Main content
Top content
University Library Books M8 @ 66/E16
- Arzneiverordnungs-Report: aktuelle Daten, Kosten, Trends und Kommentare Berlin : Springer, 1985-.
- Critical thinking. Using systems thinking & dynamic modeling. Creative Learning Exchange, 2012. (bei Frank Hilker)
- Communicating critical thinking. Visual tools for student projects. Creative Learning Exchange, 2014. (bei Frank Hilker)
- 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)
- Daten zur Umwelt. Dessau-Roßlau, Umweltbundesamt, 1998.
- Deutscher Akademischer Austauschdienst (2013). Die Internationale Hochschule - Strategien anderer Länder. DAAD.
- Deutscher Akademischer Austauschdienst (2014). Die internationale Hochschule - Die Internationalisierung der deutschen Hochschulen im Zeichen virtueller Lehr und Lernszenarien. DAAD.
- Deutsches Beamten-Jahrbuch Niedersachsen 2013. Walhalla. (bei Elke Altekruse)
- Deutsches gewässerkundliches Jahrbuch / Rheingebiet / 2. München, 1981-2003.
- Deutsches gewässerkundliches Jahrbuch / Rheingebiet / 2. Augsburg : Bayerisches Landesamt für Umwelt, 2000-
- Encyclopedia of Environmental Change (Matthews, J.A., ed.), 3 Bde., Sage Reference.
- Encyclopedia of Biodiversity (Levin, S., ed.), 7 Bde., Elsevier.
- OECD environmental performance reviews. Czech Republic, Organisation for Economic Co-operation and Development. Paris, OECD Publ., 2005-.
- The Ecology Book (2019). Penguin. (bei Frank Hilker)
- TV-L Jahrbuch der Länder 2013. Walhalla. (bei Elke Altekruse)
- Abarbanel, H.D.I. (1996). Analysis of observed chaotic data. Springer.
- Abarbanel, H.D.I. (2013). Predicting the future. Completing models of observed complex systems. Springer.
- Abe, T., Levin, S., Higashi, M. (1997). Biodiversity. An ecological perspective. Springer. (bei Frank Hilker)
- Abraham, R.H., Gardini, L., Mira, C. (1997). Chaos in discrete dynamical systems. A visual introduction in 2 dimensions. Springer. (bei Frank Hilker)
- Abraham, R.H., Shaw, C.D. (1989). Dynamics: The geometry of behavior. Part I: Periodic behavior. Aerial Press, Santa Cruz CA.
- Abraham, R.H., Shaw, C.D. (1990). Dynamics: The geometry of behavior. Part II: Chaotic behavior. Aerial Press, Santa Cruz CA.
- Abraham, R.H., Shaw, C.D. (1989). Dynamics: The geometry of behavior. Part III: Global behavior. Aerial Press, Santa Cruz CA.
- Abraham, R.H., Shaw, C.D. (1988). Dynamics: The geometry of behavior. Part IV: Bifurcation behavior. Aerial Press, Santa Cruz CA.
- Acevedo, M.F. (2013). Simulation of ecological and environmental models.CRC, Boca Raton. (bei Frank Hilker)
- Acheson, D. (1998). From calculus to chaos. Oxford University Press, Oxford.
- Adami, C. (1998). Introduction to artificial life. Springer-Verlag, New York.
- Aga, D.S., ed. (2008). Fate of pharmaceuticals in the environment and in water treatment systems. CRC Press, Boca Raton. (bei Jörg Klasmeier)
- Ågren, G.I., Andersson, F.O. (2012). Terrestrial ecosystem ecology. Cambridge University Press. (bei Frank Hilker)
- Ågren, G.I., Bosatta, E. (1998). Theoretical ecosystem ecology. Cambridge University Press. (bei Frank Hilker)
- Akan, A.O., Houghtalen, R.J. (2003). Urban hydrology, hydraulics, and stormwater quality. Wiley, Hoboken NJ. (bei Jörg Klasmeier)
- Albert, A., ed. (1995). Chaos and society. Frontiers in Artificial Intelligence and Applications, vol. 29. IOS Press, Amsterdam. (bei Friedemann Liebaug)
- D'Alisa, G., Demaria, F., Kallis, G., eds. (2015). Degrowth. A vocabulary for a new era. Routledge.
- Alexander, M. (1999). Biodegradation and bioremediation. Academic Press, San Diego.
- Allan, J.D., Castillo, M.M. (2009). Stream ecology. Structure and function of running waters. Springer.
- Allen, C.R., Garmestani, A.S., eds. (2015). Adaptive management of social-ecological systems. Springer. (bei Frank Hilker)
- Allen, L.S. (2003). An introduction to stochastic processes with applications to biology. Pearson Education, Upper Saddle River NJ.
- Allen, L.S. (2007). An introduction to mathematical biology. Pearson Education, Upper Saddle River NJ.
- Allen, R.B., Lee, W.G., eds. (2006). Biological invasions in New Zealand. Ecological Studies, vol. 186. Springer, Berlin.
- Alligood, K.T., Sauer, T.D., Yorke, J.A. (1997). Chaos. An introduction to dynamical systems. Springer, Berlin.
- Allman, E.S., Rhodes, J.A. (2007). Mathematical models in biology. An introduction. Cambridge University Press, Cambridge.
- Alloway, B.J., Ayres, D.C. (1996). Chemical principles of environmental pollution. Chapman & Hall, London.
- Alt, W., Deutsch, A., Dunn, G. (1997). Dynamics of cell and tissue motion. Birkhäuser, Basel.
- Andersen, J., La Vigne, A. (2014). Systems in motion. Exploring complexity through an interdisciplinary lens. Level A. Creative Learning Exchange. (bei Frank Hilker)
- Andersen, J., La Vigne, A. (2014). Systems in motion. Exploring complexity through an interdisciplinary lens. Level B. Creative Learning Exchange. (bei Frank Hilker)
- Andersen, J., La Vigne, A. (2014). Systems in motion. Exploring complexity through an interdisciplinary lens. Level C. Creative Learning Exchange. (bei Frank Hilker)
- Anderson, R.M., May, R.M., eds. (1982). Population biology of infectious diseases. Springer.
- Anderson, R.M., May, R.M. (1991, repr. 2010). Infectious diseases of humans. Dynamics and control. Oxford University Press, Oxford.
- Andrewartha, H.G., Birch, L.C. (1954). The distribution and abundance of animals. The University of Chicago Press.
- Andrewartha, H.G., Birch, L.C. (1984). The ecological web. The University of Chicago Press.
- Andriof, C. (2021) Praxisbuch für wirksame Veränderung - mit der Theorie arbeiten. Springer Gabler (Bei Carolin Janssen)
- 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.
- Angermann, A., Beuschel, M., Rau, M., Wohlfahrt, U. (2007). MATLAB - Simulink - Stateflow. Mit CD-Rom. Oldenbourg, München.
- Aquaprox, Hrsg. (2007). Kühlwasserbehandlung. Springer-Verlag, Berlin.
- Archer, D., Rahmstorf, S. (2010). The climate crisis. Cambridge University Press, Cambridge.
- Arditi, R., Ginzburg, L.R. (2012). How species interact. Altering the standard view on trophic ecology. Oxford University Press, Oxford.
- Arnold, L., Lefever, R., eds. (1981). Stochastic nonlinear systems in physics, chemistry, and biology. Springer.
- Arnold, V.I. (2004). Catastrophe theory. Springer. (bei Frank Hilker)
- Auger, P., Lett, C., Poggiale, J.-P. 2010). Modélisation mathématique en écologie. Cours et exercises corrigés. Dunod, Paris.
- Bacaer, N. (2011). A short history of mathematical population dynamics. Springer, London.
- Backhaus, K., Erichson, B., Plinke, W., Weiber, R. (2006). Multivariate Analysemethoden. Eine anwendungsorientierte Einführung. (2 Exemplare)
- Bakunin, O.G. (2011). Chaotic flows. Correlation effects, transport, and structures. Springer.
- Bala, B.K., Arshad, F.M., Noh, K.M. (2017). System dynamics. Modelling and simulation. Springer. (bei Frank Hilker)
- Balanov, A., Janson, N., Postnov, D., Sosnovtseva, O. (2009). Synchronization: From simple to complex. Springer Series in Synergetics. Springer, Berlin.
- Bakunin, O.G. (2008). Turbulence and diffusion. Scaling versus equations. Springer. (bei Frank Hilker)
- Baneth, A. (2010). The ultimate EU test book 2010). John Harper Publ., London.
- 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)
- Banks, R.B. (1994). Growth and diffusion phenomena. Springer, Berlin.
- Barabási, A.-L. (2016). Network Science. Cambridge University Press. 2 Ex (1x bei Claudia Pahl-Wostl)
- 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)
- Baretta-Bekker, H.J.G., Duursma, E.K., Kuipers, B.R. (1998). Encyclopedia of marine sciences. Springer-Verlag, Berlin.
- Barnes, D.J., Chu, D. (2010). Introduction to modeling for biosciences. Springer.
- Barnett, W.A., Kirman, A.P., Salmon, A., eds. (1996). Nonlinear dynamics and economics. Cambridge University Press.
- Barnthouse, L.W., Munns, W.R., Sorensen, M.T. (2008). Population-level ecological risk assessment. SETAC, CRC, Boca Raton.
- Barthelme, N. (2005). Geoinformatik. Modelle, Strukturen, Funktionen. Springer, Berlin. (bei Jürgen Berlekamp)
- Barrett, S., Mäler, K.-G., Maskin, E.S., eds. (2014). Environment and development economics. Oxforf University Press.
- Bar-Yam, Y. (2004). Making things work. Solving complex problems in a complex world. NECSI - Knowledge Press.
- Baum, E.J. (1998). Chemical Property Estimation. Theory and Application. Lewis Publ., Boca Raton. (bei Jörg Klasmeier)
- Baumann, B. (2016). Physik für Ingenieure. Harri Deutsch.
- Bazykin, A.D. (1998). Nonlinear dynamics of interacting populations. World Scientific, Singapore.
- Beauchamp, G. (2014). Social predation. How group living benefits predators and prey. Academic Press / Elsevier.
- Beck, H. (2014). Behavioral Economics. Eine Einführung. Springer. (AG Umweltökonomie)
- Beck, M., Hrsg. (1996). Umweltrecht für Nichtjuristen. Vogel, Würzburg.
- Begon, M., Townsend, C.R., Harper, J.L. (2006). From individuals to ecosystems. Blackwell, Oxford.
- Behrendt, S., Kreibich, R., Hrsg. (1994). Die Mobilität von Morgen: Umwelt- und Verkehrsentlastung in den Städten. ZukunftsStudien, Bd. 12. Beltz, Weinheim.
- Bellomo, N., Preziosi, L. (1995). Modelling mathematical methods and scientific computation. CRC Press, Boca Raton.
- Beltrami, E. (1987). Mathematics for dynamic modelling. Academic Press, Boston.
- Beltrami, E. (1998). Mathematics for dynamic modelling. 2nd ed., Academic Press, Boston.
- Beltrami, E. (1993). Von Krebsen und Kriminellen. Mathematische Modelle in Biologie und Soziologie. Vieweg, Braunschweig.
- Berg, E., Kuhlmann, F. (1993). Systemanalyse und Simulation für Agrarwissenschaftler und Biologen. Ulmer, Stuttgart. (bei Frank Hilker)
- 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)
- Berg, H. van den (2011). Mathematical models of biological systems. Oxford University Press.
- Bernardo, M. di, Budd, C.J., Champneys, A.R., Kowalczyk, P. (2008). Piecewise-smooth dynamical systems. Theory and applications. Springer. (bei Frank Hilker)
- Berryman, A.A. (1999). Principles of population dynamics. Stanley Thornes, Cheltenham, UK.
- Berryman, A.A., ed. (2002). Population cycles. The case for trophic interactions. Oxford University Press.
- Berryman, A.A., Kindlmann, P. (2008). Population systems. A general introduction (mit 1 CD). Springer.
- Bertalanffy, L. v. (1969). General system theory. Braziller, New York. (bei Frank Hilker)
- Bertalanffy, L. v., Beier, W., Laue, R. (1977). Biophysik des Fließgleichgewichts. Akademieverlag, Berlin. (bei Frank Hilker)
- Beucher, O. (2006). MATLAB und Simulink. Grundlegende Einführung für Studenten und Ingenieure in der Praxis. Pearson, München.
- 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.
- Beverton, R.J.H., Holt, S.J. (1993). On the dynamics of exploited fish populations. Blackburn Press.
- Bezruchko, B.P., Smirnov, D.A. (2010). Extracting knowledge from time series. An introduction to nonlinear empirical modeling. Springer.
- Bisswanger, H. (2000). Enzymkinetik. Theorie und Methodem. Wiley-VCH, Weinheim (mit 1 CD).
- Bjørnstad, O.N. (2018). Epidemics. Models and data using R. Springer. (bei Frank Hilker)
- Blasius, B., Kurths, J., Stone, L., eds. (2007). Complex population dynamics. World Scientific, New Jersey.
- Blickhan, D. (2021). Positive Psychologie und Coaching - Von der Lösung- zur Wachstumsorientierung. Junfermann. (bei Carolin Janssen)
- Blickhan, D. (2018). Positive Psychologie - Ein Handbuch für die Praxis. Junfermann. (Bei Carolin Janssen)
- Boccara, N. (2010). Modeling complex systems. Springer.
- Bode, M. (1995). Umweltmanagement in Unternehmen. Information-Verlag, Freiburg.
- Bodine, E.N., Lenhart, S., Gross, L.J. (2014). Mathematics for the life sciences. Princeton University Press, Princeton. (bei Frank Hilker)
- Boersema, J.J., Reijnders, L., eds. (2009). Principles of environmental sciences. Springer, Dordrecht.
