https://phys.org/news/2023-09-leonardo-da-vinci-trees.html

Phys.org
Topics

  * Week's top
  * Latest news
  * Unread news
  * Subscribe

[                    ] 
 

Science X Account

[                    ]
[                    ]
[*] Remember me
Sign In

Click here to sign in with or

Forget Password?

Not a member? Sign up

Learn more

  * Nanotechnology
  * Physics
  * Earth
  * Astronomy & Space
  * Chemistry
  * Biology
  * Other Sciences
  * Medical Xpress Medicine
  * Tech Xplore Technology

[INS::INS]

  * 
  * share this!

  *  

    175

  *  

    Twit

  *  

    Share

  *  

    Email

 1. Home
 2. Biology
 3. Plants & Animals

 1. Home
 2. Biology
 3. Molecular & Computational biology

  *  
  *  
  *  

---------------------------------------------------------------------
 

September 19, 2023

Editors' notes

This article has been reviewed according to Science X's editorial
process and policies. Editors have highlighted the following
attributes while ensuring the content's credibility:

fact-checked

peer-reviewed publication

trusted source

proofread

New study disproves Leonardo da Vinci's 'rule of trees'

by Bangor University

New theory disproves Leonardo da Vinci's 'rule of trees' Models of
summated branching network volumes, illustrating how total network
volume (outer shape in black) and total conductive volume (inner
shape in red) change with varying tapering coefficients (t[R], t[r]
and t[l]), and coalescence rates (m[k] and p[k]). Four network models
are presented, showing the differences between (A) West et al, (B)
Savage et al), (C) Rosell and Olson and (D) our gMST relationships of
plant morphology, reaching from the plant base to the tip of the
leaves. Values encircled in green are explicitly given as premises by
the authors, while other values are inferred. Credit: Proceedings of
the National Academy of Sciences (2023). DOI: 10.1073/pnas.2215047120

A "rule of trees" developed by Leonardo da Vinci to describe how to
draw trees has been largely adopted by science when modeling trees
and how they function.

Now, scientists at Bangor University in the U.K. and the Swedish
University of Agricultural Sciences (SLU) have discovered that this
rule contradicts those that regulate the internal structures of trees
.

Da Vinci's interest in drawing led him to look at size ratios of
different objects, including trees, so that he could create more
accurate representations of them. To correctly represent trees, he
perceived a so-called "rule of trees" which states that "all the
branches of a tree at every stage of its height are equal in
thickness to the trunk when put together."

It had been thought that Leonardo's "rule of trees" could also be
applied to the vascular channels which transport water through a
tree, with the individual channel sizes decreasing at the same ratio,
as branches become narrower, while still adding up to the trunk's
volume. This rule had been accepted as part of metabolic scaling
theory.

But scientists from Bangor University and SLU have shown that this
model isn't exactly correct when applied to the internal vascular
structures of trees. The study has been published in the Proceedings
of the National Academy of Sciences.

For water and nutrients to move efficiently through the tree, from
root to leaf-tip, the vascular system has to maintain hydraulic
resistance.

Ruben Valbuena and Stuart Sopp of Bangor University and SLU have
calculated that for hydraulic resistance to work, there comes a point
where the rule of trees can no longer hold true.

In order to efficiently transport liquids from roots to leaf-tips, a
tree's vascular channels need to maintain a certain dimension to
maintain hydraulic resistance. Therefore, the plant has to reduce in
its volume as it reaches its extremities, causing a higher ratio of
capillary to the surrounding plant mass.

As Dr. Ruben Valbuena (honorary professor at Bangor University and
now professor at SLU) explains, "While a great 'tip' for artists,
which is what da Vinci intended, Leonardo's rule of trees does not
hold up at the micro level."

"We believe our calculations further refine metabolic scaling theory
and improve understanding the plant system as a whole. Our
re-calculations may also explain why large trees are more susceptible
to drought, and may also be at a greater vulnerability to climate
change."

Co-author Stuart Sopp, currently studying for his Ph.D. iN
environmental science at Bangor University said, "One of our aims was
to produce a ratio which could be used to estimate tree biomass and
carbon in forests. This new ratio will assist in calculating global
carbon capture by trees."

More information: S. B. D. Sopp et al, Vascular optimality dictates
plant morphology away from Leonardo's rule, Proceedings of the
National Academy of Sciences (2023). DOI: 10.1073/pnas.2215047120

Journal information: Proceedings of the National Academy of Sciences
 

Provided by Bangor University  

Citation: New study disproves Leonardo da Vinci's 'rule of trees'
(2023, September 19) retrieved 20 September 2023 from https://
phys.org/news/2023-09-leonardo-da-vinci-trees.html
This document is subject to copyright. Apart from any fair dealing
for the purpose of private study or research, no part may be
reproduced without the written permission. The content is provided
for information purposes only.
---------------------------------------------------------------------

Explore further

Research finds taller trees are better able to cope with drought
---------------------------------------------------------------------
179 shares

  *  

    Facebook

  *  

    Twitter

  *  

    Email

 

Feedback to editors

[INS::INS]

  * Featured
  * Last Comments
  * Popular

Some stick insects that normally reproduce through parthenogenesis
found to mate on occasion

