dieckmann2
Ulf Dieckmann
Curriculum Vitae

Personal

·      Name: Ulf Dieckmann, Univ. Doz. Dr. rer. nat. habil.

·      Citizenship: German

·      Address: Evolution and Ecology Program, International Institute for Applied Systems Analysis, Schlossplatz 1, A–2361 Laxenburg, Austria

·      Phone: +43 2236 807 386

·      Email: dieckmann@iiasa.ac.at

·      Web: www.iiasa.ac.at/Research/EEP

·      Reprints: user.iiasa.ac.at/~dieckman

·      Google Scholar publication and citation overview: scholar.google.com/citations?user=rAcGGSgAAAAJ

·      Web of Science publication and citation overview: www.researcherid.com/rid/E-1424-2011

·      ResearcherID: E-1424-2011

·      ORCID (Open Researcher and Contributor ID): 0000-0001-7089-0393

Affiliations

·      Since August 1996: International Institute for Applied Systems Analysis, Laxenburg, Austria

·      January 1996 to July 1996: Institute for Advanced Study, Wissenschaftskolleg zu Berlin, Germany

·      May 1995 to December 1995: Institute of Evolutionary and Ecological Sciences, Leiden University, The Netherlands

·      April 1992 to April 1995: Research Center Jülich, Germany

·      October 1991 to March 1992: Xerox Palo Alto Research Center, California, USA

·      October 1990 to September 1991: Institute of Theoretical Physics, University of Aachen, Germany

Degrees

·      January 2000: Habilitation in biomathematics (venia legendi), University of Vienna, Austria. Habilitationsschrift titled From Individuals to Populations: Systematic Model Reduction in Evolutionary Theory and Spatial Ecology   Reprint 

·      January 1997: Ph.D. in biology, Leiden University, The Netherlands. Ph.D. thesis titled The Dynamical Theory of Coevolution   Reprint 

·      October 1994: Diplom in physics (master’s degree), University of Aachen, Germany. Overall grade (range from 1.0 to 4.0): 1.0 mit Auszeichnung (with special distinction). Individual grades: 1.0 in Theoretical Physics, 1.0 in Experimental Physics, 1.0 in Statistical Physics, 1.0 in Theoretical Ecology, 1.0 for master’s thesis titled Coevolutionary Dynamics of Stochastic Replicator Systems   Reprint 

·      October 1990: Vordiplom in physics (bachelor’s degree), University of Aachen, Germany. Overall grade: 1.0. Individual grades: 1.0 in Theoretical Physics, 1.0 in Experimental Physics, 1.0 in Mathematics, 1.0 in Chemistry

·      June 1986: Abitur (high school degree), Gymnasium Waldstraße, Hattingen, Germany. Overall grade: 1.0

Awards & Appointments

·      2018: Appointment to the International Academic Advisory Committee (IAAC) of the Coastal and Ocean Management Institute (COMI), College of the Environment and Ecology, Xiamen University, China (2019–2021)

·      2017: Appointment as Associate Faculty at the Complexity Science Hub Vienna (CSHV), Austria (2017–present)

·      2013: Appointment as IIASA Dean of the Southern African Young Scientists Summer Program (SA-YSSP), University of the Free State, Bloemfontein, South Africa (2013–2015)

·      2011: Invitation to the Editorial Board of the Journal of Evolutionary Medicine (2011–present)

·      2010: Appointment as Co-Chair of the Working Group on Fisheries-Induced Evolution (WGEVO) of the International Council for the Exploration of the Sea, ICES, Copenhagen, Denmark (2010–2015)

·      2008: Election as Chair of the Research Networking Programme Frontiers of Speciation Research (FroSpects) of the European Science Foundation, ESF (2008–2013)

·      2007: Appointment to the Scientific Committee of the EUROCORES Programme The Evolution of Cooperation and Trading (TECT) coordinated by the European Science Foundation, ESF (2007–2010)

·      2006: Appointment as Co-Chair of the Study Group on Fisheries-Induced Adaptive Change (SGFIAC) of the International Council for the Exploration of the Sea, ICES, Copenhagen, Denmark (2007–2012)

·      2005: Award of the Golden Vienna Brain by the Vienna Science and Technology Fund, WWTF, Austria

·      2001: Invitation as a Visiting Professor by the Institute of Evolutionary Sciences, University of Montpellier 2, France (2002–2004)

·      1998: Invitation as a Guest Lecturer by the Department of Mathematics, University of Vienna, Austria (1998–1999)

·      1998: Award of the Kees Bakker Prize for the best Ph.D. thesis in population biology at Leiden University, by the Institute of Evolutionary and Ecological Sciences, Leiden, The Netherlands

·      1995: Invitation as a Research Fellow by the Institute for Advanced Study, Wissenschaftskolleg zu Berlin, Germany (1996)

·      1995: Award of the Springorum Medal for outstanding examination results, by the University of Aachen, Germany

·      1995: Award of a postdoc-equivalent scholarship by the Netherlands Organization for Scientific Research, Amsterdam, The Netherlands (1995)

·      1988: Award of a six-year university scholarship by the Evangelisches Studienwerk, Villigst, Germany (1988–1994)

·      1986: Valedictorian Award, Class of 1986, Gymnasium Waldstraße, Hattingen, Germany

Grants

·      2018: Grant for a Marie Skłodowska-Curie Individual Fellowship for the research project Predicting Global Vulnerability of Forests to Drought Using Plant Functional Trait Evolution (Plant-FATE) by the European Commission;
Co-applicant and hosting supervisor, 2019–2021: € 186,000

·      2018: Grant for research on tipping points in fish-stock dynamics, as part of the Research and Innovation Action Our Common Future Ocean in the Earth System – Quantifying Coupled Cycles of Carbon, Oxygen, and Nutrients for Determining and Achieving Safe Operating Spaces with Respect to Tipping Points (COMFORT) selected by the European Commission;
Work-package leader, 2019–2022: € 380,000

·      2016: Grant for the IIASA Exploratory Project Navigating the Pareto Front: Understanding Economic-Environmental Tradeoffs under Value Diversity among Stakeholders;
Co-initiator and co-leader, 2017: € 60,000

·      2015: Grant for the IIASA Crosscutting Project Dynamic Vegetation Models: The Next Generation;
Co-initiator and co-leader, 2016–2018: € 250,000

·      2013: Grant for the IIASA Crosscutting Project Systemic Risk and Network Dynamics;
Co-initiator and co-leader, 2014–2017: € 1,300,000

·      2013: Grant for the IIASA Crosscutting Project Equitable Governance of Common Goods;
Co-initiator and co-leader, 2014–2017: € 667,000

·      2013: Grant for the IIASA Exploratory Project Systematic Misperceptions of Systemic Risk;
Co-initiator and co-leader, 2014: € 50,000

·      2010: Grant for the workshop Species Interactions and Speciation by the European Science Foundation;
Co-organizer, January 2013: € 20,000

·      2010: Grant for the workshop Niche Theory and Speciation;
Co-organizer, August 2011: € 20,000

·      2010: Grant for the winter school Eco-Evolutionary Modeling of Speciation;
Co-organizer, March 2011: € 20,000

·      2010: Grant for the conference Speciation 2010 – First European Conference On Speciation Research by the European Science Foundation;
Co-organizer, December 2010: € 30,000

·      2008: Grant for the conference Evolution of Cooperation – Models and Theories by the European Science Foundation, ESF;
Co-organizer, September 2009: € 42,000

·      2008: Grant for the research project Understanding Strategic Variation in Plant Species by the Kempe Foundations;
Co-principal investigator, 2008–2010: € 53,000

·      2008: Grant for the Research Networking Programme Frontiers of Speciation Research (FroSpects) by the European Science Foundation, ESF;
Initiator and co-applicant, 2008–2013: € 500,000

·      2007: Grant for the Discovery Project Plant Ecological Strategies across Species and an Evolutionary-Ecology Vegetation Model by the Australian Research Council, ARC;
Co-applicant and co-principal investigator, 2008–2011: € 424,000

·      2007: Grant for the research project The Adaptive Evolution of Mutualistic Interactions by the Austrian Science Fund, FWF, as part of the multinational collaborative research project Mutualisms, Contracts, Space, and Dispersal (BIOCONTRACT) selected by the European Science Foundation, ESF;
Principal investigator, 2008–2013: € 195,000

·      2006: Grant for the Specific Targeted Research Project Fisheries-Induced Evolution (FinE) by the European Commission, Research Directorate for Fisheries and Maritime Affairs;
Initiator, principal contractor, and network coordinator, 2007–2010: € 1,800,000

·      2006: Grant for the two research projects Integrative Modelling of Fish-Angler Interactions and Modelling the Ecological and Evolutionary Impact of Size-Selective Recreational Fishing on Freshwater Fish by the Leibniz Institute of Freshwater Ecology and Inland Fisheries, IGB, Berlin, Germany;
Principal investigator, 2006–2009: € 216,000

·      2006: Grant for the research project Evolution And Cooperation in Heterogeneous Spatial Games by the Austrian Science Fund, FWF;
Co-applicant and co-principal investigator, 2007–2008: € 66,000

·      2006: Grant for the research project Influence of Past and Present Environment on Life History by the Austrian Science Fund, FWF;
Co-supervisor, 2006–2010: € 260,000

·      2005: Grant for the research task Evaluation of Fisheries-Induced Evolution as part of the Specific Targeted Research Project Understanding The Mechanisms of Stock Recovery (UNCOVER) by the European Commission, Research Directorate for Fisheries and Maritime Affairs;
Principal investigator and subcontractor, 2006–2007: € 62,000

·      2005: Grant for the research project Mathematics and Evolution: Mathematical and Statistical Analysis of Ecological and Genetic Diversity by the Vienna Science and Technology Fund, WWTF;
Co-applicant and co-principal investigator, 2006–2008: € 500,000

·      2004: Grant for the European Research Training Network Fisheries-Induced Adaptive Change in Exploited Stocks (FishACE) by the European Commission, Research Directorate General;
Initiator, principal contractor, and network coordinator, 2005–2009: € 2,900,000

·      2003: Grant for the research project Linking Molecular Evolution in Ancient Lakes with Recent Innovations in Speciation Theory by the Bureau for Scientific and Technological Cooperation of the Austrian Exchange Service;
Principal investigator, 2004–2005: € 5,000

·      2003: Grant for the research project Fisheries-Induced Evolutionary Changes in the Yellow Sea by the National Natural Science Foundation of China;
Co-principal investigator, 2004–2007: € 35,000

·      2001: Grant supporting two Dutch postdoctoral collaborators staying at IIASA for a total duration of six months, by the Netherlands Organization for Scientific Research;
Postdoctoral advisor, 2002: € 28,000

·      2000: Grant for the research project Adaptive Dynamics in Context: Facing the Challenges of Modern Evolutionary Theory by the Austrian Ministry of Education, Science, and Culture;
Principal investigator, 2000–2004: € 124,000

·      2000: Grant for the research project Adaptive Dynamics of Ecological Populations by the Austrian Science Fund, FWF;
Principal investigator, 2000–2004: € 81,000

·      1999: Grant for the European Research Training Network Modern Life-History Theory and its Application to the Management of Natural Resources (ModLife) by the European Commission, Research Directorate General;
Initiator, principal contractor, and network coordinator, 2000–2004: € 1,200,000

·      1999: Grant for the workshop Fisheries-Induced Adaptive Change by the European Science Foundation;
Organizer, March 2001: € 15,000

·      1999: Grant for the workshop Adaptive Speciation by the European Science Foundation;
Organizer, December 1999: € 15,000