- Bolgar, M., Hubball, J., Groeger, J., Meronek, S. (2016). Handbook for the chemical analysis of plastic and polymer additives. CRC Press. (bei Jörg Klasmeier)
- Bolker, B.M. (2008). Ecological models and data in R. Princeton University Press, Princeton.
- 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.
- Bossel, H. (1994). Modellbildung und Simulation. Konzepte, Verfahren und Modelle zum Verhalten dynamischer Systeme. Vieweg, Braunschweig. (bei Andreas Focks)
- Bossel, H. (2004). Systeme, Dynamik, Simulation. Modellbildung, Analyse und Simulation komplexer Systeme Systeme. Books on Demand GmbH, Norderstedt.
- Bossel, H. (2004). Systemzoo I - Elementarsysteme, Technik und Physik. Books on Demand GmbH, Norderstedt. (bei Andreas Focks)
- Bossel, H. (2004). Systemzoo II - Klima, Ökosysteme und Ressourcen. Books on Demand GmbH, Norderstedt. (bei Andreas Focks)
- Bossel, H. (2004). Systemzoo III - Wirtschaft, Gesellschaft und Entwicklung. Books on Demand GmbH, Norderstedt. (bei Andreas Focks)
- Bossel, H. (2005). Systemzoo. CompactDisc. co.Tec Verlag, Rosenheim.
- Botsford, L.W., Wilson White, J., Hastings, A. (2019). Population dynamics for conservation. Oxford University Press. (bei Frank Hilker)
- Box, G.E.P., Draper, N.R. (2007). Response surfaces, mixtures, and ridge analyses. Wiley.
- Box, G.E.P., Hunter, J.S., Hunter, W.G. (2005). Statistics for experimenters. Design, innovation, and discovery. Wiley, Hoboken NJ. (bei Jörg Klasmeier)
- Box, G.E.P., Hunter, G.M., Reinsel, G.C. (2008). Time series analysis. Forecasting and control. Wiley, Hoboken NJ.
- Brauer, F., Castillo-Chavez, C. (2001). Mathematical models in population biology and epidemiology. Text in Applied Mathematics, Vol. 40. Springer-Verlag, New York.
- 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)
- Brauer, F., Kribs, C. (2016). Dynamical systems for biological modeling. CRC. (bei Frank Hilker)
- Brauer, F., van den Driesche, P., Wu, J., eds. (2008). Mathematical epidemiology. Mathematical Biosciences Subseries, Vol. 1945. Springer-Verlag, Berlin.
- Britton, N.F. (2003). Essential mathematical biology. Springer Undergraduate Mathematics Series. Springer-Verlag, Berlin.
- Bronstein, I.N., Semendjajew, K.A., Musiol, G., Mühlig, H. (2016). Taschenbuch der Mathematik. Harri Deutsch.
- Broom, M., Rychtár, J. (2013). Game-theoretical models in biology. CRC. (bei Frank Hilker)
- Brown, D., Rothery, P. (1994). Models in biology. Mathematics, statistics and computing. Wiley.
- Brown, P.J. (2002). Measurement, regression, and calibration. Clarendon Press, Oxford.
- Brüggemann, R., Drescher-Kaden, U. (2003). Einführung in die modellgestützte Bewertung von Umweltchemikalien. Springer-Verlag, Berlin.
- Buchanan, M. (2002). NEXUS: Small worlds and the groundbreaking world of networks. Norton.
- Bullock, J.M., Kenward, R.E., Hails, R.S., eds. (2002). Dispersal ecology. Cambridge University Press.
- Bulmer, M. (1994). Theoretical evolutionary ecology. Sinauer, Sunderland.
- Bunde, A., Kropp, J., Schellnhuber, H.J., eds. (2002). The science of disasters. Springer.
- Bungartz, H.-J., Zimmer, S., Buchholz, M., Pflüger, D. (2009). Modellbildung und Simulation. Eine anwendungsorientierte Einführung. Springer.
- Buongiorno, J., Keith Gilles, J. (2003). Decision methods for forest resource management. Elsevier.
- Burgman, M. (2007). Risks and decisions for conservation and environmental management. Cambridge University Press.
- 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.
- Canham, C.D., Cole, J.J., Lauenroth, W.K., eds. (2003). Models in ecosystem science. Princeton University Press.
- Cantrell, R.S., Cosner, C. (2003). Spatial ecology via reaction-diffusion equations. Wiley, Chichester.
- Cantrell, R.S., Cosner, C., Ruan, S., eds. (2010). Spatial ecology. Mathematical and Computational Biology Series, CRC Press, Boca Raton.
- Capasso, V., Bakstein, D. (2015). An introduction to continuous-time stochastic processes. Birkhäuser.
- Capdevila-Argüelles, L., Zilleti, B., eds. (2005). Issues in bioinvasion science. Springer, Dordrecht.
- Caro, T. (2005). Antipredator defenses in birds and mammals. University of Chicago Press.
- Carpenter, S.R. (2003). Regime shifts in lake ecosystems: pattern and variation. Int'l Ecology Institute, Oldendorf. (bei Frank Hilker)
- Carslaw, H.S., Jaeger, J.C. (2011). Conduction of heat in solids. Clarendon Press.
- Case, T.J. (2000). An illustrated guide to theoretical ecology. Oxford University Press, New York.
- Caswell, H. (2001). Matrix population models. Sinauer, Sunderland MA.
- Cartwright, E. (2018). Behavioral Economics. 3rd Edition. Routledge. (AG Umweltökonomie)
- Caughley, G. (1980). Analysis of vertebrate populations. Blackburn, Caldwell NJ. (bei Frank Hilker)
- Chambers, R.G. (1988). Applied production analysis. A dual approach. Cambridge University Press.
- 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.
- Christakis, N.A., Fowler, J.H. (2010). Connected! Die Macht sozialer Netzwerke und warum Glück ansteckend ist. S. Fischer, Frankfurt/Main.
- Christensen, K., Moloney, N.R. (2005). Complexity and criticality. Imperial College Press Advanced Physics Texts, vol. 1. Imperial College Press, London.
- Clark, C.W. (1976). Mathematical bioeconomics. The optimal management of renewable resources. Wiley. (1st ed.)
- Clark, C.W. (1990). Mathematical bioeconomics. The optimal management of renewable resources. Wiley. (2nd ed.)
- Clark, C.W. (2005). Mathematical bioeconomics. The optimal management of renewable resources. Wiley. (2nd ed.)
- Clark, C.W. (2010). Mathematical bioeconomics. The mathematics of conservation. Wiley. (bei Frank Hilker)
- Clark, C.W., Mangel, M. (2000). Dynamic state variable models in ecology. Methods and applications. Oxford University Press.
- Clark, J.S. (2007). Models for ecological data. An introduction. Princeton University Press.
- Clark, M.M. (2009). Transport modeling for environmental engineers and scientists. Wiley, Hoboken NJ.
- Clayton, P., Davies, P., eds. (2006). The re-emergence of emergence. Oxford University Press, Oxford.
- 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.
- Coleman, M.P. (2005). An introduction to partial differential equations with MATLAB. Chapman & Hall / CRC, Boca Raton.
- Conrad, J.M. (2010). Resource economics. Cambridge University Press. (bei Frank Hilker)
- Conrad, J.M., Clark, C.W. (1995). Natural resource econiomics. Notes and problems. Cambridge University Press. (bei Frank Hilker)
- Costantino, R.F., Desharnais, R.A. (1991). Population dynamics and the Tribolium model: Genetics and demography. Springer.
- Costanza, R., Voinov, A., eds. (2004). Landscape simulation modeling. A spatially explicit, dynamic approach. Springer.
- Courchamp, F., Berec, L., Gascoigne, J. (2008). Allee effects in ecology and conservation. Oxford University Press, Oxford. (bei Caroline Grumbach)
- Cousens, R., Dytham, C., Law, R. (2008). Dispersal in plants. A population perspective. Oxford Biology. Oxford University Press, Oxford.
- Crane, M., Newman, M.C., Chapman, P.F., Fenlon, J., Eds. (2002). Risk assessment with time to event models. Lewis Publ., Boca Raton.
- Crank, J. (2011). The mathematics of diffusion. Oxford University Press.
- Crawley, M.J., ed. (1992). Natural enemies. The population biology of predators, parasites and diseases. Blackwell, London. (bei Frank Hilker)
- Cull, P., Flahive, M., Robson, R. (2005). Difference equations. From Rabbits to chaos. Springer, Berlin.
- 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.
- Cullen, M.R. (1985). Linear models in biology. Linear systems analysis with biological applications. Horwood.
- Cushing, J.M. (1998). An introduction to structured population dynamics. SIAM.
- 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)
- Cushman, S.A., Huettmann, F., eds. (2010). Spatial complexity, informatics, and wildlife conservation. Springer.
- Cussler, E.L. (2009). Diffusion. Mass transfer in fluid systems. Cambridge University Press, Cambridge.
- Czaran, T. (1997). Spatiotemporal models of population and community dynamics. Chapman & Hall, London.
- Dai, L. (2008). Nonlinear dynamics of piecewise constant systems and implementation ogpiecewise constant arguments. World Scientific. (bei Frank Hilker)
- Daley, D.J., Gani, J. (1999). Epidemic modelling. An introduction. Cambridge Studies in Mathematical Biology, Vol. 15. Cambridge University Press, Cambridge UK.
- Danzer, K., Hobert, H., Fischbacher, C., Jagemann, K.-U. (2001). Chemometrik. Grundlagen und Anwendungen. Springer, Berlin.
- Davis, M.A. (2012). Invasion biology. Oxford University Press.
- Davis, T.A. (2011). MATLAB Primer. CRC Press, Boca Raton.
- 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)
- DeAngelis, D.L. (1992). Dynamics of nutrient cycling and food webs. Chapman & Hall, New York. (bei Frank Hilker)
- DreAngelis, D., Post, W.M., Travis, C.C. (1986). Positive feedback in natural systems. Springer. (bei Frank Hilker)
- Deaton, M.L., Winebrake, J.I. (2000). Dynamic modeling of environmental systems. Springer. (bei Frank Hilker)
- Denny, M.W. 1993). Air and water. The biology and physics of life's media. Princeton University Press, Princeton.
- 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.
- 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.
- Deutsch, A., Dormann, S., eds. (2005). Cellular automaton modelling of biological pattern formation. Characterization, applications, and analysis. Birkhäuser, Boston.
- Diamond, J. (2014). Kollaps. Warum Gesellschaften überleben oder untergehen. Fischer.
- Diamond, J., Case, T.J., eds. (1986). Community ecology. Harper & Row.
- 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.
- Dieckmann, U., Law, R., Metz, J.A.J., eds. (2001). The geometry of ecological interactions. simplifying ecological complexity. IIASA & Cambridge University Press, Cambridge.
- 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.
- Diekmann, O., Heesterbeck, J.A.P. (2000). Mathematical epidemiology of infectious diseases. Model building, analysis and interpretation. Wiley, Chichester.
- Diekmann, O., Heesterbeek, H., Britton, T. (2013). Mathematical tools for understanding infectious disease dynamics. Princeton.
- Diekmann, B., Heinloth, K. (1997). Energie. Teubner-Verlag, Stuttgart-Leipzig.
- Dirks, H. (2007). Klima - Wandel ohne Katastrophe. Wetter - beobachten und verstehen. BOD, Norderstedt.
- Dittes, F.-M. (2012). Komplexität. Warum die Bahn nie pünktlich ist. Springer-Vieweg, Berlin.
- Dixon, K.R. (2012). Modeling and simulation in ecotoxicology with applications in MATLAB and Simulink. (mit 1 CD). CRC Press, Boca Raton.
- Dörhöfer, G. (2001). Aufbruch nach Europa : Hydrogeologie vor neuen Aufgaben. Arbeitshefte Wasser, Heft 1, 2001. Schweizerbart, Stuttgart. (bei Jürgen Berlekamp)
- Dörner, D. (2014). Die Logik des Misslingens. Strategisches Denken in komplexen Situationen. rororo, Hamburg.
- Drake, J.A., Mooney, H.A., eds. (1989). Biological invasions. A global perspective. SCOPE 37. Wiley, Chichester.
- Drechsler, M. (2020). Ecological-economic modelling for biodiversity conservation. Cambridge University Press. (bei Frank Hilker)
- Driscoll, T.A. (2009). Learning MATLAB. SIAM, Philadelphia.
- Drittfinanzierung von Energiesparvorhaben im öffentlichen Sektor. Tagungsband. Energie & Management Verlagsgesellschaft, Herrsching (1995).
- Ducrot, A., Marion, M., Volpert, V. (2009). Reaction-diffusion waves (with the Lewis number different from 1). Publibook, Paris.
- DUDEN (2011). Crashkurs Rechtschreibung. 2. Auflage, Dudenverlag, Mannheim.
- DUDEN (2012). Die deutsche Rechtschreibung. 25. Auflage, Dudenverlag, Mannheim. (mit 1 CD)
- Dutilleul, P.R.L. (2011). Spatio-temporal heterogeneity. Concepts and analyses. Cambridge University Press.
- Duursma, E.K., Carroll, J.L. (1996). Environmental compartments. Springer, Berlin.
- Earl, R. (2017). Towards higher mathematics. A companion. Cambridge University Press.
- Ebeling, W., Freund, J., Schweitzer, F. (1998). Komplexe Strukturen: Entropie und Information. Teubner-Verlag, Stuttgart-Leipzig.
- 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.
- Edelstein-Keshet, L. (2005). Mathematical models in biology. Classics in Applied Mathematics, vol. 46. SIAM, Philadelphia.
- Ellner, S.P., Guckenheimer, J. (2006). Dynamic models in biology. Princeton University Press, Princeton. 2 Ex.
- Elaydi, S.N. (2008). Discrete chaos with applications in science and engineering. Chapman & Hall/CRC.
