Stefano Mancuso
Stefano Mancuso | |
---|---|
Born | Stefano Mancuso 9 May 1965 |
Nationality | Italian |
Alma mater | University of Florence |
Awards | |
Scientific career | |
Fields |
Stefano Mancuso (born 9 May 1965) is an Italian botanist,[1][2] professor of the Agriculture, Food, Environment and Forestry department at his alma mater, the University of Florence.[3] He is the director of the International Laboratory of Plant Neurobiology,[4] steering committee member of the Society of Plant Signaling and Behavior,[5] editor-in-chief of the Plant Signaling & Behavior journal[6] and a member of the Accademia dei Georgofili.[7][8]
Biography
Mancuso developed an interest in the research of plants during his university studies.[9] Since 2001, he has been a professor at the University of Florence, and in 2005 he founded the International Laboratory of Plant Neurobiology, designed to study physiology, behavior, molecular biology, intelligence, and other fields of plant science.[10]
Research
Root system of plants
Mancuso studied the abilities of plants and their root system (in particular, the tips of the roots, which are very sensitive to various types of stimuli,[11] such as pressure, temperature, certain sounds, humidity, and damage).[12] According to an article published in 2004 by a group of botanists (which included Mancuso), the areas of the root apices interact with each other, forming a structure whose functions they proposed to be similar to the functions of an animal's brain.[13]
Plant perception
Mancuso concluded that in the course of evolution, plants had to work out solutions to the problems inherent in organisms attached to a substrate. Although plants have neither nerves nor a brain, they have a social life and, therefore, analogs of the sensory organs, though very different from those in animals. He considers the key to understanding this can be found in some cells (gametes and bacteria), corals, sponges, and in the behavior of organisms such as placozoa. In 2012, Mancuso and his colleagues found that plants have receptors that make their roots sensitive to sound and the direction of its distribution.[14] Other biologists four years prior claimed that trees in conditions of acute water shortage can emit sounds which can be more than just passive signs of cavitation.[15]
Phytoplankton and terrestrial plants have certain abilities for the perception of light. Mancuso and his colleagues showed that in the laboratory arabidopsis the root apices are very sensitive to light (a few seconds of illumination are enough to cause an immediate and strong reaction of the molecules of the ROS). These phenomena complemented earlier observations and studies of living roots made using confocal microscopy.[16]
His book Plant revolution: le piante hanno già inventato il nostro futuro,[17] describes his view of how plants have found and tested “brilliant” solutions to the various problems that humanity faces today for hundreds of millions of years. Plants, partly due to symbiosis with bacteria and fungi, “invented” well-optimized and stable methods of colonizing the earth's surface and then the lower atmosphere. Plants also created one of the most important carbon sinks on our planet, and launched the production of clean energy from starch, sucrose, sclerenchyma and complex biomolecules through photosynthetic chlorophyll, biodegradability according to the principles of a circular economy.
Plants and animals
Mancuso notes that vascular plants have an analogue of the circulatory system, consisting of several organs (in particular reproductive organs), but that unlike highly organized animals, plants have receptors distributed throughout the body, while animals have receptors concentrated in specific organs such as eyes, ears, skin, tongue. The reproductive organs of plants are diverse in principle of their functioning, while in animals they are more unified. According to Mancuso, this suggests that the plants "smell", "listen", "communicate" (between individuals of the same species, and sometimes with other species) and "learn"[18] (through a certain form of memory, including the memory of their immune system[19]), using their entire modular organism (which allows plants to resist both predatory and herbivorous animals better). Mancuso often refers to lima bean as an example, which, when attacked by red spider mite (lat. tetranychus urticae), releases a complex of molecules into the air that can attract phytoseiulus persimilis, carnivorous mites that are ready to consume colonies of the red spider mites. Mancuso and his colleagues emphasized the role of auxins, which function as neurotransmitters[citation needed], similar to those found in animals.
