Hydrology and Earth System Sciences (Aug 2024)

Guiding community discussions on human–water challenges by serious gaming in the upper Ewaso Ngiro River basin, Kenya

  • C. N. Wamucii,
  • P. R. van Oel,
  • A. J. Teuling,
  • A. Ligtenberg,
  • J. M. Gathenya,
  • G. J. Hofstede,
  • G. J. Hofstede,
  • M. van Noordwijk,
  • M. van Noordwijk,
  • E. N. Speelman

DOI
https://doi.org/10.5194/hess-28-3495-2024
Journal volume & issue
Vol. 28
pp. 3495 – 3518

Abstract

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Water-related conflicts in river catchments occur due to both internal and external pressures that affect catchment water availability. Lack of common understanding of human–water perspectives by catchment stakeholders increases the complexity of human–water issues at the river catchment scale. Among a range of participatory approaches, the development and use of serious games gained prominence as a tool to stimulate discussion and reflection among stakeholders about sustainable resource use and collective action. This study designed and implemented the ENGAGE (Exploring New Gaming Approach to Guide and Enlighten) game that mimics the dynamics observed during the dry season in the upper Ewaso Ngiro catchment, northwest of Mount Kenya. The purpose of this study was to explore the potential role of serious gaming in subsequent steps of strengthening stakeholder engagement (agenda setting, shared understanding, commitment to collective action, and means of implementation) toward addressing complex human–water challenges at the catchment scale. We assessed the type of decisions made during gameplay, the communication dynamics, the active participation, and the implication of decisions made on water availability. The results of three game sessions show that the ENGAGE game raised awareness and provided a recognizable hydrologic background to conflicts while guiding community discussions toward implementable decisions. The results revealed increasing active participation, knowledge gain, and use of plural pronouns and decreasing individual interests and conflicts among game participants. This study presents important implications for creating a collective basis for water management and can inform human–water policies and modification of the process behind water allocation rules in a river catchment.