- Ellner, S.P., Childs, D.Z., Rees, M. (2016). Data-driven modelling of structured populations. Springer.
- Ellwood, W. (2014). No-nonsense guide to degrowth and sustainability. New Internationalist.
- Elton, C.S. (1958). The ecology of invasions by animals and plants. The University of Chicago Press, Chicago.
- Endres, A., Holm-Müller, K. (1998). Die Bewertung von Umweltschäden. Kohlhammer, Stuttgart.
- Engeln-Müllges, G., Uhlig, F. (1996). Numerical algorithms with C. Springer, Berlin.
- Farkas, M. (2001). Dynamical models in biology. Academic Press.
- Feistel, R., Ebeling, W. (2011). Physics of self-organization and evolution. Wiley-VCH, Weinheim.
- Feng, Z. (2014). Applications of epidemiological models to public health policymaking. The role of heterogeneity in model predictions. World Scientific.
- Feng, Z., DeAngelis, D.L. (2018). Mathematical models of plant-herbivore interactions. CRC. (bei Frank Hilker)
- Fent, K. (2007). Ökotoxikologie. Umweltchemie - Toxikologie - Ökologie. Thieme, Stuttgart.
- 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.
- Feurzeig, W., Roberts, N., eds. (1999). Modeling and simulation in science and mathematics education. Springer.
- Figura, L.O., Teixeira, A.A. (2007). Food physics. Physical properties - measurements and applications. Springer, Berlin.
- Fisher, D.M. (2005). Modeling dynamic systems. Lessons for a first course. Stella Software, Teacher's Guide.
- Fisher, D.M. (2013). Modeling dynamic systems. Lessons for a first course. Stella Software, Teacher's and Trainer's Guide. [+ 1CD] (bei Frank Hilker)
- Flood, R.L., Carson, E.R. (1993). Dealing with complexity. Plenum Press, New York.
- Florence, A.T., Attwood, D. (2016). Physicochemical principles of pharmacy in manufacture, formulation and clinical use. Pharmaceutical Press, London. (bei Jörg Klasmeier)
- Ford, A. (1999). Modeling the environment. An introduction to system dynamics modeling of environmental systems. Island Press, Washington DC. (2 Ex) (1x bei Jörg Klasmeier)
- Ford, A. (2010). Modeling the environment. Second Edition, IslandPress, Washington.
- Forrester, J.W. (1972). Grundzüge einer Systemtheorie. Betriebswirtschaftlicher Verlag Dr. Th. Gabler, Wiesbaden. (bei Frank Hilker)
- Fowler, A.C. (1997). Mathematical models in the applied sciences. Cambridge Texts in Applied Mathematics, Cambridge University Press, Cambridge UK.
- Fränzle, O., Müller, F., Schröder, W., Hrsg. (1997). Handbuch der Umweltwissenschaften. Bd.1: Grundlagen und Anwendungen der Ökosystemforschung. 3 Bde., ecomed, Landsberg.
- Fränzle, S., Markert, B., Wünschmann, S. (2005). Technische Umweltchemie. Innovative Verfahren der Reinigung verschiedener Umweltkompartimente. ecomed MEDIZIN, Landsberg am Lech.
- Françoise, J.-P. (2005). Oscillations en biologie. Mathématique & Applications, Vol. 46. Springer, Berlin.
- Frank, S.A. (1998). Foundations of social evolution. Princeton University Press.
- Frank, S.A. (2018). Control theory tutorial. Basic concepts illustrated by software examples. SpringerOpen.
- Freedman, H.I. (1980). Deterministic mathematical models in population ecology. Dekker.
- Freund, J.A., Hrsg. (1996). Dynamik, Evolution, Strukturen. Nichtlineare Dynamik und Statistik komplexer Strukturen. Verlag Dr. Köster, Berlin.
- Friedman, A., ed. (2006). Tutorials in mathematical biosciences III. Cell cycle, proliferation, and cancer. Lecture Notes in Mathematics, v. 1872. Springer.
- Friedman, A., ed. (2006). Tutorials in mathematical biosciences IV. Evolution and ecology. Lecture Notes in Mathematics, v. 1922. Springer.
- Friedman, A., Kao, C.-Y. (2014). Mathematical modeling of biological processes. Springer. (bei Frank Hilker)
- Fryxell, J.M., Sinclair, A.R.E., Caighley, G. (2014). Wildlife ecology, conservation, and management. Wiley Blackwell. (bei Frank Hilker)
- Fuchs, A. (2013). Nonlinear dynamics in complex systems. Theory and applications for the life-, neuro- and natural sciences. Springer.
- Galecki, A., Burzykowski, T. (2013). Linear mixed-effects models using R. Springer.
- Gandolfo, G. (2010). Economic dynamics. Springer.
- Garcia-Ojalvo, J., Sancho, J.M. (1999). Noise in spatially extended systems. Institute of Nonlinear Science. Springer-Verlag, New York.
- Gardiner, C.W. (1985). Handbook of stochastic methods. Springer Series in Synergetics, vol. 13. Springer-Verlag, Berlin.
- Garfinkel, A., Shevtsov, J., Guo, Y. (2017). Modeling life. Springer. (bei Frank Hilker)
- Gehrke, W. (1996). Fortran 95 language guide. Springer, Berlin.
- Gelman, A., Carlin, J.B., Stern, H.S., Rubin, D.B. (2004). Bayesian data analysis. Texts in Statistical Science. Chapman & Hall / CRC, Boca Raton.
- Gerhard, M., Schuster, H. (1995). Das digitale Universum. Zelluläre Automaten als Modelle der Natur. Vieweg, Braunschweig.
- Getz, W.M., Haight, R.C. (1989). Population Harvesting. Demografic models of fish, forest, and animal resources. Princeton University Press, New Yersey.
- Ghannoum, M., O'Toole, G.A., eds. (2004). Microbial biofilms. ASM Press, New York. (bei Jörg Klasmeier)
- Giancoli, D.C. (2010). Physik. Lehr- und Übungsbuch. Pearson.
- Gilbert, N. 2008). Agent-based models. Sage Publ., Thousand Oaks CA.
- Gillespie, D.T. (1992). Markov processes. An introduction for physical scientists. Academic Press, Boston.
- Gillman, M. (2009). An introduction to mathematical models in ecology and evolution. Wiley-Blackwell. (bei Frank Hilker)
- Gillman, M., Hails, R. (2000). An introduction to ecological modelling. Putting practice into theory. Blackwell. (bei Frank Hilker)
- Ginzburg, L., Colyvan, M. (2004). How planets move and populations grow. Oxford University Press.
- Gladwell, M. (2000). The tipping point. How little things can make a big difference. Abacus.
- Glaser, M., Krause, G., Ratter, B.M.W., Welp, M., eds. (2012). Human-Nature Interactions in the Anthropocene. Potentials of Social-Ecological Systems Analysis. Routledge. (bei Frank Hilker)
- Gnauck, A. (2002). Systemtheorie und Modellierung von Ökosystemen. Springer.
- Godfray, H.C.J. (1994). Parasitoids. Behavioral and evolutionary ecology. Princeton University Press.
- Göhler, W. (2015). Formelsammlung Höhere Mathematik. Harri Deutsch.
- Gold, H.J. (1977). Mathematical modeling of biological systems. Wiley. (bei Frank Hilker)
- Golubitsky, M., Stewart, I. (2000). From equilibrium to chaos in phase space and physical space. The symmetry perspective. Birkhäuser, Basel.
- Goodman, M.R. (1989). Study notes in system dynamics. Pegasus.
- Goodwin, R.M. (1989). Essays in nonlinear economic dynamics. Peter Lang, Frankfurt/M.
- Goodwin, R.M. (1990). Chaotic economic dynamics. Clarendon Press, Oxford.
- Goosse, H. (2015). Climate system dynamics and modelling. Cambridge University Press. (bei Frank Hilker)
- Gotelli, N.J. (2008). A primer of ecology. Sinauer. (bei Frank Hilker)
- Grace, J.B., Tilman, D., eds. (1990). Perspectives on plant competition. The Blackburn Press, Caldwell.
- Grant, W.E. (1986). Systems analysis and simulation in wildlife and fisheries science. Wiley. (bei Frank Hilker)
- Grant, W.E., Pedersen, E.K., Marin, S.L. (1997). Ecology & resource management. Systems analysis and simulation. Wiley. (bei Frank Hilker)
- Grant, W.E., Swannack, T.M. 2008). Ecological modeling. A common-sense approach to theory and practice. Blackwell. (bei Frank Hilker)
- Grasman, J., Straten, G., eds. (1994). Predictability and nonlinear modeling in natural sciences and economics. Kluwer, Dordrecht.
- Green, C. (2003). Handbook of water economics. Principles and practice. Wiley, Chichester.
- Greene, K.B. de, ed. (1993). A systems-based approach to policymaking. Kluwer.
- Greenspan, D. (1997). Particle modeling. Birkhäuser
- Grenfell, B.T., Dobson, A.P., eds. (2008). Ecology of infectious diseases in natural populations. Newton Institute.
- Greve, J., Schnabel, A., Hrsg. (2011). Emergenz. Zur Analyse und Erklärung komplexer Strukturen. Suhrkamp, Berlin.
- Grimm, V., Railsback, S.F. (2005). Individual-based modeling and ecology. Princeton Series in Theoretical and Computational Biology. Princeton University Press, Princeton and Oxford. (bei Andreas Focks)
- Gros, C. (2008, 2013). Complex and adaptive dynamical systems. A primer. Springer Complexity. Springer-Verlag, Berlin. (2 Ex.)
- Grover, J.P. (1997). Resource competition. Population and Community Biology Series, vol. 19. Chapman & Hall, London. (bei Frank Hilker)
- Guckenheimer, J., Holmes, P. (1983). Nonlinear oscillations, dynamical systems, and bifurcations of vector fields. Springer.
- Günther, M., Velten, K. (2014). Mathematische Modellbildung und Simulation. Eine Einführung für Wissenschaftler, Ingenieure und Ökonomen. Wiley.
- Guisan, A., Thuiller, W., Zimmermann, N.E. (2017). Habitat suitability and distribution models. With applications in R. Cambridge University Press.
- Gurney, W.S.C., Nisbet, R.M. (1998). Ecological dynamics. Oxford University Press.
- Haag, G., Mueller, U., Troitzsch, K.G., eds. (1992). Economic evolution and demographic change. Springer.
- Haddon, M. (2011). Quantitative methods in fisheries. CRC Press.
- Hadeler, K. (2017). Topics in mathematical biology. Springer.
- Hadeler, K.-P., Müller, J. (2017). Cellular automata: Analysis and applications. Springer.
- Haefner, J.W. (2005). Modeling biological systems. Principles and applications. (mit 1 CD). Springer, New York.
- Haken, H. (1978). Synergetics. An introduction. Springer Series in Synergetics, vol. 1. Springer-Verlag, Berlin.
- Haken, H. (1983). Advanced synergetics. Springer Series in Synergetics, vol. 20. Springer-Verlag, Berlin.
- Haken, H. (2004). Die Selbstorganisation komplexer Systeme - Ergebnisse aus der Werkstatt der Chaostheorie. Wiener Vorlesungen. Picus, Wien.
- Haken, H. (2007 & 2008). Brain dynamics. Springer Series in Synergetics. Springer-Verlag, Berlin.
- Haken, H., Plath, P.J., Ebeling, W., Romanovsky, Yu.M. (2016). Beiträge zur Geschichte der Synergetik. Allgemeine Prinzipien der Selbstorganisation in Natur und Gesellschaft. Springer.
- Hale, J., Kocak, H. (1991). Dynamics and bifurcations. Springer.
- Hall, C.A.S., Day, J.W., eds. (1977). Ecosystem modeling in theory and practice. University Press of Colorado. (bei Frank Hilker)
- Hannon, B., Ruth, M. (2001). Dynamic modeling. Springer. (bei Frank Hilker)
- Hannon, B., Ruth, M. (2009). Dynamic modeling of diseases and pests. Springer. 2 Ex. (1x bei Frank Hilker)
- Hannon, B., Ruth, M. (2001). Modeling dynamic biological systems. Springer.
- Hargrove, J.L. (1998). Dynamic modeling in the health sciences. Springer.
- Harrad, S., ed. (2010). Persistent organic pollutants. Wiley, Chichester.
- Harte, J. (1988). Consider a spherical cow. A course in environmental problem solving. University Science Books, Sausalito CA.
- Harte, J. (2001). Consider a spherical cow. More adventures in environmental problem solving. University Science Books, Sausalito CA.
- 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.
- Hassell, M.P. (1976). The dynamics of competition and predation. Edward Arnold.
- Hassell, M.P. (1978). Arthropod predator-prey systems. Princeton University press. (bei Frank Hilker)
- Hassell, M.P. (2002). The spatial and temporal dynamics of host-parasitoid interactions. Oxford University Press. (bei Frank Hilker)
- Hastings, A. (1997). Population biology. Concepts and models. Springer. (bei Frank Hilker)
- Hastings, A., Gross, L.J., eds. (2012). Encyclopedia of theoretical ecology. University of California Press, Berkeley.
- Hastings, H.M., Sugihara, G. (2011). Fractals. A user's guide for the natural sciences. Oxford Science Publications.
- Hatcher, M.J., Dunn, A.M. (2011). Parasites in ecological communities. Cambridge University Press. (bei Frank Hilker)
- Hawkins, B.A., Cornell, H.V., eds. (1999). Theoretical appoaches to biological control. Cambridge University Press.
- Heermann, D.W. (1990). Computer simulation methods in theoretical physics. Springer, Berlin.
- 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.
- Helbing, D. (1997). Verkehrsdynamik. Springer, Berlin.
- Helbing, D., ed. (2012). Social self-organization. Agent-based simulations and experiments to study emergent social behaviour. Springer. (bei Geeske Scholz)
- Hengeveld, R. (1992). Dynamic biogeography. Cambridge Studies in Ecology. Cambridge University Press, Cambridge UK.