·      1998: Grant for two workshops on Evolutionary Conservation Biology by the European Science Foundation;
Organizer, November & December 1998: € 15,000

·      1997: Grant for the research project The Study of Adaptation and Self-Organization by the Austrian Ministry of Science and Transport;
Principal investigator, 1997–2000: € 93,000

Organized Conferences, Workshops & Symposia

·      April 22, 2019: Symposium Adapting to New Challenges: Evolution in Humans, Animals, and Plants (coorganizer), National Taiwan University, Taipei, Taiwan

·      October 24–26, 2018: Working Group on Fisheries-Induced Evolution (WGEVO; coorganizer) of the International Council for the Exploration of the Sea, IIASA, Laxenburg, Austria

·      July 8–12, 2018: Recent Progress in Evolutionary Theory: Coevolution, Diversity, and Networks (coorganizer), Symposium held at the 2018 Annual Meeting of the Society for Mathematical Biology (SMB) and of the Japanese Society for Mathematical Biology (JSMB), Sydney, Australia

·      February 6–8, 2018: Working Group on Fisheries-Induced Evolution (WGEVO; coorganizer) of the International Council for the Exploration of the Sea, IIASA, Laxenburg, Austria

·      June 12–14, 2017: Working Group on Fisheries-Induced Evolution (WGEVO; coorganizer) of the International Council for the Exploration of the Sea, IIASA, Laxenburg, Austria

·      October 18–20, 2016: Working Group on Fisheries-Induced Evolution (WGEVO; coorganizer) of the International Council for the Exploration of the Sea, IIASA, Laxenburg, Austria

·      February 29 to 4 March, 2016: Working Group on Fisheries-Induced Evolution (WGEVO; coorganizer) of the International Council for the Exploration of the Sea, IMARES, Wageningen University, IJmuiden, The Netherlands

·      December 14–18, 2015: Working Group on Fisheries-Induced Evolution (WGEVO; coorganizer) of the International Council for the Exploration of the Sea, IIASA, Laxenburg, Austria

·      November 11–13, 2015: Conference Systems Analysis 2015 (one of two main scientific organizers, vice chair of scientific committee), IIASA, Laxenburg, Austria

·      September 8–10, 2015: Working Group on Fisheries-Induced Evolution (WGEVO; coorganizer) of the International Council for the Exploration of the Sea, IFREMER, Boulogne-sur-Mer, France

·      April 20–24, 2015: Working Group on Fisheries-Induced Evolution (WGEVO; coorganizer) of the International Council for the Exploration of the Sea, IIASA, Laxenburg, Austria

·      March 15–20, 2015: Gordon Research Conference on Speciation: Modes of Diversification, Ecological Mechanisms, and Genomic Signatures (chair), Four Points Sheraton/Holiday Inn Express, Ventura, USA

·      December 2–4 , 2014: Working Group on Fisheries-Induced Evolution (WGEVO; coorganizer) of the International Council for the Exploration of the Sea, IIASA, Laxenburg, Austria

·      July 7–11, 2014: Working Group on Fisheries-Induced Evolution (WGEVO; coorganizer) of the International Council for the Exploration of the Sea, IMARES, Wageningen University, IJmuiden, The Netherlands

·      April 8–11, 2014: Conference Evolution of Cooperation (coorganizer) jointly organized by the National Natural Science Foundation of China (NSFC) and IIASA, Sino-German Center for Research Promotion, Beijing, China

·      August 19–23, 2013: Working Group on Fisheries-Induced Evolution (WGEVO; coorganizer) of the International Council for the Exploration of the Sea, IIASA, Laxenburg, Austria

·      January 16–18, 2013: Workshop on Species Interactions and Speciation (coorganizer), Umeå University, Umeå, Sweden

·      April 30 to May 5, 2012: Working Group on Fisheries-Induced Evolution (WGEVO; coorganizer) of the International Council for the Exploration of the Sea, Institute of Marine Research, Bergen, Norway

·      August 29–31, 2011: Workshop on Niche Theory and Speciation (coorganizer), Keszthely, Hungary

·      May 2–6, 2011: Working Group on Fisheries-Induced Evolution (WGEVO; coorganizer) of the International Council for the Exploration of the Sea, ICES Headquarters, Copenhagen, Denmark

·      March 6–12, 2011: Winter school on Eco-Evolutionary Modeling of Speciation (coorganizer), Abisko Field Station, Abisko, Sweden

·      December 13–15, 2010: Speciation 2010 – First European Conference on Speciation Research (coorganizer), IIASA, Laxenburg, Austria

·      September 23–24, 2010: Fisheries-Induced Adaptive Changes and Their Consequences: Why Should We Care, and What Can We Do? (coorganizer), Theme Session held at the ICES Annual Science Conference, Nantes, France

·      August 3–6, 2010: Workshop on Evolution of Divergence and Speciation Models of Specific Systems (coorganizer), Hólar University College, Hólar, Iceland

·      April 26 to May 2, 2010: Working Group on Fisheries-Induced Evolution (WGEVO; coorganizer) of the International Council for the Exploration of the Sea, ICES Headquarters, Copenhagen, Denmark

·      March 8–12, 2010: Annual Meeting of the European Research Network FinE (coorganizer), Leuven, Belgium

·      October 5–10, 2009: Annual Meeting of the European Research Network FinE (coorganizer), Bornholm, Denmark

·      September 15–18, 2009: Conference on Evolution of Cooperation – Models and Theories (coorganizer), IIASA, Laxenburg, Austria

·      May 7–9, 2009: Workshop on Mutualism (coorganizer), Harvard University, Cambridge, USA

·      March 30 to April 3, 2009: Study Group on Fisheries-Induced Adaptive Change (SGFIAC; coorganizer) of the International Council for the Exploration of the Sea, ICES Headquarters, Copenhagen, Denmark

·      October 13–16, 2008: Annual Meeting of the European Research Network FinE (coorganizer), Biarritz, France

·      July 21–27, 2008: Annual Meeting of the European Research Training Network FishACE (coorganizer), Bergen, Norway

·      March 25–28, 2008: Workshop of the European Research Training Network FishACE on Evolutionarily Enlightened Fisheries Management (coorganizer), Maastricht, The Netherlands

·      March 3–9, 2008: Workshop of the European Research Network FinE on Atlantic salmon, Pitlochry, UK

·      January 21–25, 2008: Study Group on Fisheries-Induced Adaptive Change (SGFIAC; coorganizer) of the International Council for the Exploration of the Sea, ICES Headquarters, Copenhagen, Denmark

·      October 17–19, 2007: Workshop of the European Research Training Network FishACE on Size-Structured Population Models (coorganizer), Umeå University, Umeå, Sweden

·      September 25–27, 2007: Opening Meeting of the European Research Network FinE (coorganizer), Bergen, Norway

·      May 8–11, 2007: Annual Meeting of the European Research Training Network FishACE (coorganizer), Port-en-Bessin, France

·      February 26 to March 2, 2007: Study Group on Fisheries-Induced Adaptive Change (SGFIAC; coorganizer) of the International Council for the Exploration of the Sea, Portuguese Research Institute for Agriculture and Fisheries, Lisbon, Portugal

·      December 11–15, 2006: Workshop on Causes Of Ecological and Genetic Diversity (coorganizer), Erwin Schrödinger Institute for Mathematical Physics, Vienna, Austria

·      September 21, 2006: Evolutionary Effects of Exploitation on Marine Resources (coorganizer), Theme Session held at the ICES Annual Science Conference, Maastricht, The Netherlands

·      September 18, 2006: Sustainable Harvesting of Natural Resources: New Insights from Evolutionary Ecology and Community Dynamics (coorganizer), Session held at the annual conference of the Japanese Society for Mathematical Biology, Kyushu University, Fukuoka, Japan

·      August 20–22, 2006: Workshop of the European Research Training Network FishACE on Atlantic Cod, Atlantic Herring, and Sprat in the Baltic and on Evolutionary Responses of Food Webs to Harvesting (coorganizer), National Board of Fisheries, Öregrund, Sweden

·      July 22–25, 2006: Annual Meeting of the European Research Training Network FishACE (coorganizer), Hólar University College, Hólar, Iceland

·      July 18–19, 2006: Methods Course of the European Research Training Network FishACE on Applied Statistics, Fisheries Biology, and Management (coorganizer), Hólar University College, Hólar, Iceland

·      May 3–5, 2006: Workshop of the European Research Training Network FishACE on Eco-Genetic Models and on Evolutionary Energy Allocation Models (coorganizer), Deia, Spain

·      May 2–3, 2006: Methods Course of the European Research Training Network FishACE on Evolutionary Modeling (coorganizer), Deia, Spain

·      March 23–25, 2006: Workshop on Climate Change, Upwelling, Fisheries, and Coastal Communities (coorganizer), International Centre for Theoretical Physics, Trieste, Italy

·      November 10, 2005: Theoretical Advances in Evolutionary Conservation Biology (organizer), Symposium held at the First DIVERSITAS International Conference on Biodiversity, Oaxaca, Mexico

·      July 7–9, 2005: Opening Meeting of the European Research Training Network FishACE (organizer), IIASA, Laxenburg, Austria

·      February 18, 2005: Evolutionary Fisheries Science (organizer), Symposium held at the AAAS Annual Meeting 2005, Washington D.C., USA

·      August 28, 2004: The Overlooked Evolutionary Dimension of Modern Fisheries (organizer), Symposium held at the EuroScience Open Forum 2004, Stockholm, Sweden

·      June 21–25, 2004: Recent Advances in Adaptive Dynamics (organizer), Symposium held at the Conference on Computational and Mathematical Population Dynamics, Trento, Italy

·      May 18–21, 2004: Linking Evolutionary and Ecosystem Ecology (organizer), Symposium held at the Final Conference of the European Science Foundation’s Programme on Linking Community and Ecosystem Ecology (LINKECOL), Palma de Mallorca, Spain

·      November 28–29, 2002: Annual Meeting of the European Research Training Network ModLife (organizer), IIASA, Laxenburg, Austria

·      October 1, 2002: The Effects of Fishing on the Genetic Composition of Living Marine Resources (coorganizer), Theme Session held at the ICES Annual Science Conference and Centenary, Copenhagen, Denmark

·      July 3, 2002: The Importance of Disruptive Selection for Evolutionary Change (coorganizer), Symposium held at the 5th Conference of the European Society for Mathematical and Theoretical Biology, Milano, Italy

·      May 15–17, 2002: Annual Meeting of the European Research Training Network ModLife (organizer), IIASA, Laxenburg, Austria

·      March 22–23, 2001: Opening Meeting of the European Research Training Network ModLife (organizer), IIASA, Laxenburg, Austria

·      March 14–17, 2001: Workshop on Fisheries-Induced Adaptive Change (organizer), IIASA, Laxenburg, Austria

·      November 3–6, 2000: Adaptive Dynamics and Spatial Ecology (organizer), Opening workshop of Japan–IIASA population ecology collaboration, IIASA, Laxenburg, Austria

·      December 10–13, 1999: Workshop on Adaptive Speciation (organizer), IIASA, Laxenburg, Austria

·      August 24, 1999: Linking Ecology to Evolution: Non-Equilibrium Processes and Adaptive Dynamics (coorganizer), Symposium held at the 7th Congress of the European Society for Evolutionary Biology, Barcelona, Spain

·      December 13–15, 1998: Workshop on Adaptive Responses to Environmental Threats: From Individuals to Ecosystems (coorganizer), IIASA, Laxenburg, Austria

·      November 29 to December 1, 1998: Workshop on Evolutionary Conservation Biology: The Genetics of Rarity (coorganizer), IIASA, Laxenburg, Austria

·      December 18–20, 1997: Workshop on Virulence Management: Between Theory and Experiment (organizer), IIASA, Laxenburg, Austria

·      December 11–13, 1997: Workshop on Virulence Management: Mathematical Models of Virulence Evolution (organizer), IIASA, Laxenburg, Austria

·      December 10–13, 1996: Special Week on Adaptive Dynamics (organizer), IIASA, Laxenburg, Austria

·      November 14–16, 1996: Workshop on Low-Dimensional Dynamics of Spatial Ecological Systems: Invasion, Persistence, and Adaptation in the Spatial Domain (organizer), IIASA, Laxenburg, Austria

·      November 7–9, 1996: Workshop on Low-Dimensional Dynamics of Spatial Ecological Systems: Between Field Ecology and Dimension Reduction (organizer), IIASA, Laxenburg, Austria

·      August 25–30, 1996: Workshop on Adaptive Dynamics: Beyond the ESS (organizational assistance), Matrahaza, Hungary

·      July 10–11, 1996: Workshop on Strategies in Spatial Ecological Modeling: Reliability, Robustness and Generality (organizer), Institute for Advanced Study, Berlin, Germany

Invited Lectures

The list below is limited to lectures given during 2013–2019.

