedman, A., ed. (2006). Tutorials in mathematical biosciences IV. Evolution and ecology. Lecture Notes in Mathematics, v. 1922. Springer.

  125. Garcia-Ojalvo, J., Sancho, J.M. (1999). Noise in spatially extended systems. Institute of Nonlinear Science. Springer-Verlag, New York.

  126. Gardiner, C.W. (1985). Handbook of stochastic methods. Springer Series in Synergetics, vol. 13. Springer-Verlag, Berlin.

  127. Gehrke, W. (1996). Fortran 95 language guide. Springer, Berlin.

  128. Gelman, A., Carlin, J.B., Stern, H.S., Rubin, D.B. (2004). Bayesian data analysis. Texts in Statistical Science. Chapman & Hall / CRC, Boca Raton. (bei Tanja Müller)

  129. Gerhard, M., Schuster, H. (1995). Das digitale Universum. Zelluläre Automaten als Modelle der Natur. Vieweg, Braunschweig.

  130. Ghannoum, M., O'Toole, G.A., eds. (2004). Microbial biofilms. ASM Press, New York.

  131. Gillespie, D.T. (1992). Markov processes. An introduction for physical scientists. Academic Press, Boston.

  132. Gillman, M. (2009). An introduction to mathematical models in ecology and evolution. Wiley-Blackwell.

  133. Golubitsky, M., Stewart, I. (2000). From equilibrium to chaos in phase space and physical space. The symmetry perspective. Birkhäuser, Basel.

  134. Grace, J.B., Tilman, D., eds. (1990). Perspectives on plant competition. The Blackburn Press, Caldwell.

  135. Grasman, J., Straten, G., eds. (1994). Predictability and nonlinear modeling in natural sciences and economics. Kluwer, Dordrecht.

  136. Green, C. (2003). Handbook of water economics. Principles and practice. Wiley, Chichester. (bei Michael Matthies)

  137. Greenspan, D. (1997). Particle modeling. Birkhäuser, Basel.

  138. Grimm, V., Railsback, S.F. (2005). Individual-based modeling and ecology. Princeton Series in Theoretical and Computational Biology. Princeton University Press, Princeton and Oxford.

  139. Gros, C. (2008). Complex and adaptive dynamical systems. A primer. Springer Complexity. Springer-Verlag, Berlin.

  140. Grover, J.P. (1997). Resource competition. Population and Community Biology Series, vol. 19. Chapman & Hall, London.

  141. Haefner, J.W. (2005). Modeling biological systems. Principles and applications. (mit 1 CD). Springer, New York.

  142. Haken, H. (1978). Synergetics. An introduction. Springer Series in Synergetics, vol. 1. Springer-Verlag, Berlin.

  143. Haken, H. (1983). Advanced synergetics. Springer Series in Synergetics, vol. 20. Springer-Verlag, Berlin.

  144. Haken, H. (2004). Die Selbstorganisation komplexer Systeme - Ergebnisse aus der Werkstatt der Chaostheorie. Wiener Vorlesungen. Picus, Wien.

  145. Haken, H. (2007 & 2008). Brain dynamics. Springer Series in Synergetics. Springer-Verlag, Berlin.

  146. Harrad, S., ed. (2010). Persistent organic pollutants. Wiley, Chichester. (bei Michael Matthies)

  147. Harte, J. (1988). Consider a spherical cow. A course in environmental problem solving. University Science Books, Sausalito CA.

  148. Harte, J. (2001). Consider a spherical cow. More adventures in environmental problem solving. University Science Books, Sausalito CA.

  149. Harte, J., Holdren, C., Schneider, R., Shirley, C. (1991). Toxics A to Z. A guide to everyday pollution hazards. University of California Press, Berkeley CA.

  150. Heermann, D.W. (1990). Computer simulation methods in theoretical physics. Springer, Berlin.

  151. Herrmann, D., Verse-Herrmann, A. (2006). Geld fürs Studium und die Doktorarbeit. Wer fördert was? Eichborn, Frankfurt/Main.

  152. Herrmann, D., Spath, C. (2008). Forschungshandbuch 2008/2009. Eichborn, Frankfurt/Main.

  153. Helbing, D. (1995). Quantitative sociodynamics. Stochastic methods and models of social interaction processes. Theory and Decision Library B: Mathematical and Statistical Methods, vol. 31. Kluwer, Dordrecht.

  154. Helbing, D. (1997). Verkehrsdynamik. Springer, Berlin.

  155. Hengeveld, R. (1992). Dynamic biogeography. Cambridge Studies in Ecology. Cambridge University Press, Cambridge UK.

  156. Hengeveld, R., ed. (1989). Dynamics of biological invasions. Chapman & Hall, London.

  157. Hinkelmann, R. (2005). Efficient numerical methods and iformation-processing techniques for modeling hydro- and environmental systems. Lecture Notes in Applied and Computational Mechanics, vol. 21. Springer, Berlin.