- Hengeveld, R., ed. (1989). Dynamics of biological invasions. Chapman & Hall, London.
- Herrmann, D., Verse-Herrmann, A. (2006). Geld fürs Studium und die Doktorarbeit. Wer fördert was? Eichborn, Frankfurt/Main.
- Herrmann, D., Spath, C. (2008). Forschungshandbuch 2008/2009. Eichborn, Frankfurt/Main.
- Higham, D.J., Higham, N.J. (2017). MatLab Guide. SIAM.
- Hilborn, R., Hilborn, U. (2012). Overfishing. What everyone needs to know. Oxford University Press.
- Hilborn, R., Mangel, M. (1997). The ecological detective. Confronting models with data. Princeton University Press, Princeton.
- Hilborn, R., Walters, C.J. (1992). Quantitative fisheries stock assessment. Choice, dynamics & uncertainty. Springer.
- Hillen, T., Leonard, I.E., van Roessel, H. (2012). Partial differential equations. Theory and completely solved problems. Wiley, Hoboken.
- Hinkelmann, R. (2005). Efficient numerical methods and information-processing techniques for modeling hydro- and environmental systems. Lecture Notes in Applied and Computational Mechanics, vol. 21. Springer, Berlin.
- Hites, R.A. (2007). Elements of environmental chemistry. Wiley, Hoboken NJ.
- Hites, R.A., Raff, J.D., Wiesen, P. (2017). Umweltchemie. Eine Einführung mit Aufgaben und Lösungen. Wiley. (bei Jörg Klasmeier)
- Hobbs, R.J., Suding, K.N., eds. (2009). New models for ecosystem dynamics and restoration. Island Press.
- Hölker, F., ed. (2002). Scales, Hierarchies and emergent properties in ecological models. Theorie in der Ökologie, Bd. 6. Peter Lang, Frankfurt/M.
- Hölting, B., Coldewey, W.G. (2005). Hydrogeologie. Einführung in die Allgemeine und Angewandte Hydrogeologie. Elsevier, Spektrum, München.
- Hofbauer, J., Sigmund, K. (1998). Evolutionary games and replicator dynamics. Cambridge University Press, Cambridge.
- Hoffmann, K.-H., Witterstein, G. (2014). Mathematische Modellierung. Grundprinzipien in Natur- und Ingenieurswissenschaften. Springer Birkhäuser, Basel.
- Holden, H., Øksendal, B., Ubøe, J., Zhang, T. (2010). Stochastic partial differential equations. A modeling, white noise functional approach. Springer.
- Holland, J.H. (2010). Emergence. From chaos to order. Oxford University Press, Oxford.
- Holling, C.S., ed. (1978). Adaptive environmental assessment and management. IIASA.
- Holmgren, R.A. (2000). A first course in discrete dynamical systems. Springer.
- Holzbecher, E. (1996). Modellierung dynamischer Prozesse in der Hydrologie. Springer, Berlin. (bei Jörg Klasmeier)
- Holzbecher, E. (2012). Environmental modeling using MATLAB. Springer.
- Holzheu, H. (2008). Natürlich Rhetorik ohne Lampenfieber. Der Weg zum freien Reden. Orell-Füssli, Zürich.
- Hopcraft, K.I., Jakeman, E., Ridley, K.D. (2014). The dynamics of discrete populations and series of events. CRC.
- Hopfenbeck, W., Willig, M. (1995). Umweltorientiertes Personalmanagement: Umweltbildung, Motivation, Mitarbeiterkommunikation. Verlag Moderne Industrie, Landsberg/Lech.
- Hoppensteadt, F.C. (1982). Mathematical methods in population biology. Cambridge University Press. (bei Frank Hilker)
- Horsthemke, W., Lefever, R. (2006). Noise-induced transitions. Springer.
- Horstmann, D. (2008). Mathematik für Biologen. Spektrum, Heidelberg.
- Hosking, R.J., Venturino, E. (2007). Aspects of mathematical modelling. Applications in science, medicine, economics and management. Mathematics and Biosciences in Interaction. Birkhäuser, Basel.
- Houghton, J. (2015). Global warming. The complete briefing. Cambridge University Press.
- Hoyle, R. (2006). Pattern formation. An introduction to methods. Cambridge University Press, Cambridge.
- Hubbard, B. Burke (1997). Wavelets - Die Mathematik der kleinen Wellen. Birkhäuser, Basel.
- Hubbell, S.P. (2001). The unified neutral theory of biodiversity and biogeography. Princeton University Press.
- Huggett, R.J. (1993). Modelling the human impact on nature. Systems analysis of environmental problems. Oxford University Press. (bei Frank Hilker)
- Hui, C. et al. (2018). Ecological and evolutionary modelling. Springer. (bei Frank Hilker)
- Hussen, A., (2018). Principles of Environmental Economics and Sustainability. An integrated economic and ecological approach. 4th Edition, Routledge. (AG Umweltökonomie)
- Huston, M.A. (1994). Biological diversity. The coexistence of species on changing landscapes. Cambridge University Press.
- Hutchinson, G.E. (1978). An introduction to population ecology. Yale University Press. (bei Frank Hilker)
- Iannelli, M., Pugliese, A. (2014). An introduction to mathematical population dynamics. Along the trail of Volterra and Lotka. Springer.
- Imboden, D.M., Koch, S. (2003). Systemanalyse. Einführung in die mathematische Modellierung natürlicher Systeme. Springer-Verlag, Berlin. (bei Jörg Klasmeier)
- Imboden, D.M., Pfenniger, S. (2013). Introduction to systems analysis. Mathematically modeling natural systems. Springer. (2 Ex., 1x bei Frank Hilker)
- Innis, G.S., O'Neill, R.V., eds. (1979). Systems analysis of ecosystems. Int'l Co-operative Publ. House.
- Israel, G., Gasca, A.M. (2002). The biology of numbers. The correspondence of Vito Volterra on mathematical biology. Springer Basel.
- Istas, J. (2005). Mathematical modeling for the life sciences. Universitext. Springer, Berlin. (bei Frank Hilker)
- Jackson, E. Atlee: Perspectives of nonlinear dynamics. Vols. 1+2. Cambridge University Press, Cambridge 1995 (vol. 1), 1994 (vol. 2).
- Jacquez, J.A. (1985). Compartmental analysis in biology and medicine. BioMedware, Ann Arbor.
- James, A., Hrsg. (1993). An introduction to water quality modelling. Wiley, Chichester. (bei Michael Matthies)
- James, G., Witten, D., Hastie, T., Tibshirani, R. (2013). An introduction to statistical learning with applications in R. Springer.
- Janert, P.K. (2010). Gnuplot in action. Manning, Greenwich. (3 Ex.)
- Jastorff, B., Störmann, R., Wölcke, U. (2003). Struktur-Wirkungs-Denken in der Chemie - eine Chance für mehr Nachhaltigkeit. Universitätsverlag Aschenbeck & Isensee, Bremen - Oldenburg.
- Jeffers, J.N.R. (1978). An introduction to systems analysis: with ecological applications. Edward Arnold. (bei Frank Hilker)
- Jeffries, C. (1989). Mathematical modeling in ecology - a workbook for students. Birkhäuser, Boston.
- Jensen, M.E., Bourgeron, P.S., eds. (2001). A guidebook for integrated ecological assessments. Springer.
- Jetschke, G. (1989). Mathematik der Selbstorganisation. Deutscher Verlag der Wissenschaften, Berlin.
- Jørgensen, S.E. (1992). Integration of ecosystem theories: A pattern. Kluwer Academic Publishers, Dordrecht.
- Jørgensen, S.E. (1994). Fundamentals of ecological modelling. Developments in Environmental Modelling, vol. 9 & 19. Elsevier, Amsterdam.
- Jørgensen, S.E. (2009). Ecological modelling. An introduction. WIT Press, Southampton.
- Jørgensen, S.E., ed. (2016). Ecological model types. Elsevier.
- Jørgensen, S.E., Gromiec, M.J., eds. (1989). Mathematical submodels in water quality systems. Developments in Environmental Modelling, vol. 14. Elsevier, Amsterdam.
- Jørgensen, S.E., Chang, N.-B., Xu, F.-L., eds. (2013). Ecological modelling and engineering of lakes and wetlands. Elsevier.
- 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.
- 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.
- Jopp, F., Reuter, H., Breckling, B., Eds. (2011). Modelling complex ecological dynamics. Springer, Berlin.
- Jordan, D.W., Smith, P. (2009). Nonlinear ordinary differential equations: an introduction for scientists and engineers. Oxford University Press, Oxford.
- Jordan, D.W., Smith, P. (2007). Nonlinear ordinary differential equations: problems and solutions. Oxford University Press, Oxford.
- Jordán, F., Jørgensen, S.E., eds. (2012). Models of ecological hierarchy. From molecules to the ecosphere. Elsevier.
- Judd, K.L. (1998). Numerical methods for economics. MIT, Cambridge MA.
- Kahneman, D. (2012). Thinking, Fast and Slow. Penguin (AG Umweltökonomie)
- Kagan, E., Ben-Gal, I. (2015). Search and foraging. Individual motion and swarm dynamics. CRC Press.
- Kallenrode, M. (2005). Rechenmethoden der Physik. Mathematischer Begleiter zur Experimentalphysik. Springer. (2 Ex.)
- Kampen, N.G. van (2006). Stochastic processes in physics and chemistry. Elsevier, Amsterdam.
- Kämpf, J. (2009). Ocean modelling for beginners. Using open-source software. Springer, Berlin (mit 1 CD).
- Kaneko, K. (1993). Theory and applications of coupled map lattices. Wiley & Sons, Chichester.
- Kantz, H., Schreiber, T. (1997). Nonlinear time series analysis. Cambridge University Press, Cambridge.
- Kaper, H., Engler, H. (2013). Mathematics & climate. SIAM, Philadelphia.
- Kaplan, D., Glass, L. (1995). Understanding nonlinear dynamics. Textbooks in Mathematical Sciences. Springer-Verlag, New York.
- Kauffman, D.L. (1980). Systems 1. An introduction to systems thinking. Future Systems. (bei Frank Hilker)
- Kaufman, D.G., Franz, C.M. (2005). The biosphere. Protecting our global environment. Kendall/Hunt.
- Kaye, B.H. (1994). A random walk through fractal dimensions. VCH, Weinheim.
- Keeling, M.J., Rohani, P. (2008). Modeling infectious diseases in humans and animals. Princeton University Press, Princeton.
- Keen, R.E., Spain, J.D. (1992). Computer simulation in biology. A basic introduction. Wiley-Liss. (bei Frank Hilker)
- Keener, J., Sneyd, J. (1998). Mathematical physiology. IAM, vol. 8: Mathematical Biology. 1st edition. Springer, New York.
- Keener, J., Sneyd, J. (2009). Mathematical physiology. IAM, vol. 8: Mathematical Biology. 2nd edition. Springer, New York.
I. Cellular physiology.
II. Systems physiology. - Keller, R.P., Lodge, D.M., Lewis, M.A., Shogren, J.F., eds. (2009). Bioeconomics of invasive species. Integrating ecology, economics, policy, and management. Oxford University Press.
- Kerner, B.S. (2004). The physics of traffic. Understanding Complex Systems. Springer, Berlin.
- Keyfitz, N., Caswell, H. (2005). Applied mathematical demography. Statistics for Biology and Health. Springer, New York.
- Khlebopros, R.G., Okhonin, V.A., Fet, A.I. (2007). Catastrophes in nature and society. Mathematical modeling of complex systems. World Scientific, New Jersey.
- Kiørboe, T. (2008). A mechanistic approach to plankton ecology. Princeton University Press, Princeton.
- King, M. (2013). Fisheries biology, assessment and management. Blackwell.
- Kingsland, S.E. (1988). Modeling nature. Episodes in the history of population ecology. University of Chicago Press.
- Kiss, I.Z., Miller, J.C., Simon, P.L. (2017). Mathematics of epidemics on networks. Springer.
- Kitching, R.L. (1983). Systems ecology. An introduction to ecological modelling. The University of Queensland Press. (bei Frank Hilker)
- Klamt, A. (2005). COSMO-RS. From quantum chemistry to fluid phase thermodynamics and drug design. Elsevier, Amsterdam (mit 1 CD). (bei Jörg Klasmeier)
- Kline, R.B. (2011). Principles and practice of structural equation modeling. Guilford Press. (bei Frank Hilker)
- Kline, R.B. (2016). Principles and practice of structural equation modeling. Guilford Press. (bei Frank Hilker)
- Klipp, E., Herwig, R., Kowald, A., Wierling, C., Lehrach, H. (2009). Systems biology in practice. Concepts, implementation and application. Wiley-VCH, Weinheim.
- Klipp, E., Liebermeister, W., Wierling, C., Kowald, A., Lehrach, H., Herwig, R. (2009). Systems biology. A Textbook. Wiley-VCH, Weinheim.
- Klir, G.J. (1991). Facets of systems science. Plenum, New York.
- Klir, G.J. (2001). Facets of systems science. Plenum, New York.
- Kloeden, P.E., Platen, E. (1999). Numerical solution of stochastic differential equations. Applications of Mathematics, vol. 23. Springer, Berlin.
- Kloeden, P.E., Platen, E., Schurz, H. (2003). Numerical solution of SDE through computer experiments. Universitext. Springer, Berlin.
- Knight, F.H. (2017). The Ethics of Competition. Routledge (AG Umweltökonomie)
- Koehler, H., Mathes, K., Breckling, B., eds. (1999). Bodenökologie interdisziplinär. Springer, Berlin.
- Köhler, W., Schachtel, G., Voleske, P. (2007). Biostatistik. Springer, Berlin.
