Â鶹ÒùÔº

. They are a type of wetland that covers a small fraction of Earth's land, .

Healthy peatlands shape water cycles, support unique biodiversity and sustain communities. Yet for all their importance, we still lack a clear picture of how peatlands are changing through time.

When peatlands are drained, degraded or burned, the carbon they hold is released into the atmosphere. More than three million square kilometers of wetlands , meaning we have lost a huge amount of carbon sequestration potential globally. This makes it all the more important for us to understand and conserve remaining peatlands.

Traditionally, studies of peatlands have focused on a few well-researched sites, often in temperate or boreal regions. But climate change, land use pressures and extreme weather are affecting peatlands everywhere, including in remote, tropical and under-studied regions.

To predict how peatlands will change and react under future conditions, we need frequent data on different types of peatland habitats that captures how they change over seasons and years.

, we harnessed the power of people, easily accessible technology and a research network to collect data using a distributed data approach. This means using data collected following a standardized methodology: everyone collecting similar data using the same methods regardless of location.

Methods that make a difference

Our study, called , used smartphone photography to collect data. We connected with peatland researchers around the world via social media and word of mouth and asked them to collect photographs of their peatlands during 2021 and 2022. We gathered more than 3,700 photographs from 27 peatlands in 10 countries.

We analyzed these photographs to look at the plant color, telling us how green leaves are across the year, and providing rich information on the vegetation growing there. Changes in green leaf color indicate when plants start their growing season.

They also indicate how green or healthy plants are, how much nutrient plants take up and when they turn brown in the autumn. Color shifts can also signal changes in moisture or nutrient conditions, temperature stress .

This kind of science, conducted by a global community of researchers, amplifies reach. Local observers can use smartphones to record seasonal changes, water levels, vegetation color or cover, land use or disturbance. With training, standardized protocols, good metadata and validation, community-generated data can be robust. These methods lower the cost, increase the amount of data available to researchers, and build local stewardship and global networks.

Better predictions of peatland function are not just academic; they are essential for mitigating the effects of climate change, protecting biodiversity, water security and reducing risks from disasters like fires and droughts.

Information derived from images can be converted into mathematical representations of plant behavior and this can in turn be added into of peatlands.

Creating digital twins of peatlands can help experts simulate "what if" scenarios. For example, what happens if drainage increases after a wildfire or restoration is initiated? But to build useful digital twins, we need data in place: across biomes, seasons and scales.

What needs to happen next

We now have easily accessible tools and technology that allow us to monitor peatlands in ways that were not possible a decade ago. But advancing this depends on action from multiple fronts:

• Research networks should develop, share and adopt standard protocols and data practices so that data from different places and sources can be combined, compared and scaled.
• Communities, including members of the public, can be partners in observation. Training, co-design, fairness and recognition are essential. Local observations, including smartphone photography, could feed directly into decision-making.
• The public can help by supporting policies that fund this work by participating in community science initiatives and recognizing how something as simple as a smartphone photo can significantly contribute to understanding how our planet works.

In fact, the PeatPic Project inspired us to create another community science project called . This project involves fixed point locations on 16 peatlands around the world, where members of the public can take a photo of the peatland at different times to help us build a picture how the ecosystem changes over the year.

Peatlands are not fringe ecosystems. They matter for people, climates, water and biodiversity. Harnessing distributed data gathering across a global community, and accessible tools like smartphones gives us a chance to see how peatlands change, to predict where they are most at risk and to act ahead of crisis.

The future of peatlands, and of Earth's carbon and water cycles, depends on seeing, recording, sharing and acting together on what is happening now.

This article is republished from under a Creative Commons license. Read the .