·      An Introduction to Adaptive Dynamics Theory. Max Planck Institute for Mathematics in the Sciences, Leipzig, Germany, December 2019

·      The Overlooked Evolutionary Dimension of Modern Fisheries. Coastal and Ocean Management Institute (COMI), College of Environment and Ecology, Xiamen University, Xiamen, China, November 2019

·      The Overlooked Evolutionary Dimension of Modern Fisheries. 8th Annual World Congress of Aquaculture and Fisheries, Xiamen, China, November 2019

·      Reconciling Societal Objectives and Stakeholder Interests in Integrated Fisheries Assessments. Workshop on Marine Affairs 2019, Coastal and Ocean Management Institute (COMI), College of Environment and Ecology, Xiamen University, Xiamen, China, November 2019

·      Innovative Integrative Assessments for Optimizing Sustainable Marine Fisheries. World Ocean Week 2019, Xiamen International Ocean Forum (WOW Main Forum), Xiamen, China, November 2019

·      Evolution of Cooperation in Humans. National Taiwan University, Symposium “Adapting to New Challenges: Evolution in Humans, Animals, and Plants”, Taipei, Taiwan, April 2019

·      Complex Adaptive Systems at the Interface of Ecology and Evolution, Statistical Physics, and Social Dynamics. The Graduate University for Advanced Studies (Sokendai), Hayama, Japan, March 2019

·      Human Capabilities for Systems Leadership: Disseminating Systems Thinking through Education and Training. Second OECD-IIASA Task Force Meeting on Systems Thinking, Anticipation and Resilience, International Institute for Applied Systems Analysis (IIASA), Laxenburg, Austria, January 2019

·      Complex Adaptive Systems at the Interface of Ecology and Evolution, Statistical Physics, and Social Dynamics. Okinawa Institute of Science and Technology Graduate University, Tancha, Japan, December 2018

·      Understanding Complex Adaptive Systems at the Interface of Ecology and Evolution & Social Norms and the Evolution of Cooperation. Eighth Annual Meeting of Theoretical Ecology in China, Lushan, China, August 2018

·      Modeling Eco-Evolutionary Dynamics: An Integrative Overview. Symposium on Recent Progress in Evolutionary Theory: Coevolution, Diversity, and Networks, 2018 Annual Meeting of the Society for Mathematical Biology (SMB) and of the Japanese Society for Mathematical Biology (JSMB), University of Sydney, Sydney, Australia, July 2018

·      Development of an Interdisciplinary Foundation Course on Systems Thinking & Introduction to IIASA. International Expert Meeting on the Development of the Program on Systems Thinking and the Masters Curriculum on Global Challenges and Human Responses, University of Koblenz-Landau, Landau, Germany, June 2018

·      Introduction to the Evolution and Ecology Program (EEP) at IIASA. First OECD-IIASA Task Force Meeting on Systems Thinking, Anticipation and Resilience, Organisation for Economic Co-operation and Development (OECD), Paris, France, January 2018

·      Systems-Analysis Training for Young Scientists in South Africa. Seventh Austrian Internationalization Round Table, Austrian Research Promotion Agency (FFG), Vienna, Austria, January 2018

·      Reconciling Societal Objectives and Stakeholder Interests in Integrated Fisheries Assessments. Arctic Circle Assembly, Reykjavik, Iceland, October 2017

·      Social Norms and the Evolution of Cooperation. Inha University, Incheon, Korea, September 2017

·      Complex Adaptive Systems: From Individuals to Ecosystems. Seoul National University, Seoul, Korea, September 2017

·      Complex Adaptive Systems at the Interface of Ecology and Evolution: An Integrative Overview. Kyung-Hee University, Seoul, Korea, September 2017

·      Modeling Eco-Evolutionary Dynamics: Bridging Between Theories and Applications. International Society for Ecological Modelling (ISEM) Global Conference 2017: Adaptation and Evolution in Ecological Modelling: Linking Society and Academic Approaches in Disturbance and Disaster Management, Jeju City, Korea, September 2017

·      Social Dilemmas. Alpbach-Laxenburg Group Meeting, Alpbach, Austria, August 2017

·      Understanding Complex Adaptive Systems. Southern African Systems Analysis Centre (SASAC) Emerging Researchers Program, Johannesburg, South Africa, August 2017

·      Adaptive Speciation. Gordon Research Conference Speciation 2017, Lucca (Barga), Italy, February 2017

·      Complex Adaptive Systems at the Interface of Ecology and Evolution: An Integrative Overview. Research Center of Climate Change and Sustainable Development, National Taiwan University, Taipei, Taiwan, December 2016

·      Adaptive Dynamics Theory: Understanding Life-History Evolution, Niche Construction, and Speciation. Biodiversity Research Center, Academia Sinica, Winter Symposium of Evolutionary Ecology, Taipei, Taiwan, December 2016

·      Understanding Complex Adaptive Systems & Mini-Course on Systems Dynamics (6 hours). IIASA, An Introduction to Applied Systems Analysis and to IIASA for a delegation from universities of the Russian Federation, Laxenburg, Austria, November 2016

·      Science for Global Insight: An Overview of IIASA & Understanding Complex Adaptive Systems. University of Koblenz-Landau, International Expert Meeting on “The Definition and Dissemination of Systems Thinking”, Landau, Germany, November 2016

·      Modeling Biodiversity Dynamics. Complexity Science Hub, KLI-IIASA-CSH Workshop Approaches to the Evolution of Complex Systems, Vienna, Austria, November 2016

·      The Overlooked Evolutionary Dimension of Modern Fisheries. Ewha Womans University, Seoul, South Korea, October 2016

·      Eco-Evolutionary Dynamics: From Individuals to Ecosystems. Seoul National University, Seoul, South Korea, October 2016

·      Understanding Complex Adaptive Systems. Ulsan National Institute of Science and Technology (UNIST), Ulsan, South Korea, October 2016

·      Understanding Complex Adaptive Systems & Mini-Course on Systems Dynamics (6 hours). Southern African Systems Analysis Centre (SASAC) – University of the Witwatersrand, SASAC High-level Capacity Strengthening Programme, Johannesburg, South Africa, August 2016

·      First Carrot, Then Stick: How The Adaptive Hybridization of Incentives Promotes Cooperation. Cooperation, Social Behavior, and Personality Types Symposium, IIASA, Laxenburg, Austria, July 2016

·      Eco-Evolutionary Modeling. Planning meeting of the Dynamic vegetation models – The next generation cross-cutting project, IIASA, Laxenburg, Austria, June 2016

·      Science to Support Sustainable Fisheries. AFI-WWF-Nat Cap-Guggenheim Partners meeting, IIASA, Laxenburg, Austria, June 2016

·      Understanding Complex Adaptive Systems. Southern African Systems Analysis Centre (SASAC) working session at IIASA, IIASA, Laxenburg, Austria, April 2016

·      Models of Biodiversity Dynamics. Department of Ecology, College of Urban and Environmental Sciences, Peking University, Beijing, China, March 2016

·      Incentive Design for Promoting Cooperation. Department of Industrial Engineering and Management, College of Engineering, Peking University, Beijing, China, March 2016

·      Understanding Complex Adaptive Systems & Features of Complex Adaptive Systems & Modelling Frameworks in Evolutionary Biology & Adaptive Dynamics & Adaptive Speciation (five lectures). International Center for Theoretical Physics (ICTP) & South American Institute for Fundamental Research (SAIFR), ICTP-SAIFR School on Physics Applications in Biology, São Paulo, Brazil, January 2016

·      Conference Synthesis. Systems Analysis 2015 Conference, IIASA, Laxenburg, Austria, November 2015

·      Neutrality Detection in Spatial Ecological Communities. Research Institute for Humanity and Nature (RIHN), Kyoto, Japan, July 2015

·      How Science Can Help Moving Human Communication beyond Misperception, Polarization, and Distrust. Japanese Society for Mathematical Biology (JSMB), 2015 Joint Meeting of JSMB and CJK Colloquium on Mathematical Biology: The 25th Annual Meeting of the Japanese Society for Mathematical Biology and the 5th China-Japan-Korea Colloquium on Mathematical Biology, Kyoto, Japan, August 2015

·      Modeling Complex Adaptive Systems at the Interface of Ecology and Evolution. LabEx TULIP, LabEx TULIP 4th Summer School in Integrative Ecology and Biology “Biological interactions from genes to ecosystems”, Bagnères, France, July 2015

·      Ecological Drivers. Gordon Research Conferences, Gordon Research Conference on Speciation, Ventura, USA, March 2015

·      Conference Opening. Gordon Research Conferences, Gordon Research Conference on Speciation, Ventura, USA, March 2015

·      Understanding Complex Adaptive Systems. University of the Free State (UFS), Southern African Young Scientists Summer Program (SA-YSSP) 2014-15, Bloemfontein, South Africa, November 2014

·      Punishment’s Prosocial Prowess. The Graduate University for Advanced Studies (Sokendai), Hayama, Japan, October 2014

·      Economic Repercussions of Fisheries-Induced Evolution. International Council for the Exploration of the Sea (ICES), ICES Annual Science Conference, A Coruña, Spain, September 2014

·      An Evolutionary Explanation of Female-Biased Sexual Size Dimorphism in North Sea Plaice, Pleuronectes platessa L. International Council for the Exploration of the Sea (ICES), ICES Annual Science Conference, A Coruña, Spain, September 2014

·      Models of Biodiversity Dynamics. Austrian Academy of Sciences (ÖAW) and International Institute for Applied Systems Analysis (IIASA), Kerner von Marilaun Lectures 2014, Diversity and Change – Life on the Planet Earth, Vienna, Austria, June 2014

·      Robust Adaptive Speciation. Polytechnic University of Milan, Italian Society for Chaos and Complexity (SICC), 9th International School and Workshop “Topics in Nonlinear Dynamics: Modelling and Analysis of Innovation and Competition Processes”, Milan, Italy, May 2014

·      Integrated Assessments Can Reconcile Stakeholder Conflicts in Managing Renewable Natural Resources. European Meetings on Cybernetics and Systems Research 2014, Civilization at the Crossroads – Response and Responsibility of the Systems Sciences, Vienna, Austria, April 2014

·      Propitious Punishment. National Natural Science Foundation of China (NSFC) and International Institute for Applied Systems Analysis (IIASA), conference “Evolution of Cooperation”, Beijing, China, March 2014