- Kooijman, S.A.L.M., Bedeaux, J.J.M. (1996). The analysis of aquatic toxicity data. VU Press, Amsterdam.
- Korsch, H.J., Jodl, H.-J., Hartmann, T. (2008). Chaos. A program collection for the PC. Springer.
- Koß, V. (1997). Umweltchemie. Springer, Berlin.
- Kot, M. (2001). Elements of mathematical ecology. Cambridge University Press, Cambridge.
- Kotelenez, P. (2008). Stochastic ordinary and stochastic partial differential equations. Stochastic Modelling and Applied Probability, vol. 58. Springer.
- Krämer, A., Reintjes, R., Hrsg. (2003). Infektionsepidemiologie. Methoden, moderne Surveilance, mathematische Modelle, Global Public Health. Springer, Berlin.
- Krause, J., Ruxton, G.D. (2008). Living in groups. Oxford University Press. (bei Frank Hilker)
- Krauss, G. (2008). Biochemistry of signal transduction and regulation. Wiley-VCH, Weinheim.
- Kravtsov, Yu.A., Kadtke, J.B., eds. (1996). Predictability of complex dynamical systems. Springer.
- Krebs, C. (2008). The ecological world view. CSIRO. (bei Frank Hilker)
- Krebs, C.J. (2013). Population fluctuations in rodents. Chicago University Press.
- Kriz, J., Tschacher, W., eds. (2017). Synergetik als Ordner. Die strukturierende Wirkung der interdisziplinären Ideen Hermann Hakens. Pabst.
- Kröger, B. (2013). Hermann Haken und die Anfangsjahre der Synergetik. Logos.
- Kuehn, C. (2015). Multiple time scale dynamics. Springer.
- Kümmerer, K., ed. (2008). Pharmaceuticals in the environment. Sources, fate, effects and risks. Springer, Berlin. (bei Jörg Klasmeier)
- Kulenovic, M.R.S., Merino, O. (2002). Discrete dynamical systems and difference equations with Mathematica. Chapman & Hall / CRC.
- Kuramoto, Y. (1984). Chemical oscillations, waves, and turbulence. Dover Publications, Mineola, NY.
- Kuznetsov, Yu.A. (1995). Elements of applied bifurcation theory. Applied Mathematical Sciences, vol. 112. Springer, Berlin.
- Lakshmikantham, V., Bainov, D.D., Simeonov, P.S. (1989). Theory of impulsive differential equations. World Scientific, Singapore.
- Lande, R., Engen, S., Saether, B.-E. (2003).Stochastic population dynamics in ecology and conservation. Oxford Series in Ecology and Evolution, Oxford University Press, Oxford UK. (bei Frank Hilker)
- Landis, W.G., ed. (2005).Regional scale ecological risk assessment. Using the relative risk model. CRC Press, Boca Raton.
- Landner, L., Reuther, R. (2004). Metals in the society and in the environment. Environmental Pollution, vol. 8. Kluwer, Dordrecht. (bei Jörg Klasmeier)
- Lange, H. (1999). Charakterisierung ökosystemarer Zeitreihen mit nichtlinearen Methoden. bfö.
- Langguth, H.-R., Voigt, R. (2004). Hydrogeologische Methoden. Springer-Verlag, Berlin.
- Langton, C.G., ed. (1996). Artificial life. An overview. MIT Press, Cambridge, MA.
- Larsson, S., Thomée, V. (2005). Partielle Differentialgleichungen und numerische Methoden. Springer, Berlin.
- Latore, V., Nicosia, V., Russo, G. (2017). Complex networks. Principles, methods and applications. Cambridge University Press.
- Lawler, G.F. (2006). Introduction to stochastic processes. CRC, Boca Raton.
- Ledder, G. (2013). Mathematics for the life sciences. Springer.
- Legendre, P., Legendre, L. (2012). Numerical ecology. Elsevier.
- Lehmann, H., Reetz, T. (1995). Zukunftsenergien: Strategien einer neuen Energiepolitik. Wuppertal-Paperbacks. Birkhäuser, Basel.
- Lemons, D.S. (2002). An introduction to stochastic processes in physics. The John Hopkins University Press, Baltimore.
- Lenhart, S., Workman, J.T. (2007). Optimal control applied to biological models. CRC.
- Lenton, T., Watson, A. (2011). Revolutions that made the earth. Oxford University Press, Oxford.
- Leeuwen, C.J. van, Vermeiere, T.G., eds. (2007). Risk assessment of chemicals: An Introduction. Springer.
- LeVeque, R.J. (2007). Finite difference methods for ordinary and partial differential equations. SIAM, Philadelphia.
- LeVeque, R.J. (2007). Finite volume methods for hyperbolic problems. Cambridge Texts in Applied Mathematics. Cambridge University Press, Cambridge UK.
- Levin, S.A., ed. (1994). Frontiers in mathematical biology. Lecture Notes in Biomathematics, vol. 100. Springer-Verlag, Berlin.
- Levin, S.A., Powell, T.M., Steele, J.H., eds. (1993). Patch dynamics. Lecture Notes in Biomathematics, vol. 96. Springer-Verlag, Berlin.
- Lewis, M.A., Chaplain, M.A.J., Keener, J.P., Maini, P.K., eds. (2009). Mathematical biology. AMS.
- Lewis, M.A., Petrovskii, S.V., Potts, J.R. (2016). The mathematics behind biological invasions. Springer.
- Lewis, M.A., Maini, P.K., Petrovskii, S.V., eds. (2013). Dispersal, individual movement and spatial ecology. LNM 2071. Springer, Berlin.
- Li, J., Chen, Y.-T. (2009). Computational partial differential equations using MATLAB (mit 1 CD). CRC Press, Boca Raton.
- Lide, D.R., ed. (2008). Handbook of chemistry and physics. 89th edition 2008-2009. CRC Press, Boca Raton. (bei Michael Matthies)
- Liebovitch, L.S. (1998). Fractals and chaos simplified for the life sciences. Oxford University Press. (bei Frank Hilker)
- Liehr, A.W. (2013). Dissipative solitons in reaction diffusion systems. Springer.
- Lin, C.C., Segel, L.A. (1988). Mathematics applied to deterministic problems in the natural sciences. SIAM Classics in Applied Mathematics, vol. 1. SIAM, Philadelphia.
- Lin, Y., Duan, X., Zhao, C., Xu, L. (2013). Systems science. Methodological approaches. CRC Press.
- Linder, W. (1999). Geo-Informationssysteme. Ein Studien- und Arbeitsbuch. Springer-Verlag, Berlin. (bei Jürgen Berlekamp)
- Little, J.B. (2019). Modeling and data analysis. An introduction with environmental applications. AMS. (bei Frank Hilker)
- Loecher, M. (2003). Noise sustained patterns. World Scientific Lecture Notes in Physics, vol. 70. World Scientific, New Jersey.
- Logan, J.D. (1994). An introduction to nonlinear partial differential equations. Wiley-Interscience, New York.
- Logan, J.D., Wolesensky, W.R. (2009). Mathematical methods in biology. Wiley. (bei Frank Hilker)
- Loreau, M. (2010). From populations to ecosystems. Theoretical foundations for new ecological synthesis. Princeton University Press.
- Lord, G.J., Powell, C.E., Shardlow, T. (2014). An introduction to computational stochastic pde's. Cambridge University Press.
- Lotka, A. (1956). Elements of mathematical biology. Dover.
- Lutscher, F. (2019). Integrodifference equations in spatial ecology. Springer.
- Lutz, M. (2013). Learning Python. O'Reilly. 2 Ex
- Lutz, M. (2014). Python kurz & gut. O'Reilly. 2 Ex
- Lyman, W.J., Reehl, W.F., Rosenblatt, D.H. (1990). Handbook of chemical property estimation methods. American Chemical Society, Washington DC. (bei Jörg Klasmeier)
- Ma, S., Xia, Y., eds. (2009). Mathematical understanding of infectious disease dynamics. World Scientific, New Jersey.
- MacArthur, R.H. (1972). Geographical ecology. Patterns in the distribution of species. Princeton University Press.
- MacArthur, R.H., Wilson, E.O. (1967). The theory of island biogeography. Princeton University Press.
- MacDonald, N. (1989). Biological delay systems: linear stability theory. Cambridge University Press.
- Mackay, D. (2001). Multimedia environmental models: the fugacity approach. Lewis Publ., Boca Raton. (bei Jörg Klasmeier)
- Madden, L.V., Hughes, G., van den Bosch, F. (2011). The study of plant disease epidemics. APS Press. (bei Frank Hilker)
- Madigan, M., Martinko, J., Stahl, D., Clark, D. (2012). Brock Biology of Microorganisms. Pearson, Boston.
- Magal, P., Ruan, S, eds. (2008). Structured population models in biology and epidemiology. Mathematical Biosciences Subseries, Vol. 1936. Springer-Verlag, Berlin.
- Maguire, D.J., Batty, M., Goodchild, M.F., eds. (2005). GIS, spatial analysis, and modeling. ESRI Press, Redlands CA. (bei Jürgen Berlekamp)
- Maidment, D.R., ed. (2002). Arc Hydro. GIS for water resources. ESRI Press, Redlands CA. (bei Jürgen Berlekamp)
- Mainzer, K., ed. (1999). Komplexe Systeme und Nichtlineare Dynamik in Natur und Gesellschaft. Springer. (2 Ex)
- Mainzer, K. (2004). Thinking in complexity. The computational dynamics of matter, mind, and mankind. Springer-Verlag, Berlin.
- Malchow, H., Petrovskii, S., Venturino, E. (2008). Spatiotemporal patterns in ecology and epidemiology: Theory, models, simulations. Mathematical and Computational Biology Series. Chapman & Hall / CRC Press, Boca Raton (mit 1 CD).
- Mandelbrot, B.B. (1997). Fractals and scaling in finance. Discontinuity, concentration, risk. Springer-Verlag, New York.
- Mandelbrot, B.B. (2004). Fractals and Chaos. The Mandelbrot set and beyond. Springer-Verlag, New York.
- Mandelbrot, B.B., Hudson, R.L. (2014). Fraktale und Finanzen. Märkte zwischen Risiko, Rendite und Ruin. Piper, München.
- Manetsch, T.J., Park, G.L. (1974). System analysis and simulation with applications to economic and social systems. Part I: Methodology modeling and linear systems fundamentals. Department of Electrical Engineering and Systems Science, Michigan State University.
- Manetsch, T.J., Park, G.L. (1974). System analysis and simulation with applications to economic and social systems. Department of Electrical Engineering and Systems Science, Michigan State University.
- Mangel, M. (2006). The theoretical biologist's toolbox. Quantitative methods for ecology and evolutionary biology. Cambridge University Press.
- Markowitsch, H.J., Welzer, H. (2005). Das autobiographische Gedächtnis. Hirnorganische Grundlagen und biosoziale Entwicklung. Klett-Cotta, Stuttgart.
- Martcheva, M. (2015). An introduction to mathematical epidemiology. Springer. (bei Frank Hilker)
- Martin, J.L., McCutcheon, S.C., Schottman, R.W. (1999). Hydrodynamics and transport for water quality modeling. CRC Press, Lewis Publ., Boca Raton.
- Mason, C.J. (2002). Biology of freshwater pollution. Pearson/Prentice Hall.
- Massel, S.R. (1999). Fluid mechanics for marine ecologists. Springer, Berlin. (mit 1 CD)
- Mattheß, G., Ubell, K. (2003). Allgemeine Hydrogeologie. Grundwasserhaushalt. Lehrbuch der Hydrogeologie, Bd. 1. Gebr. Borntraeger, Berlin.
- Mattheß, G. (1994). Die Beschaffenheit des Grundwassers. Lehrbuch der Hydrogeologie, Bd. 2. Gebr. Borntraeger, Berlin.
- Maurer, B.A. (1999). Untangling ecological complexity. The macroscopic perspective. University of Chicago Press.
- May, R.M., ed. (1980). Theoretische Ökologie. Verlag Chemie. (bei Frank Hilker)
- May, R.M. (2001). Stability and complexity of model ecosystems. Princeton University Press. (bei Frank Hilker)
- May, R.M., ed. (1980). Theoretische Ökologie. Verlag Chemie. (bei Frank Hilker)
- May, R.M., Ed. (1981). Theoretical ecology. Principles and applications. Blackwell.
- May, R.M., McLean, A.R. (2007). Theoretical ecology. Principles and applications. Oxford University Press, Oxford.
- Maynard Smith, J. (2008). Mathematical ideas in biology. Cambridge University Press, Cambridge. (bei Frank Hilker)
- Maynard Smith, J. (2010). Models in ecology. Cambridge University Press, Cambridge. (bei Frank Hilker)
- Maynard Smith, J. (2012). Evolution and the theory of games. Cambridge University Press, Cambridge.
- Mazumdar, J. (1999). An introduction to mathematical physiology & biology. Cambridge University Press.
- McCallum, H. (2000). Population parameters. Estimation for ecological models. Blackwell Science.
- McDaniel Jr., R.R., Driebe, D.J. (2005). Uncertainty and surprise in complex systems. Questions on working with the unexpected. Understanding Complex Systems. Springer, Berlin.
- McGarvey, B., Hannon, B. (2004). Dynamic modeling for business and management. An introduction. Springer.
- Meadows, D.H. (1991). The global citizen. Island Press.
- Mei, Z. (200). Numerical bifurcation analysis for reaction-diffusion equations. Springer.
- Meinhardt, H. (1982). Models of biological pattern formation. Academic Press, London.
- Meinköhn, D., ed. (1990). Dissipative structures in transport processes and combustion. Springer.
- Mella, P. (2012). Systems thinking. Intelligence in action. Springer.
- Méndez, V., Campos, D., Bartumeus, F. (2014). Stochastic foundations in movement ecology. Anomalous diffusion, front propagation and random searches. Springer.
