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From rights to results in rural water services

New evidence to translate the human right to water into measureable results in rural Africa is presented in a new report funded by UK Department for International Development and led by Oxford University.

rural water suply

 

Institutional transformations are required if Africa is to deliver the universal Human Right to Water to 275 million rural people without improved water services. Improving the reliability of one million handpumps which should deliver drinking water to over 200 million rural Africans will be a major contribution to translating water rights into measureable results. This study tests a new maintenance service model over a one year period in rural Kenya using mobile-enabled data to improve operational and financial performance by reducing risks at scale.

The report, produced by the Smith School Water Programme, highlights results that have led to:

  • a ten-fold reduction in handpump downtime (days not working),
  • a shift to 98 per cent of handpumps functioning,
  • a fairer and more flexible payment model contingent on service delivery,
  • new and objective metrics to guide water service regulatory reform,
  • a revised financial architecture shaped by an output-based payment model.

The model outlines a new and replicable framework for policy and investment behaviour informed by rural water users’ more expansive views of the design and delivery of rural water institutions than currently prescribed.

Report launched at ‘Smart Handpump’ day

The report was launched at an event at Kellogg College on 5 March  hosted by the Oxford Centre for Affordable Healthcare Technology, Smith School of Enterprise and the Environment, School of Geography and the Environment and Department of Engineering Science.

Attendees from DFID, ARM, Sequoia Technology, Oxfam and ESRC were invited to meet the ‘Smart Handpump’ that has been installed in the college grounds. Smart Handpumps use a mobile-enabled transmitter which sends data on pump usage, rapidly detecting any failures and enabling repairs to be made. The technology is currently being piloted in rural Kenya and feeds into ongoing work at Oxford University on improving institutions to measurably reduce poverty.

Researcher Patrick Thomson demonstrating the handpump to Nick Liddington (MD of Sequoia Technology Group) Steve Sydes (Commercial Director of Sequoia Technology Group).

Researcher Patrick Thomson demonstrating the handpump to Nick Liddington and Steve Sydes (Managing Director and Commercial Director of Sequoia Technology Group).

Download the full report

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Research highlight: Women in India becoming more influential in irrigation

Women in Northern India are playing an increasingly important role in irrigation, a traditionally male-dominated activity, according to new research published in the journal World Development. This is improving female engagement in formal politics more broadly, says Alexandra Girard, author of the study.

Irrigation canals in Northern India are critical for local livelihoods, but they are also important for forming cultural norms and building social support within communities and between villages. These canals are governed by deeply embedded gender traditions, a reflection of the overall decision-making system in the community. Traditionally only men in the village make formal decisions regarding the canals or participate in their repair and construction. Women are informal actors: they channel demands and complaints through informal means, such as talking to their male relatives.

However, in recent years, women have come to play a more influential role in irrigation, a result of several gender-inclusive policies. First, some canals have had their management decentralised to formal local government institutions. These local governments are composed of 33-50% female members, as required by the 1992 Reservation Law. Second, the Mahatma Gandhi National Rural Employment Guarantee Act (MGNREGA), a poverty alleviation scheme aimed at investing labour surplus into the construction of durable rural assets such as irrigation, must target a minimum of 33% of women. In practice, almost half of MGNREGA beneficiaries are women. Together, these gender inclusive policies are legitimising women as both formal decision-makers and labour force in irrigation.

The research examined how women’s new legitimacy in the traditionally male domain of irrigation affects their involvement in other formal political processes in their community, and in particular their participation in formal village meetings. Factors linked to the formalisation of women’s role were examined, as well as factors from the private domain (for example, age, education, household background). The survey consisted of 593 female canal users in rural areas in the Palampur region, Himachal Pradesh, as well as interviews with 37 local government members (male and female), and over 10 other irrigation stakeholders.

The results reinforce many existing findings on the link between women’s engagement in formal politics and their personal background (for example, older women are more likely to engage in village meetings). Most importantly, the study reached several novel conclusions on the positive outcomes of formally including women in male dominated activities such as irrigation, for female engagement in formal politics. Formally creating political responsibility and economic opportunities for women in irrigation increases their visibility and mobility, and introduces them to a world of political procedures, administration, and the politicising notions of rights and benefits, which in turn favour women’s engagement and participation in other formal politics processes in the community.

Alexandra M. Girard is a recently graduated DPhil student at Oxford University.

Reference

Girard, A.M. (2014) Stepping into formal politics: women’s engagement in formal political processes in irrigation in rural India. World Development, 57: 1-18.

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Making clean drinking water universally available is achievable

Making clean drinking water globally accessible is one of the biggest challenges of this century. Yet, a new study by Oxford University contends that this goal is achievable if the key elements of good governance and management are adopted.

