Floods and droughts are expected to increase with continued shifts in climate. Maintaining reliable freshwater flows is essential for human health and well-being, sustainable economic development, and ecological integrity. This entails a minimum amount of water in rivers and streams during dry seasons, and high flows that are within natural ranges of variation during wet seasons. To effectively implement the right actions in the right places, managers and planners need to understand how and where different nature-based solutions can contribute to reliable freshwater flows.
OUR APPROACH: To address this issue, hydrology and adaptation experts are examining the science, then working with stakeholder group representatives to interpret its meaning through the lens of those groups (downstream utilities and municipal managers, humanitarian groups working with upstream communities, and aquatic ecologists).
This project is funded in part by the Gordon and Betty Moore Foundation through Grant GBMF7100 to The Nature Conservancy to support the work of the Science for Nature and People Partnership (SNAPP).
Team Status:
A review of the empirical evidence
Our research confirmed that context matters. Surface and groundwater resources (in locations & quantities where people can take advantage of them) are generated by a complex interaction of weather, vegetation, soils, geology, and terrain, and nature-based solutions can only influence some of these factors. Restoring forests and wetlands can often help to reduce peak flows, and implementing best practices in production lands can improve water retention in soils, making them more drought-resistant.
Information gaps
We found that most field studies are not measuring and tracking the right metrics at a scale to match the ambition of proponents of nature-based solutions. Existing evidence helps with predictions of how small-scale projects can affect local water cycling in some geographies, but we still have a lot to learn about how a growing number of small-scale tree-planting efforts or other commonly promoted nature-based solutions in agriculture or rangelands will scale up to influence regional downstream water flows.
Some basic guidance
The science is clear that protection of intact natural ecosystems is much more effective at delivering water security benefits than restoring an ecosystem once it’s been lost. We also know that the scale of implementation needs to match the scale of ambition — we cannot expect to improve water security for downstream populations or industries through small investments in nature upstream. If we invest as much in the science-based design of specific nature-based projects as we would in conventional engineered water infrastructure, we can make informed decisions with the best combination of approaches.
“To scale up smart and effective investment in nature-based solutions for water security, decision makers need a more clear understanding of expected impacts, based on real-world evidence. This SNAPP group provides a view into that evidence and packages it for people who don’t have a degree in hydrology.”
– Adrian Vogl, Project co-Leader
Leaders
Kari Vigerstol
Robin Abell
Adrian Vogl
Members
Winston Yu
Nick Wobbrock
Vivien Bonnesoeur
Rebecca Tharme
Virginia Newton-Lewis
Raul Muñoz
Kate Moran
Robin Miller
Wendy Larson
Astrid Hillers
Lissa Glasgo
Gregg Brill
Craig Beatty
Newsha Ajami
Carlos Aguilar
Sydney Moss
Stan Kang
James Dennedy-Frank
John Matthews
Daniela Giardina
Paul Hicks
Jan Cassin
Suzanne Ozment
Robert Stallard
Neil McIntyre
Tom Gleeson
Wouter Buytaert
Kate Brauman
Ted Grantham
Advisors