Suzanne Simard

Last updated

Suzanne W. Simard
Suzanne Simard 2.jpg
Simard in 2018
Alma mater Oregon State University
AwardsSigurd Olson Nature Writing Award (2021) [1]
George Lawson Medal (2022) [2]
Scientific career
Fields Forest ecology, mycorrhizal networks
Institutions University of British Columbia
Thesis Interspecific Carbon Transfer in Ectomycorrhizal Tree Species Mixtures  (1995)
Doctoral advisor David A. Perry

Suzanne Simard (born 1960) [3] is a Canadian scientist and Professor in the Department of Forest and Conservation Sciences at the University of British Columbia. [4] After growing up in the Monashee Mountains, British Columbia, [3] [5] [6] she received her PhD in Forest Sciences at Oregon State University. [4] Prior to teaching at the University of British Columbia, Simard worked as a research scientist at the British Columbia Ministry of Forests. [4]

Contents

Simard is best known for the research she conducted on the underground networks of forests characterized by fungi and roots. [4] She studies how these fungi and roots facilitate communication and interaction between trees and plants of an ecosystem. [4] Within the communication between trees and plants is the exchange of carbon, water, nutrients and defense signals between trees. [4] Simard is also a leader of TerreWEB, an initiative set to train graduate students and post-doctoral fellows in global change science and its communication. [7] [4]

She used rare carbon isotopes as tracers in both field and greenhouse experiments to measure the flow and sharing of carbon between individual trees and species, and discovered, for instance, that birch and Douglas fir share carbon. Birch trees receive extra carbon from Douglas firs when the birch trees lose their leaves, and birch trees supply carbon to Douglas fir trees that are in the shade.

Mother trees

Simard identified something called a hub tree, or "mother tree". Mother trees are the largest trees in forests that act as central hubs for vast below-ground mycorrhizal networks. A mother tree supports seedlings by infecting them with fungi and supplying them with the nutrients they need to grow. [8]

She discovered that Douglas firs provide carbon to baby firs. She found that there was more carbon sent to baby firs that came from that specific mother tree, than random baby firs not related to that specific fir tree. It was also found that the mother trees change their root structure to make room for baby trees. [9]

Her book Finding the Mother Tree asserts that forest ecologies are interdependent with fungal mycelium. She asserts that trees (and other plants) exchange sugars through their respective root systems and through interconnected fungal mycelial structures to share (and at times trade) micronutrients. [10] [11] This is significant in terms of the way existing woods and forests are managed and new plantations established. [12]

Interspecies cooperation

Simard found that "fir trees were using the fungal web to trade nutrients with paper-bark birch trees over the course of the season". [13] For example, tree species can loan one another sugars as deficits occur within seasonal changes. This is a particularly beneficial exchange between deciduous and coniferous trees as their energy deficits occur during different periods. The benefit "of this cooperative underground economy appears to be better over-all health, more total photosynthesis, and greater resilience in the face of disturbance". [13] [14]

Science communication

Suzanne Simard is an advocate of science communication. At the University of British Columbia she initiated with colleagues Dr. Julia Dordel and Dr. Maja Krzic the Communication of Science Program TerreWEB, [15] which has been training graduate students to become better communicators of their research since 2011. Simard has appeared in videos intended for general audiences, including three TED talks, [16] [17] the short documentary Do trees communicate?, [18] [19] and the longer documentary films Intelligent Trees [20] (where she appears alongside forester and author Peter Wohlleben) and Fantastic Fungi . [21] New Scientist magazine interviewed Simard in 2021. [6] Suzanne Simard has published a book where she reviews her discoveries about the life of trees and forests along with autobiographical notes. [12]

Simard discussed her work and her book Finding the Mother Tree on BBC Radio 4's Woman's Hour in March 2022. [22]

Simard's life and work served as the primary inspiration for Patricia Westerford, a central character in Richard Powers' 2018 Pulitzer Prize winning novel The Overstory , in which Westerford pioneers the controversial idea that trees can communicate with each other, and is ridiculed by fellow scientists before eventually being vindicated. [23] [24]

Simard's work was referenced in Season 2, Episode 11 of the Apple TV+ series Ted Lasso when Coach Beard says: "You know, we used to believe that trees competed with each other for light. Suzanne Simard's field work challenged that perception, and we now realize that the forest is a socialist community. Trees work in harmony to share the sunlight."