The study proposes a framework built on examples of good practice in South Asia and sub-Saharan Africa, areas which the authors argue present the most severe challenges of all the developing countries. They warn, however, that the scale of investment necessary to update the often neglected, ageing infrastructure of pipelines or water pumps goes beyond the narrow project timeframes favoured by politicians. The findings are published in a landmark collection of papers on water security, risk and society by the journal Philosophical Transactions of the Royal Society A.

The study says the problem of providing clean water is most acute in developing countries, particularly in Africa, where creaking infrastructures struggle to keep pace with fast-growing urban populations; in rural areas, millions of water pumps stand unused waiting to be repaired. Despite hitting the Millennium Development Goal for drinking water access in 2012, over 780 million people still do not have safe and reliable drinking water, says the report, resulting in largely preventable health problems that most affect women and children.

Based on nine case studies in Cambodia, India, Kenya, Uganda and Senegal, the authors analysed new data in rural and urban areas to compare what the authors call the under-researched aspects of water security: the institutional side of how water supplies are delivered, their operation and management systems. They examined water payment systems; and the quality of service, such as how quickly leaks or pumps were fixed, and whether populations had water on demand or a regularly disrupted service.

The study suggests that a critical factor in all cases is to have a good system for maintaining existing water supplies. Additionally, new information systems were found to be important for improving the way the quality of service was monitored. In West Africa, for instance, a structured crowd sourcing platform is used by water scheme managers to input weekly data via a mobile phone application; in East Africa, a mobile-enabled monitoring system is leading to faster repair times for water pumps.

Late bills are still a huge problem in developing countries, so consequently there is often a failure to recoup the service costs needed to invest in the infrastructure. The study highlights a successful mobile water payment system adopted in one Kenyan city, which was the preferred way of paying bills for 85% of customers who would otherwise often have to queue in water company offices. More efficient and transparent payment systems were not only found to reduce debts, but also helped root out corrupt practices which diverted water payments into illegitimate channels.

The study warns that barriers to progress include the vested interests of individuals benefiting from the status quo, and misguided public investments which are short-term and without any real measures of performance. However, the authors argue that these findings provide concrete evidence to demonstrate how drinking water risks can be managed and reduced ‘even in the most difficult and challenging contexts’.

Lead author Dr Rob Hope, from the Smith School of Enterprise and the Environment at the University of Oxford, said: “We hope this study provides a framework to design policy and guide investments to systematically reduce drinking water risks in urban and rural contexts. These case studies demonstrate a variety of approaches taken by countries in some of the most challenging circumstances.”

“They set benchmarks by which others can measure their own progress. Our examples include water managers who have introduced both bonus systems to reward good performance and competitions between different areas to drive up standards of service. Some water service providers have found ways of giving subsidies to expand access to water customers on the lowest incomes. There are other examples of initiatives to promote greater efficiency which can mean leaks or water pumps get fixed more quickly or water rationing can be replaced with a continuous service.”

“Despite the often gloomy outlook voiced by some on the prospects for making drinking water more accessible, these case studies in sub-Saharan Africa and South Asia show there are realistic pathways to transform water services, thereby potentially improving the health of the millions of people who depend upon them.”

Meanwhile in the same collection of papers, Professor David Bradley of Oxford University, with Professor Jamie Bartram, uses an analysis of the effective monitoring programme developed to measure the success of the Millennium Development Goals (MDGs) for the provision of domestic water supply and basic sanitation to see how it can be further improved and possibly be applied to a broader goal of water security.

Reference

Robert Hope and Michael Rouse (2013) Risks and responses to universal drinking water security. Philosophical Transactions of the Royal Society A, vol. 371, no. 2002.

 

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Dr. Rob Hope leads session at the Skoll World Forum

Dr. Rob Hope, School of Geography and the Environment, is leading a session on Mobile-Enabled Entrepreneurship for Water Security at the Skoll World Forum in Oxford on 12 April.

skollThe session highlights the mobile-enabled technologies that are charting new models for addressing Africa’s rural and urban challenges to water supply security. The mobile-enabled entrepreneurial landscape is evaulated based on the latest research and practice, including findings from the Oxford University research initiative mobile/water for development.

The programme also includes sessions on ‘Water, Water Everywhere: The Paradox of the 21st Century’ moderated by Gary White (Co-Founder and CEO, Water.org) and ‘A Collaborative Approach to Water and Sanitation’ led by Joe Madiath (Founder and executive Director, Gram Vikas).