·      Understanding Complex Adaptive Systems. University of the Free State (UFS), Southern African Young Scientists Summer Program (SA-YSSP) 20113-14, Bloemfontein, South Africa, January 2014

·      Adaptive Dynamics Theory: Understanding Life-History Evolution, Niche Construction, and Speciation. Bolyai Institute, University of Szeged, Mathematics of Planet Earth 2013: Workshop on Modelling in Life Sciences, Szeged, Hungary, November 2013

·      Sustainable Management of Marine Fisheries. Research Council of Norway, “Holistic approaches to global challenges” IIASA – Norwegian collaboration workshop, Bergen, Norway, November 2013

·      New Approaches to Sustainability Science. Santa Fe Institute/IIASA, Workshop “Theory and Knowledge Systems for Sustainability Science”, Santa Fe, USA, October 2013

·      The Overlooked Evolutionary Dimension of Modern Fisheries. Mathematical Biosciences Institute, Workshop “Rapid Evolution and Sustainability”, Ohio State University, Columbus, USA, October 2013

·      Robust Adaptive Speciation. École de Médecine, “Speciation 2013 – Second European Conference on Speciation Research”, Montpellier, France, May 2013

·      Life Histories, Niche Evolution, and Adaptive Speciation. Department of Botany and Zoology, Stellenbosch University, Stellenbosch, South Africa, February 2013

·      Social Norms and the Evolution of Cooperation. Department of Biological Sciences, University of Cape Town, Cape Town, South Africa, February 2013

·      Social Norms and the Evolution of Cooperation. School of Economics, Faculty of Commerce, University of Cape Town, Cape Town, South Africa, February 2013

·      Adaptive Speciation and Evolutionary Community Assembly. Chemical Biological Centre (KBC), Umeå University, FroSpects Workshop on Species Interaction and Speciation, Umeå, Sweden, January 2013

Books

Excerpts and reprints are available at user.iiasa.ac.at/~dieckman/reprints and through the links below.

·      Feng ZL, Dieckmann U & Levin SA eds. (2006). Disease Evolution: Models, Concepts, and Data Analyses. American Mathematical Society   Excerpts 

·      Dieckmann U, Doebeli M, Metz JAJ & Tautz D eds. (2004). Adaptive Speciation. Cambridge University Press   Excerpts 

·      Ferrière R, Dieckmann U & Couvet D eds. (2004). Evolutionary Conservation Biology. Cambridge University Press   Excerpts 

·      Dieckmann U, Metz JAJ, Sabelis MW & Sigmund K eds. (2002). Adaptive Dynamics of Infectious Diseases: In Pursuit of Virulence Management. Cambridge University Press   Excerpts 

·      Dieckmann U, Law R & Metz JAJ eds. (2000). The Geometry of Ecological Interactions: Simplifying Spatial Complexity. Cambridge University Press   Excerpts 

Theses:

·      Dieckmann U (1999). From Individuals to Populations: Systematic Model Reduction in Evolutionary Theory and Spatial Ecology. Venia legendi thesis (Habilitationsschrift), University of Vienna, Austria   Reprint 

·      Dieckmann U (1996). The Dynamical Theory of Coevolution. Ph.D. thesis, Leiden University, The Netherlands   Reprint 

·      Dieckmann U (1994). Coevolutionary Dynamics of Stochastic Replicator Systems. Master’s thesis, University of Aachen, Germany, and Central Library of the Research Center Juelich, Germany   Reprint 

Books in preparation:

·      Dieckmann U & Metz JAJ eds. Elements of Adaptive Dynamics. Cambridge University Press

·      Dieckmann U, Godø OR & Heino M eds. Fisheries-Induced Evolution. Cambridge University Press

Articles

Reprints are available at user.iiasa.ac.at/~dieckman/reprints and through the links below.

[1]        Abbott R, Albach D, Ansell S, Arntzen JW, Baird SJ, Bierne N, Boughman J, Brelsford A, Buerkle CA, Buggs R, Butlin RK, Dieckmann U, Eroukhmanoff F, Grill A, Cahan SH, Hermansen JS, Hewitt G, Hudson AG, Jiggins C, Jones J, Keller B, Marczewski T, Mallet J, Martinez-Rodriguez P, Möst M, Mullen S, Nichols R, Nolte AW, Parisod C, Pfennig K, Rice AM, Ritchie MG, Seifert B, Smadja CM, Stelkens R, Szymura JM, Väinölä R, Wolf JB & Zinner D (2013). Hybridization and speciation. Journal of Evolutionary Biology 26: 229–246   Reprint 

[2]        Allen B, Nowak MA & Dieckmann U (2013). Adaptive dynamics with interaction structure. American Naturalist 181: E139-E163   Reprint 

[3]        Arlinghaus R, Boukal D, Dieckmann U, Dunlop E, Enberg K, Ernande B, Gårdmark A, Heino M, Johnston F, Jørgensen C, Matsumura S, Pardoe H, Raab K, Rijnsdorp A, Silva A & Vainikka A [group members in alphabetical order] (2007). Report of the Study Group on Fisheries-Induced Adaptive Change (SGFIAC). ICES CM 2007/RMC: 03   Reprint 

[4]        Arlinghaus R, Matsumura S & Dieckmann U (2009). Quantifying selection differentials caused by recreational fishing: Development of modeling framework and application to reproductive investment in pike (Esox lucius). Evolutionary Applications 2: 335–355   Reprint 

[5]        Arlinghaus R, Matsumura S & Dieckmann U (2010). The conservation and fishery benefits of protecting large pike (Esox lucius L.) by harvest regulations in recreational fishing. Biological Conservation 143: 1444–1459   Reprint 

[6]        Barabás G, Pigolotti S, Gyllenberg M, Dieckmann U & Meszéna G (2012). Continuous coexistence or discrete species? A new review of an old question. Evolutionary Ecology Research 14: 523–554   Reprint 

[7]        Barot S, Heino M, Morgan MJ & Dieckmann U (2005). Maturation of the Newfoundland American plaice (Hippoglossoides platessoides): Long-term trends in maturation reaction norms despite low fishing mortality? ICES Journal of Marine Science 62: 56–64   Reprint 

[8]        Barot S, Heino M, O’Brien L & Dieckmann U (2002). Reaction norms for age and size at maturation: Study of the long-term trend (1970-1998) for Georges Bank and Gulf of Maine cod stocks. ICES CM 2002/Y: 03   Reprint 

[9]        Barot S, Heino M, O’Brien L & Dieckmann U (2004). Estimating reaction norms for age and size at maturation when age at first reproduction is unknown. Evolutionary Ecology Research 6: 659–678   Reprint 

[10]      Barot S, Heino M, O’Brien L & Dieckmann U (2004). Long-term trend in the maturation reaction norm of two cod stocks. Ecological Applications 14: 1257–1271   Reprint 

[11]      Baulier L, Heino M, Lilly GR & Dieckmann U (2006). Body condition and evolution of maturation of Atlantic cod in Newfoundland. ICES CM 2006/H: 19   Reprint 

[12]      Baulier L, Morgan MJ, Lilly GR, Dieckmann U & Heino M (2017). Reproductive investment in Atlantic cod populations off Newfoundland: Contrasting trends between males and females. Facets 2: 660–681

[13]      Bednarik P, Linnerooth-Bayer J, Magnuszewski P & Dieckmann U (2019). A game of common-pool resource management: Effects of communication, risky environment and worldviews. Ecological Economics 156: 287292

[14]      Bodin M, Brännström Å & Dieckmann U (2012). A systematic overview of harvesting-induced maturation evolution in predator-prey systems with three different life-history tradeoffs. Bulletin of Mathematical Biology 74: 2842–2860   Reprint 

[15]      Boukal DS, Dieckmann U, Enberg K, Heino M & Jørgensen C (2014). Life-history implications of the allometric scaling of growth. Journal of Theoretical Biology 359: 199–207   Reprint 

[16]      Boukal DS, Dunlop ES, Heino M & Dieckmann U (2008). Fisheries-induced evolution of body size and other life history traits: The impact of gear selectivity. ICES CM 2008/F: 07   Reprint 

[17]      Boza G, Kun Á, Scheuring I & Dieckmann U (2012). Strategy diversity stabilizes mutualism through investment cycles, phase polymorphism, and spatial bubbles. PLOS Computational Biology 8: e1002660   Reprint 

[18]      Bronstein JL, Dieckmann U & Ferrière R (2004). Coevolutionary dynamics and the conservation of mutualisms. In: Evolutionary Conservation Biology, eds. Ferrière R, Dieckmann U & Couvet D, pp. 305–326. Cambridge University Press   Reprint 

[19]      Brush E, Brännström Å & Dieckmann U (2018). Indirect reciprocity with negative assortment and limited information can promote cooperation. Journal of Theoretical Biology 443: 5665

[20]      Brännström Å & Dieckmann U (2005). Evolutionary dynamics of altruism and cheating among social amoebas. Proceedings of the Royal Society London Series B 272: 1609–1616   Reprint 

[21]      Brännström Å, Gross T, Blasius B & Dieckmann U (2011). Consequences of fluctuating group size for the evolution of cooperation. Journal of Mathematical Biology 63: 263–281   Reprint 

[22]      Brännström Å, Johansson J, Loeuille N, Kristensen N, Troost T, HilleRisLambers R & Dieckmann U (2012). Modeling the ecology and evolution of communities: A review of past achievements, current efforts, and future promises. Evolutionary Ecology Research 14: 601–625   Reprint 

[23]      Brännström Å, Loeuille N, Loreau M & Dieckmann U (2011). Emergence and maintenance of biodiversity in an evolutionary food-web model. Theoretical Ecology 4: 467–478   Reprint 

[24]      Chen X, Brännström Å & Dieckmann U (2019). Parent-preferred dispersal promotes cooperation in structured populations. Proceedings of the Royal Society of London Series B 286: 20181949

[25]      Chen X, Gross T & Dieckmann U (2013). Shared rewarding overcomes defection traps in generalized volunteer’s dilemmas. Journal of Theoretical Biology 335: 13–21   Reprint 

[26]      Chen X, Sasaki T, Brännström Å & Dieckmann U (2015). First carrot, then stick: How the adaptive hybridization of incentives promotes cooperation. Journal of the Royal Society Interface 12: 20140935   Reprint 

[27]      Cheptou PO & Dieckmann U (2002). The evolution of self-fertilization in density-regulated populations. Proceedings of the Royal Society of London Series B 269: 1177–1186   Reprint 

[28]      Claessen D & Dieckmann U (2002). Ontogenetic niche shifts and evolutionary branching in size-structured populations. Evolutionary Ecology Research 4: 189–217   Reprint 

[29]      Claessen D & Dieckmann U (2004). Adaptive speciation through ontogenetic niche shifts. In: Adaptive Speciation, eds. Dieckmann U, Metz JAJ, Doebeli M & Tautz D, pp. 226–227. Cambridge University Press   Reprint 

[30]      Cobey S, Pascual M & Dieckmann U (2010). Ecological factors driving the long-term evolution of influenza’s host range. Proceedings of the Royal Society London Series B 277: 2803–2810   Reprint 

[31]      de Mazancourt C & Dieckmann U (2004). Trade-off geometries and frequency-dependent selection. American Naturalist 164: 765–778   Reprint 

[32]      de Mazancourt C, Loreau M & Dieckmann U (2001). Can the evolution of plant defense lead to plant-herbivore mutualism? American Naturalist 158: 109–123   Reprint 

[33]      de Mazancourt C, Loreau M & Dieckmann U (2005). Understanding mutualism when there is adaptation to the partner. Journal of Ecology 93: 305–314   Reprint 

