Adventure Botany: Paramotorists Traverse Remote Peruvian Desert to Save Endangered Plants

25 September 2024 2576
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September 24, 2024

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by Royal Botanic Gardens, Kew

In an innovative paper published today in the journal Plants, People, Planet, scientists from the Royal Botanic Gardens, Kew, Huarango Nature and paramotorists from Forest Air, highlight the exciting potential of paramotoring as a means of aiding research and conservation efforts in some of the most fragile and challenging parts of the globe.

The study's authors demonstrate how paramotoring is a faster and more environmentally friendly alternative to 4x4 off-road vehicles (including motorbikes); able to reach outlying areas, reducing CO2 emissions of up two-thirds, and most importantly with negligible damage to the fragile desert fog habitats and unexplored biological crusts.

The paper outlines the results of a challenging expedition to the coastal fog deserts of Peru, where Kew scientists, with the support of a National Geographic explorers grant, teamed up with professional paramotorists to explore and collect plants in areas where humans have yet to collect and survey plants.

Faced with the dual crises of climate change and biodiversity loss, scientists are expanding the arsenal of tools at their disposal in a race against time to describe and protect plants and habitats threatened with extinction. Key to success in this race is the ability to conduct fieldwork to collect plant specimens, study populations, and delineate the geographic distribution of plants and their ecosystems.

But what happens when scientists are unable to reach certain locations, or the time-saving benefits offered by off-road vehicles are overshadowed by the huge impact they can have on the environment?

This was the dilemma during a 2022 expedition to Peru's fog oasis desert led by a team from RBG Kew in partnership with the Peruvian conservation group Huarango Nature. Fog oases are a rare and unique island-like ecosystem in South America that stretch some 3,000 km along the Pacific coast of Peru and Chile. With virtually no rainfall to speak of, the desert's many endemic species of plants have adapted to the harsh conditions by relying on moisture from the fog sweeping in from the Pacific.

Known as 'lomas' in Peru or 'oasis de niebla' in Chile, these ecosystems are home to over 1,700 plant species and are extremely vulnerable to climate change and human activities. Kew scientists have been studying them for almost a century and yet they remain incredibly hard to map and, in some areas, only flourish once every decade.

Dr. Carolina Tovar, Research Leader—Spatial Analysis and Data Science, at RBG Kew, says, 'The lomas are incredibly unique and beautiful ecosystems that are sustained by seasonal fogs rolling in from the Pacific. Each year, they witness a spectacular transformation when the bare desert landscape flowers during the lomas season. But despite being centers of plant endemism, hosting crop wild relatives and medicinal plants, there is still so much we don't know about their ecology, which is fundamental for developing conservation efforts.'

Accessing the desert fog lomas can be highly problematic, as off-road vehicles cause surface damage, destroying fragile ephemeral habitats, increasing erosion, and leaving tire marks that will linger for potentially hundreds of years. Furthermore, reaching unexplored habitats leaves new tire tracks that are invariably followed by off-road thrill seekers or the lost SUV enthusiast, which then destroy the destination habitat.

To study the feasibility of working around this problem, Kew's scientists partnered with the French nonprofit Forest Air and the Brazilian paramotor team Aita (Escola Nacional De Paramotor). The paramotorist team consisted of three pilots and one ground crew engineer. The paramotorists were trained by Kew and Huarango Nature scientists on how to identify target plant species and how to collect, georeference and preserve them for taxonomic study.

Márcio Aita Júnior, Director AITA Escola Nacional de Paramotor, says, 'This was a unique experience that will never be forgotten, helping me understand a little about botany and lomas and their role in society, also it helped me to understand plant studies and their importance to the discovery of new medicines and food for the next generation. I was absorbed by the information, drawing me into local culture, and with certainty this experience changed my perception of the world and the importance of preserving nature as a whole.'

The expedition expenditure could only extend to seven intensive days in November 2022, with the scientists covering approximately 300 miles by land and air. The team surveyed huge areas of over 15,000 ha, but with limited time focused their efforts on the locally named 'Tillandsiales' habitat, which is dominated by Tillandsia species (in the Bromeliaceae plant family, which includes other 'air plants' and pineapples).

These species cover large swathes of Peru's hyperarid desert, and they are poorly researched and mapped as their unique leaf surfaces act like an invisibility cloak; diffracting light in a way that makes them hard to track using satellite sensors.