Each year in Oxford the Skoll Forum gathers over 1,000 delegates from the social, finance, private and public sectors with an aim to accelerate entrepreneurial approaches and innovative solutions to the world’s most pressing social issues. The full programme, live streaming and other resources for the event which is running from 10 to 12 April 2013 can be found at http://skollworldforum.org/

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Smart Handpumps feature at the Department for International Development on World Water Day

Today Oxford University’s Dr. Rob Hope presents research on Smart Handpump technology at the UK Department for International Development, as part of their celebrations for World Water Day 2013.

The seminar A Life (in a Day) of a Girl will consider how water impacts on the life of a girl, from her birth, to school, adolescence, through to adulthood. Experts from the Department for International Development (DFID), universities and NGOs will discuss key issues such as early childhood development, childhood undernutrition, menstrual hygiene, reproductive health, the burden of water collection, and technology.

The Smart Handpumps project is led by Oxford’s School of Geography and the Environment. The technology consists of a GSM-enabled transmitter, securely located within the handle of the pump. The transmitter is programmed to send periodic SMS messages detailing pump usage which are transmitted cheaply and automatically over the GSM network.

Immediate detection of handpump failure can help ensure that repairs are made quickly and open-access data can improve the monitoring and regulation of water service delivery. Mobile networks allow for the scaled-up management of multiple handpumps, thereby reducing operational and financial costs.

Field trials in rural Kenya have been running since August 2012 and are being expanded with support from DFID and the Economic and Social Research Council (ESRC). The interdisciplinary project team is made up of Geographers, Engineers, Economists and Public Health experts from a number of departments across the University. Other partners include the Government of Kenya, UNICEF, GSMA and Rural Focus Ltd. (Kenya).

 

View the Smart Handpumps poster

Watch the Smart Handpumps video

Read more about the Smart Handpumps project

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Smart handpumps one of the Guardian’s 12 global development innovations of 2012

Featured alongside disease-eating prawns and solar-powered lamp-posts, Oxford University’s Smart Handpumps are recognised by the Guardian newspaper as one of twelve innovations for global development that caught the eye in 2012.

The so-called ‘smart’ handpumps use a mobile technology device designed by Oxford University which generates information on handpump use and can quickly detect a breakdown. The project is being trialled in 60 villages in the Kyuso district in Kenya where water is scarce during the dry season and functioning handpumps are critical for people’s survival.

The mobile data transmitter monitors movement of the handpump handle and estimates the volume of water being pumped. It sends periodic text messages to relay information on handpump performance to research teams in Nairobi and Oxford. Early detection of a problem means someone can be quickly dispatched to resolve it.

The project is funded by the UK Department for International Development and led by Dr Rob Hope, Senior Research Fellow at the School of Geography and the Environment.

“There are a lot of gadgets and gizmos and devices out there, but those alone don’t really resolve the enduring problem of rural water supply sustainability,” Rob Hope is quoted in the Guardian article. “It’s really the institutional reforms that emerge from using the information in a more effective manner. That’s where our research is really focused.”

Read the full article online

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Dryland agriculture a major issue for climate change

People living in rural communities in the world’s driest areas are hit hardest by climate change impacts, according to the report from an International Conference on Food Security in the Drylands. Many of the most effective climate change interventions will be rooted in agriculture, which these communities depend on for their livelihoods.

Oxford University’s Professor Mike Edmunds and Dr Rachael McDonnell were among the invited speakers at the Qatar National Food Security Program conference which was held in Doha, Qatar on 14-15 November 2012, under the auspices of the Heir Apparent, His Highness, Sheikh Tamim bin Hamad Al Thani.

Mike Edmunds’ paper addressed water security in low rainfall areas, emphasising the need to base sustainable development policy on renewable water resources (especially groundwater). He urged people to consider the advantages of locally sourced water as a basis for sustainable rural development. Rachael McDonnell examined the many new science and policy advances being made in using saline and treated wastewater to meet food security challenges in drylands.

The report calls for action to help rural communities produce food and secure their livelihoods while faced with land degradation, water scarcity and unpreditable weather patterns. Many solutions are available now, such as crop diversification, efficient water management, ‘climate smart’ technologies and conservation agriculture. Targeted investment backed up with sound policies are urgently needed to ensure that these opportunities are seized.

The conference brought together over 400 people to discuss the challenges and opportunities for building food security and mitigating climate change in drylands. These included ministers and senior government officials, policymakers, researchers, development practitioners and representatives of international and regional organisations, farmers’ unions, private and public financial institutions, and private agri-business enterprises.

Read the full conference report.

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Oxford University wins grant to explore links between poverty alleviation and ecosystem services in the Bay of Bengal Delta

Oxford University has won a project grant for £327K as part of a large Consortium Grant Project “Assessing health, livelihoods, ecosystem services and poverty alleviation in populous deltas” (ESPA Deltas),  focusing on the Bay of Bengal Delta region of Bangladesh.