[34]      Dercole F, Dieckmann U, Obersteiner M & Rinaldi S (2008). Adaptive dynamics and technological change. Technovation 28: 335–348   Reprint 

[35]      Dieckmann U (1995). Coevolution as an autonomous learning strategy for neuromodules. In: Supercomputing in Brain Research: From Tomography to Neural Networks, eds. Herrmann HJ, Wolf DE & Pöppel E, pp. 427–432. World Scientific Publishing   Reprint 

[36]      Dieckmann U (1997). Can adaptive dynamics invade? Trends in Ecology and Evolution 12: 128–131   Reprint 

[37]      Dieckmann U (2000). Adaptive speciation. Options Spring 2000: 19   Reprint 

[38]      Dieckmann U (2000). Evolutionary algorithms. Options Spring 2000: 20–21   Reprint 

[39]      Dieckmann U (2000). Simplifying spatial complexity. Options Spring 2000: 17   Reprint 

[40]      Dieckmann U (2002). Adaptive dynamics of pathogen-host interactions. In: Adaptive Dynamics of Infectious Diseases: In Pursuit of Virulence Management, eds. Dieckmann U, Metz JAJ, Sabelis MW & Sigmund K, pp. 39–59. Cambridge University Press   Reprint 

[41]      Dieckmann U (2002). YSSP projects: Preparing for success. Options Autumn 2002: 7   Reprint 

[42]      Dieckmann U (2004). Assortative mating and spatial coexistence. In: Adaptive Speciation, eds. Dieckmann U, Metz JAJ, Doebeli M & Tautz D, pp. 306–307. Cambridge University Press   Reprint 

[43]      Dieckmann U (2009). Fisheries-induced evolution. The Parliament Magazine 288: 22   Reprint 

[44]      Dieckmann U & Doebeli M (1999). On the origin of species by sympatric speciation. Nature 400: 354–357   Reprint    News & Views 

[45]      Dieckmann U & Doebeli M (2004). Adaptive dynamics of speciation: Sexual populations. In: Adaptive Speciation, eds. Dieckmann U, Metz JAJ, Doebeli M & Tautz D, pp. 76–111. Cambridge University Press   Reprint 

[46]      Dieckmann U & Doebeli M (2005). Pluralism in evolutionary theory. Journal of Evolutionary Biology 18: 1209–1213   Reprint 

[47]      Dieckmann U & Ferrière R (2004). Adaptive dynamics and evolving biodiversity. In: Evolutionary Conservation Biology, eds. Ferrière R, Dieckmann U & Couvet D, pp. 188–224. Cambridge University Press   Reprint 

[48]      Dieckmann U & Heino M (2004). Dags att stoppa torskfisket. Miljöforskning 4-04: 14–15 (in Swedish)   Reprint 

[49]      Dieckmann U & Heino M (2004). Fishing drives rapid evolution. Sustainability 3-4/04: 18–19   Reprint 

[50]      Dieckmann U & Heino M (2007). Probabilistic maturation reaction norms: Their history, strengths, and limitations. Marine Ecology Progress Series 335: 253–269   Reprint 

[51]      Dieckmann U & Law R (1996). The dynamical theory of coevolution: A derivation from stochastic ecological processes. Journal of Mathematical Biology 34: 579–612   Reprint 

[52]      Dieckmann U & Law R (2000). Relaxation projections and the method of moments. In: The Geometry of Ecological Interactions: Simplifying Spatial Complexity, eds. Dieckmann U, Law R & Metz JAJ, pp. 412–455. Cambridge University Press   Reprint 

[53]      Dieckmann U & Metz JAJ (2000). Studying the evolution of complex adaptive systems. Options Spring 2000: 2–6   Reprint 

[54]      Dieckmann U & Metz JAJ (2006). Surprising evolutionary predictions from enhanced ecological realism. Theoretical Population Biology 69: 263–281   Reprint 

[55]      Dieckmann U & Williams CP (1992). Model approximation via dimension reduction. In: Proceedings of the AAAI Workshop on Approximation and Abstraction of Computational Theories, ed. Ellman T, pp. 146–153. San Jose, California, USA   Reprint 

[56]      Dieckmann U, Brännström Å, HilleRisLambers R & Ito HC (2007). The adaptive dynamics of community structure. In: Mathematics for Ecology and Environmental Sciences, eds. Takeuchi Y, Sato K & Iwasa Y, pp. 145–177. Springer Verlag   Reprint 

[57]      Dieckmann U, Heino M & Jin X (2005). Shrinking fish: Fisheries-induced evolution in the Yellow Sea. Options Autumn 2005: 8   Reprint 

[58]      Dieckmann U, Heino M & Parvinen K (2006). The adaptive dynamics of function-valued traits. Journal of Theoretical Biology 241: 370–389   Reprint 

[59]      Dieckmann U, Heino M & Rijnsdorp AD (2009). The dawn of Darwinian fishery management. ICES Insight 46: 34–43   Reprint 

[60]      Dieckmann U, Herben T & Law R (1997). Spatio-temporal processes in plant communities. In: Yearbook 1995/96, Institute for Advanced Study Berlin, ed. Lepenies W, pp. 296–326. Nicolaische Verlagsbuchhandlung, Berlin, Germany   Reprint 

[61]      Dieckmann U, Herben T & Law R (1997). Strategies in spatial ecological modeling: Reliability, robustness and generality. In: Yearbook 1995/96, Institute for Advanced Study Berlin, ed. Lepenies W, pp. 238–248. Nicolaische Verlagsbuchhandlung, Berlin, Germany   Reprint 

[62]      Dieckmann U, Herben T & Law R (1999). Spatio-temporal processes in ecological communities. CWI Quarterly 12: 213–238   Reprint 

[63]      Dieckmann U, Marrow P & Law R (1995). Evolutionary cycling in predator-prey interactions: Population dynamics and the Red Queen. Journal of Theoretical Biology 176: 91–102   Reprint 

[64]      Dieckmann U, Metz JAJ, Doebeli M & Tautz D (2004). Introduction. In: Adaptive Speciation, eds. Dieckmann U, Metz JAJ, Doebeli M & Tautz D, pp. 1–16. Cambridge University Press   Reprint 

[65]      Dieckmann U, O’Hara B & Weisser W (1999). The evolutionary ecology of dispersal. Trends in Ecology and Evolution 14: 88–90   Reprint 

[66]      Dieckmann U, Sigmund K, Sabelis MW & Metz JAJ (2002). Epilogue. In: Adaptive Dynamics of Infectious Diseases: In Pursuit of Virulence Management, eds. Dieckmann U, Metz JAJ, Sabelis MW & Sigmund K, pp. 460–463. Cambridge University Press   Reprint 

[67]      Dieckmann U, Tautz D, Doebeli M & Metz JAJ (2004). Epilogue. In: Adaptive Speciation, eds. Dieckmann U, Metz JAJ, Doebeli M & Tautz D, pp. 380–394. Cambridge University Press   Reprint 

[68]      Doebeli M & Dieckmann U (2000). Evolutionary branching and sympatric speciation caused by different types of ecological interactions. American Naturalist 156: S77–S101   Reprint 

[69]      Doebeli M & Dieckmann U (2003). Speciation along environmental gradients. Nature 421: 259–264   Reprint    News & Views 

[70]      Doebeli M & Dieckmann U (2004). Adaptive dynamics of speciation: Spatial structure. In: Adaptive Speciation, eds. Dieckmann U, Metz JAJ, Doebeli M & Tautz D, pp. 140–167. Cambridge University Press   Reprint 

[71]      Doebeli M & Dieckmann U (2005). Adaptive dynamics as a mathematical tool for studying the ecology of speciation processes. Journal of Evolutionary Biology 18: 1194–1200   Reprint 

[72]      Doebeli M, Blok HJ, Leimar O & Dieckmann U (2007). Multimodal pattern formation in phenotype distributions of sexual populations. Proceedings of the Royal Society London Series B 274: 347–357   Reprint 

[73]      Doebeli M, Dieckmann U, Metz JAJ & Tautz D (2005). What we have also learned: Adaptive speciation is theoretically plausible. Evolution 59: 691–695   Reprint 

[74]      Dunlop ES, Baskett ML, Heino M & Dieckmann U (2009). Propensity of marine reserves to reduce the evolutionary impacts of fishing in a migratory species. Evolutionary Applications 2: 371–393   Reprint 

[75]      Dunlop ES, Heino M & Dieckmann U (2009). Eco-genetic modeling of contemporary life-history evolution. Ecological Applications 19: 1815–1834   Reprint 

[76]      Dunlop ES, Shuter BJ & Dieckmann U (2007). The demographic and evolutionary consequences of selective mortality: Predictions from an eco-genetic model of the smallmouth bass. Transactions of the American Fisheries Society 136: 749–765   Reprint 

[77]      Egas M, Dieckmann U & Sabelis MW (2004). Evolution restricts the coexistence of specialists and generalists – The role of trade-off structure. American Naturalist 163: 518–531   Reprint 

[78]      Egas M, Sabelis MW & Dieckmann U (2005). Evolution of specialization and ecological character displacement of herbivores along a gradient of plant quality. Evolution 59: 507–520   Reprint 

[79]      Eikeset AM, Dunlop ES, Heino M, Storvik G, Stenseth NC & Dieckmann U (2017). Ecology and evolution both matter for explaining stock dynamics, Reply to Enberg and Jørgensen. Proceedings of the National Academy of Sciences of the USA 114: E4322–E4323

[80]      Eikeset AM, Dunlop ES, Heino M, Storvik G, Stenseth NC & Dieckmann U (2016). Roles of density-dependent growth and life history evolution in accounting for fisheries-induced trait changes. Proceedings of the National Academy of Sciences of the USA 113: 1503015035   Reprint 

[81]      Eikeset AM, Richter A, Dunlop ES, Dieckmann U & Stenseth NC (2013). Economic repercussions of fisheries-induced evolution. Proceedings of the National Academy of Sciences of the USA 110: 12259–12264   Reprint 

[82]      Eikeset AM, Richter AP, Dankel DJ, Dunlop ES, Heino M, Dieckmann U & Stenseth NC (2013). A bio-economic analysis of harvest control rules for the Northeast Arctic cod fishery. Marine Policy 39: 172–181   Reprint 

[83]      Enberg K, Dunlop ES, Jørgensen C, Heino M & Dieckmann U (2009). Implications of fisheries-induced evolution for stock rebuilding and recovery. Evolutionary Applications 2: 394–414   Reprint 

[84]      Engelhard GH, Dieckmann U & Godø OR (2003). Age at maturation predicted from routine scale measurements in Norwegian spring-spawning herring (Clupea harengus) using discriminant and neural network analyses. ICES Journal of Marine Science 60: 304–313   Reprint 

[85]      Ernande B & Dieckmann U (2004). The evolution of phenotypic plasticity in spatially structured environments: Implications of intraspecific competition, plasticity costs and environmental characteristics. Journal of Evolutionary Biology 17: 613–628   Reprint 

[86]      Ernande B, Dieckmann U & Heino M (2002). Fisheries-induced changes in age and size at maturation and understanding the potential for selection-induced stock collapse. ICES CM 2002/Y: 06   Reprint 

[87]      Ernande B, Dieckmann U & Heino M (2004). Adaptive changes in harvested populations: Plasticity and evolution of age and size at maturation. Proceedings of the Royal Society London Series B 271: 415–423   Reprint 

[88]      Evans S, Dieckmann U, Franklin O & Kaiser C (2016). Synergistic effects of diffusion and microbial physiology reproduce the Birch effect in a micro-scale model. Soil Biology and Biochemistry 93: 28–37   Reprint 

