Susan Conlon – Cabot Institute for the Environment blog

Mount Hount Huascarán, Cordillera Blanca, taken from Hauashao village. Credit: Susan Conlon

Water is essential for human life, but in many parts of the world water supplies are under threat from more extreme, less predictable weather conditions due to climate change. Nowhere is this clearer than in the Peruvian Andes, where rising temperatures and receding glaciers forewarn of imminent water scarcity for the communities that live there.

Peru holds more than 70% of the world’s tropical glaciers. Along the 180 kilometre expanse of the Cordillera Blanca (“white mountains”), more than 250,000 people depend on glaciers for a year-round supply of water. Meltwater from the glaciers supplies rivers, offering a vital supplement to rainwater so that locals can continue irrigating food crops throughout the dry season, from May to October.

But Peruvian glaciers have shrunk by 25% since 1987, and the water supply to rivers during the dry season is gradually decreasing. While national and regional governments and NGOs are responding to the threat of water scarcity with modern engineering solutions, there are growing concerns among the communities affected that such efforts are misplaced.

Modern day misfires

Take, for example, the village of Huashao. Nestled between the highest peaks of the Cordillera Blanca, Huashao is a typical farming village of the region. Glacier meltwater feeds the Yurac Uran Atma canal, which supplies irrigation water to families in Huashao. In 2011, a municipal government project transformed this canal from a rustic irrigation ditch to a modern PVC pipeline, with lock-gates to regulate the flow of water and ensure equal distribution throughout the village.

The village of Huashao. ConDevCenter/Flickr., CC BY-NC-ND

Governments and NGOs commonly promote modern measures to capture and conserve water for irrigation – for example, by lining irrigation canals with concrete, to prevent leakages. While it’s important to conserve water to safeguard food supplies, these kinds of measures have been criticised for their lack of flexibility and sensitivity to local needs.

While the pipeline in Huashao provided security and reduced the amount of time people had to devote to distributing water where it was needed, Conlon’s ongoing ethnographic research in the village found that local women were concerned about its effect on the local puquios (springs) – a valued source of irrigation and drinking water.

Noticing less water in puquios, they blamed the canal lining for stopping water from filtering into the local geology. Local communities see this process as an integral part of water distribution, but authorities often refer to it as “leakage”.

What’s more, the local people responsible for maintaining and operating the new canal found that not everything worked as planned. They were particularly worried when a problem caused water to overflow the canal walls, and blamed the design of the lock–gates.

Here, the government’s preference for modern engineering meant that it missed an opportunity to engage with traditional technologies and local knowledge. This is hardly surprising – ancient know-how has been routinely dismissed as inferior by state authorities and well-meaning (but badly briefed) NGOs. Yet traditional technologies, like the puquios, have been providing flexible ways to manage water in Huashao for hundreds of years.

In Huashao, the local people are coming to realise the limitations of modern engineering. But across the Andes, many other communities are still seduced by the promise of quick fixes offered by concrete, steel and PVC pipelines. Unfortunately, initial, costly investments of aid and expertise are rarely followed up, and since communities often lack the necessary knowledge and funds to maintain these systems, they eventually break down.

Ancient married with modern

Slowly, a push back is starting. There has been renewed interest in what society can learn from traditional irrigation systems. A recent international workshop held in Trujillo, Peru, brought together social scientists, geographers and climate scientists to discuss how to tackle issues around water use and scarcity.

It seems likely that the best solutions will be found by combining old and new knowledge, rather than dismissing one in favour of the other. For instance, parallel to the Cordillera Blanca is the Cordillera Negra (“black mountains”), which faces the Pacific Ocean. Without the benefit of glaciers, the ancient inhabitants of this area learned to harness rain water to see them through the dry season.

These pre-Colombian cultures instigated millennia-long engineering projects, resulting in large dams and reservoirs placed along the slopes of the mountains. These structures controlled water and soil erosion, feeding underground water deposits and providing water for crops and livestock.

An ancient dam in the Cordillera Negra. Kevin Lane., Author provided

Disuse over the last few centuries means that few are still functioning, but those that are, are a tribute to the ancient expertise. By contrast, modern concrete micro-dams have a functional life of 40 to 50 years, often curtailed by seismic activity to between 15 and 25 years.

Fortunately, plans are afoot to revisit these old technologies. Solutions rooted in respect for community and local knowledge, and allied to flexible modern engineering – such as better water retainment technology – are exploring ways in which we can shore-up the effectiveness of these ancient dams.

Throwing money and resources into engineering projects does not always guarantee success when trying to combat the effects of climate change and protect vulnerable communities. But the marriage of ancient and modern technologies offers promising solutions to the threat of water scarcity in Peru, and places like it all across the world.

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This blog is by Cabot Institute member Dr Susan Conlon, Research Associate at the University of Bristol, and Kevin Lane, Senior Researcher in Archeology at Universidad de Buenos Airies. The article is republished from The Conversation under the Creative Commons licence. Read the original article.

