- Projects with External Funds
- Current Dissertation Projects
- Finalized Dissertations
- Quantitative Economic Simulation Tools
- Projects with External Funds
- Research Areas until 2002
zurück zur Hauptseite
RCR - Resilience, Collapse and Reorganisation in Social-Ecological Systems of East- and South Africa's Savannahs
DFG Research Unit (Forschergruppe) FOR 1501
Duration first phase: 2010 - 2013
Duration second phase: 2013 - 2016
The research unit (RU) is a joint project between the Universities of Cologne and Bonn and will investigate resilience, collapse and reorganisation in complex coupled social-ecological systems (SES) in Africa. Contemporary research shows that Africa is comprehensively affected by environmental transformations, but that societies, economies and environments are also massively impacted by forces of internal mobility and differentiation, violent conflict, economic globalisation and global environmental governance. We acknowledge that Africa-related pessimism has deep historical roots and that numerous allegedly catastrophic environmental shifts were rather based on the wish for political control of rural populations than on factual observation. However, we surmise that the present social and ecological challenges are path-breaking and lead to profound transformations of African SES. The savannahs of South and East Africa and especially wetlands within these drylands seem particularly suited to study these processes. On the one hand, savannahs are inherently unstable systems due to major variability of precipitation. On the other hand, pertinent processes of land use change (e.g. land reform in South Africa, voluntary sedentarisation in East Africa) and globalisation (e.g. establishment of horticultural industries in wetlands of East Africa, savannah and wetland orientated conservation efforts and tourism) currently affect savannah systems and the wetlands embedded within them profoundly.
The initial funding period (2010-2013) of the research unit (RU) investigated resilience, collapse and reorganization in complex coupled social-ecological systems (SES) in eastern and southern Africa. The second phase (2013-2016) aims at advancing the current debates on changes in human-environment relations. In contrast to mainstream resilience research (Resilience Alliance 2008), the RU focuses on the system concept while taking a critical look at simplistic notions of spatial boundedness and instead emphasizes cross-scale interactions and multi-scale level analysis of resilience applying an interdisciplinary approach. The RU rejects simplistic neo-Malthusian approaches and advocates a non-deterministic dependency of components of SES, while emphasizing the role of agency and power in the formation of resilience in the context of system change and transformations in SES. Thus, phase two has a stronger focus on regulative regimes and dynamics of scale, while incorporating the research results of the first phase.
ILR hosts sub-project B2:
Resilience of SES from a Resource-Economics Perspective
Compared to the vast number of theoretical and conceptual studies, empirical work to assess the resilience of SES still seems to be in an exploratory phase. B2 addressed this problem during the first phase of the research unit (RU, FOR 1501) by developing data based numerical simulation models. The overall research objective of B2 for the second phase is to empirically assess the resilience of SES in Kenya (Lake Naivasha Basin) and South Africa (communal livestock systems in Thaba Nchu and Kuruman) using these further developed and integrated numerical simulation models. In Kenya, the hydro-economic basin model will be developed into a conceptually innovative simultaneous multi-agent model to simulate institutional deficiencies in the water management of the Lake Naivasha basin. Multi-period simulations will be carried out for different institutional settings for water management with the purpose of quantifying the resilience of the Lake Naivasha Basin SES towards meteorological shocks such as multi-annual droughts. For South Africa, the same overarching objective is pursued by conducting a comparative analysis of two SES on the same scale (community-rangeland SES), subject to identical macro-economic disturbances from outside the system boundaries (change in subsidization). Communal production systems in Thaba Nchu (grassland biome) and Kuruman (savannah biome) will be investigated in a comparative, computational case study approach. By means of simulation experiments with multi-agent systems, differences in multi-scale SES resilience will be related to specifics of the local context. Moreover, the comparative approach allows for partial extensions of theories, which are thus far only case specific, because of the similarities of the two SES being studied. The coupling of these models with those of A3 (crop science group) is central to collaboration efforts. Two junior researchers will work in this project, one in Kenya and on in South Africa.
Rasch, S., Heckelei, T., Oomen, R., Naumann, C. (2015): Cooperation and collapse in a communal livestock production SES model – A case from South Africa , Environmental Modelling & Software (in press) , Link.
Kuhn, A., Britz, W., Willy, D. K., van Oel, P. (2014): Simulating the viability of water institutions under volatile rainfall conditions – The case of the Lake Naivasha Basin, Environmental Modelling & Software (in press) , Link.
Britz, W., Ferris, M.C., Kuhn, A. (2013):
Modeling Water Allocation Institutions based on Multiple Optimization Problems with Equilibrium Constraints.
Environmental Modelling and Software, 46: 196-207.
