In the vast landscapes of Londolozi, amidst the sprawling grasslands and towering acacias, there is a hidden web of communication and support among the trees. Tamboti trees (spirostachys africana), with their dark bark and vibrant green foliage, play a significant role in this intricate system.
The Three Rivers Female’s cub pauses on a fallen tamboti tree, while its mother ascended the tree ahead of it to feed on the carcass above.
They demonstrate the remarkable phenomenon of the mother tree concept, relying on mycelial networks to communicate and share nutrients with their fellow trees. Let us delve into this fascinating symbiotic relationship and explore the importance of mycelial networks for tamboti trees found here at Londolozi.
In typical stealthy fashion, the Three Rivers female makes her way through a thicket.
The Mother Tree Concept
The mother tree concept revolves around the idea that certain trees act as central hubs, connecting with others through underground fungal networks. Tamboti trees serve as these influential mother trees, employing mycelial networks to establish communication channels and share vital resources. These mycelial networks are formed by mycorrhizal fungi, which develop a mutually beneficial relationship with the roots of trees, allowing them to exchange nutrients, water, and even information.
Mycelial Networks: The Silent Messengers
Tamboti trees rely on the intricate network of mycelium—the thread-like structures of the fungal network—to communicate and share resources with neighbouring trees. Through the mycelial network, tamboti trees can transmit chemical signals, such as warning messages in response to insect attacks or drought conditions, to nearby trees. These signals prompt neighbouring trees to activate defence mechanisms, making them less vulnerable to threats.
structure of the mushroom mycelium of a white champignon, agaricus bisporus, in soil.
Nutrient Exchange and Cooperation
The mycelial networks play a crucial role in nutrient exchange among tamboti trees. Through these fungal highways, trees can transfer surplus nutrients to weaker or younger individuals, ensuring their collective survival and growth. The mother trees act as reservoirs of nutrients, redistributing them to areas where they are most needed. This cooperative behaviour among tamboti trees fosters a sense of community and enhances the overall resilience of the ecosystem.
The structure of the mushroom mycelium of the terrestrial soil.
The Remarkable Adaptability of Tamboti Trees
The reliance of tamboti trees on mycelial networks for communication and resource sharing highlights their remarkable adaptability to the challenging African environment. These trees grow in thickets, forming a dense canopy that conserves moisture and reduces evaporation, thereby promoting survival in hot and arid conditions. The mycelial networks enable them to adapt and respond to threats swiftly, ensuring the well-being of the entire community of tamboti trees.
The Three Rivers Young Male descends a Tamboti tree in the afternoon golden haze
Further Examples in Nature
Tamboti trees are not the only species that utilize mycelial networks for communication and cooperation. Research has revealed similar phenomena in other tree species worldwide. For instance, the renowned Douglas fir trees in North America have demonstrated the ability to communicate with their kin through mycorrhizal fungi, alerting them to potential dangers and sharing vital resources.
The Science Behind the Mother Tree Concept
While the existence of the mother tree concept has been met with some scepticism, there is growing scientific evidence supporting its validity. Studies have shown that removing specific trees from a forest ecosystem adversely affects the health and growth of neighbouring trees, indicating their dependence on shared resources. Researchers have also tracked the movement of nutrients through mycelial networks, providing tangible evidence of the interconnections between trees.
In the intricate tapestry of the African savanna, tamboti trees stand tall as pillars of the mother tree concept. Through mycelial networks, these trees communicate, cooperate, and share vital resources, enriching the ecosystem they inhabit. As our understanding of the mother tree concept deepens, we gain insights into the hidden mechanisms that sustain life in our natural world. The symbiotic relationship between tamboti trees and mycelial networks is a testament to the interconnectedness of all living beings, highlighting the importance of preserving and respecting the delicate balance of our natural environments.
Love this one, Barry. Fascinating
Glad you enjoyed it, Susan!
Superb article on a hot topic in the most prestigious international research magazine, written with passion, all nature then depends on this relationship also in the Amazon it is like a worldwide thread on earth. Life in water also depends on microorganisms and the relationship between green algae and reef. Absolutely mesmerising pictures, a masterwork, thank you!
Hi Francesca, we certainly are learning more and more about the relationships within the botanical world. The Amazon is an incredible place that I hope you’ve had the opportunity to visit…few, if any, places like it!
Hi Barry, thanks for this vital information about the Tamboti trees. It is indeed a very beautiful tree, now that you have shared this important information about the mycelial networks of the mother tree, we can understand the growth and interconnections of all living things.
Hi Valmai, they really are beautiful and fascinating trees.
This was fascinating to read Barry as it’s a subject that has not been highlighted in traditional media sources. Reading about the symbiotic relationship among the Tamboti trees made me think about forests in general, and why some species will suffer from a disease yet others are unaffected. It makes me wonder if there is a mycelial network among some trees but not all.
More to think about, research……
Hi Denise, I think diseases are part of the natural world and a way for mother nature to keep things in balance far beyond our ability to understand. But as more and more research is done and we learn more we also learn how much we still don’t know. That, in my opinion, is the real beauty in nature.
Barry, thank you for the information on the Tamboti tree. Like many things in nature, I believe all trees talk with or communicate with each other and sometimes even cross species.
Hi William, there certainly is communication between different species and we are learning more about it each day.
Amazing how trees interact and communicate with each other. Splendid article Barry!
Hi Christa, glad you enjoyed it.
Thanks for reminding us about the fascinating life of trees in such a well researched blog. We first heard of this from Jess Shillaw whilst at Londolozi – amazing to think of the support and inter-connection of trees – it was mind blowing!
Hi Jennifer, the connection within the trees really is something to marvel at. I’m happy to hear that Jess shared this with you too.
Well done, Barry!
As an aside, I hope to come back during the month of September to witness the “jumpers”.
source: https://www.krugerpark.co.za/africa_tamboti.html
“Tamboti flowers in September and the pea sized seeds develop in three-lobed capsules which fall, when mature in November, to the leaf litter below. If you stand by a copse of Tamboti trees on a hot November day you may hear a distinctive rustling in the litter and if you look more closely you will see some flicking in the litter due to some seeds jumping intermittently.”