[89]      Falster DS, Brännström Å, Dieckmann U & Westoby M (2011). Influence of four major plant traits on average height, leaf-area cover, net primary productivity, and biomass density in single-species forests: A theoretical investigation. Journal of Ecology 99: 148–164   Reprint 

[90]      Falster DS, Brännström Å, Westoby M & Dieckmann U (2017). Multi-trait successional forest dynamics enable diverse competitive coexistence. Proceedings of the National Academy of Sciences of the USA 114: E2719-E2728   Reprint 

[91]      Falster DS, FitzJohn RG, Brännström Å, Dieckmann U & Westoby M (2016). plant: A package for modelling forest trait ecology and evolution. Methods in Ecology and Evolution 7: 136–146   Reprint 

[92]      Fazalova V & Dieckmann U (2012). Spatial self-structuring accelerates adaptive speciation in sexual populations. Evolutionary Ecology Research 14: 583–599   Reprint 

[93]      Ferrière R, Dieckmann U & Couvet D (2004). Epilogue. In: Evolutionary Conservation Biology, eds. Ferrière R, Dieckmann U & Couvet D, pp. 356–364. Cambridge University Press   Reprint 

[94]      Ferrière R, Dieckmann U & Couvet D (2004). Introduction. In: Evolutionary Conservation Biology, eds. Ferrière R, Dieckmann U & Couvet D, pp. 1–14. Cambridge University Press   Reprint 

[95]      Ficker H, Mazzucco R, Gassner H, Wanzenböck J & Dieckmann U (2014). Fish length exclusively determines sexual maturation in the European whitefish Coregonus lavaretus species complex. Journal of Fish Biology 84: 11641170   Reprint 

[96]      Ficker H, Mazzucco R, Gassner H, Wanzenböck J & Dieckmann U (2016). Stocking strategies for a pre-alpine whitefish population under temperature stress. Ecological Modelling 320: 170–176   Reprint 

[97]      Fischer B, Taborsky B & Dieckmann U (2009). Unexpected patterns of plastic energy allocation in stochastic environments. American Naturalist 173: E108–E120   Reprint 

[98]      Fischer B, Taborsky B & Dieckmann U (2011). When to store energy in a stochastic environment. Evolution 65: 1221–1232   Reprint 

[99]      Fischer B, van Doorn GS, Dieckmann U & Taborsky B (2013). The evolution of age-dependent plasticity. American Naturalist 183: 108–125   Reprint 

[100]    Frank AB, Goud Collins M, Levin SA, Lo AW, Ramo J, Dieckmann U, Kremenyuk V, Kryazhimskiy AV, Linnerooth-Bayer J, Ramalingam B, Roy JS, Saari DG, Thurner S & von Winterfeldt D (2014). Dealing with femtorisks in international relations. Proceedings of the National Academy of Sciences of the USA 111: 1735617362   Reprint 

[101]    Franklin O, Johansson J, Dewar RC, Dieckmann U, McMurtrie RE, Brännström Å & Dybzinski R (2012). Modeling carbon allocation in trees – A search for principles. Tree Physiology 32: 648–666   Reprint 

[102]    Fronhofer EA, Poethke HJ & Dieckmann U (2015). Evolution of dispersal distance: Maternal investment leads to bimodal dispersal kernels. Journal of Theoretical Biology 365: 270–279   Reprint 

[103]    Gephart JA, Rovenskaya E, Dieckmann U, Pace ML & Brännström Å (2016). Vulnerability to shocks in the global seafood trade network. Environmental Research Letters 11: 035008   Reprint 

[104]    Gratzer G, Canham C, Dieckmann U, Fischer A, Iwasa Y, Law R, Lexer MJ, Sandmann H, Spies T, Splechtna B & Szwagrzyk J (2004). Spatio-temporal development of forests – Current trends in field methods and models. Oikos 107: 3–15   Reprint 

[105]    Grift RE, Heino M, Rijnsdorp AD, Kraak SBM & Dieckmann U (2007). Three-dimensional maturation reaction norms for North Sea plaice. Marine Ecology Progress Series 334: 213–224   Reprint 

[106]    Grift RE, Rijnsdorp AD, Barot S, Heino M & Dieckmann U (2002). Trends in reaction norms for maturation in North Sea plaice. ICES CM 2002/Y: 04   Reprint 

[107]    Grift RE, Rijnsdorp AD, Barot S, Heino M & Dieckmann U (2003). Fisheries-induced trends in reaction norms for maturation in North Sea plaice. Marine Ecology Progress Series 257: 247–257   Reprint 

[108]    Gross T, Rudolf L, Levin SA & Dieckmann U (2009). Generalized models reveal stabilizing factors in food webs. Science 325: 747–750   Reprint 

[109]    Gyllenberg M, Parvinen K & Dieckmann U (2002). Evolutionary suicide and evolution of dispersal in structured metapopulations. Journal of Mathematical Biology 45: 79–105   Reprint 

[110]    Gårdmark A & Dieckmann U (2006). Disparate maturation adaptations to size-dependent mortality. Proceedings of the Royal Society London Series B 273: 2185–2192   Reprint 

[111]    Gårdmark A, Dieckmann U & Lundberg P (2003). Life-history evolution in harvested populations: The role of natural predation. Evolutionary Ecology Research 5: 239–257   Reprint 

[112]    Haller BC, Mazzucco R & Dieckmann U (2013). Evolutionary branching in complex landscapes. American Naturalist 182: E127E141   Reprint 

[113]    Hartig F, Münkemüller T, Johst K & Dieckmann U (2014). On the sympatric evolution and evolutionary stability of coexistence by relative nonlinearity of competition. PLOS ONE: e94454   Reprint 

[114]    Heino M & Dieckmann U (2003). Reaction norms for age and size at maturation in Atlantic cod stocks. ICES-GLOBEC Newsletter 10: 3–4   Reprint 

[115]    Heino M & Dieckmann U (2004). Exploitation as a driving force of life history evolution: Methods and empirical analyses. ICES CM 2004/K: 35   Reprint 

[116]    Heino M & Dieckmann U (2008). Detecting fisheries-induced life-history evolution: An overview of the reaction norm approach. Bulletin of Marine Science 83: 69–93   Reprint 

[117]    Heino M & Dieckmann U (2008). Evolution and sustainability of harvested populations. In: Conservation Biology: Evolution in Action, eds. Carroll SP & Fox C, pp. 308–323. Oxford University Press   Reprint 

[118]    Heino M & Dieckmann U (2009). Fisheries-induced evolution. In: Encyclopedia of Life Sciences, article A21213. John Wiley and Sons   Reprint 

[119]    Heino M, Baulier L, Boukal DS, Ernande B, Johnston FD, Mollet F, Pardoe H, Therkildsen NO, Uusi-Heikkilä S, Vainikka A, Arlinghaus R, Dankel DJ, Dunlop ES, Eikeset AM, Enberg K, Engelhard GH, Jørgensen C, Laugen AT, Matsumura S, Nusslé S, Urbach D, Whitlock R, Rijnsdorp AD & Dieckmann U (2013). Can fisheries-induced evolution shift reference points for fisheries management? ICES Journal of Marine Science 70: 707–721   Reprint 

[120]    Heino M, Díaz Pauli B & Dieckmann U (2015). Fisheries-induced evolution. Annual Review of Ecology, Evolution, and Systematics 46: 461–480   Reprint 

[121]    Heino M, Dieckmann U & Godø OR (2000). Shrinking cod: Fishery-induced change in an oceanic stock. Options Spring 2000: 6–8   Reprint 

[122]    Heino M, Dieckmann U & Godø OR (2002). Estimating reaction norms for age and size at maturation with reconstructed immature size distributions: A new technique illustrated by application to Northeast Arctic cod. ICES Journal of Marine Science 59: 562–575   Reprint 

[123]    Heino M, Dieckmann U & Godø OR (2002). Measuring probabilistic reaction norms for age and size and maturation. Evolution 56: 669–678   Reprint 

[124]    Heino M, Dieckmann U & Godø OR (2002). Reaction norm analysis of fisheries-induced adaptive change and the case of the Northeast Arctic cod. ICES CM 2002/Y: 14   Reprint 

[125]    Heino M, Dieckmann U, Engelhard G & Godø OR (2004). Evolusjonære effekter av fiske. In: Havets Ressurser 2004, ed. Michalsen K, pp. 164–166. Institute of Marine Research, Bergen (in Norwegian)   Reprint 

[126]    Heino M, Godø OR & Dieckmann U (2019). The generalization of Gulland’s method: How to estimate maturity ogives when juvenile data are missing while spawner demography is known. Fisheries Research 219: 105265

[127]    Heino M, Parvinen K & Dieckmann U (2008). Evolution of foraging strategies on resource gradients. Evolutionary Ecology Research 10: 1131–1156   Reprint 

[128]    Heino M, Rijnsdorp AD & Dieckmann U (2011). The dawn of Darwinian fishery management. In: Pragmatic Evolution: Applications of Evolutionary Theory, ed. Poiani A, pp. 81–103. Cambridge University Press   Reprint 

[129]    Heinz SK, Mazzucco R & Dieckmann U (2009). Speciation and the evolution of dispersal along environmental gradients. Evolutionary Ecology 23: 53–70   Reprint 

[130]    HilleRisLambers R & Dieckmann U (2003). Competition and predation in simple food webs: Intermediately strong trade-offs maximize coexistence. Proceedings of the Royal Society London Series B 270: 2591–2598   Reprint 

[131]    Hochrainer-Stigler S, Boza G, Colon C, Poledna S, Rovenskaya E & Dieckmann U (2018). Resilience of systems to individual risk and systemic risk. In: Resource Guide on Resilience, Volume 2: Domains of Resilience for Complex Interconnected Systems, eds. Trump BD, Florin MV & Linkov I. EPFL International Risk Governance Center

[132]    Hochrainer-Stigler S, Colon C, Boza G, Brännström Å, Linnerooth-Bayer J, Pflug G, Poledna S, Rovenskaya E & Dieckmann U (2019). Measuring, modeling, and managing systemic risk: the missing aspect of human agency. Journal of Risk Research, in press, doi:10.1080/13669877.2019.1646312

[133]    Hochrainer-Stigler S, Pflug G, Dieckmann U, Rovenskaya E, Thurner S, Poledna S, Boza G, Linnerooth-Bayer J & Brännström Å (2018). Integrating systemic risk and risk analysis using copulas. International Journal of Disaster Risk Science 9: 561–567

[134]    Ito HC & Dieckmann U (2007). A new mechanism for recurrent adaptive radiations. American Naturalist 170: E96–E111   Reprint 

[135]    Ito HC & Dieckmann U (2012). Evolutionary-branching lines and areas in bivariate trait spaces. Evolutionary Ecology Research 14: 555–582   Reprint 

[136]    Ito HC & Dieckmann U (2014). Evolutionary branching under slow directional evolution. Journal of Theoretical Biology 360: 290314   Reprint 

[137]    Ito HC, Dieckmann U & Metz JAJ (2020). Lotka-Volterra approximations for evolutionary trait-substitution processes. Journal of Mathematical Biology, in press

[138]    Jesse M, Mazzucco R, Dieckmann U, Heesterbeek H & Metz JAJ (2011). Invasion and persistence of infectious agents in fragmented host populations. PLOS ONE 6: e24006   Reprint 

[139]    Johansson J & Dieckmann U (2009). Evolutionary responses of communities to extinctions. Evolutionary Ecology Research 11: 561–588   Reprint 

[140]    Johansson J, Brännström Å, Metz JAJ & U Dieckmann (2018). Twelve fundamental life histories evolving through allocation-dependent fecundity and survival. Ecology and Evolution 8: 3172–3186