Plants are able to synthesize molecules that play a role similar to animal neurons,[13] in particular synaptotagmins and monosodium glutamate.[13] Plants can carry out the biosynthesis of molecules that are supposed to be homologous to molecules that perform important functions in animals (for example, molecules that activate immunophilins[20] that perform immune and hormonal functions in animals, in particular, signaling of steroid and neurological hormones). Cytology confirms the existence of plant cells behaving as synapses[citation needed]. In 2005, Mancuso, together with several biochemists, developed a “non-invasive” microelectrode based on carbon nanotube technology for measuring and fixing the flow of information that can circulate in plants.[21]
Plant intelligence
Mancuso notes that for a very long time, intelligence was mistakenly considered by many people to be “what distinguishes us from other living beings,” but if we consider intelligence as the ability to solve and overcome problems, we have to recognize that plants possess it, and it is intelligence that allows plants to develop and respond to most of the problems that they encounter throughout their ontogenesis.[22][23][24]
Thus, plants adapt to life in almost all sufficiently lit terrestrial and aquatic environments, encountering both herbivores and predatory insects and animals. Although plants do not have a specific organ comparable to the brain, they use the equivalent of the so-called "Diffuse brain" (it. "Cervello diffuso").[9] Some plants, for example, are capable of secreting substances that attract insects and animals that plants use for their own needs. Chemicals synthesized by plants often have a very complex effect on the behavior of animals and insects (an example is the mutually beneficial relationship of myrmecophytes and ants, in particular the phenomenon of the devil's garden in Amazonian forests).[25]
Mancuso and his colleagues recall that at the end of his life, when Charles Darwin became more interested in plants, in a book called "The Power of Movement in Plants", Darwin wrote:
"... it would not be an exaggeration to say that the root apex is so endowed with sensitivity that it can direct the movements of plant parts, like the brain of some lower animals. The brain is present in the front of the body, perceives sensations from the senses and directs various movements..."[26]
Professional activities
In 2010, Mancuso gave a lecture in Oxford on the movement of roots in the soil: how they look for water, nutrients and capture new spaces.[27] Mancuso was also an invited speaker at the TED Global conference in the same year.[28]
In 2012, in the Plantoid project, he took part in the creation of a "bio-inspired" robot that imitated certain natural properties of the roots, and could, for example, explore an area that is difficult to access or contaminated as a result of a nuclear accident or the use of bacteriological weapons.[29] The Plantoid project is still developing for the European Commission by consortium of the scientists including Mancuso.[30]
In 2013, with co-author Alessandra Viola, he published the book Verde brillante: Sensibilità e intelligenza del mondo vegetale. [31]
In 2014, at the University of Florence, Mancuso created a startup specializing in plant biomimetics and an autonomous floating greenhouse,[32] which was offered for mass production to the Chilean government in 2016.
In 2017, he published Plant revolution: le piante hanno già inventato il nostro futuro. The English translation of the book, The Revolutionary Genius of Plants: A New Understanding of Plant Intelligence and Behavior, was written by Vanessa Di Stefano.[33]
Philosophical views
Mancuso conducts research in the field of so-called plant neurobiology, a concept that is the subject of controversy in the scientific community.
According to his view, academicians were initially highly skeptical of even a simple concept like “plant behavior” or "plant learning", and until 2005 there was an unspoken ban on a discussion of “plant behavior” in academic circles, but subsequent discoveries have led to the creation of university departments within this research area, as well as the writing of numerous articles and scientific papers. Around the same time, discussion about “bio-inspired plantoid robots” began. These machines could, for example, use a light mechanical system similar to plant roots to restore washed-out or contaminated soils. Some scientists still refuse to talk about the intelligence of plants and even about their "consciousness", as this leads to new philosophical questions, for example: if plants perceive wounds or aggression, and then respond to them, carrying out various biochemical processes,[34] is it possible to draw analogies with pain in animals here? In 2008, a petition signed by thirty-six European and North American biologists urged to avoid using the term “plant neuroscience” in scientific usage. On the other hand, the hypothesis of a common intelligence in plants seems to immediately attract the attention of the general public.