Kuhn, A., van Oel, P. and F. Meins (2012): The Lake Naivasha Hydro-Economic Basin Model (LANA-HEBAMO) - A Technical Documentation. DFG Research Unit 1501, Sub-Project B2, Technical Paper 10/2012. Download paper
Kuhn A., Britz W. (2012):
Can hydro-economic river basin models simulate water shadow prices under asymmetric access?
Water Science & Technology 66(4): 879-886. doi:10.2166/wst.2012.251
Kyalo-Willy, Holm-Mueller, K. (2013):
Social influence and collective action effects on farm level soil conservation effort in rural Kenya,
Ecological Economics 90: 94-103. http://dx.doi.org/10.1016/j.ecolecon.2013.03.008
Kyalo-Willy, D. Kuhn A., Holm-Mueller, K. (2012):
Payments for Environmental Services (PES) and the Characteristics of Social Ecological Systems: the Case of Lake Naivasha Basin. Discussion Paper 2012, Series Food and Resource Economics, University of Bonn.
Last updated: Tuesday, August 18, 2015
- Agricultural non-CO2 emission reduction potential in the context of the 1.5 °C target Frank, S., Havlik, P., Stehfest, E., van Meijl, H., Witzke, H.-P., Pèrez Dominguez, I., van Dijk, M., Doelman, J. C., Fellmann, T., Koopman, J. F. L., Tabeau, A., Valin, H. (2019): Nature Climate Change 9: 66-72.Effect of mineral fertilizer on rain water and radiation use efficiencies for maize yield and stover biomass productivity in Ethiopia Srivastava, A. K., Mboh, C. M., Gaiser, T., Kuhn, A., Engida, E., Ewert, F. (2019): Agricultural Systems 168: 88-100.Assessing Sustainable Food and Nutrition Security of the EU Food System—An Integrated Approach Zurek, M., Hebinck, A., Leip, A., Vervoort, J., Kuiper, M., Garrone, M., Havlik, P., Heckelei, T., Hornborg, S., Ingram, J. S., Kuijsten, A., Shutes, L., Geleijnse, J. M., Terluin, I., van´t Veer, P., Wijnands, J., Zimmermann, A., Achterbosch, T. (2018): Sustainability 10(11)(4271): pp. 1-16.Explaining farm structural change in the European agriculture: a novel analytical framework Neuenfeldt, S., Gocht, A., Heckelei, T., Ciaian, P. (2018): European Review of Agricultural Economics jby037: pp. 1-56.Brexit: an economy-wide impact assessment on trade, immigration, and foreign direct investment Jafari, Y., Britz, W. (2018): Empirica: 1-36.Heterogeneous impacts of neighbouring farm size on the decision to exit: evidence from Brittany Saint-Cyr, L. D. F., Storm, H., Heckelei, T., Piet, L. (2018): European Review of Agricultural Economics jby029: pp. 1-30.Risk of increased food insecurity under stringent global climate change mitigation policy Hasegawa, T., Fujimori, S., Havlik, P., Valin, H., Bodirsky, B. L., Doelman, J. C., Fellmann, T., Kyle, P., Koopman, J. F. L., Lotze-Campen, H., Mason-D Croz, D., Ochi, Y., Pèrez Dominguez, I., Stehfest, E., Sulser, T. B., Tabeau, A., Takahashi, K., Takakura, J. y., van Meijl, H., van Zeist, W.-J., Wiebe, K., Witzke, H.-P. (2018):
Risk of increased food insecurity under stringent global climate change mitigation policy, Nature Climate Change 8: 699-703.Does the current trade liberalization agenda contribute to greenhouse gas emission mitigation in agriculture? Himics, M., Fellmann, T., Barreiro-Hurle, J., Witzke, H.-P., Perez Dominguez, I., Jansson, T., Weiss, F.(2018):
"Does the current trade liberalization agenda contribute to greenhouse gas emission mitigation in agriculture?", Food Policy article in pressMajor challenges of integrating agriculture into climate change mitigation policy frameworks Fellmann, T., Witzke, H.-P., Weiss, F., van Doorslaer, B., Dusan, D., Huck, I., Salputra, G., Jansson, T., Leip, A. (2018):
"Major challenges of integrating agriculture into climate change mitigation policy frameworks", Mitigation and Adaptation Strategies for Global Change 23(3), pp 451-468Metrics, models and foresight for European sustainable food and nutrition security: The vision of the SUSFANS project Rutten, M., Achterbosch, T., de Boer, I., Crespo Cuaresma, J., Geleijnse, M., Havlik, P., Heckelei, T., Ingram, J. S., Leip, A., Marette, S., van Meijl, H., Soler, L. -G., Swinnen, J. F., van't Veer, P., Vervoort, J., Zimmermann, A., Zimmermann, K. and Zurek, M. (2018):
"Metrics, models and foresight for European sustainable food and nutrition security: The vision of the SUSFANS project", Agricultural Systems 163, pp.45-57