Citizen science in community-based watershed management


Book Description

Working Papers The publications in this series record the work and thinking of IWMI researchers, and knowledge that the Institute’s scientific management feels is worthy of documenting. This series will ensure that scientific data and other information gathered or prepared as a part of the research work of the Institute are recorded and referenced. Working Papers could include project reports, case studies, conference or workshop proceedings, discussion papers or reports on progress of research, country-specific research reports, monographs, etc. Working Papers may be copublished, by IWMI and partner organizations. Although most of the reports are published by IWMI staff and their collaborators, we welcome contributions from others. Each report is reviewed internally by IWMI staff. The reports are published and distributed both in hard copy and electronically (www.iwmi.org) and where possible all data and analyses will be available as separate downloadable files. Reports may be copied freely and cited with due acknowledgment. About IWMI The International Water Management Institute (IWMI) is an international, research-for-development organization that works with governments, civil society and the private sector to solve water problems in developing countries and scale up solutions. Through partnership, IWMI combines research on the sustainable use of water and land resources, knowledge services and products with capacity strengthening, dialogue and policy analysis to support implementation of water management solutions for agriculture, ecosystems, climate change and inclusive economic growth. Headquartered in Colombo, Sri Lanka, IWMI is a CGIAR Research Center and leads the CGIAR Research Program on Water, Land and Ecosystems (WLE). www.iwmi.org




Analyzing the Role of Citizen Science in Modern Research


Book Description

As the need for sustainable development practices around the world continues to grow, it has become imperative for citizens to become actively engaged in the global transition. By evaluating data collected from various global programs, researchers are able to identify strategies and challenges in implementing civic engagement initiatives. Analyzing the Role of Citizen Science in Modern Research focuses on analyzing data on current initiatives and best practices in citizen engagement and education programs across various disciplines. Highlighting emergent research and application techniques within citizen science initiatives, this publication appeals to academicians, researchers, policy makers, government officials, technology developers, advanced-level students and program developers interested in launching or improving citizen science programs across the globe.




From Silos to Synergy


Book Description

The world's water resources are in crisis due to human activities and global warming. Countdown to `Day Zero' in Cape Town, South Africa, lead contamination in Flint, Michigan, and groundwater loss in northern India are some vivid examples of recent water crisis around the world. In the last few decades, citizen-based approaches to ensure adequate local supplies of good quality water have become a popular way of monitoring and ensuring water quality. Greater citizen-based volunteer activity in local water systems is associated with better water quality. Citizen-based monitoring activities are termed as citizen science, where citizens of a community participate in scientific endeavors in various capacities. However, citizen science projects leaders and volunteers often face common challenges such as lack of appropriate technical infrastructure for data management, insufficient protocols to ensure data quality control and assurance, and limited opportunities for community engagement and visibility. These challenges lead to citizen science data and work becoming undervalued and under-leveraged by the government and decision-makers. Innovations addressing these socio-technical challenges can be shared among various citizen science groups through peer-to-peer collaboration. However, water quality primarily presents a regional concern for citizen science groups, leading them to operate in isolation and redundantly reinvent solutions to address these shared challenges. Encouraging distributed or peer-to-peer collaboration between different citizen groups holds the potential to streamline citizen science activities, preventing unnecessary expenditure of resources and time on issues that can otherwise be efficiently resolved through information and resource exchange. This dissertation aims to facilitate collaboration among distributed citizen science water-monitoring groups. My goal is to design an online community for these groups, fostering knowledge sharing, providing infrastructure support, and elevating the visibility of their activities. This networked community promotes inclusivity in science by facilitating learning, knowledge exchange, and collective problem-solving among citizen science groups, ultimately amplifying their impact and visibility. Towards this vision, I used a sustainable human-centered design approach that places communities and their water resources at the center of the design endeavor. I structured my research roadmap into three developmental stages: initiating with an exploratory analysis of current practices, followed by an exploration of the design space, and culminating in the development and evaluation of a collaborative system. In the initial stage, I conducted exploratory research to understand citizens' motivations for participating in scientific endeavors and their approaches to monitoring and safeguarding local water resources. Subsequently, participatory design hackathons were organized to explore practices, challenges, and propose design recommendations. In the second stage, I analyzed the design landscape of citizen-based water quality monitoring applications, informing the development of a comprehensive citizen science data platform aligned with the goals and requirements identified in the first stage. Finally, I focused on designing and evaluating collaboration systems to assess the feasibility of such platforms, deriving design implications and directions for facilitating effective distributed collaboration. This was achieved by investigating whether a platform supporting social networking and distributed collaboration could effectively address the requirements and goals outlined in the initial two stages. A user study of a community watershed social networking application was conducted for this purpose. Based on the findings, collaboration with key citizen science stakeholders led to the design and development support of the final collaboration system, the "Water Data Collaborative," a platform connecting distributed citizen science groups. Participatory design sessions were conducted to assess its design and elicit recommendations for enhancing the Water Data Collaborative. This dissertation is situated within the multifaceted context of sustainable HCI and CSCW, highlighting citizen science as a pivotal component of both areas of research. It integrates the interdisciplinary realms of sustainable HCI, CSCW, citizen science, and community informatics to offer a fresh perspective on empowering communities to embrace data-driven practices, mutual learning, and the preservation of local water and environmental resources.