3 hours ago

0

Experiments on fossilized insects help reveal their true colors

4 hours ago

0

Common statistical principles of scaling found in nature now seen in
human cells

7 hours ago

0

Astronomers investigate spectral evolution of XTE J1810-189

9 hours ago

0

Using a gyroscope to measure variations in Earth's rotation

Sep 19, 2023

1

---------------------------------------------------------------------
[gif]

Scientists unravel the chemical mechanism behind silica-coated
nanodiamonds

1 hour ago

[gif]

NASA team simulates a glimpse of our galaxy in gravitational waves

1 hour ago

[gif]

Exploring the mind-mitochondria connection

1 hour ago

[gif]

New research findings: Understanding the sex life of coral gives hope
of clawing it back from the path to extinction

2 hours ago

[gif]

Researchers advance topological superconductors for quantum computing

2 hours ago

[gif]

Socially vulnerable populations are disproportionately exposed to
wildfires in the West, study finds

2 hours ago

[gif]

Researchers make sand that flows uphill

2 hours ago

[gif]

Some stick insects that normally reproduce through parthenogenesis
found to mate on occasion

3 hours ago

[gif]

New self-cleaning membranes developed by researchers dramatically
improve efficiency of desalination technologies

3 hours ago

[gif]

Researchers develop biodegradable optical fiber to measure or
modulate electrical current in the body

3 hours ago

[INS::INS]

  * Related Stories

    [gif]

    Research finds taller trees are better able to cope with drought

    Jul 26, 2023

    [gif]

    Hope for the ash tree: Trees resistant to ash dieback are also
    resistant to beetles

    Jul 10, 2023

    [gif]

    Lianas found to have large vessel dimorphism

    May 10, 2023

    [gif]

    Stable sugar/starch ratio shown to exist in mountain trees across
    the globe

    Apr 3, 2023

    [gif]

    Tropical trees maintain high carbon accumulation rates into old
    age

    Aug 16, 2017

    [gif]

    Estimating forest desiccation to better predict fire danger

    Dec 6, 2022

  * Recommended for you

    [gif]

    Exploring the mind-mitochondria connection

    1 hour ago

    [gif]

    New research findings: Understanding the sex life of coral gives
    hope of clawing it back from the path to extinction

    2 hours ago

    [gif]

    Some stick insects that normally reproduce through
    parthenogenesis found to mate on occasion

    3 hours ago

    [gif]

    Experiments on fossilized insects help reveal their true colors

    4 hours ago

    [gif]

    Spider silk is spun by silkworms for the first time, offering a
    green alternative to synthetic fibers

    8 hours ago

    [gif]

    Common statistical principles of scaling found in nature now seen
    in human cells

    7 hours ago

Load comments (2)

Let us know if there is a problem with our content

Use this form if you have come across a typo, inaccuracy or would
like to send an edit request for the content on this page. For
general inquiries, please use our contact form. For general feedback,
use the public comments section below (please adhere to guidelines).

Please select the most appropriate category to facilitate processing
of your request

[-- please select one --      ]
                            [                    ]
                            [                    ]
                            [                    ]
                            [                    ]
                            [                    ]
Your message to the editors [                    ]
Your email (only if you want to be contacted back)
[                    ]
Send Feedback

Thank you for taking time to provide your feedback to the editors.

Your feedback is important to us. However, we do not guarantee
individual replies due to the high volume of messages.

E-mail the story

New study disproves Leonardo da Vinci's 'rule of trees'

Your friend's email [                    ]
Your email [                    ]
[ ] I would like to subscribe to Science X Newsletter. Learn more
Your name [                    ]

Note

Your email address is used only to let the recipient know who sent
the email. Neither your address nor the recipient's address will be
used for any other purpose. The information you enter will appear in
your e-mail message and is not retained by Phys.org in any form.

             [                    ]
             [                    ]
             [                    ]
             [                    ]
             [                    ]
             [                    ]
             [                    ]
Your message [                    ]
Send
Newsletter sign up

Get weekly and/or daily updates delivered to your inbox. You can
unsubscribe at any time and we'll never share your details to third
parties.

[                    ]
Subscribe

More information Privacy policy

Donate and enjoy an ad-free experience

We keep our content available to everyone. Consider supporting
Science X's mission by getting a premium account.

Remove ads
Maybe later
Medical Xpress

Medical Xpress

Medical research advances and health news

Tech Xplore

Tech Xplore

The latest engineering, electronics and technology advances

Science X

Science X

The most comprehensive sci-tech news coverage on the web

Newsletters

[                    ]
Subscribe
Science X Daily and the Weekly Email Newsletter are free features
that allow you to receive your favorite sci-tech news updates in your
email inbox
Follow us

  *  
  *  
  *  
  *  

  * Top
  * Home
  * Search
  * Mobile version

  * Help
  * FAQ
  * About
  * Contact

  * Science X Account
  * Premium Account
  * Archive
  * News wire

  * Android app
  * iOS app
  * RSS feeds
  * Push notification

(c) Phys.org 2003 - 2023 powered by Science X Network
Privacy policy Terms of use

Your Privacy

This site uses cookies to assist with navigation, analyse your use of
our services, collect data for ads personalisation and provide
content from third parties. By using our site, you acknowledge that
you have read and understand our Privacy Policy and Terms of Use.

Ok Cookie options

E-mail newsletter

[                    ]
Subscribe
Follow us

  *  
  *  
  *  
  *  

It appears that you are currently using Ad Blocking software. What
are the consequences? x
Quantcast