Dr Susan Conlon

Socio-ecological tensions, farming and habitat conservation in Guantiva-La Rusia

Highlighting the Cabot Institute’s commitment to growing the evidence base for water-based decision making, Dr Maria Paula Escobar-Tello (Co-Investigator) and Dr Susan Conlon (Post Doctoral Research Assistant) introduce the social science component of an exciting three-year project called PARAGUAS, an interdisciplinary collaboration between UK and Colombian researchers to investigate how plants and people influence the water storage capacity of the Colombian Páramos…

In June 2018, the Natural Environment Research Council (NERC) and the Arts and Humanities Research Council (AHRC) jointly awarded funding to five UK projects under the Newton-Caldas funded Colombia-Bio programme. The Colombian Department of Science, Technology and Innovation (Colciencias) subsequently awarded funding to 24 smaller Colombian projects under the same programme. PARAGUAS – How do the Páramos store water? The role of plants and people” is one of the five UK-funded projects.

Páramos are crucial for the livelihoods and wellbeing of millions of people (Photo © María Paula Escobar-Tello, University of Bristol)

Crucial source of land and water

The páramos are tropical mountain wetlands found between 3000m and 4500m of elevation in the Andes. Known for their extreme water storage and regulation capacity, they generate exceptionally high and sustained water supplies to farmland, settlements and cities downstream. They are also an important repository of biodiversity. Páramos have been historically inhabited; first by pre-Colombian indigenous communities and nowadays by heterogeneous campesino communities who depend on them as a primary source of water crucial for their livelihoods and wellbeing. In the last few decades, several political, economic and armed conflict dynamics have pushed the agricultural frontier to increasingly higher elevations. The combined pressure of land use and climate change has already degraded many páramo areas and their potential demise has generated widespread concern across all levels of governance in Colombia, as well as within the NGO sector and research community.

Growing tensions in water conservation

A diversity of actors – government, NGO, community organisations, farmers – are interacting in the conservation of water in the Guantiva-La Rusia páramo, each with their own knowledges and understandings of the water storage function of the páramo, as well as contrasting views on who should benefit from this function and on the political economy of conservation efforts. Our team began to explore two sets of dynamics where these contrasting views were manifest during a pre-fieldwork campaign in January 2019.

In the first dynamic, local populations experience national and regional conservation efforts to address land and water degradation through the delimitation of the páramos – a controversial ongoing land management process whereby government authorities seek to map the areas they believe should be conserved to protect the páramos. One approach in these new land management policies and plans is to extend national park land under protection through land acquisition, which overlaps with complex pre-existing land ownership arrangements. In addition, the Ley de Páramos 233, 2018 (Páramos Law 233) prohibits farmers from carrying out productive activities on formerly-used land, which is now defined as páramos by authorities, and tasks local authorities with negotiating with farmers and supporting them in finding alternative economic activities. While this ban may sound ecologically necessary, multiple actors question the processes that have defined the páramo borderline for several reasons including its implications on farmers’ livelihoods, identities and ecosystem knowledges.

In the second dynamic, water conservation policies and plans prioritise the channelling of water from the páramos to the aqueducts that supply the populations downstream through land purchases that lead to changes in land use and the piping of springs and streams. These processes are equally contested and have led to community-level forms of organisation, representation and resistance; as well as to multi-scale and multi-issue conflicts between different campesino sectors; between local, regional and national-level political and environmental authorities; and between different discourses about environmentalism and modernisation.

Our project goals

As the social science component of PARAGUAS, we want to explore these different sets of socio-cultural and political tensions. We will do this by investigating how and why land and water use has changed in the Guantiva-La Rusia páramo and how this is related to public policy decisions that have shaped (or not) how local páramo inhabitants, particularly crop and livestock farmers, interact currently with the páramo through their day-to-day farming practices. Our aim for this part is to expose lesser heard voices in the conservation debate and listen to how local inhabitants articulate their understanding of the water regulation function of the páramo.

We are busy preparing for the first round of fieldwork in May 2019 and are designing our methodology of interviews, focus groups and digital storytelling techniques in close collaboration with our colleagues at Loughborough University. Watch this space for further updates!

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The PARAGUAS project is supported by the Newton-Caldas Fund and funded by the NERC and AHRC [grant number NE/R017654/1]. PARAGUAS is led by Principal Investigator Dr France Gerard (Centre for Ecology & Hydrology) and Co-Investigators Dr Ed Rowe (Centre for Ecology & Hydrology), Mauricio Diazgranados (The Royal Botanic Gardens, Kew), David Large (University of Nottingham), Wouter Buytaert (Imperial College London), Maria Paula Escobar-Tello (University of Bristol), Dominic Moran (University of Edinburgh), Michael Wilson (Loughborough University) and supported by the research group ‘Biología para la conservación’ of the Universidad Pedagógica Tecnologica de Colombia (UPTC) – Dr Liliana Rosero-Lasprilla and Dr Adriana Janneth Espinosa Ramirez, the Instituto de Investigación de Recursos Biológicos Alexander von Humboldt (IAvH) – Dr Susana Rodríguez-Buriticá, The Universidad Nacional de Colombia (UN) – Prof Conrado de Jesus Tobon Marin and the Institute of Hydrology, Meteorology and Environmental Studies (IDEAM) – Dr Liz Johanna Diaz.

NERC Programme: Exploring and Understanding Colombian Bio Resources

Newton-Caldas Fund

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This blog is written by Cabot Institute members Dr Maria Paula Escobar-Tello nd Dr Susan Conlon from the School of Veterinary Sciences at the University of Bristol.

Dr Maria Paula Escobar-Tello

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Peru’s ancient water systems can help protect communities from shortages caused by climate change