Mike Campbell-Jones, Forest Air president and co-founder, says, 'It was simply wonderful to bring the scientists and the pilots together, to put theory into practice and finally (after many FA COVID cancellations), have the chance to prove the combination for what it truly is—a valuable new tool for science and the many important tasks ahead.

'As a pilot, with many years' experience, flying and directing competitions around the world, I must say, I have never been so motivated on a mission task or learned as much about our planet as seeing one of its most fragile ecosystems through the eyes of a scientist. The flights we made on this expedition as the Forest Air team were the most memorable of my long and colorful life.'

The scientists were keen to see how paramotoring would compare to the ground team's work across a typical range of plant survey activities. Their objectives included: measuring the respective damage to desert surface ecology, reconnaissance flights to identify plant populations, monitoring for threats and clandestine human activity, surveying the landscape through aerial photography, as well as collecting plant specimens.

In the latter case, the paramotorists flew two missions at distances of up to 28 km, with the longest mission lasting just over two hours. On average, they completed their missions 4.5 times faster than the ground crews and for longer missions it was estimated it would be up to 10 times faster. Moreover, paramotorists were able to survey huge areas, targeting and imaging specific regions not distinguished by drones or UAVs.

Another important measure of success was looking at the greenhouse emissions of both the paramotorists and the ground teams. On shorter ventures into the desert, the CO2 emissions were roughly equivalent, but in the longer missions, the ground team produced three times more CO2 than the flying teams.

The paramotorists excelled in terms of their negligible impact on the fragile desert surface, causing minimal damage by leaving only a few footprints on landing and take-off. Conversely, the authors demonstrate that 4x4 vehicles damage an area equivalent to a football pitch for every five kilometers driven and in fragile conditions for every one kilometer driven. The paper highlights that track compounded off-road vehicle tire damage is far-reaching, even able to cause dust storms, damage archaeology and destroy ecosystems and biodiversity.

Dr. Justin Moat, senior research leader at RBG Kew and National Geographic Explorer, says, 'This study was a unique and exciting experience for everyone involved; for many years we have attempted to reach some suspected large areas of endemic vegetation in the Peruvian desert but found it very difficult to access without major damage to the desert surface using 4x4s, due to the harsh desert conditions and soft shifting sands.

'To overcome this challenge, we would have had to mount a major expedition, probably lasting weeks. Meanwhile, the paramotorists had flown great distances and returned with plant specimens and aerial photographic evidence of the vegetation within the space of two hours.'

Now, the study's authors are hopeful their findings will help other scientists conduct fieldwork in environments that are too remote to access by normal means or otherwise extremely sensitive to human activities such as off-road driving. They also believe this novel approach to fieldwork will help inspire an interest in botanical science among a new generation.

Oliver Whaley, Honorary Research Associate at RBG Kew, says, 'Plants are often ignored or outright taken for granted when we think about wildlife conservation, which is unfortunate as every single aspect of our lives depends on them. The planet is in serious trouble and with botanical sciences facing a precipitous decline just when we need it most, we have to think of new ways in which we can inspire people to take action.

'Our study shows that through an exciting and multidisciplinary collaboration, today's extreme sports enthusiasts can work alongside scientists to help monitor ecosystems, and with some basic training, gather crucial environmental data, protect species and aid conservation efforts. By engaging local and international adventurers in our scientific work, we're not only empowering them to take nature-positive action, but helping to safeguard our amazing planet—our Pachamama!'

Finally, 20 years of hard work in Peru has paid off, as earlier this year through the joint efforts of RBG Kew, and Huarango Nature (with support of The Darwin Initiative, Sainsbury's, Kew staff, legacy donors and others) a large area of lomas (surveyed by the work above) was declared as a reserve for conservation and known as the Lomas y Tillandsiales de Amara y Ullujaya.

Conservation of this globally unique fog oasis site, followed multiple rounds of intense negotiations and research with Peruvian authorities on both regional and national levels, and was protected as a concession for conservation by the Peruvian Government over an area of 15,689-acre (6,349 ha) to ensure preservation of its endemic biodiversity on the coast of Peru.

The reserve, which is home to many rare and threatened native species, has been mostly untouched by human activity, but recent years have seen the encroachment of urban development, off-road driving, windfarms and mining. It is now protected by an official Concession for Conservation. Even so, only 4% of the lomas across Peru and Chile are presently under protection.

More information: Plants, People, Planet (2024). doi.org/10.1002/ppp3.10571

Journal information: Plants, People, Planet

Provided by Royal Botanic Gardens, Kew


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