- Méndez, V., Fedotov, S., Horsthemke, W. (2010). Reaction-transport systems. Mesoscopic foundations, fronts, and spatial instabilities. Springer Series in Synergetics. Springer, Dordrecht.
- Meron, E. (2015). Nonlinear physics of ecosystems. CRC Press. 4 Ex. (1x bei Frank Hilker)
- Merrits, D., Menking, K., de Wet, A. (2014). Environmental geology. An earth systems science approach. Freeman.
- Metzler, W. (1987). Dynamische Systeme in der Ökologie. Teubner.
- Meyer, V.R. (2006). Praxis der Hochleistungschromatographie. Wiley-VCH.
- Mickens, R.E. (2015). Difference equations. Theory, Applications and advanced topics. CRC Press.
- Mikhailov, A.S., Calenbuhr, V. (2002). From cells to societies. Models of complex coherent action. Springer Series in Synergetics. Springer, Berlin.
- Miller, J.H., Page, S.E. (2007). Complex adaptive systems. Princeton Studies in Complexity. Princeton University Press, Princeton.
- Miller, J.r., Orbock Miller, S.M. (2007). Contaminated rivers. Springer, Dordrecht. (bei Jörg Klasmeier)
- Milner-Gulland, E.J., Mace, R. (1998). Conservation of natural resources. Blackwell. (bei Frank Hilker)
- Milstein, G.N., Tretyakov, M.V. (2004). Stochastic numerics for mathematical physics. Springer, Berlin.
- Milton, J., Ohira, T. (2014). Mathematics as a laboratory tool. Springer.
- Minati, G., Pessa, E., Abram, M., eds. (2006). Systemics of emergence: Research and Development. Springer, New York.
- Mingers, J. (1995). Self-reproducing systems. Plenum Press, New York.
- Mitchell, M. (1998). An introduction to genetic algorithms. MIT Press.
- Mitchell, M. (2009). Complexity. A guided tour. Oxford University Press.
- Mittelbach, G.G. (2012). Community ecology. Sinauer Associates. (bei Frank Hilker)
- Mobus, G.E., Kalton, M.C. (2015). Principles of systems science. Springer. (2 Ex.)
- Möller, D. (2003). Luft. Walter de Gruyter, Berlin.
- Moler, C.B. (2004). Numerical computing with MATLAB. SIAM, Philadelphia.
- Mollison, D., ed. (1995). Epidemic models: Their structure and relation to data. Publications of the Newton Institute. Cambridge University Press, Cambridge.
- Morris, W.F., Doak, D.F. (2002). Quantitative conservation biology. Theory and practice of population viability analysis. Sinauer.
- Mortimer, C.E., Müller, U. (2010). Chemie. Thieme, Stuttgart.
- Mosekilde, E., Mouritsen, O.G., eds. (1995). Modelling the dynamics of biological systems. Nonlinear phenomena and pattern formation. Springer.
- Motulsky, H., Christopoulos, A. (2004). Fitting models to biological data using linear and nonlinear regression. Oxford University Press.
- Mueller, L.D., Joshi, A. (2000). Stability in model populations. Monographs in Population Biology, Vol. 31. Princeton University Press, Princeton NJ. (bei Frank Hilker)
- Müller, F., Leupelt, M. eds. (1998). Eco targets, goal functions, and orientors. Springer, Berlin.
- Müller, J., Kuttler, C. (2015). Methods and models in mathematical biology. Deterministic and stochastic approaches. Springer.
- Munoz-Garcia, F., Toro-Gonzalez, D. (2016). Strategy and game theory. Springer.
- Murdoch, W.W., Briggs, C.J., Nisbet, R.M. (2003). Consumer-resource dynamics. Monographs in Population Biology, vol. 36. Prinveton University Press, Princeton and Oxford. (bei Frank Hilker)
- Murphy, J. (2001). Additives for plastics. Handbook. Elsevier. (bei Jörg Klasmeier)
- Murray, J.D. (1993). Mathematical biology. Biomathematics Texts, vol. 19. Springer-Verlag, Berlin.
- Murray, J.D. (2002). Mathematical biology. I: An introduction. Interdisciplinary Applied Mathematics, vol. 17. Springer-Verlag, Berlin.
- Murray, J.D. (2003). Mathematical biology. II: Spatial models and biomedical applications. Interdisciplinary Applied Mathematics, vol. 18. Springer-Verlag, Berlin.
- Nahin, P.J. (2007). Chases and escapes. The mathematics of pursuit and evasion. Princeton University Press.
- Nayfeh, A.H., Balachandran, B. (1995). Applied nonlinear dynamics. Analytical, computational, and experimental methods. Wiley-Interscience, New York.
- Neilson, A.H., Allard, A.-S. (2008). Degradation and transformation of organic chemicals. CRC Press, Boca Raton.
- Neufeld, Z., Hernandez-Garcia, E. (2010). Chemical and biological processes in fluid flows. A dynamical systems approach. Imperial College Press, London.
- Neuhauser, C. (2004). Calculus for biology and medicine. Pearson Prentice Hall, Upper Saddle River, NJ.
- Neuhauser, C. (2004). Students solutions manual by Books in Bytes, Inc., to accompany Calculus for biology and medicine. Pearson Prentice Hall, Upper Saddle River, NJ.
- Newman, M.E.J. (2010). Networks. An introduction. Oxford University Press, Oxford.
- Newman, M.E.J., Barabasi, A.-L., Watts, D.J., eds. (2006). The structure and dynamics of networks. Princeton University Press, Princeton NJ.
- Nicolis, G. (1995). Introduction to nonlinear science. Cambridge University Press, Cambridge.
- Nicolis, G., Nicolis, C. (2007). Foundations of complex systems. World Scientific, New Jersey.
- Nicolis, G., Prigogine, I. (1977). Self-organization in nonequilibrium systems. Wiley-Interscience, New York.
- Niemiec, R.M., (2018). Character Strengths Interventions: A Field Guide for Practitioners. Hogrefe. (AG Umweltökonomie)
- Nielsen, J. (1993). Usability Engineering. AP Professional, Boston.
- Nienhaus, H. (2017). Physik für das Lehramt. Bd. 1: Mechanik und Wärmelehre. De Gruyter.
- Nienhaus, H. (2017). Physik für das Lehramt. Bd. 2: Elektrodynamik und Optik. De Gruyter.
- Nijkamp, P., Reggiani, A., eds. (1993). Nonlinear evolution of spatial economic systems. Springer.
- Nirmalakhandan, N. (2002). Modeling tools for environmental engineers and scientists. CRC Press, Boca Raton.
- Nisbet, R.M., Gurney, W.C.S. (1982). Modelling fluctuating populations. Blackburn Press.
- Normenausschuss Wasserwesen (NAW) im DIN (2009). Elution von Feststoffen. DIN, Berlin.
- Ohgushi, T., Schmitz, O.J., Holt, R.D., eds. (2012). Trait-mediated indirect interactions. Ecological and evolutionary perspectives. Cambridge University Press.
- Okaichi, T., ed. (2004). Red tides. Ocean Sciences Research, vol. 4. TERRAPUB & Kluwer, Tokyo & Dordrecht.
- Okamura, B., Gruhl, A., Bartholomew, J.L., eds. (2015). Myxozoan evolution, ecology and development. Springer.
- Okubo, A. (1980). Diffusion and ecological problems: Mathematical models. Springer.
- Okubo, A., Levin, S.A. (2001). Diffusion and ecological problems. Interdisciplinary Applied Mathematics, Vol. 14. Springer, Berlin. 2 Ex
- Øksendal, B. (2013). Stochastic differential equations. Springer.
- d'Onofrio, A., ed. (2013). Bounded noises in physics, biology, and engineering. Birkhäuser-Springer.
- L'Oono, Y. (2013). The nonlinear world. Conceptual analysis and phenomenology. Springer.
- Oreskes, N., Conway, E.M. (2015). Vom Ende der Welt. oekom.
- O'Neill, P. (1998). Chemie der Geo-Bio-Sphäre. Enke
- O'Riordan, T., Hrsg. (1996). Umweltwissenschaften und Umweltmanagement. Ein interdisziplinäres Lehrbuch. Springer, Berlin.
- Osipov, G.V., Kurths, J., Zhou, C. (2007). Synchronization in oscillatory networks. Springer Series in Synergetics. Springer-Verlag, Berlin.
- Ossimitz, G. (2000). Entwicklung systemischen Denkens. Profil, Wien.
- Othmer, H.G., Maini, P.K., Murray, J.D., eds. (1993). Experimental and theoretical advances in biological pattern formation. NATO ASI Series A, vol. 259. Plenum Press, New York.
- Ott, E. (2002). Chaos in dynamical systems. Cambridge University Press.
- Otto, S.P., Day, T. (2007). A biologist's guide to mathematical modeling in ecology and evolution. Princeton University Press, Princeton. (bei Carolin Grumbach)
- Ovaskainen, O., de Knegt, H.J., del Mar Delgado, M. (2016). Quantitative ecology and evolutionary biology. Oxford University Press.
- Owen-Smith, R.N. (2002). Adaptive herbivore ecoloy. Cambridge University Press.
- Owen-Smith, N. (2007). Modeling in wildlife and resource conservation. Blackwell.
- Owen-Smith, N., ed. (2010). Dynamics of large herbivore populations in changing environments. Wiley.
- Pacault, A., Vidal, C., eds. (1979). Synergetics far from equilibrium. Springer.
- Pahl-Wostl, C. (1995). The dynamic nature of ecosystems. Chaos and order entwined. Wiley, Chichester.
- Pahl-Wostl, C. (2015). Water governance in the face of global change. Springer.
- Pardoux, E. (2016). Probabilistic models of population evolution. Scaling limits, genealogies and interactions. Springer.
- Parker, T.S., Chua, L.O. (1989). Practical algorithms for chaotic systems. Springer.
- Pastor, J. (2008). Mathematical ecology of populations and ecosystems. Wiley-Blackwell, Chichester. (bei Frank Hilker)
- Pastorok, R.A., Bartell, S.M., Ferson, S., Ginzburg, L.R., Eds. (2002). Ecological modeling in risk assessment. Chemical effects on populations, ecosystems, and landscapes. Lewis Publ., Boca Raton.
- Patten, B.C., Jørgensen, S.E., eds. (1995). Complex ecology. The part-whole relation in ecosystems. Prentice Hall, Englewood Cliffs, NJ.
- Perman, R., Ma, Y., Common, M., Maddison, D., McGilvray, J., (2011). Natural Resource and Environmental Economics. 4th Edition. Pearson Education Limited. (AG Umweltökonomie)
- Peitgen, H.-O., Jürgens, H., Saupe, D. (2004). Chaos and fractals. New frontiers of science. Springer, New York.
- Perrings, C., Maler, K.-G., Folke, C., Holling, C.S., Jansson, B.O., eds. (1995). Biodiversity loss: Economic and ecological issues. Cambridge University Press, Cambridge.
- Perrings, C., Mooney, H., Williamson, M., eds. (2013). Bioinvasions & globalization. Ecology, economics, management, and policy. Oxford University Press.
- Perry, J.N., Smith, R.H., Woiwod, I.P., Morse, D.R., eds. (2000). Chaos in real data. Kluwer, Dordrecht.
- Perthame, B. (2007). Transport equations in biology. Frontiers in Mathematics. Birkhäuser, Basel.
- Petersen, R., Schallaböck, K.O. (1995). Mobilität für morgen: Chancen einer zukunftsfähigen Verkehrspolitik. Birkhäuser, Basel.
- Petraitis, P. (2013). Multiple stable states in natural ecosystems. Oxford University Press, Oxford. (bei Frank Hilker)
- Petrovskii, S.V., Li, B.-L. (2005). Exactly solvable models of biological invasion. Chapman & Hall/CRC, Boca Raton.
- Petrow, N. (2013). Internationalisierung in der Hochschulausbildung. Tectum.
- Phoenix, D. (1997). Introductory mathematics for the life sciences. CRC Press.
- Pielou, E.C. (1969). An introduction to mathematical ecology. Wiley.
- Pielou, E.C. (1974). Population and community ecology. Principles and methods. Gordon and Breach. (bei Frank Hilker)
- Pielou, E.C. (1977). Mathematical ecology. Wiley. (bei Frank Hilker)
- Pimentel, D., ed. (2002). Biological invasions. Economic and environmental costs of alien plant, animal, and microbe species. CRC Press, Boca Raton.
- Pimm, S.L. (2002). Food webs. University of Chicago Press. (bei Frank Hilker)
- Pinton, R., Varanini, Z., Nannipieri, P., eds. (2007). The rhizosphere. Biochemistry and organic substances at the soil-plant interface. CRC Press, Boca Raton.
- Pismen, L.M. (2006). Patterns and interfaces in dissipative dynamics. Springer Series in Synergetics. Springer-Verlag, Berlin.
- Pitter, P., Chudoba, J. (1990). Biodegradability of organic substances in the aquatic environment. CRC Press, Boca Raton.
- Polyanin, A.D., Zaitsev, V.F. (2012). Handbook of nonlinear partial differential equations. CRC Press, Boca Raton.
- Polis, G.A., Winemiller, K.O., eds. (1996). Food webs. Integration of patterns & dynamics. Springer.
- Posthuma, L., Suter II, G.W., Traas, T.P., eds. (2002). Species sensitivity distributions in ecotoxicology. Environmental and Ecological Risk Assessment Series. Lewis Publ., Boca Raton.
- Poston, T., Stewart, I. (1978). Catastrophe theory and its applications. Dover Publications. (bei Frank Hilker)
- Potash, J., Heinbokel, J. (2011). Dollars and sense. Stay in the black: saving and spending. Creative Learning Exchange. (bei Frank Hilker)
- Potash, J. (2013). Dollars and sense. Our interest in interest. Creative Learning Exchange. (bei Frank Hilker)
- Powell, T.M., Steele, J.H., eds. (1995). Ecological time series. Chapman & Hall, New York.
