Timothy Karpouzoglou

Citizen science in hydrology and water resources: opportunities for knowledge generation, ecosystem service management, and sustainable development

The participation of the general public in the research design, data collection and interpretation process together with scientists is often referred to as citizen science. While citizen science itself has existed since the start of scientific practice, developments in sensing technology, data processing and visualisation, and communication of ideas and results, are creating a wide range of new opportunities for public participation in scientific research. This paper reviews the state of citizen science in a hydrological context and explores the potential of citizen science to complement more traditional ways of scientific data collection and knowledge generation for hydrological sciences and water resources management. Although hydrological data collection often involves advanced technology, the advent of robust, cheap and low-maintenance sensing equipment provides unprecedented opportunities for data collection in a citizen science context. These data have a significant potential to create new hydrological knowledge, especially in relation to the characterisation of process heterogeneity, remote regions, and human impacts on the water cycle. However, the nature and quality of data collected in citizen science experiments is potentially very different from those of traditional monitoring networks. This poses challenges in terms of their processing, interpretation, and use, especially with regard to assimilation of traditional knowledge, the quantification of uncertainties, and their role in decision support. It also requires care in designing citizen science projects such that the generated data complement optimally other available knowledge. Lastly, we reflect on the challenges and opportunities in the integration of hydrologically-oriented citizen science in water resources management, the role of scientific knowledge in the decision-making process, and the potential contestation to established community institutions posed by co-generation of new knowledge.

User-driven design of decision support systems for polycentric environmental resources management

Open and decentralized technologies such as the Internet provide increasing opportunities to create knowledge and deliver computer-based decision support for multiple types of users across scales. However, environmental decision support systems/tools (henceforth EDSS) are often strongly science-driven and assuming single types of decision makers, and hence poorly suited for more decentralized and polycentric decision making contexts. In such contexts, EDSS need to be tailored to meet diverse user requirements to ensure that it provides useful (relevant), usable (intuitive), and exchangeable (institutionally unobstructed) information for decision support for different types of actors. To address these issues, we present a participatory framework for designing EDSS that emphasizes a more complete understanding of the decision making structures and iterative design of the user interface. We illustrate the application of the framework through a case study within the context of water-stressed upstream/downstream communities in Lima, Peru. Environmental management may involve polycentric governance arrangements.Decision support for such contexts needs to meet diverse user requirements.A user-driven approach is proposed that involves actor and decision making analysis.This is combined with co-design methods from Human-Computer Interaction research.The result is more tailored decision support for users with different experiences.

Water as "time-substance": the hydrosocialities of climate change in Nepal

This article develops a novel theoretical framework to explain how waters situatedness relates to its political agency. Recent posthuman scholarship emphasizes these qualities but, surprisingly, no sustained analysis has been undertaken of this interrelation. Here we do so by theorizing water as a “time-substance” to reposition human hydrological struggles (including those exacerbated by climate change) around the topologies and temporalities rather than the spatialities of water. This innovative approach opens up new areas of geographical enquiry based on hydrosocial forms, hydrosocial transformations, and hydrosocial information (collectively referred to here as hydrosocialities). We contend that hydrosocialities enable the tracing of human–water relations that transcend times and scales and the matricial categories of subject and object to overcome the situated–agential binary of water. Drawing on two years of fieldwork in Mustang, Nepal, this conceptual framework is deployed to examine hydrosocialities in two remote mountain communities. We show hydrosocialities that comprise diverse water knowledge practices constituted from multiple points of proximity between the social and the hydrological in space and time. In turn, this conceptual framework underscores the importance of boundary objects in mediating waters situated–agential qualities. The article concludes that consequently boundary objects can play a crucial role in producing new practical hydrosocial politics of climate change mitigation and adaptation.