In his view, cultural and even theoretical prerequisites still hinder the quantitative and qualitative assessment (through experiments in particular) of the cognitive abilities of plants, because the scientific methodology for assessing intelligence itself was originally built to study humans and animals[35] (artificial intelligence studies have been added to this relatively recently).
In 2019 he published La nazione delle piante, which was translated in English in 2021 as The Nation of Plants.[36]
Awards
- it:Premio Nazionale di Divulgazione - National Award for Scientific Dissemination, 2013
- Award of the Austrian Ministry of Research and Economy for the Book of the Year, 2016 [37]
- it:Premio letterario Galileo per la divulgazione scientifica — “Plant revolution: le piante hanno già inventato il nostro futuro” book, May 21, 2018
- Environmental award on the Tignano festival, July 18, 2019[38]
Scientific work
Publications
- Baluška, F., Volkmann, D., Hlavacka, A., Mancuso, S., & Barlow, P. W. (2006). Neurobiological view of plants and their body plan. In Communication in plants (pp. 19–35). Springer, Berlin, Heidelberg.
- Brenner, E. D., Stahlberg, R., Mancuso, S., Vivanco, J., Baluška, F., & Van Volkenburgh, E. (2006). Plant neurobiology: an integrated view of plant signaling. Trends in plant science, 11(8), 413—419.
- Gagliano, M., Mancuso, S., & Robert, D. (2012). Towards understanding plant bioacoustics. Trends in plant science, 17(6), 323—325.
- Gagliano M, Renton M, Duvdevani N, Timmins M & Mancuso S (2012) Out of sight but not out of mind: alternative means of communication in plants. PLoS One, 7(5), e37382.
- Mancuso, S. (Ed.). (2011). Measuring roots: an updated approach. Springer Science & Business Media.
- Mancuso, S., & Viola, A. (2015). Brilliant green: The surprising history and science of plant intelligence. Island Press. Translation by Joan Benham of Verde brillante: Sensibilità e intelligenza del mondo vegetale, with a foreword by Michael Pollan.
- Santelia, D., Vincenzetti, V., Azzarello, E., Bovet, L., Fukao, Y., Düchtig, P., … & Geisler, M. (2005). MDR‐like ABC transporter AtPGP4 is involved in auxin‐mediated lateral root and root hair development. FEBS letters, 579(24), 5399-5406.
- Schapire, A. L., Voigt, B., Jasik, J., Rosado, A., Lopez-Cobollo, R., Menzel, D., … & Botella, M. A. (2008) Arabidopsis synaptotagmin 1 is required for the maintenance of plasma membrane integrity and cell viability. The Plant Cell, 20(12), 3374-3388.
Essays
- La pianta del mondo, Laterza, 2020
- La nazione delle piante, Laterza, 2019
- L’incredibile viaggio delle piante, Laterza, 2018
- Plant revolution, Giunti editore, 2017
- Botanica. Viaggio nell’universo vegetale, Aboca edizioni, 2017
- Verde brillante, sensibilità e intelligenza del mondo vegetale, con Alessandra Viola, Giunti editore, 2013
- Biodiversi, con Carlo Petrini, Slow Foof, 2015
- Uomini che amano le piante, Giunti editore, 2014
See also
References
- ^ "Stefano Mancuso". publications indexed by Google Scholar. Retrieved 3 October 2020.
- ^ "Stefano Mancuso's books examples". Retrieved 3 October 2020.
- ^ "Stefano Mancuso's current academic rank and department information". The University Of Florence official website. Retrieved 3 October 2020.
- ^ "Membership list of the LINV project". The International Laboratory of Plant Neurobiology official website. Retrieved 3 October 2020.
