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Steve Boyes นักสำรวจของ Rolex ออกเดินทางสำรวจในโครงการ Great Spine of Africa

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Feb 20, 2023

Through its Perpetual Planet Initiative, Rolex is supporting Steve Boyes’ Great Spine of Africa series of expeditions, traversing thousands of kilometres of rivers that have never been scientifically documented

As the Lungwevungu River gets wider, the rapids get stronger and Kerllen Costa has to find the navigable lines to pass safely through.
©National Geographic/Jen Guyton

This is the first successful Great Spine of Africa expedition to document and protect the river that feeds the Zambezi led by Rolex Perpetual Planet Initiative partner explorer Steve Boyes.

Over several years, the team plans to travel more than 40,000 km, equivalent to a journey around the planet. What it discovers will provide crucial information to protect the people and wildlife dependent on Africa’s great rivers.

Steve Boyes, is leading the Great Spine of Africa project. Having traversed the significant rivers of the Okavango River Basin, he will now expand into new basins throughout Africa. © National Geographic/Jen Guyton

Over 20 million people in southern Africa, and countless species of plants and animals, rely on the rushing waters of the Zambezi River. But much of its winding journey, from its marshy origins to the salt waters of the Indian Ocean, remains unknown to science. Learning more about its sources and unique ecosystems will help scientists and local communities to protect these areas and the Zambezi River into the future, building resilience against climate change.

Lungwevungu expedition

Aerial view of the upper reaches of the Lungwevungu River. Steve Boyes, leader of the Great Spine of Africa project, believes this river in Angola to be the furthest source of the mighty Zambezi river. ©National Geographic/Jen Guyton

Renowned South African conservationist Steve Boyes and a team from the National Geographic Okavango Wilderness Project (NGOWP) were named Rolex National Geographic Explorer of the Year in 2019.

Boyes first ventured into the southeastern highlands of Angola with the NGOWP, working alongside community members and a multidisciplinary team. During that first expedition, they documented and discovered the importance of what they call the “Okavango-Zambezi Water Tower”, elevated areas of forest and peatlands with high rainfall.

Steve Boyes and Kerllen Costa, the National Geographic Okavango Wilderness Project Angola Country Director, lead this first expedition down the Lungwevungu River in their mekoro (dugout canoes) as part of this early work of the Great Spine of Africa series of expeditions.
©National Geographic/Jen Guyton

The peatlands act as sponges that feed the rivers, even during drier periods. These ecosystems may be critical as temperatures continue to rise and weather patterns change, but they are not easy terrains to navigate. 

His latest initiative, the Great Spine of Africa series of expeditions, began in mid-2022 and builds upon this first NGOWP expedition, to develop these expeditions along the continent’s main rivers with the goal of better understanding and protecting Africa’s crucial waterways.

Baseline river health

Aerial view of the sun setting over the thin and winding upper reaches of Lungwevungu River, Angola. © National Geographic/Jen Guyton

The first Great Spine of Africa expedition explored the remote Angolan highlands where the Lungwevungu River originates. Boyes and his team believe this tributary of the Zambezi could prove to be its source, an important factor when determining threats to the river.

The team paddled down the Lungwevungu River in traditional dugout canoes known as mekoro, loaded with scientific equipment. By collecting extensive records and data points, the team hope to create a comprehensive baseline of the river’s health and ecosystems.

The Lungwevungu expedition team traverse the river from its source in Angola to the border with Zambia. © National Geographic/Jen Guyton

Along their 900 km route, the researchers recorded human settlements and wildlife sightings. They gathered environmental DNA samples from the water and examined fish and aquatic invertebrates. The water itself was analysed through systematic measurements of the river’s structure, flow and water quality. This exhaustive research is beginning to yield exciting results.

The team employed continuous surveying and detailed monitoring, documenting the habitats with photography and drone footage every 10 km. This rigorous baseline ensures that the work can be repeated at regular intervals in the future. Measuring change over time will be essential for the researchers to enact policy change with governments.

Also see: Rolex’s 25 years of Galápagos marine reserve protection

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