- Press, W.H., Teukolsky, S.A., Vetterling, W.T., Flannery, B.P. (1994). Numerical recipes in FORTRAN. Cambridge University Press, Cambridge.
- Prüß, J.W., Schnaubelt, R., Zacher, R. (2008). Mathematische Modelle in der Biologie. Deterministische homogene Systeme. Birkhäuser. (bei Frank Hilker)
- Pruppacher, H.R., Klett, J.D. (1997). Microphysics of clouds and precipitation. Kluwer, Dordrecht.
- Puu, T. (2003). Attractors, bifurcations, & chaos. Nonlinear phenomena in economics. Springer.
- Quaden, R., Ticotsky, A., Lyneis, D. (2009). The shape of change. Creative Learning Exchange. (bei Frank Hilker)
- Quarteroni, A., Saleri, F. (2006). Wissenschaftliches Rechnen mit MATLAB. Springer-Lehrbuch, Springer, Berlin.
- Quinn II, T.J., Deriso, R.B. (1999). Quantitative fish dynamics. Oxford University Press.
- Radcliffe, D.E., Cabrera, M.L., eds. (2007). Modeling phosphorus in the environment. CRC Press, Boca Raton.
- Radons, G., Neugebauer, R., eds. (2004). Nonlinear dynamics of production systems. Wiley-VCH, Weinheim.
- Rahmandad, H., Oliova, R., Osgood, N.D. (2015). Analytical methods for dynamic modelers. MIT.
- Rahmstorf, S., Schellnhuber, H.J. (2006). Der Klimawandel. Diagnose, Prognose, Therapie. Verlag C.H. Beck, München.
- Railsback, S.F., Grimm, V. (2012). Agent-based and individual-based modeling. A practical introduction. Princeton University Press, Princeton.
- Ramage, M., Shipp, K. (2009). Systems thinkers. Springer.
- Randers, J., ed. (1980). Elements of the system dynamics method. Productivity. (bei Frank Hilker)
- Ranta, E., Lundberg, P., Kaitala, V. (2006). Ecology of populations. Cambridge University Press. (bei Frank Hilker)
- Redwine, C. (1995). Upgrading to Fortran 90. Springer, Berlin.
- Reece, J.B., Urry, L.A., Cain, M.L., Wasserman, S.A., Minorsky, P.V., Jackson, R.B. (2011). Campbell Biology. Pearson, Boston.
- Reichert, P. et al. (IWA Task Group on River Water Quality Modelling), Ed. (2001). River water quality model no. 1. Scientific and Technical Report, No. 12. IWA Publishing, London.
- Renshaw, E. (1991). Modelling biological populations in space and time. Cambridge Studies in Mathematical Biology, vol. 11. Cambridge University Press, Cambridge UK.
- Reynolds, J.D., Mace, G.M., Redford, K.H., Robinson, J.G., eds. (2001). Conservation of exploited species. Conservation Biology, vol. 6. Cambridge University Press. (bei Frank Hilker)
- Richmond, B (2013). An introduction to systems thinking. isee systems. (bei Frank Hilker)
- Richter, O. (1985). Simulation des Verhaltens ökologischer Systeme. VCH, Weinheim.
- Richter, O., Diekkrüger, B., Nörtersheuser, P. (1996). Environmental fate modelling of pesticides. VCH, Weinheim. (bei Frank Hilker)
- Richter, O., Söndgerath, D. (1990). Parameter estimation in ecology. The link between data and models. VCH, Weinheim.
- Ridolfi, L., D'Odorico, P., Laio, F. (2011). Noise-induced phenomena in the environmental sciences. Cambridge University Press.
- Rifkin, E., Bouwer, E. (2007). The illusion of certainty. Springer.
- Rilov, G., Crooks, J.A., eds. (2009). Biological invasions in marine ecosystems. Ecological, management, and geographic perspectives. Ecological Studies, vol. 204. Springer, Berlin.
- Risken, H. (1996). The Fokker-Planck equation. Methods of solution and applications. Springer.
- Ritchie, M.E. (2010). Scale, heterogeneity, and the structure and diversity of ecological communities. Princeton University Press.
- Ritz, C., Streibig, J.C. (2008). Nonlinear regression with R. Springer.
- Roache, P.J. (1998). Fundamentals of computational fluid dynamics. Hermosa Publishers, Albuquerque NM.
- Roberts, N., Andersen, D., Deal, R., Garet, M., Shaffer, W. (1996). Introduction to computer simulation. A systems dynamics modeling approach. Productivity. (bei Frank Hilker)
- Robeva, R., ed. (2015). Algebraic and discrete mathematical methods for modern biology. Elsevier.
- Robeva, R.S., Kirkwood, J.R., Davies, R.L., Farhy, L.S., Johnson, M.L., Kovatchev, B.P., Straume, M. (2008). An invitation to biomathematics. Elsevier, Amsterdam.
- Robeva, R.S., Kirkwood, J.R., Davies, R.L., Farhy, L.S., Johnson, M.L., Kovatchev, B.P., Straume, M. (2008). Laboratory manual of biomathematics. Elsevier, Amsterdam.
- Robinson, W.A. (2001). Modeling dynamic climate systems. Springer. (bei Frank Hilker)
- Rocsoreanu, C., Georgescu, A., Giurgiteanu, N. (2000). The FitzHugh-Nagumo model. Bifurcation and dynamics. Kluwer, Dordrecht.
- Rohde, K. (2005). Nonequilibrium ecology. Cambridge University Press, Cambridge.
- de Roos, A.M., Persson, L. (2013). Population and community ecology of ontogenetic development. Princeton University Press.
- Roques, L. (2013). Modèles de réaction-diffusion pour l'écologie spatiale. Quae.
- Rose, M.R. (1987). Quantitative ecological theory. An introduction to basic models. Croom Helm. (bei Frank Hilker)
- Ross, S.M. (2006). Statistik für Ingenieure und Naturwissenschaftler. Spektrum, Elsevier, München.
- Roughgarden, J. (1998). Primer of ecological theory. Prentice Hall. (bei Frank Hilker)
- Royama, T. (1992). Analytical population dynamics. Springer. (bei Frank Hilker)
- Ruth, M., Lindholm, J., eds. (2002). Dynamic modeling for marine conservation. Springer.
- Ruth, M., Hannon, B. (2012). Modeling dynamic economic systems. Springer.
- Sakai, S., Umetsu, C., eds. (2014). Social-ecological systems in transition. Springer. 2 Ex.
- Salsa, S. (2015). Partial differential equations in action. Springer.
- Salsa, S., Verzini, G. (2015). Partial differential equations in action. Complements and exercises. Springer.
- Samarskii, A.A., Mikhailov, A.P. (2002). Principles of mathematical modeling. Ideas, methods, examples. Taylor & Francis, London.
- Samelson, R.M., Wiggins, S. (2006). Lagrangian transport in geophysical jets and waves. The dynamical systems approach. Springer.
- Santillán, M. (2014). Chemical kinetics, stochastic processes, and irreversible thermodynamics. Springer.
- Sardet, C. (2015). Plankton. Wonders of the drifting world. University of Chicago Press, Chicago and London.
- Sattenspiel, L. (2009). The geographic spread of infectious diseases. Princeton University Press, Princeton.
- Saunders, P.T. (1995). An introduction to catastrophe theory. Cambridge University Press. (bei Frank Hilker)
- Sax, D.F., Stachowicz, J.J., Gaines, S.D., eds. (2005). Species invasions. Insights into ecology, evolution, and biogeography. Sinauer, Sunderland MA.
- Sayama, H. (2015). Introduction to the modeling and analysis of complex systems. Open SUNY Textbooks. (bei Frank Hilker)
- Scharmer, O. (2009). Theory U. Berrett-Koehler Publishers, Oakland.
- Scharmer, O. (2018). The Essentials of Theory U. Berrett-Koehler Publishers, Oakland.
- Scharmer, O., Kaufer, K. (2013). Leading from the Emerging Future. Berrett-Koehler Publishers, Oakland.
- Scheffer, M. (1998). Ecology of shallow lakes. Chapman & Hall, London.
- Scheffer, M. (2004). Ecology of shallow lakes. Chapman & Hall, London.
- Scheffer, M. (2009). Critical transitions in nature and society. Princeton University Press, Princeton.
- Scheffer, F., Schachtschabel, P. (2010). Lehrbuch der Bodenkunde. Spektrum, Heidelberg.
- Scheringer, M. (2002). Persistence and spatial range of environmental chemicals. New ethical and scientific concepts for risk assessment. Wiley-VCH, Weinheim.
- Schiff, J.L. (2008). Cellular automata. A discrete view of the world. Wiley. (bei Frank Hilker)
- Schilcher, K. (2010). Theoretische Physik kompakt für das Lehramt. Oldenbourg.
- Schimansky-Geier, L., Fiedler, B., Kurths, J., Schöll, E., eds. (2007). Analysis and control of complex nonlinear processes in physics, chemistry and biology. World Scientific Lecture Notes in Complex Systems, Vol. 5. World Scientific, New Jersey.
- Schöll, E., Schuster, H.G. , eds. (2008). Handbook of chaos control. Wiley-VCH, Weinheim.
- Schönwiese, C.-D. (2013). Praktische Statistik für Meteorologen und Geowissenschaftler. Bornträger.
- Schnoor, J.L. (1996). Environmental modeling. Fate and transport of pollutants in water, air and soil. Wiley.
- Schrödinger, E. (2011). Was ist Leben?. Piper, München.
- Schuster, H.G. (1994). Deterministisches Chaos. Eine Einführung. VCH, Weinheim.
- Schwarzenbach, R.P., Gschwend, P.M., Imboden, D.M. (2003). Environmental organic chemistry. Wiley, Hoboken NJ.
- Schweitzer, F., ed. (1997). Self-organization of complex structures: From individual to collective dynamics. Gordon and Breach, London.
- Schweitzer, F. (2003). Brownian agents and active particles. Collective dynamics in the natural and social sciences. Springer Series in Synergetics. Springer-Verlag, Berlin.
- Scott, A., ed. (2005). Encyclopedia of nonlinear science. Routledge, New York.
- Seber, C.A.F., Wild, C.J. (2003). Nonlinear regression. Wiley.
- Segel, L.A. (2001). Modeling dynamic phenomena in molecular and cellular biology. Cambridge University Press, Cambridge UK.
- Segel, L.A., Edelstein-Keshet, L. (2013). A primer on mathematical models in biology. SIAM, Philadelphia. (bei Frank Hilker)
- Seijo, J.C., Defeo, O., Salas, S. (1998). Fisheries bioeconomics. Theory, modelling and management. FAO Fisheries Technical Paper, no. 368.
- Selent, K.-D., Grupe, A. (2018). Die Probenahme von Wasser. DIV. (bei Jörg Klasmeier)
- Sendner, H., Hrsg. (1995). Dienstleistung Energie: Contracting, Outsourcing, Partnering. Energie & Management Verlagsgesellschaft, Herrsching.
- Senge, P.M. 2011). Die fünfte Disziplin. Schäffer-Poeschel, Stuttgart.
- Seuront, L. (2010). Fractals and multifractals in ecology and aquatic science. CRC Press, Boca Raton.
- Seydel, R. (1994). Practical bifurcation and stability analysis: From equilibrium to chaos. Interdisciplinary Applied Mathematics, vol. 5. Springer-Verlag, Berlin.
- Shekhar, S., Xiong, H., eds. (2008). Encyclopedia of GIS. Springer. (bei Jürgen Berlekamp)
- Sherratt, T.N., Wilkinson, D.M. (2009). Big questions in ecology and evolution. Oxford University Press.
- Shigesada, N., Kawasaki, K. (1997). Biological Invasions. Theory and Practice. Oxford University Press, New York.
- Shugart, H.H. (1984). A theory of forest dynamics. Blackburn.
- Shumway, R.H., Stoffer, D.S. (2011). Time series analysis and its applications. With R examples. Springer.
- Sibly, R.M., Home, J., Clutton-Brock, T.H. (2003). Wildlife population growth rates. Cambridge University Press.
- Simon, F.B. (2013). Einführung in Systemtheorie und Konstruktivismus. Carl-Auer, Heidelberg.
- Sinclair, A.R.E., Arcese, P., eds. (1995). Serengeti II. The University of Chicago Press.
- Singer, F.D. (2016). Ecology in action. Cambridge University Press. (bei Frank Hilker)
- Sinha, S., Sridhar, S. (2015). Patterns in excitable media. Genesis, dynamics, and control. CRC Press.
- Small, M. (2005). Applied nonlinear time series analysis. Applications in physics, physiology and finance. World Scientific Series on Nonlinear Science, Series A, Vol. 52. World Scientific, New Jersey.
- Small, M. (2012). Dynamics of biological systems. Mathematical and Computational Biology Series. Chapman & Hall / CRC Press, Boca Raton.
- Smith, H.L. (1995). Monotone dynaimcal systems. An introduction to the theory of competitive and cooerative systems. AMS.
- Smith, H.L., Thieme, H.R. (2011). Dynamical systems and population persistence. AMS.
- Smith, H.L., Waltman, P. (1995). The theory of the chemostat. Dynamics of microbial competition. Cambridge University Press. (bei Frank Hilker)
- Smith, J., Smith, P. 2009). Environmental modelling. An introduction. Oxford. (bei Frank Hilker)
- Smith, T.M., Smith, R.L. (2009). Ökologie. Pearson Studium, München.
- Smith?, R. (2008). Modelling disease ecology with mathematics. AIMS. (bei Frank Hilker)
- Sneyd, J., ed. (2005). Tutorials in mathematical biosciences II. Mathematical modeling of calcium dynamics and signal transduction. Lecture Notes in Mathematics, v. 1867. Springer.