[141]    Johnston FD, Arlinghaus R & Dieckmann U (2010). Diversity and complexity of angler behavior drive socially optimal input and output regulations in a bioeconomic recreational-fisheries model. Canadian Journal of Fisheries and Aquatic Sciences 67: 1507–1531   Reprint 

[142]    Johnston FD, Arlinghaus R & Dieckmann U (2013). Fish life history, angler behaviour, and optimal management of recreational fisheries. Fish and Fisheries 14: 554–579   Reprint 

[143]    Joshi J, Brännström Å & Dieckmann U (2020). Emergence of social inequality in the spatial harvesting of renewable public goods. PLoS Computational Biology 16: 1–25

[144]    Jørgensen C, Enberg K, Dunlop ES, Arlinghaus R, Boukal DS, Brander K, Ernande B, Gårdmark A, Johnston F, Matsumura S, Pardoe H, Raab K, Silva A, Vainikka A, Dieckmann U, Heino M & Rijnsdorp AD (2007). Managing evolving fish stocks. Science 318: 1247–1248   Reprint 

[145]    Jørgensen C, Enberg K, Dunlop ES, Arlinghaus R, Boukal DS, Brander K, Ernande B, Gårdmark A, Johnston F, Matsumura S, Pardoe H, Raab K, Silva A, Vainikka A, Dieckmann U, Heino M & Rijnsdorp AD (2008). The role of fisheries-induced evolution – Response. Science 320: 48–50   Reprint 

[146]    Jørgensen C, Ernande B, Fiksen Ø & Dieckmann U (2006). The logic of skipped spawning in fish. Canadian Journal of Fisheries and Aquatic Sciences 63: 200–211   Reprint 

[147]    Kaiser C, Franklin O, Dieckmann U & Richter A (2014). Microbial community dynamics alleviate stoichiometric constraints during litter decay. Ecology Letters 17: 680–690   Reprint 

[148]    Kaiser C, Franklin O, Richter A & Dieckmann U (2015). Social dynamics within decomposer communities lead to nitrogen retention and organic matter build-up in soils. Nature Communications 6: 8960   Reprint 

[149]    Kaito C, Dieckmann U, Sasaki A & Takasu F (2015). Beyond pairs: Definition and interpretation of third-order structure in spatial point patterns. Journal of Theoretical Biology 372: 22–38   Reprint 

[150]    Kapeller S, Dieckmann U & Schueler S (2017). Varying selection differential throughout the climatic range of Norway spruce in Central Europe. Evolutionary Applications 10: 2538   Reprint 

[151]    Kendall NW, Dieckmann U, Heino M, Punt AE & Quinn TP (2013). Evolution of age and length at maturation of Alaskan salmon under size-selective harvest. Evolutionary Applications 7: 313–322   Reprint 

[152]    Kryazhimskiy S, Dieckmann U, Levin SA & Dushoff J (2007). On state-space reduction in multi-strain pathogen models, with an application to antigenic drift in influenza A. PLOS Computational Biology 8: e159   Reprint 

[153]    Kun Á & Dieckmann U (2013). Resource heterogeneity can facilitate cooperation. Nature Communications 4: 2453   Reprint 

[154]    Kun Á, Oborny B & Dieckmann U (2009). Intermediate landscape disturbance maximizes metapopulation density. Landscape Ecology 24: 1341–1350   Reprint 

[155]    Kun Á, Oborny B & Dieckmann U (2019). Five main phases of landscape degradation revealed by a dynamic mesoscale model analysing the splitting, shrinking, and disappearing of habitat patches. Scientific Reports 9: 1–11

[156]    Landi P, Hui C & Dieckmann U (2015). Fisheries-induced disruptive selection. Journal of Theoretical Biology 365: 204–216   Reprint 

[157]    Landi P, Minoarivelo HO, Brännström Å, Hui C & Dieckmann U (2018). Complexity and stability of adaptive ecological networks: A survey of the theory in community ecology. In: Systems Analysis Approach for Complex Global Challenges, eds. Mensah P, Katerere D, Hachigonta S & Roodt A, pp. 209–248. Springer Verlag

[158]    Landi P, Minoarivelo HO, Brännström Å, Hui C & Dieckmann U (2018). Complexity and stability of ecological networks: A review of the theory. Population Ecology 60: 319–345

[159]    Laugen AT, Engelhard GH, Whitlock R, Arlinghaus R, Dankel DJ, Dunlop ES, Eikeset AM, Enberg K, Jørgensen C, Matsumura S, Nusslé S, Urbach D, Baulier L, Boukal DS, Ernande B, Johnston FD, Mollet F, Pardoe H, Therkildsen NO, Uusi-Heikkilä S, Vainikka A, Heino M, Rijnsdorp AD & Dieckmann U (2014). Evolutionary impact assessment: Accounting for evolutionary consequences of fishing in an ecosystem approach to fisheries management. Fish and Fisheries 15: 6596   Reprint 

[160]    Law R & Dieckmann U (1998). Symbiosis through exploitation and the merger of lineages in evolution. Proceedings of the Royal Society London Series B 265: 1245–1253   Reprint 

[161]    Law R & Dieckmann U (2000). A dynamical system for neighborhoods in plant communities. Ecology 81: 2137–2148   Reprint 

[162]    Law R & Dieckmann U (2000). Moment approximations of individual-based models. In: The Geometry of Ecological Interactions: Simplifying Spatial Complexity, eds. Dieckmann U, Law R & Metz JAJ, pp. 252–270. Cambridge University Press   Reprint 

[163]    Law R, Dieckmann U & Metz JAJ (2000). Introduction. In: The Geometry of Ecological Interactions: Simplifying Spatial Complexity, eds. Dieckmann U, Law R & Metz JAJ, pp. 1–6. Cambridge University Press   Reprint 

[164]    Law R, Herben T & Dieckmann U (1997). Non-manipulative estimates of competition coefficients in a montane grassland community. Journal of Ecology 85: 505–517   Reprint 

[165]    Law R, Marrow P & Dieckmann U (1997). On evolution under asymmetric competition. Evolutionary Ecology 11: 485–501   Reprint 

[166]    Law R, Murrell DJ & Dieckmann U (2003). Population growth in space and time: Spatial logistic equations. Ecology 84: 252–262   Reprint 

[167]    Law R, Purves DW, Murrell DJ & Dieckmann U (2001). Causes and effects of small-scale spatial structure in plant populations. In: Integrating Ecology and Evolution in a Spatial Context, British Ecological Society Symposium Volume Series, Vol. 14, eds. Silvertown J & Antonovics J, pp. 21–44. Blackwell Science   Reprint 

[168]    Le Galliard JF, Ferrière R & Dieckmann U (2003). The adaptive dynamics of altruism in spatially heterogeneous populations. Evolution 57: 1–17   Reprint 

[169]    Le Galliard JF, Ferrière R & Dieckmann U (2005). Adaptive evolution of social traits: Origin, trajectories, and correlations of altruism and mobility. American Naturalist 165: 206–224   Reprint 

[170]    Lee JH, Iwasa Y, Dieckmann U & Sigmund K (2019). Social evolution leads to persistent corruption. Proceedings of the National Academy of Sciences of the USA 116: 13276–13281

[171]    Lee JH, Sigmund K, Dieckmann U & Iwasa Y (2015). Games of corruption: How to suppress illegal logging. Journal of Theoretical Biology 367: 1–13   Reprint 

[172]    Leimar O, Doebeli M & Dieckmann U (2008). Evolution of phenotypic clusters through competition and local adaptation along an environmental gradient. Evolution 62: 807–822   Reprint 

[173]    Leimar O, Sasaki A, Doebeli M & Dieckmann U (2013). Limiting similarity, species packing, and the shape of competition kernels. Journal of Theoretical Biology 339: 3–13   Reprint 

[174]    Lindh M, Falster DS, Zhang L, Dieckmann U & Brännström Å (2018). Latitudinal effects on crown shape evolution. Ecology and Evolution 8: 8149–8158

[175]    M’Gonigle LK, Mazzucco R, Otto SP & Dieckmann U (2012). Sexual selection enables long-term coexistence despite ecological equivalence. Nature 484: 506–509   Reprint 

[176]    Magori K, Oborny B, Dieckmann U & Meszéna G (2003). Cooperation and competition in heterogeneous environments: The evolution of resource sharing in clonal plants. Evolutionary Ecology Research 5: 787–817   Reprint 

[177]    Marrow P, Dieckmann U & Law R (1996). Evolutionary dynamics of predator-prey systems: An ecological perspective. Journal of Mathematical Biology 34: 556–578   Reprint 

[178]    Marty L, Dieckmann U & Ernande B (2014). Fisheries-induced neutral and adaptive evolution in exploited fish populations and consequences for their adaptive potential. Evolutionary Applications 8: 47–63   Reprint 

[179]    Marty L, Dieckmann U, Rochet MJ & Ernande B (2011). Impact of environmental covariation in growth and mortality on evolving maturation reaction norms. American Naturalist 177: E98–E118   Reprint 

[180]    Matsumura S, Arlinghaus R & Dieckmann U (2010). Foraging on spatially distributed resources with sub-optimal movement, imperfect information, and travelling costs: Departures from the ideal free distribution. Oikos 119: 1469–1483   Reprint 

[181]    Matsumura S, Arlinghaus R & Dieckmann U (2011). Assessing evolutionary consequences of size-selective recreational fishing on multiple life-history traits, with an application to northern pike (Esox lucius). Evolutionary Ecology 25: 711–735   Reprint 

[182]    Matsumura S, Arlinghaus R & Dieckmann U (2012). Standardizing selection strengths to study selection in the wild: A critical comparison and suggestions for the future. BioScience 62:1039–1054   Reprint 

[183]    Matsumura S, Beardmore B, Haider W, Dieckmann U & Arlinghaus R (2019). Ecological, angler, and spatial heterogeneity drive social and ecological outcomes in an integrated landscape model of freshwater recreational fisheries. Reviews in Fisheries Science and Aquaculture 27: 170–197

[184]    Mazzucco R, Dieckmann U & Metz JAJ (2016). Epidemiological, evolutionary, and economic determinants of eradication tails. Journal of Theoretical Biology 405: 58–65   Reprint 

[185]    Mazzucco R, Doebeli M & Dieckmann U (2018). The influence of habitat boundaries on evolutionary branching along environmental gradients. Evolutionary Ecology 32: 563–585

[186]    Mazzucco R, Van Nguyen T, Kim DH, Chon TS & Dieckmann U (2015). Adaptation of aquatic insects to the current flow in streams. Ecological Modelling 309–310: 143–152   Reprint 

[187]    Meszéna G, Kisdi É, Dieckmann U, Geritz SAH & Metz JAJ (2001). Evolutionary optimisation models and matrix games in the unified perspective of adaptive dynamics. Selection 2: 193–210   Reprint 

[188]    Metz JAJ, Dieckmann U & Law R (2000). Epilogue. In: The Geometry of Ecological Interactions: Simplifying Spatial Complexity, eds. Dieckmann U, Law R & Metz JAJ, pp. 513–516. Cambridge University Press   Reprint 

[189]    Miethe T, Dytham C, Dieckmann U & Pitchford J (2010). Marine reserves and the evolutionary effects of fishing on size at maturation. ICES Journal of Marine Science 67: 412–425   Reprint 

[190]    Mollet FM, Dieckmann U & Rijnsdorp AD (2016). Reconstructing the effects of fishing on life history evolution in North Sea plaice (Pleuronectes platessa). Marine Ecology Progress Series 542: 195–208   Reprint 

