C12 - Partizipative Landnutzungsmodellierung zur Vereinbarung ökologischer und ökonomischer Funktionen

Ziel des Projektes ist die Entwicklung eines integrativen und partizipativen Modellansatzes zur Identifikation geeigneter kleinbäuerlicher Landnutzungssysteme welche auch unter heterogenen Haushalts- und Standortseigenschaften, die Bedürfnisse der Bauern befriedigen und gleichzeitig möglichst viel ökologische Funktionen bereitstellen. Der Ansatz kombiniert multikriterielle Optimierungsverfahren mit der Portfoliotheorie und partizipativen Forschungsansätzen. Aufbauend auf den EFForTS-OPMX, EFForTS-BEE and Landscape Assessment Experimenten soll untersucht werden welcher Grad der Landnutzungsdiversifikation möglicherweise zur Lösung von Zielkonflikten zwischen ökologischen und ökonomischen Funktionen beitragen könnte.

Past research undertaken by EFForTS has revealed trade-offs between ecological and socioeconomic functions. Experiments introducing tree islands and reducing fertilizer levels in oil palm plantations suggest these interventions can increase ecological functioning in lowland rainforest transformation systems. But how could these practices be successfully embedded in sustainable farm layouts, which reduce ecological-economic trade-offs while meeting farmers’ needs? Deriving such recommendations for farmers and policy makers is challenging, due to the high heterogeneity identified in EFForTS Phase 2, in terms of ecological functions between and within specific sites or field, but also household conditions, which affect the provisioning of socio-economic functions. In addition, socioeconomic and ecological functions and services may be of varying importance for farmer’s decision making.

This project aims to derive robust recommendations on desirable farm compositions to mitigate trade-offs between socio-economic and ecological functions under heterogeneous site and household conditions. It will further develop an integrative land-use optimization model to select not only suitable land-use options and their ideal mix – with respect to compositional diversity of farms – but also the diversity of selected individual land-use options to account for land-use configuration. The parsimonious farm-modelling approach combines multi-objective (goal) programming with robust portfolio theory. We will consider ecological and socio-economic functions and services via normalized indicator values for each land-use, cover or management option. These land-use options could include oil palm, rubber plantation or jungle rubber, as well as unmanaged forest or shrubland investigated in the Core Plot Design and the Landscape Assessment. Building on the B11 Oil Palm Biodiversity Enrichment Experiment (EFForTS-BEE) and the Oil Palm Management Experiment (EFForTS-OPMX), we will also be able to test different biodiversity and management intensity levels of the oil palm option. Uncertainty in the provision of ecological and socio-economic functions will be considered in the robust solution algorithm through the error of sampling or simulation for each function and land-use option. This approach will allow for a better understanding of how heterogeneity affects ecological-socioeconomic trade-offs at the farm and aggregated landscape level, and which mix of land-use/management options and level of land-use diversification is best suited to reduce these trade-offs. We will also test how selection of different private and public goals, mimicked by different ecological and/or economic functions, affect the selection of land-use types. The research will be embedded into a collaborative modelling approach in close cooperation with C02 Faust and C08 Wollni, and the sustainability assessment (C02 Faust) of land use scenarios with local farmers and political decision-makers. The project is designed to inform the EFForTS-ABM model (B10 Wiegand/Lay) about the selection of promising land-use/management options and the functions most crucial for land-use decisions. The anticipated results will help to select land-use options and farm layouts that have both high potentials to mitigate economic-environmental trade-offs at farm and landscape scale - under a large set of household and site conditions -, but also a high potential for adoption by local farmers.

Trennblatt C12 a
Fig. 1. Foto: Peter Glatzle
Trennblatt C12 b
Fig. 2. Partizipative Modellierung mit lokalen Stakeholdern: Welcher Grad der Diversifikation (von Monokultur, über blockartige Mischung hin zu Agroforstsystemen) könnte zur Abmilderung von ökologisch-ökonomischen Zielkonflikten beitragen?