In 2022 Simard appeared as a panelist in Canada Reads , advocating for Clayton Thomas-Müller's book Life in the City of Dirty Water. [25]

Published work

Finding the Mother Tree: Uncovering the Wisdom and Intelligence of the Forest, Penguin, ISBN   978-0141990286, (2022)

See also

Related Research Articles

<span class="mw-page-title-main">Taiga</span> Biome characterized by coniferous forests

Taiga, also known as boreal forest or snow forest, is a biome characterized by coniferous forests consisting mostly of pines, spruces, and larches. The taiga or boreal forest is the world's largest land biome. In North America, it covers most of inland Canada, Alaska, and parts of the northern contiguous United States. In Eurasia, it covers most of Sweden, Finland, much of Russia from Karelia in the west to the Pacific Ocean, much of Norway and Estonia, some of the Scottish Highlands, some lowland/coastal areas of Iceland, and areas of northern Kazakhstan, northern Mongolia, and northern Japan.

<span class="mw-page-title-main">Mycorrhiza</span> Fungus-plant symbiotic association

A mycorrhiza is a symbiotic association between a fungus and a plant. The term mycorrhiza refers to the role of the fungus in the plant's rhizosphere, its root system. Mycorrhizae play important roles in plant nutrition, soil biology, and soil chemistry.

<span class="mw-page-title-main">Endophyte</span> Endosymbiotic bacterium or fungus

An endophyte is an endosymbiont, often a bacterium or fungus, that lives within a plant for at least part of its life cycle without causing apparent disease. Endophytes are ubiquitous and have been found in all species of plants studied to date; however, most of the endophyte/plant relationships are not well understood. Some endophytes may enhance host growth and nutrient acquisition and improve the plant's ability to tolerate abiotic stresses, such as drought, and decrease biotic stresses by enhancing plant resistance to insects, pathogens and herbivores. Although endophytic bacteria and fungi are frequently studied, endophytic archaea are increasingly being considered for their role in plant growth promotion as part of the core microbiome of a plant.

<span class="mw-page-title-main">Coarse woody debris</span>

Coarse woody debris (CWD) or coarse woody habitat (CWH) refers to fallen dead trees and the remains of large branches on the ground in forests and in rivers or wetlands. A dead standing tree – known as a snag – provides many of the same functions as coarse woody debris. The minimum size required for woody debris to be defined as "coarse" varies by author, ranging from 2.5–20 cm (1–8 in) in diameter.

<span class="mw-page-title-main">Old-growth forest</span> Forest that has developed over a long period of time without disturbance

An old-growth forest is a forest that has developed over a long period of time without disturbance. Due to this, old-growth forests exhibit unique ecological features. The Food and Agriculture Organization of the United Nations defines primary forests as naturally regenerated forests of native tree species where there are no clearly visible indications of human activity and the ecological processes are not significantly disturbed. One-third of the world's forests are primary forests. Old-growth features include diverse tree-related structures that provide diverse wildlife habitats that increases the biodiversity of the forested ecosystem. Virgin or first-growth forests are old-growth forests that have never been logged. The concept of diverse tree structure includes multi-layered canopies and canopy gaps, greatly varying tree heights and diameters, and diverse tree species and classes and sizes of woody debris.

<span class="mw-page-title-main">Bark beetle</span> Subfamily of beetles

A bark beetle is the common name for the subfamily of beetles Scolytinae. Previously, this was considered a distinct family (Scolytidae), but is now understood to be a specialized clade of the "true weevil" family (Curculionidae). Although the term "bark beetle" refers to the fact that many species feed in the inner bark (phloem) layer of trees, the subfamily also has many species with other lifestyles, including some that bore into wood, feed in fruit and seeds, or tunnel into herbaceous plants. Well-known species are members of the type genus Scolytus, namely the European elm bark beetle S. multistriatus and the large elm bark beetle S. scolytus, which like the American elm bark beetle Hylurgopinus rufipes, transmit Dutch elm disease fungi (Ophiostoma). The mountain pine beetle Dendroctonus ponderosae, southern pine beetle Dendroctonus frontalis, and their near relatives are major pests of conifer forests in North America. A similarly aggressive species in Europe is the spruce ips Ips typographus. A tiny bark beetle, the coffee berry borer, Hypothenemus hampei is a major pest on coffee plantations around the world.