[191]    Mollet FM, Poos JJ, Dieckmann U & Rijnsdorp AD (2016). Evolutionary impact assessment of the North Sea plaice fishery. Canadian Journal of Fisheries and Aquatic Sciences 73: 11261137   Reprint 

[192]    Murrell DJ, Dieckmann U & Law R (2004). On moment closures for population dynamics in continuous space. Journal of Theoretical Biology 229: 421–432   Reprint 

[193]    Nakamaru M & Dieckmann U (2009). Runaway selection for cooperation and strict-and-severe punishment. Journal of Theoretical Biology 257: 1–8   Reprint 

[194]    Ohlberger J, Brännström Å & Dieckmann U (2013). Adaptive phenotypic diversification along a temperature-depth gradient. American Naturalist 182: 359–373   Reprint 

[195]    Okamoto KW, Whitlock R, Magnan P & Dieckmann U (2009). Mitigating fisheries-induced evolution in lacustrine brook charr (Salvelinus fontinalis) in southern Quebec, Canada. Evolutionary Applications 2: 415–437   Reprint 

[196]    Olsen EM, Heino M, Lilly GR, Morgan MJ, Brattey J, Ernande B & Dieckmann U (2004). Maturation trends indicative of rapid evolution preceded the collapse of northern cod. Nature 428: 932–935   Reprint    News & Views 

[197]    Olsen EM, Lilly GR, Heino M, Morgan MJ, Brattey J & Dieckmann U (2005). Assessing changes in age and size at maturation in collapsing populations of Atlantic cod (Gadus morhua). Canadian Journal of Fisheries and Aquatic Sciences 62: 811–823   Reprint 

[198]    Parvinen K & Dieckmann U (2013). Self-extinction through optimizing selection. Journal of Theoretical Biology 333: 1–9   Reprint 

[199]    Parvinen K, Dieckmann U & Heino M (2006). Function-valued adaptive dynamics and the calculus of variations. Journal of Mathematical Biology 52: 1–26   Reprint 

[200]    Parvinen K, Dieckmann U & Heino M (2013). Function-valued adaptive dynamics and optimal control theory. Journal of Mathematical Biology 67: 509533   Reprint 

[201]    Parvinen K, Dieckmann U, Gyllenberg M & Metz JAJ (2003). Evolution of dispersal in metapopulations with local density dependence and demographic stochasticity. Journal of Evolutionary Biology 16: 143–153   Reprint 

[202]    Parvinen K, Metz JAJ & Dieckmann U (2020). Environmental dimensionality. Journal of Theoretical Biology, in press

[203]    Pasemann F & Dieckmann U (1997). Evolved neurocontrollers for pole balancing. In: Biological and Artificial Computation: From Neuroscience to Technology, Lecture Notes in Computer Science, Vol. 1240, eds. Mira J, Moreno-Diaz R & Cabestany J, pp. 1279–1287. Springer Verlag   Reprint 

[204]    Pasemann F, Steinmetz U & Dieckmann U (1999). Evolving structure and function of neurocontrollers. In: Proceedings of the 1999 Congress on Evolutionary Computation, Vol. 3, eds. Angeline PJ, Michalewicz Z, Schoenauer M, Yao X & Zalzala A, pp. 1973–1978. IEEE Press   Reprint 

[205]    Payne JL, Mazzucco R & Dieckmann U (2011). The evolution of conditional dispersal and reproductive isolation along environmental gradients. Journal of Theoretical Biology 273: 147-155   Reprint 

[206]    Pennings PS, Kopp M, Meszéna G, Dieckmann U & Hermisson J (2008). An analytically tractable model for competitive speciation. American Naturalist 171: E44–E71   Reprint 

[207]    Peyrard N, Dieckmann U & Franc A (2008). Long-range correlations improve understanding the influence of network structure on contact dynamics. Theoretical Population Biology 73: 383–394   Reprint 

[208]    Pineda-Krch M, Blok HJ, Dieckmann U & Doebeli M (2007). A tale of two cycles – Distinguishing quasi-cycles and limit cycles in finite predator-prey populations. Oikos 116: 53–64   Reprint 

[209]    Poos JJ, Brännström Å & Dieckmann U (2011). Harvest-induced maturation evolution under different life-history trade-offs and harvesting regimes. Journal of Theoretical Biology 279: 102–112   Reprint 

[210]    Raghib M, Hill NA & Dieckmann U (2011). A multiscale maximum entropy moment closure for locally regulated space-time point process models of plant population dynamics. Journal of Mathematical Biology 62: 605–653   Reprint 

[211]    Rankin DJ, Dieckmann U & Kokko H (2011). Sexual conflict and the tragedy of the commons. American Naturalist 177: 780–791   Reprint 

[212]    Ravigné V, Dieckmann U & Olivieri I (2009). Live where you thrive: Joint evolution of habitat choice and local adaptation facilitates specialization and promotes diversity. American Naturalist 174: E141–E169   Reprint 

[213]    Ravigné V, Olivieri I & Dieckmann U (2004). Implications of habitat choice for protected polymorphisms. Evolutionary Ecology Research 6: 125–145   Reprint 

[214]    Rettelbach A, Hermisson J, Dieckmann U & Kopp M (2011). Effects of genetic architecture on the evolution of assortative mating under frequency-dependent disruptive selection. Theoretical Population Biology 79: 8296   Reprint 

[215]    Rettelbach A, Kopp M, Dieckmann U & Hermisson J (2013). Three modes of adaptive speciation in spatially structured populations. American Naturalist 182: E215–E234   Reprint 

[216]    Ripa J & Dieckmann U (2013). Mutant invasions and adaptive dynamics in variable environments. Evolution 67: 1279–1290   Reprint 

[217]    Robinson SM, Rovenskaya E & Dieckmann U (2017). Systems analysis to inform and support global transformations. SIAM News January/February 2017: 5   Reprint 

[218]    Rossberg AG, Brännström Å & Dieckmann U (2010). Food-web structure in low- and high-dimensional trophic niche spaces. Journal of the Royal Society Interface 7: 1735–1743   Reprint 

[219]    Rossberg AG, Brännström Å & Dieckmann U (2010). How trophic interaction strength depends on traits: A conceptual framework for representing multidimensional trophic niche spaces. Theoretical Ecology 3: 13–24   Reprint 

[220]    Rundle HD, Schluter D, Dieckmann U, Metz JAJ & Doebeli M (2004). Double invasion and frequency-dependent selection. In: Adaptive Speciation, eds. Dieckmann U, Metz JAJ, Doebeli M & Tautz D, pp. 204–205. Cambridge University Press   Reprint 

[221]    Sasaki A & Dieckmann U (2011). Oligomorphic dynamics for analyzing the quantitative genetics of adaptive speciation. Journal of Mathematical Biology 63: 601635   Reprint 

[222]    Sasaki T, Brännström Å, Dieckmann U & Sigmund K (2012). The take-it-or-leave-it option allows small penalties to overcome social dilemmas. Proceedings of the National Academy of Sciences of the USA 109: 1165–1169   Reprint    News & Views 

[223]    Shanafelt DW, Dieckmann U, Jonas M, Franklin O, Loreau M & Perrings C (2015). Biodiversity, productivity, and the spatial insurance hypothesis revisited. Journal of Theoretical Biology 380: 426–435   Reprint 

[224]    Sigmund K, Sabelis MW, Dieckmann U & Metz JAJ (2002). Introduction. In: Adaptive Dynamics of Infectious Diseases: In Pursuit of Virulence Management, eds. Dieckmann U, Metz JAJ, Sabelis MW & Sigmund K, pp. 1–6. Cambridge University Press   Reprint 

[225]    Smalås A, Strøm JF, Amundsen PA, Dieckmann U & Primicerio R (2019). Climate warming is predicted to enhance the negative effects of harvesting on high-latitude lake fish. Journal of Applied Ecology, in press, doi:10.1111/1365-2664.13535

[226]    Sun Z, Parvinen K, Heino M, Metz JAJ, de Roos AM & Dieckmann U (2020). Evolution of reproduction periods in seasonal environments. American Naturalist, in press, doi:10.1086/708274

[227]    Taborsky B, Dieckmann U & Heino M (2003). Unexpected discontinuities in life-history evolution under size-dependent mortality. Proceedings of the Royal Society London Series B 270: 713–721   Reprint 

[228]    Taborsky B, Heino M & Dieckmann U (2012). Size-dependent mortality and competition interactively shape community diversity. Evolution 66: 3534–3544   Reprint 

[229]    Taborsky B, Heino M & Dieckmann U (2018). Life-history multistability caused by size-dependent mortality. American Naturalist 192: 6271

[230]    Takahashi D, Brännström Å, Mazzucco R, Yamauchi A & Dieckmann U (2013). Abrupt community transitions and cyclic evolutionary dynamics in complex food webs. Journal of Theoretical Biology 337: 181–189   Reprint 

[231]    Takahashi D, Brännström Å, Mazzucco R, Yamauchi A & Dieckmann U (2011). Cyclic transitions in simulated food-web evolution. Journal of Plant Interactions 6: 181–182   Reprint 

[232]    ten Brink H, de Roos AM & Dieckmann U (2019). The evolutionary ecology of metamorphosis. American Naturalist 193: E116–E131

[233]    Thériault V, Dunlop ES, Dieckmann U, Bernatchez L & Dodson JJ (2008). The impact of fishing-induced mortality on the evolution of alternative life-history tactics in brook charr. Evolutionary Applications 1: 409–423   Reprint 

[234]    Troost TA, Kooi BW & Dieckmann U (2008). Joint evolution of predator body size and prey-size preference. Evolutionary Ecology 22: 771–799   Reprint 

[235]    Urbach D, Kang M, Kang S, Seong KB, Kim S, Dieckmann U & Heino M (2012). Growth and maturation of Korean chum salmon under changing environmental conditions. Fisheries Research 134–136: 104–112   Reprint 

[236]    van Doorn GS & Dieckmann U (2006). The long-term evolution of multi-locus traits under frequency-dependent disruptive selection. Evolution 60: 2226–2238   Reprint 

[237]    van Doorn GS, Dieckmann U & Weissing FJ (2004). Sympatric speciation by sexual selection: A critical re-evaluation. American Naturalist 163: 709–725   Reprint 

[238]    van Leeuwen E, Brännström Å, Jansen VAA, Dieckmann U & Rossberg AG (2013). A generalized functional response for predators that switch between multiple prey species. Journal of Theoretical Biology 328: 89–98   Reprint 

[239]    Wickman J, Dieckmann U, Hui C & Brännström Å (2020). How geographic productivity patterns affect food-web evolution. Journal of Theoretical Biology, in press

[240]    Vinje F, Heino M, Dieckmann U, Godø OR & Mork J (2003). Spatial structure in length at age of cod in the Barents Sea. Journal of Fish Biology 62: 549–564   Reprint 

[241]    Ylikarjula J, Heino M & Dieckmann U (1999). Ecology and adaptation of stunted growth in fish. Evolutionary Ecology 13: 433–453   Reprint 

[242]    Ylikarjula J, Heino M, Dieckmann U & Kaitala V (2002). Does density-dependent individual growth simplify dynamics in age-structured populations? A general model applied to perch, Perca fluviatilis. Annales Zoologici Fennici 39: 99–107   Reprint 

[243]    Zhang L, Andersen KH, Dieckmann U & Brännström Å (2015). Four types of interference competition and their impacts on the ecology and evolution of size-structured populations and communities. Journal of Theoretical Biology 380: 280–290   Reprint 

[244]    Zhang L, Dieckmann U & Brännström Å (2017). On the performance of four methods for the numerical solution of ecologically realistic size-structured population models. Methods in Ecology and Evolution 8: 948956