20 years at Tanguro Field Station -- III. A natural laboratory

Sarah Ruiz, Science Writer and Editor

Field work wraps up at 4 pm, leaving Macedo, Atwood, Nunes da Costa, and me sweaty and exhausted from an afternoon spent trudging through uneven wetlands to find stream channels. Atwood was dropping temperature loggers every 500 meters above and below reservoirs. She’s interested in the impacts these small water bodies have on the watershed, and how far downstream those impacts extend. But Amazonian streams often twist through impassable segments of marsh, so finding the sample sites requires vigorous hiking and a good machete.

After our hike, we rendezvous with the group of visiting journalists at the Darro Reservoir. One of the largest reservoirs at Tanguro, the Darro provides water to the research station for showers and cleaning. On especially hot days, it also makes a great swimming hole.

The water is warm—warmer than nearby streams, Atwood’s temperature data has confirmed—but still cooler than the muggy air. It’s also glassy clear. Our feet are visible treading the band of colder water down below. Billowing white reflections form on the surface, a perfect mirror of the clouds above.

Water is everything in the Amazon. It’s what makes the lush forests possible. It’s what connects a soy farm in Mato Grosso to estuaries at the yawing mouth of the Amazon River. And it’s what connects this region to the global climate. The clouds clustering above Darro grow heavier and darker with rain while we swim. Although much of that rain will fall back to Earth here, a large portion of it gets pushed out from the tropics to fall in other places.

“Water does two things,” says Woodwell Tropics Program Director Dr. Mike Coe. “One, it’s rainfall somewhere else. Two, water is energy. It takes a huge amount of energy to evaporate water and that energy gets released somewhere else when it rains. So the energy from the sun that falls here gets transported around the world. That’s huge. That drives climate.”

Which means that, through water, changes here have the potential to cause major changes across the globe. Tanguro’s location in a region of the Amazon that underwent intense deforestation for agriculture just a few decades ago makes it an ideal place to study that cause and effect.

“Once you remove forests from the landscape, you change some things fundamentally that you can’t really undo,” says Macedo. “You change the amount of water in streams, you change the rooting depth of the plants on the landscape, you change the entire hydrological cycle.”

Tanguro is pretty representative of the changes experienced across the region. It’s a patchwork of natural forest, soy and cotton fields, and some planted eucalyptus groves. Some of its watersheds lie completely within the bounds of the forest, others run completely through agricultural land. Some streams have well-preserved forests along their banks, while others are in the process of restoration. Amazonian species mix with those from the Brazilian savanna. It’s becoming hotter and drier as the climate changes. For the climate scientists and ecologists at Woodwell and IPAM, it’s the perfect natural laboratory.

As the first research project launched in that laboratory, the fire experiment garnered much fanfare.

“Grupo Amaggi had mobilized society, there were journalists and newspaper reporters and firefighters. People from the company and people from the local towns,” recalls Nepstad. It was new territory, intentionally burning the forest to learn how it changed the landscape. “It was really exciting.”

With each new year of burning, insights revealed themselves. One particularly hot, dry year, the forest burned even more than predicted. Nepstad recalled seeing flames, shin-high, still burning at 2 am the next morning. Tree mortality afterward jumped from its usual 6% up to 50%.

“That was tragic for that patch of forest,” says Macedo. “But it has yielded really important insights. Almost prescient. Just look at 2023. It was an incredibly dry year in the Amazon, and all of a sudden we saw fires in the very middle of the rainforest—areas that used to be much too wet to burn can now burn during a big drought.”

With the fire experiment underway, there were still nearly 200,000 acres of land available to study, so Nepstad invited researchers like Macedo, Coe, and Dr. Paulo Brando, who worked with Nepstad in Pará, to explore what other stories Tanguro might be able to tell about the Amazon. In its 20-year history, over 180 papers have been published from research at the station, ranging in topic from hydrologic changes, to the climatic limits on productive agriculture, to the degradation of forest carbon, to the value of tapir poop for restoration. Brando attributes the station’s prolific results to the knowledge of its staff.

“Part of Tanguro’s magic is to learn from the people who have been working for 20 years in the forest. They have an intuitive sense of what is happening with these forests’ health,” says Brando.

Another unique aspect of Tanguro’s location is where it sits in relation to the larger ecosystem. The hundreds of small streams that criss-cross Tanguro form the headwaters of the Xingu River—a major tributary to the main stem of the Amazon. Tanguro is just 60 kilometers from the Xingu Indigenous Territory, through which the river of the same name runs. Any upstream disturbances to nutrients, sediments, or stream outflow have the potential to ripple down to the reserve, impacting the livelihoods of Indigenous communities within.

“The headwater streams that we’re studying here at Tanguro drain into the Xingu reserve. So, these scientific questions of how water quality is being impacted by agriculture are important to understand as a cross-boundary issue,” says Macedo. “Water connects everything.”

Header photo: A lone tall tree stands out at the forest edge. / photo by Mitch Korolev