Bengal-Delta
Photo by Frances Voon

ESPA Deltas is an international, multi-disciplinary and multi-partner project which will examine the relationship between poverty alleviation and ecosystem services in deltaic environments, with particular focus on coastal Bangladesh. In the densely populated coastal fringe of the vast Ganges-Brahmaputra-Megha Delta poverty is widespread and rural livelihoods are closely linked with the natural ecosystems. Low-income farmers face multiple threats such as unreliable water supplies, increasing salinisation of soils and arsenic contamination of groundwater.

The overall goal of the project is to build an integrated analytical framework for deltaic systems that is applied in Bangladesh and transferable to other populous deltas. Elements considered will include morphodynamics, water quality and quantity, primary productivity and fisheries, agricultural production, mangroves and human health and well-being. The project is highly multidisciplinary and involves engineers, natural and social scientists, lawyers and policy analysts and a range of stakeholders.

ESPA Deltas is led by Professor Nicholls at the University of Southampton. Professor Paul Whitehead and Dr Fai Fung, from Oxford’s School of Geography and the Environment will be modelling the rivers upstream of the Delta – the Ganges, Brahmaputra and the Meghna – to assess impacts of climate change, land use change, water diversions and dams on flows and nutrients arriving into Bangladesh from India and the Himalaya. Scenarios will be developed to assess future changes in ecosystem services and their links to poverty alleviation. These will be used to explore policy interventions for reducing poverty and increasing human well-being.

The project has been funded under the Ecosystem Services for Poverty Alleviation (ESPA) programme funded by the UK Department for International Development (DFID), the Natural Environment Research Council (NERC) and the Economic and Social Research Council (ESRC).

A Research Fellow position is available for the project, based at the University of Southampton. Further details here.

 

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Mobile technology to fix hand pumps in Africa

Thousands of families affected by the ongoing drought in East Africa are set to benefit from improved water supplies thanks to innovative mobile technology designed by Oxford University.

Hand pumps provide the main source of drinking water for rural communities in Africa, but around one-third of them do not work at any one time. It can take up to a month or more before they are fixed, leaving communities without easy access to clean water. But in August Oxford University researchers will start a pilot project in Kenya to install new, low-cost data transmitters that work in a similar way to mobile phones.

These Smart Hand Pumps will automatically send a text message to the district and national water managers, so they know when and where there is a problem, as well as when the problem has been fixed.

Researcher Patrick Thomson said: ‘The technology is simple and robust. The transmitter is no bigger than a mobile phone and fits inside the hand pump. It automatically registers the movement of the handle of the pump and from this calculates the amount of water extracted from the pump. An automatic text about the water usage at each pump is sent at regular intervals to water supply managers, who then immediately know when and where a pump needs fixing. This should enable problems to be addressed more quickly and transparently than they are at the moment, so people don’t have to go without safe water – with all the resulting health problems that can cause.’

Lead researcher Dr Rob Hope, Senior Research Fellow at Oxford’s School for Geography and the Environment, said: ‘Reliable water supplies lead to healthier people and more productive livelihoods. We hope that by applying mobile communications technologies within the rural water sector, we can improve water security and reduce poverty for the 276 million people in rural Africa who currently don’t have safe and reliable water supplies.’

The researchers will start to install the technology in 70 village hand pumps across the Kyuso District of Kenya, in a pilot trial funded by the UK Department of International Development. Kyuso commonly experiences droughts and will be the first place in the world to use the new Smart Hand Pumps, a mobile technology that should improve the functionality of its hand pumps.

Lack of reliable access to clean water is an enduring problem in rural Africa. Yet mobile technology in Africa is booming: the number of people within range of a mobile signal has already overtaken the number with an improved water supply and, this year, the number of people with a mobile subscription will pass the same benchmark.

The Secretary of State for International Development, Rt Hon Andrew Mitchell MP, whose department is funding the pilot project in Kenya, said: ‘This is a fantastic example of British innovation helping some of the poorest people in the world.

‘Water does not just save lives in the short term – it is also a cornerstone for delivering economic growth and helping countries to work their way out of poverty. This is why UK aid will give an additional 15 million people access to clean water by 2015 and supporting a number of programmes, like this one, to help the world’s poorest countries harness the full potential of their water resources.’

A research paper about the technology used in the pilot project is publicly available in the Journal of Hydroinformatics.

The research team will gather data on the advantages and disadvantages of the Smart Hand Pumps so they can refine the technology as and when needed. Following the trial in Kenya, they plan to roll out a national trial in Zambia, which will be funded by the Economic and Social Research Council.

Read further coverage about this research on the BBC News website.

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