- ^ "The Society of Plant Signaling and Behavior steering committee list". The Society of Plant Signaling and Behavior official website. Retrieved 3 October 2020.
- ^ "Editorial board list of the Plant Signaling & Behavior journal". Taylor & Francis Group website. Retrieved 3 October 2020.
- ^ "Academic list 2019". The Accademia dei Georgofili official website. Retrieved 3 October 2020.
- ^ "Il georgofilo Stefano Mancuso è uno dei "20 italiani che ci cambieranno la vita"". Information newsletter by the Accademia dei Georgofili. Retrieved 3 October 2020.
- ^ a b "Stefano Mancuso's interview on the french radio" (in French). France Culture radio (April 20, 2019). 20 April 2019. Retrieved 5 October 2020.
- ^ "LINV AT FIRST GLANCE". The International Laboratory for Plant Neurobiology official website. Retrieved 5 October 2020.
- ^ Baluska F., Mancuso S., Volkmann D., & Barlow, P. W. (2010) Root apex transition zone: a signaling-response nexus in the root. Trends in plant science, 15(7), 402—408.
- ^ Baluška, František; Mancuso, Stefano (2013). "Root Apex Transition Zone as Oscillatory Zone". Frontiers in Plant Science. 4. doi:10.3389/fpls.2013.00354. PMC 3788588. PMID 24106493.
- ^ a b c Baluska F., Mancuso S., Volkmann D., & Barlow P. (2004) Root apices as plant command centres: the unique ‘brain-like’ status of the root apex transition zone. Biologia, 59(Suppl 13), 7-19.
- ^ Gagliano M., Mancuso S. & Robert D. (2012) Towards understanding plant bioacoustics. Trends in plant science, 17(6), 323—325.
- ^ Zweifel R. & Zeugin F. (2008) Ultrasonic acoustic emissions in drought-stressed trees — more than signals from cavitation? New Phytol. 179, 1070—1079
- ^ Yokawa, Ken; Kagenishi, Tomoko; Kawano, Tomonori; Mancuso, Stefano; Baluška, František (2011). "Illumination of Arabidopsis roots induces immediate burst of ROS production". Plant Signaling & Behavior. 6 (10): 1460–1464. Bibcode:2011PlSiB...6.1460Y. doi:10.4161/psb.6.10.18165. PMC 3256371. PMID 21957498.
- ^ Mancuso, Stefano (2017). Plant revolution: le piante hanno già inventato il nostro futuro. Giunti. ISBN 9788809831360. Retrieved 6 October 2020.
- ^ Volkov A.G, Carrell H., Adesina T., Markin V.S. & Jovanov E. (2008) Plant electrical memory. Plant Signaling & Behavior 3:490-492
- ^ Baldwin I.T. & Schmelz E.A (1996) Immunological «memory» in the induced accumulation of nicotine in wild Tobacco. Ecology 77:236-246
- ^ Bailly A., Sovero V., Vincenzetti V., Santelia D., Bartnik D., Koenig B. W., … & Geisler M. (2008). Modulation of P-glycoproteins by auxin transport inhibitors is mediated by interaction with immunophilins. Journal of Biological Chemistry, 283(31), 21817-21826.
- ^ Mancuso S., Marras A. M., Magnus V., & Baluška F. (2005) Noninvasive and continuous recordings of auxin fluxes in intact root apex with a carbon nanotube-modified and self-referencing microelectrode. Analytical biochemistry, 341(2), 344–351
- ^ Brenner E. D., Stahlberg R., Mancuso S., Vivanco J., Baluska F., Van Volkenburgh E. (2006). "Plant neurobiology: an integrated view of plant signaling". Trends in Plant Science (journal). 11 (8) (Trends in Plant Science ed.). Cell Press: 413–419. doi:10.1016/j.tplants.2006.06.009. PMID 16843034.