<i>Rhizopogon</i> Genus of fungi

Rhizopogon is a genus of ectomycorrhizal basidiomycetes in the family Rhizopogonaceae. Species form hypogeous sporocarps commonly referred to as "false truffles". The general morphological characters of Rhizopogon sporocarps are a simplex or duplex peridium surrounding a loculate gleba that lacks a columnella. Basidiospores are produced upon basidia that are borne within the fungal hymenium that coats the interior surface of gleba locules. The peridium is often adorned with thick mycelial cords, also known as rhizomorphs, that attach the sporocarp to the surrounding substrate. The scientific name Rhizopogon is Greek for 'root' (Rhiz-) 'beard' (-pogon) and this name was given in reference to the rhizomorphs found on sporocarps of many species.

<span class="mw-page-title-main">Wood-decay fungus</span> Any species of fungus that digests moist wood, causing it to rot

A wood-decay or xylophagous fungus is any species of fungus that digests moist wood, causing it to rot. Some species of wood-decay fungi attack dead wood, such as brown rot, and some, such as Armillaria, are parasitic and colonize living trees. Excessive moisture above the fibre saturation point in wood is required for fungal colonization and proliferation. In nature, this process causes the breakdown of complex molecules and leads to the return of nutrients to the soil. Wood-decay fungi consume wood in various ways; for example, some attack the carbohydrates in wood, and some others decay lignin. The rate of decay of wooden materials in various climates can be estimated by empirical models.

<span class="mw-page-title-main">Forest dieback</span> Stand of trees losing health and dying

Forest dieback is a condition in trees or woody plants in which peripheral parts are killed, either by pathogens, parasites or conditions like acid rain, drought, and more. These episodes can have disastrous consequences such as reduced resiliency of the ecosystem, disappearing important symbiotic relationships and thresholds. Some tipping points for major climate change forecast in the next century are directly related to forest diebacks.

<i>Corallorhiza mertensiana</i> Species of orchid

Corallorhiza mertensiana, or Pacific coralroot, is a coralroot orchid native to the shady conifer forests of northwestern North America. It also goes by the common names Western coralroot and Mertens' coralroot. Corallorhiza mertensiana was previously considered a subspecies of Corallorhiza maculata but was given species rank in 1997 by Freudenstein.

<span class="mw-page-title-main">Mycorrhizal network</span> Underground fungal networks that connect individual plants together

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<span class="mw-page-title-main">Ectomycorrhiza</span> Non-penetrative symbiotic association between a fungus and the roots of a vascular plant

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<span class="mw-page-title-main">Appalachian temperate rainforest</span> Temperate rainforest in the Appalachian Mountains

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<span class="mw-page-title-main">Ectomycorrhizal extramatrical mycelium</span>

Ectomycorrhizal extramatrical mycelium is the collection of filamentous fungal hyphae emanating from ectomycorrhizas. It may be composed of fine, hydrophilic hypha which branches frequently to explore and exploit the soil matrix or may aggregate to form rhizomorphs; highly differentiated, hydrophobic, enduring, transport structures.

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<span class="mw-page-title-main">Peter Wohlleben</span> German forester and author (born 1964)

Peter Wohlleben is a German forester and author who writes on ecological themes in popular language and has controversially argued for plant sentience. He is the author of the New York Times Bestseller The Hidden Life of Trees: What They Feel, How They Communicate, which was translated from German into English in 2016.

Plants are exposed to many stress factors such as disease, temperature changes, herbivory, injury and more. Therefore, in order to respond or be ready for any kind of physiological state, they need to develop some sort of system for their survival in the moment and/or for the future. Plant communication encompasses communication using volatile organic compounds, electrical signaling, and common mycorrhizal networks between plants and a host of other organisms such as soil microbes, other plants, animals, insects, and fungi. Plants communicate through a host of volatile organic compounds (VOCs) that can be separated into four broad categories, each the product of distinct chemical pathways: fatty acid derivatives, phenylpropanoids/benzenoids, amino acid derivatives, and terpenoids. Due to the physical/chemical constraints most VOCs are of low molecular mass, are hydrophobic, and have high vapor pressures. The responses of organisms to plant emitted VOCs varies from attracting the predator of a specific herbivore to reduce mechanical damage inflicted on the plant to the induction of chemical defenses of a neighboring plant before it is being attacked. In addition, the host of VOCs emitted varies from plant to plant, where for example, the Venus Fly Trap can emit VOCs to specifically target and attract starved prey. While these VOCs typically lead to increased resistance to herbivory in neighboring plants, there is no clear benefit to the emitting plant in helping nearby plants. As such, whether neighboring plants have evolved the capability to "eavesdrop" or whether there is an unknown tradeoff occurring is subject to much scientific debate. As related to the aspect of meaning-making, the field is also identified as phytosemiotics.

