CRIA - Centro de Referência em Informação Ambiental
Maurice Leponce & Olivier Pascal
Guardaparques and Dipteryx (June 28, 2022) by Maurice LeponceOriginal Source: Life on Trees
Quantifying biodiversity in the Amazon-Andes hotspot
"How many organisms inhabit a tree?" — a question that seems simple at first glance, but is surprisingly difficult to answer.
Emergent Dipteryx (May 06, 2023) by Maurice LeponceOriginal Source: Life on Trees
Giant trees
Especially for the largest trees, which in the Amazon can develop crowns up to 50 meters in diameter and reach heights of 50 meters or more. Moving around in such trees is like navigating a 15-story building or climbing the Statue of Liberty.
Laser imaging
To avoid getting lost in such a tree — where you can’t even see the tips of the branches from within the crown — mapping it using a laser that captures a 3D image of the tree is extremely helpful.
Canopy access
Collecting samples would be impossible without the help of specialized climbers, who assist researchers in accessing areas along the trunk and retrieve samples from the most perilous spots, such as the upper canopy or the ends of branches.
Patch of mosses (October 15, 2023) by Maurice LeponceOriginal Source: Life on Trees
Mosses
At the base of the climb, one can observe mosses clustered on the more humid side of the trunk, and lichens on the drier side. Mosses are non-vascular plants, and on a surface no larger than a cigarette pack, a dozen or more species can be found — whether on branches or leaves.
Lichens on a tree leaf (July 10, 2021) by Maurice LeponceOriginal Source: Life on Trees
Lichens, fungi with a photosynthetic partner
The same goes for lichens, which are a symbiotic association between a fungus and an alga, with the alga providing energy through photosynthesis.
Microfungi in a tree leaf (September 08, 2022) by Maurice LeponceOriginal Source: Life on Trees
Fungi
Large fungi are rare in trees, appearing mainly on dead wood. However, microscopic fungi inhabit the living wood and leaves. Very little is known about their way of life, yet up to a hundred species may be found within a single tree.
Orchid (February 11, 2024) by Maurice LeponceOriginal Source: Life on Trees
Epiphytic plants
Reaching the semi-horizontal branches, one finds a wide variety of so-called epiphyte plants, which grow on other plants — in this case, the tree. In South America, there is a particularly great variety of orchids, sometimes over 100 species in a single tree, often hard to spot due to their tiny flowers.
Tank bromeliad (May 10, 2023) by Maurice LeponceOriginal Source: Life on Trees
Water-tank bromeliads
Bromeliads, plants from the pineapple family, are also abundant. With their rosette-shaped leaves, they act as natural reservoirs, collecting and holding rainwater.
Protists, organisms that aren't plants, animals or fungi
In these mini-aquariums, tiny life thrives — some single-celled, like ciliates that swim with tiny hairs and feed on bacteria; others multicellular, like filamentous green algae that use sunlight to produce food and form the base of the aquatic food chain.
Bromeliad and animals (April 22, 2022) by Maurice LeponceOriginal Source: Life on Trees
Animals
These small reservoirs also host invertebrates, like dragonfly larvae and other aquatic insects. Some frogs use them for part of their life cycle. Birds also visit to drink or bathe, as shown by DNA traces left behind in the water.
Ficus and Sloanea (September 18, 2023) by Maurice LeponceOriginal Source: Life on Trees
Atlantic forest
Near Rio de Janeiro, another large tree is under close observation (Araçá project). It is located in one of the last remnants of the Atlantic Forest, which has lost nearly 92% of its area. If the forest disappears, the entire water supply for the large city will be threatened.
Deforestation (June 16, 2014) by Maurice LeponceOriginal Source: Life on Trees
Trees as ecosystems
We found more than a thousand species living on a single Amazonian tree, with even more yet to be revealed. Cutting down a tree means losing this vast, interconnected community vital for the forest’s resilience to climate change and other disturbances.
Supporting local communities (March 07, 2025) by Angela Celis TarazonaOriginal Source: Life on Trees
Supporting local communities is key for forest protection
To safeguard forests, local communities must be supported and benefit from biodiversity research. The Life on Trees project engaged park rangers and schools in Peru, and worked with the Humboldt Institute’s Social Appropriation team in Colombia.
Authors: Maurice Leponce (Royal Belgian Institute of Natural Sciences) & Olivier Pascal (FDD Biotope)
Editing: Fernando B. Matos (CRIA)
Review: Fernando B. Matos (CRIA)
References: Leponce et al. (2024) Frontiers in Forests and Global Change, Volume 7 (https://doi.org/10.3389/ffgc.2024.1425492); https://www.youtube.com/@LifeOnTrees-research
Acknowledgments: The “Life on Trees” (LOT) research programme, is a joint initiative of the Royal Belgian Institute of Natural Sciences and the Fonds de Dotation Biotope pour la Nature (FDD Biotope) in partnership with the Museo Historia Natural de la Universidad Nacional Mayor de San Marcos, Peru, the Servicio Nacional de Áreas Naturales Protegidas por el Estado (SERNANP, Peru), the Instituto de Investigación de Recursos Biológicos Alexander von Humboldt (Colombia). We are deeply grateful to the many LOT participants—scientists, park rangers, field assistants, and volunteers (see www.lifeontrees.org).
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