{{cite journal}}
: CS1 maint: multiple names: authors list (link) - ^ Trewavas, Anthony (2005). "Green plants as intelligent organisms". Trends in Plant Science. 10 (9) (Trends in Plant Science ed.). Cell Press: 413–419. doi:10.1016/j.tplants.2005.07.005. PMID 16054860.
- ^ Trewavas, A. (2002). "Mindless mastery". Nature. 415 (6874) (Nature ed.): 841. Bibcode:2002Natur.415..841T. doi:10.1038/415841a. PMID 11859344. S2CID 4350140.
- ^ "Умные муравьи. Часть 1: Симбиоз с растениями от 09.02.2018" (in Russian). Hren.su. Retrieved 6 October 2020.
- ^ Baluška, František; Mancuso, Stefano; Volkmann, Dieter; Barlow, Peter (2009). "The 'root-brain' hypothesis of Charles and Francis Darwin". Plant Signaling & Behavior. 4 (12): 1121–1127. Bibcode:2009PlSiB...4.1121B. doi:10.4161/psb.4.12.10574. PMC 2819436. PMID 20514226.
- ^ "The interview with Stefano Mancuso by Frederic Mouchon. April 8, 2018. Stefano Mancuso, l'homme qui murmure a l'oreille des plantes" (in French). Le Parisien. 8 April 2018. Retrieved 5 October 2020.
- ^ "Stefano Mancuso. The roots of plant intelligence". www.ted.com. 11 October 2010. Retrieved 5 October 2020.
- ^ "The interview with Stefano Mancuso by Frederic Mouchon. April 8, 2018. Stefano Mancuso, l'homme qui murmure a l'oreille des plantes" (in French). Le Parisien. 8 April 2018. Retrieved 5 October 2020.
- ^ "Consortium". The Plantoid project official website. Retrieved 18 January 2021.
- ^ Mancuso, Stefano; Temperini, Renaud; Viola, Alessandra (4 April 2018). L Intelligence des plantes. Albin Michel. ISBN 9782226430120. Retrieved 5 October 2020.
- ^ "The Jellyfish Barge project" (in Italian). www.pianteinnovative.it. Retrieved 5 October 2020.
- ^ Mancuso, Stefano (2017). The Revolutionary Genius of Plants: A New Understanding of Plant Intelligence and Behavior. Copyright page: Atria Books. ISBN 978-1-5011-8785-8.
- ^ Mancuso S. (1999). Hydraulic and electrical transmission of wound-induced signals in Vitis vinifera. Functional Plant Biology, 26(1), 55-61.
- ^ Bertrand A. (2018) Penser comme une plante: perspectives sur l'écologie comportementale et la nature cognitive des plantes. Cahiers philosophiques, (2), 39-41.(riassunto)
- ^ Mancuso, Stefano (2021). The Nation of Plants. London: Profile Books. ISBN 978-1788168618.
- ^ Wissenschaftsbuch des Jahres
- ^ "Premio per l'ambiente a Stefano Mancuso". Archived from the original on 9 October 2020.
External links
- Stefano Mancuso at TED
- Official website of the Plantoid project
- The secret life of plants: how they memorise, communicate, problem solve and socialise - The Guardian article by Amy Fleming (April 5, 2020)
- Stefano Mancuso: Plant intelligence is real - The BBC article (November 20, 2015)
- Are plants intelligent? New book says yes - The Guardian article by Jeremy Hance (August 4, 2015)
- The Intelligent Plant. Scientists debate a new way of understanding flora - The New Yorker article by Michael Pollan (December 16, 2013)
- Plant neurobiology. From stimulus perception to adaptive behavior of plants, via integrated chemical and electrical signaling - The Plant Signaling & Behavior journal article by Stefano Mancuso and František Baluška, indexed by The National Center for Biotechnology Information (June 1, 2009)
- Smarty Plants: Inside the World's Only Plant-Intelligence Lab - The Wired article by Nicole Martinelli (October 30, 2007)