<i>The Overstory</i> 2018 novel by Richard Powers

The Overstory is a novel by Richard Powers published in 2018 by W. W. Norton & Company. It is Powers' twelfth novel. The book is about nine Americans whose unique life experiences with trees bring them together to address the destruction of forests. Powers was inspired to write the work while teaching at Stanford University, after he encountered giant redwood trees for the first time.

Lynne Boddy is a Professor of Microbial Ecology at Cardiff University. She works on the ecology of wood decomposition, including synecology and autecology. She won the 2018 Learned Society of Wales Frances Hoggan Medal.

<i>Finding the Mother Tree</i> 2021 book by Suzanne Simard

Finding the Mother Tree is a memoir by the Canadian forest ecologist Suzanne Simard. It has been reviewed in The New York Times, The Guardian, The Washington Post, The Wall Street Journal, among other publications.

References

  1. "2021 Sigurd Olson Nature Writing Awards Announced". April 4, 2022.
  2. "Past Recipients of the Lawson Medal". Canadian Botanical Association/L'Association Botanique du Canada.
  3. 1 2 Cori Vanchierim, 'An ecologist’s new book gets at the root of trees’ social lives,' Science News 28 June 2021
  4. 1 2 3 4 5 6 7 "Biography of Suzanne Simard for Appearances, Speaking Engagements". www.allamericanspeakers.com. Retrieved February 18, 2021.
  5. "The Wolf Tree and the World Wide Web". WIRED magazine. Retrieved December 28, 2022.
  6. 1 2 Hooper, Rowan (May 1, 2021). "The wisdom of the woods". New Scientist. 250 (3332): 39–43. doi:10.1016/S0262-4079(21)00747-8. ISSN   0262-4079. S2CID   236545643. Online title: Suzanne Simard interview: How I uncovered the hidden language of trees.
  7. "TerreWEB - UBC Wiki". wiki.ubc.ca. Retrieved February 18, 2021.
  8. "Prof. Suzanne Simard talks about "Mother Trees"". May 16, 2011.
  9. Simard, Suzanne W.; Perry, David A.; Jones, Melanie D.; Myrold, David D.; Durall, Daniel M.; Molina, Randy (August 1997). "Net transfer of carbon between ectomycorrhizal tree species in the field". Nature. 388 (6642): 579–582. doi : 10.1038/41557
  10. Slaught, Jonathan C. (May 3, 2021). "The Woman Who Looked at a Forest and Saw a Community". The New York Times. Retrieved January 7, 2022.
  11. Bone, Eugenia (May 7, 2021). "BOOKSHELF 'Finding the Mother Tree' Review: Seeing the Forest". Wall Street Journal. Retrieved January 7, 2022.
  12. 1 2 Finding the Mother Tree: Discovering the Wisdom of the Forest. Knopf Doubleday Publishing Group. 2021.
  13. 1 2 Pollan, Michael (December 16, 2013). "The Intelligent Plant". The New Yorker .
  14. Simard, S.W. et al. (2012). "Mycorrhizal networks: Mechanisms, ecology and modeling". Fungal Biology Reviews. 26: 39–60. doi : 10.1016/j.fbr.2012.01.001
  15. "TerreWEB". terreweb.ubc.ca.
  16. "How trees talk to each other". July 22, 2016.
  17. "The networked beauty of forests - Suzanne Simard". TED-Ed.
  18. "Do Trees Communicate?" via www.imdb.com.
  19. "Nature's internet: how trees talk to each other in a healthy forest – TEDxSeattle". tedxseattle.com.
  20. "Intelligent Trees - The Documentary".
  21. Morgenstern, Joe (October 24, 2019). "'Fantastic Fungi' Review: Magic Mushrooms". Wall Street Journal. Retrieved December 28, 2021.
  22. "Dr Suzanne Simard & plant intelligence, Refugee women, Scottish govt & GRC, Inheritance laws & abusers, Sexist uniforms". Woman's Hour . March 2, 2022. 23:18 minutes in. BBC Radio 4 . Retrieved March 3, 2022.
  23. Jabr, Ferris (December 2, 2020). "The Social Life of Forests". The New York Times. Retrieved February 1, 2021.
  24. Fabiani, Louise (2018). "It's Not the Trees That Need Saving: The Overstory (Review)". Earth Island Journal. Retrieved February 1, 2021.
  25. "Meet the Canada Reads 2022 contenders". CBC Books, January 26, 2022.
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