Streamflow Measurement


Book Description

Too little water or too much'? In either case streamflow measurement is crucial. Climate change could significant affect water resources and flood management. Streamflow measurement is necessary for efficient water management.This third edition deals with all the main current methods for measuring the flow in rivers and open channels, in accordanc










Community-based Watershed Management


Book Description

Applicable to watershed protection and restoration efforts in both coastal and non-coastal areas, this handbook describes 28 watershed management approaches. It features principles and lessons that examine approaches to integrating science and management, fostering collaborative decision-making, and involving the public.




The Science of Citizen Science


Book Description

This open access book discusses how the involvement of citizens into scientific endeavors is expected to contribute to solve the big challenges of our time, such as climate change and the loss of biodiversity, growing inequalities within and between societies, and the sustainability turn. The field of citizen science has been growing in recent decades. Many different stakeholders from scientists to citizens and from policy makers to environmental organisations have been involved in its practice. In addition, many scientists also study citizen science as a research approach and as a way for science and society to interact and collaborate. This book provides a representation of the practices as well as scientific and societal outcomes in different disciplines. It reflects the contribution of citizen science to societal development, education, or innovation and provides and overview of the field of actors as well as on tools and guidelines. It serves as an introduction for anyone who wants to get involved in and learn more about the science of citizen science.




Community-based Watershed Management


Book Description

Community-Based Watershed Management: Lessons from the National Estuary Program (NEP) is designed for all individuals and organizations involved in watershed management, including states, tribes, local governments, and nongovernmental organizations. This document describes innovative approaches to watershed management implemented by the 28 National Estuary Programs (NEPs). The NEPs are community-based watershed management organizations that restore and protect coastal watersheds. Drawing on nearly 20 years of experience, readers will learn how the NEPs organize and maintain effective citizen involvement efforts, collect and analyze data, assess and prioritize problems, develop and implement management plans, and communicate results of program activities. While estuaries and their coastal watersheds are the focus of the NEPs, the estuary program experience can also be adapted to non-coastal watershed initiatives. Each chapter begins with the key management principles from the NEP experience. These broad principles are described and illustrated with examples from the 28 individual NEPs. The examples show how the NEPs address specific problems within identified priority problem areas, such as loss of habitat, polluted runoff, and invasive species. In many cases, actions address multiple problems simultaneously, such as land acquisition to reduce polluted runoff and increase habitat. The examples are found throughout the text and in sidebars, as well as at the end of each chapter. Six appendices provide additional information regarding the NEP watershed approach, including a brief summary of each NEP that includes their Web site address.