- Soetaert, K., Herman, P.M.J. (2005). A practical guide to ecological modeling using R as a simulation platform. Springer. (bei Frank Hilker)
- Söderquist, T., Sundbaum, A., Folke, C., Mäler, K.-G., eds. (2011). Bringing ecologists and economists together. Springer.
- Solé, R. (2011). Phase transitions. Princeton University Press, Princeton. (bei Frank Hilker)
- Solé, R., Bascompte, J. (2006). Self-organization in complex ecosystems. Monographs in Population Biology, vol. 42. Princeton University Press, Princeton.
- Solé, R.V., Goodwin, B.C. (2000). Signs of life. How complexity pervades biology. Basic Books: New York.
- Sommer, U. (2005). Biologische Meereskunde. Springer-Lehrbuch. Springer, Berlin.
- Sommerlatte, T., Hersg. (2002). Angewandte Systemforschung. Ein interdisziplinärer Ansatz. Gabler, Wiesbaden.
- Sornette, D. (2006). Critical phenomena in natural sciences. Springer.
- Soulé, M.E., ed. (2004). Viable populations for conservation. Cambridge University Press.
- Sprott, J.C. (2004). Chaos and time series analysis. Oxford University Press.
- Sprott, J.C. (2010). Elegant chaos. World Scientific, New Jersey.
- Starfield, A.M., Bleloch, A.L. (1986). Building models for conservation and wildlife management. Macmillan. (bei Frank Hilker)
- Steg, L., de Groot, J.,I.,M. (2019). Environmental Psychology: An Introduction. Wiley. (AG Umweltökonomie)
- Sterman, J. (2000). Business dynamics. Systems thinking and modeling for a complex world. McGraw-Hill. (bei Andreas Focks)
- Stewart, W.E., Ray, W.H., Conley, C.C., eds. (1980). Dynamics and modelling of reactive systems. Academic Press.
- Stier, W. (2001). Methoden der Zeitreihenanalyse. Springer-Lehrbuch. Springer, Berlin.
- Stöcker, H. (2018). Taschenbuch der Physik. Harri Deutsch.
- Stollenwerk, N., Jansen, V. (2011). Population biology and criticality. From critical birth-death processes to self-organized criticality in mutation pathogen systems. Imperial College Press, London.
- Stoop, R., Steeb, W.-H. (2006). Berechenbares Chaos in dynamischen Systemen. Birkhäuser, Basel. (bei Frank Hilker)
- Strogatz, S. (1994). Nonlinear dynamics and chaos: with applications to physics, biology, chemistry, and engineering. Addison-Wesley Publ., Reading MA.
- Strogatz, S. (2015). Nonlinear dynamics and chaos: with applications to physics, biology, chemistry, and engineering. Addison-Wesley Publ., Reading MA, 2nd ed.
- Sugihara, G. (2017). Niche hierarchy, and assembly in natural systems. J. Ross Publishing.
- Sumner, M.E., ed. (2000). Handbook of Soil Science. CRC, Boca Raton. (bei Olga Alexandrowa)
- Sumpter, D.J.T. (2010). Collective animal behaviour. Princeton University Press.
- Suter II, G.W. (2007). Ecological risk assessment. CRC, Boca Raton.
- Swartzman, G.L., Kaluzny, S.P. (1987). Ecological simulation primer. MacMillan. (bei Frank Hilker)
- Takeuchi, Y., Iwasa, Y., Sato, K., eds. (2007). Mathematics for ecology and environmental sciences. Springer.
- Tarantola, A. (2005). Inverse problem theory and methods for model parameter estimation. SIAM.
- Tassier, T. (2013). The economics of epidemiology. Springer. (bei Frank Hilker)
- Taubes, C.H. (2009). Modeling differential equations in biology. Cambridge University Press, Cambridge UK.
- Taylor, J.R. (1988). Fehleranalyse. Eine Einführung in die Untersuchung von Unsicherheiten in physikalischen Messungen. VCH, Weinheim.
- Taylor, R.J. (1984). Predation. Chapman and Hall. (bei Frank Hilker)
- Teubner-Taschenbuch der Mathematik, Teil I (Grosche, G., Ziegler, V., Ziegler, D., Zeidler, E., Hrsg.). Teubner-Verlag, Stuttgart 1996.
- Theodoropoulos, D.I. (2003). Invasion biology. Critique of a pseudoscience. Avvar Books, Blythe.
- Thieme, H.R. (2003). Mathematics in population biology. Princeton Series in Theoretical and Computational Biology. Princeton University Press, Princeton. (bei Frank Hilker)
- Tietenberg, T., Lewis, L. (2015). Environmental & natural resource economics. Pearson.
- Tietenberg, T., Lewis, L. (2018). Environmental & natural resource economics. Routledge. (AG Umweltökonomie)
- Thomas, J.W. (1995). Numerical partial differential equations: Finite difference methods. Springer, Berlin.
- Thorbek, P. et al., eds. (2010). Ecological models for regulatory risk assessments of pesticides. Developing a strategy for the future. CRC, Boca Raton.
- Tilman, D. (1982). Resource competition and community structure. Princeton University Press. (bei Frank Hilker)
- Tilman, D., Kareiva, P., eds. (1997). Spatial ecology. The role of space in population dynamics and interspecific interactions. Monographs in Population Biology, vol. 30. Princeton University Press, Princeton.
- Trapp, S., Matthies, M. (1996). Dynamik von Schadstoffen - Umweltmodellierung mit CemoS. Eine Einführung. Springer, Berlin.
- Trapp, S., Matthies, M. (1998). Chemodynamics and environmental modeling. An introduction. Springer, Berlin.
- Troitzsch, K.G. (1990). Modellbildung und Simulation in den Sozialwissenschaften. Westdeutscher Verlag, Opladen.
- Tuin, J.D. van der (1991). Elsevier's dictionary of hydrology and water quality management. In 5 languages English, French,Spanish, Dutch and German. Elsevier, Amsterdam.
- Tuljapurkar, S., Caswell, H. (1997). Structured-population models in marine, terrestrial, and freshwater systems. Population and Community Biology Series, vol. 18. Chapman & Hall, New York.
- Turchin, P. (1998). Quantitative analysis of movement. Measuring and modeling population redistribution in animals and plants. Sinauer Associates, Sunderland MA.
- Turchin, P. (2003). Complex population dynamics. A theoretical/empirical synthesis. Monographs in Population Biology, vol. 35. Princeton University Press, Princeton and Oxford. (bei Frank Hilker)
- Ulanowicz, R.E. (1997). Ecology, the ascendent perspective. Columbia University Press, New York.
- Ulrich, H., Probst, G.J.B., eds. (1984). Self-organization and management of social systems. Springer.
- Umbach, E. (2008). Freiheit, Wissen, Macht und Geld. MEDU Verlag, Frankfurt/Main. (2 Ex)
- Umweltbundesamt (2005). Daten zur Umwelt. Der Zustand der Umwelt in Deutschland. Ausgabe 2005. Erich Schmidt Verlag, Berlin.
- Upadhyay, R.K., Iyengar, S.R.K. (2014). Introduction to mathematical modeling and chaotic dynamics. CRC Press, Boca Raton.
- Valkengoed, A. van, Steg, L. (2019). The Psychology of Climate Change Adaptation. Cambridge University Press.
- Vandermeer, J. (1981). Elementary mathematical ecology. Wiley. (bei Frank Hilker)
- Varley, G.C., Gradwell, G.R., Hassell, M.P. (1973). Insect population ecology. An analytical approach. Blackwell. (bei Frank Hilker)
- Vasseur, D.A., McCann, K.S., eds. (2007). The impact of environmental variability on ecological systems. Springer.
- Velten, K. (2009). Mathematical modeling and simulation. Introduction for scientists and engineers. Wiley, VCH, Weinheim.
- Vester, F. (1976). Ballungsgebiete in der Krise. DVA Stuttgart. (bei Frank Hilker)
- Vester, F. (2002). Unsere Welt - ein vernetztes System. dtv, München. (bei Johannes Halbe)
- Vester, F. (2012). Die Kunst vernetzt zu denken. dtv, München.
- Vetterling, W.T., Teukolsky, S.A., Press, W.H., Flannery, B.P. (1995). Numerical Recipes. Example Book (FORTRAN). Cambridge University Press, Cambridge.
- Vidal, C., Pacault, A., eds. (1984). Non-equilibrium dynamics in chemical systems. Springer.
- Viswanathan, G.M., da Luz, M.G., Raposo, E.P., Stanley, H.E. (2011). The physics of foraging. An introduction to random searches and biological encounters. Cambridge University Press.
- Voinov, A. (2008). Systems science and modeling for ecological economics. Academic Press / Elsevier, Amsterdam.
- Voit, E.O. (2013). A first course in systems biology. Garland Science, New York.
- Vries, G. de, Hillen, T., Lewis, M., Müller, J., Schönfisch, B. (2006). A course in mathematical biology. Quantitative modeling with mathematical and computational methods. SIAM, Philadelphia.
- Vynnycky, E., White, R.G. (2010). An introduction to infectious disease modelling. Oxford University Press, Oxford.
- Wainer, G.A. (2009). Discrete-event modeling and simulation. A practitioner's approach. CRC, Boca Raton.
- Wainwright, J., Mulligan, M., eds. (2013). Environmental Modelling. Finding simplicity in complexity. Wiley-Blackwell.
- Walgraef, D. (1997). Spatio-temporal pattern formation. Partially Ordered Systems. Springer, New York.
- Wallwork, A. (2010). English for presentations at international conferences. Springer, New York.
- Walters, C. (1986). Adaptive management of renewable resources. Blackburn.
- Waltman, P. (1983). Competition models in population biology. SIAM.
- Warfield, J.N. (2008). An introduction to systems science. World Scientific.
- Watt, K.E.F. (1968). Ecology and resource management. A quantitative appoach. McGraw-Hill. (bei Frank Hilker)
- Weddell, B.J. (2006). Conserving living natural resources in the context of a changing world. Cambridge University Press. (bei Frank Hilker)
- Weimar, J.R. (1997). Simulation with cellular automata. Logos-Verlag, Berlin.
- Weiss, G., ed. (2013). Multiagent systems. MIT Press, Cambridge MA.
- Weitz, J.S. (2015). Quantitative viral ecology. Dynamics of viruses and their microbial hosts. Princeton University Press.
- Whitlock, M.C., Schluter, D. (2015). The analysis of biological data. Roberts and Company Publ.
- Whitton, B.A., Potts, M., eds. (2000). The ecology of cyanobacteria. Their diversity in time and space. Kluwer, Dordrecht.
- Wiegand, Th., Moloney, K.A. (2014). Handbook of spatial point-pattern analysis in ecology. CRC, Boca Raton.
- Wilensky, U., Rand, W. (2015). An introduction to agent-based modeling. Modeling natural, social, and engineered complex systems with Netlogo. MIT Press. (bei Britta Höllermann)
- Wiggins, S. (1988). Global bifurcations and chaos. Analytical methods. AMS 73. Springer, New York.
- Wiggins, S. (2003). Introduction to applied nonlinear dynamical systems and chaos. Texts in Applied Mathematics, vol. 2. Springer-Verlag, New York.
- Williams, B.K., Nichols, J.D., Conroy, M.J. (2011). Analysis and management of animal populations. Academic Press, San Diego.
- Williams, P.J. le B., Thomas, D.N., Reynolds, C.S., eds. (2002). Phytoplankton productivity. Carbon assimilation in marine and freshwater ecosystems. Blackwell.
- Williamson, M. (1996). Biological invasions. Chapman & Hall, London.
- Wilson, R., Crouch, E.A.C. (2001). Risk-benefit analysis. Harvard University Press.
- Winkle, S. (2005). Geißeln der Menschheit. Kulturgeschichte der Seuchen. Artemis und Winkler, Düsseldorf.
- Winkler, G. (2003). Image analysis, random fields, and Markov chain Monte Carlo methods. A mathematical introduction. Springer (bei Frank Hilker)
- Wissel, C. (1989). Theoretische Ökologie. Eine Einführung. Springer. (bei Frank Hilker)
- Wood, S.N. (2015). Core statistics. Cambridge University Press.
- Wooldridge, M. (2009). An introduction to multiagent systems. Wiley.
- Wouwer, A. Vande, Saucez, P., Schiesser, W.E., eds. (2001). Adaptive method of lines. Chapman & Hall, Boca Raton.
- Wu, J., Jones, K.B., Li, H., Loucks, O.L., eds. (2006). Scaling and uncertainty analysis in ecology. Springer, Dordrecht.
- Würtz, R.P., ed. (2008). Organic computing. Springer Complexity, Springer, Berlin. (bei Friedemann Liebaug)
- Yodzis, P. (1989). Introduction to theoretical ecology. Harper & Row. (bei Frank Hilker)
- Zeeman, E.C. (1977). Catastrophe theory. Selected papers 1972-1977. Addsion-Wesley. (bei Frank Hilker)
- Zeigler, D. (2014). Evolution. Components and mechanisms. Academic Press / Elsevier.
- Zeiler, M. (1999). Modeling our world. The ESRI guide to geodatabase design. ESRI Press, Redlands CA. (3 Ex.) (1x bei Jürgen Berlekamp)
- Zhang, W.-B. (1991). Synergetic Economics. Springer. (bei Friedemann Liebaug)
- Zimdahl, R.L. (2004). Weed-crop competition. A review. Blackwell Publishing, Oxford.
- Zulehner, W. (2008). Numerische Mathematik, Bd. 1: Stationäre Probleme. Birkhäuser, Basel.
- Zulehner, W. (2011). Numerische Mathematik, Bd. 2: Instationäre Probleme. Birkhäuser, Basel.
- Zuur, A.F., Ieno, E.N., Smith, G.M. (2007). Analysing ecological data. Springer.