  158. Hites, R.A. (2007). Elements of environmental chemistry. Wiley, Hoboken NJ.

  159. Hölker, F., ed. (2002). Scales, Hierarchies and emergent properties in ecological models. Theorie in der Ökologie, Bd. 6. Peter Lang, Frankfurt/M.

  160. Hölting, B., Coldewey, W.G. (2005). Hydrogeologie. Einführung in die Allgemeine und Angewandte Hydrogeologie. Elsevier, Spektrum, München. (bei Elke Fries)

  161. Hofbauer, J., Sigmund, K. (1998). Evolutionary games and replicator dynamics. Cambridge University Press, Cambridge.

  162. Holzbecher, E. (1996). Modellierung dynamischer Prozesse in der Hydrologie. Springer, Berlin. (bei Jörg Klasmeier)

  163. Holzheu, H. (2008). Natürlich Rhetorik ohne Lampenfieber. Der Weg zum freien Reden. Orell-Füssli, Zürich. (bei Tanja Müller)

  164. Hopfenbeck, W., Willig, M. (1995). Umweltorientiertes Personalmanagement: Umweltbildung, Motivation, Mitarbeiterkommunikation. Verlag Moderne Industrie, Landsberg/Lech.

  165. Horstmann, D. (2008). Mathematik für Biologen. Spektrum, Heidelberg.

  166. Hosking, R.J., Venturino, E. (2007). Aspects of mathematical modelling. Applications in science, medicine, economics and management. Mathematics and Biosciences in Interaction. Birkhäuser, Basel.

  167. Hoyle, R. (2006). Pattern formation. An introduction to methods. Cambridge University Press, Cambridge.

  168. Hubbard, B. Burke (1997). Wavelets - Die Mathematik der kleinen Wellen. Birkhäuser, Basel.

  169. Imboden, D.M., Koch, S. (2003). Systemanalyse. Einführung in die mathematische Modellierung natürlicher Systeme. Springer-Verlag, Berlin. (bei Jörg Klasmeier)

  170. Istas, J. (2005). Mathematical modeling for the life sciences. Universitext. Springer, Berlin.

  171. Jackson, E. Atlee: Perspectives of nonlinear dynamics. Vols. 1+2. Cambridge University Press, Cambridge 1995 (vol. 1), 1994 (vol. 2).

  172. Jacquez, J.A. (1985). Compartmental analysis in biology and medicine. BioMedware, Ann Arbor.

  173. James, A., Hrsg. (1993). An introduction to water quality modelling. Wiley, Chichester. (bei Michael Matthies)

  174. Janert, P.K. (2010). Gnuplot in action. Manning, Greenwich. (3 Ex.)

  175. Jastorff, B., Störmann, R., Wölcke, U. (2003). Struktur-Wirkungs-Denken in der Chemie - eine Chance für mehr Nachhaltigkeit. Universitätsverlag Aschenbeck & Isensee, Bremen - Oldenburg. (bei Michael Matthies)

  176. Jeffries, C. (1989). Mathematical modeling in ecology - a workbook for students. Birkhäuser, Boston.

  177. Jetschke, G. (1989). Mathematik der Selbstorganisation. Deutscher Verlag der Wissenschaften, Berlin.

  178. Jørgensen, S.E. (1992). Integration of ecosystem theories: A pattern. Kluwer Academic Publishers, Dordrecht.

  179. Jørgensen, S.E. (1994). Fundamentals of ecological modelling. Developments in Environmental Modelling, vol. 9 & 19. Elsevier, Amsterdam.

  180. Jørgensen, S.E. (2009). Ecological modelling. An introduction. WIT Press, Southampton.

  181. Jørgensen, S.E., Gromiec, M.J., eds. (1989). Mathematical submodels in water quality systems. Developments in Environmental Modelling, vol. 14. Elsevier, Amsterdam.

  182. Jones, D.S., Sleeman, B.D. (2003). Differential equations and mathematical biology. Chapman & Hall / CRC Mathematical Biology and Medicine Series. Chapman & Hall / CRC, Boca Raton. (bei Klaus Brauer)

  183. Jones, D.S., Plank, M.J., Sleeman, B.D. (2010). Differential equations and mathematical biology. Chapman & Hall / CRC Mathematical Biology and Medicine Series. Chapman & Hall / CRC, Boca Raton.

  184. Jopp, F., Reuter, H., Breckling, B., Eds. (2011). Modelling complex ecological dynamics. Springer, Berlin.

  185. Jordan, D.W., Smith, P. (2009). Nonlinear ordinary differential equations: an introduction for scientists and engineers. Oxford University Press, Oxford.

  186. Jordan, D.W., Smith, P. (2007). Nonlinear ordinary differential equations: problems and solutions. Oxford University Press, Oxford.

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