2022-05-25 01:00
Journalists can use the SkyTruth Flaring Map database to explore natural gas flaring, which can add large amounts of carbon dioxide and methane to the atmosphere. Image: Shutterstock
By Rowan Philp -GIJN
In this edition, we’ll explore detailed databases and remote sensing tools that reporters can use to investigate local environmental threats.
Some of the resources we share below were presented as part of a webinar held by the Environmental Investigative Forum (EIF) – a nonprofit international journalism consortium. Other resources emerged in a follow-up interview with Alexandre Brutelle, a freelance investigative reporter and director of EIF.
Environmental Investigative Forum director Alexandre Brutelle. Image: Courtesy of Brutelle
In addition to a growing spirit of collaboration, Brutelle says, the outlook for environmental investigations is bright due to a combination of satellite imagery access, open source geographic information system (GIS) data tools, established databases like Global Forest Watch, and data sharing from recent investigations. As one example of the latter, he cites the growing #WildEye archive of environmental crimes released by Africa’s innovative Oxpeckers investigative outlet. Reporters can use its curated data to track court cases, asset seizures, and arrests related to illicit eco-trading, from exports of Myanmar timber to wildlife trafficking in India.
“This is a good example of a great, journalism-made environmental tool, and their data has grown far beyond their base in southern Africa – to Asia, Europe, all over,” Brutelle says.
He adds that, since its registration as a nonprofit organization in France in 2020, EIF – despite a limited budget – has grown to 60 individual members, including reporters and data science experts in the Middle East and North Africa, the Balkans, the United States, and Europe.
“The point of EIF is to connect journalists and experts,” he says. “We’re aiming to become a global consortium to foster new environmental reporting initiatives and tools.”
When starting an investigation into a specific environmental threat – whether a new mine or a toxic spill – it’s important to have quick access to the existing conservation rules at that site, information on the environmental stakes, the area’s management history, and the stated concerns of the local community. Brutelle says the following three global databases can quickly answer many of those questions, and trigger others.
Brutelle says the Atlas is most effective as a resource for local leads and story ideas, rather than as a primary source. For instance, while investigating abusive mining practices in North Africa, Brutelle learned from the tool that endangered bird species had also been illegally hunted by foreign royal princes in the same area. “This tool can spark ideas for new topics to investigate just by browsing,” he explains. “Otherwise, it’s more of a starting point but is useful for checking the background of any environmental exploitation or history of protest at a site you’re already looking at. It can be great when reporting on environmental abuse in remote locations, or places you can’t get to.”
Natural gas flaring at oil wells and refineries can add large amounts of carbon dioxide and methane to the atmosphere and can be used to expel gas that is otherwise expensive to store. The flames and methane concentrations the process produces represent individual polluting activities that are detectable from space. Using automated analyses of infrared features on satellite imagery, the SkyTruth Flaring Map database produces near real-time maps of gas flaring around the globe. It also generates flaring volume maps that reflect high methane concentrations represented by red dots.
In a recent investigation into the hazards of secret, “non-conventional” gas drilling projects in southern Tunisia, EIF remote sensing analyst Momchil Yordanov tried SkyTruth for the first time – and quickly identified additional gas rigs and energy companies involved with the gas extraction.
SkyTruth’s gas flaring data was recently used in an investigation of “non-conventional” drilling projects in southern Tunisia. Image: Screenshot
“It’s good on gas emission detection, definitely a tool we plan to continue working with,” says Yordanov.
Brutelle adds that SkyTruth has other “very interesting tools – on mining, for instance – but the flaring map is their global tool.”
“The resolution is good enough to measure major flaring sites,” he points out. “In your country, you can just go to the red dots on the maps and then match the flaring indication with what is going on there on the ground.”
Brutelle says the tool can also be used to detect other processes that produce methane. “When you see the red dot, you can ask yourself: why is there a high methane concentration at this place, is it in a protected area, and is it above legal levels?” he says. “It could be linked to open air waste dumps, or burning trash, or burning unwanted fuel.”
For more on tracking gas flaring, check out GIJN’s Climate Change Reporting Guide on Investigating Methane.
When asked to list her favorite investigative tool, EIF’s Orieschnig says: “Google Earth Engine, hands-down!”
Mobilizing the power of the cloud, Google Earth Engine can quickly process vast amounts of satellite image data. For instance, the Global Forest Change project, run by the University of Maryland, used the system in 2013 to process a whopping 20 terapixels of imagery from NASA’s Landsat satellite to map the global decline in forests. The researchers noted: “What would have taken a single computer 15 years to perform was completed in a matter of days using Google Earth Engine computing.”
This tool can also help investigative reporters detect and measure changes on land and water surfaces on the earth. Last year, EIF investigated the damage caused by a major wastewater spill in Bulgaria’s Lake Varna and the adjacent bay, an important fishing and tourism zone that connects to the Black Sea. The team decided to use satellite imagery to detect algal blooms on the lake but found that they needed much greater computing power to process the vast amount of data.
“I probably would have broken my computer if I did all this data analysis there, so I used Google Earth Engine,” says Orieschnig. She adds that the API — the application programming interface, which is software code that allows one website, app, or program to interact with another — is free to use so reporters “can do calculations super-fast, and quite simply, in an online Javascript programming environment. You can export results to your Google Drive, of course, but all data processing happens on Google servers.”
The service also includes a ready-to-use satellite data catalog – including 40 years of imagery that is regularly updated, and searchable. Orieschnig explains that reporters should click on the “sign up” icon at the top-right of the Google Earth Engine home page to request access. “I didn’t even have to use my institutional email – it took four days to get a response, and it is free for non-commercial purposes,” she notes.
Recognizing that algae absorbs light at a different wavelength than surrounding “clean” water, Orieschnig used the data tool to measure the growth of the Lake Varna blooms in terms of their wavelength signatures. “Using the data this way, we could not only detect where algae was present, but also its concentration, which was cool,” she adds.
In general, she says phenomena larger than a school bus – from forest fires to floods and algal blooms – can be captured and measured using free, open access satellite imagery, such as Sentinel Hub, down to a resolution of 10 meters. For reporters less familiar with the Javascript API, Orieschnig recommends the tutorials at this link, and this blog for technical tips on working with geospatial data.
For more on using satellite imagery in investigations, including how journalists can submit data requests to satellite companies, check out GIJN’s guide, Resources for Finding and Using Satellite Images.
About 50 million people in Southeast Asia depend on the rivers and rich biodiversity of the Lower Mekong River Basin for food, energy, transport, and trade. But this vast region — stretching into Thailand, Laos, Cambodia, and Vietnam — is threatened by environmental degradation, urbanization, and the effects of climate change. Fortunately, the availability of environmental data on the Mekong Delta is growing — as it is in other regions around the world. Orieschnig – who specializes in hydrology and environmental issues in Southeast Asia – recommends that reporters in the region check out these resources:
Regional databases and resources like the Mekong Dam Monitor can also be a great asset in environmental investigations. Image: Screenshot
Despite its growth in individual members and skills, EIF has limited resource capacity and is seeking funding for several initiatives. However, Brutelle says EIF hopes to ultimately develop its own toolbox of environmental monitoring tools – including artificial intelligence or AI systems to detect fracking activities – and share them as open access tools for reporters.
Says Brutelle: “We’ve already outlined three, high-impact detection and monitoring journalism tools, spawned from our member reports, that we hope to develop and share.”