Faire barrage aux plantes invasives en milieu agricole. Illustration avec Datura stramonium L., espèce adventice invasive et toxique

Open Access

Review

Issue		Cah. Agric. Volume 34, 2025


Article Number		35
Number of page(s)		9
DOI		https://doi.org/10.1051/cagri/2025037
Published online		27 November 2025

Abbas T, Zahir ZA, Naveed M, Kremer RJ. 2018. Limitations of existing weed control practices necessitate development of alternative techniques based on biological approaches. Advances in Agronomy 147: 239–280. https://doi.org/10.1016/bs.agron.2017.10.005. [Google Scholar]
Acta. 2023. Index acta phytosanitaire. 59^e édition. Paris (France): Acta éditions, 1060 p. [Google Scholar]
Alves JL, Barreto RW, Pereira OL, Soares DJ. 2010. Additions to the mycobiota of the invasive weed Miconia calvescens (Melastomataceae). Mycologia 102(1): 69–82. https://doi.org/10.3852/09-070. [Google Scholar]
Anses. 2020. L’ambroisie, une plante envahissante qui pose problème pour la santé et l’agriculture. [2024/08/21]. https://www.anses.fr/fr/content/le-point-sur-les-pollens-d%E2%80%99ambroisie. [Google Scholar]
Anses. 2024. Les plantes invasives, un risque pour l’environnement et la santé. [03/07 /2025]. https://www.anses.fr/fr/content/les-plantes-invasives-risque-environnement-sante. [Google Scholar]
Arvalis. 2020. Connaître la biologie du datura pour mieux le combattre en culture de mais. [2024/08/21]. https://www.arvalis.fr/infos-techniques/connaitre-la-biologie-du-datura-pour-mieux-le-combattre-en-culture-de-mais. [Google Scholar]
Arvalis. 2022. Le datura en 7 questions/réponses. [2024/08/21]. https://www.arvalis.fr/infos-techniques/le-datura-en-7-questionsreponse. [Google Scholar]
Arvalis. 2024. 10 idées reçues sur le datura. [2024/08/21]. https://www.arvalis.fr/infos-techniques/10-idees-recues-sur-le-datura. [Google Scholar]
Arzur N. 2024. Farine de blé noir contaminée au datura : 49 cas d’intoxications en Bretagne, dont cinq enfants. [2024/08/21]. https://www.letelegramme.fr/bretagne/farine-de-ble-noir-contaminee-au-datura-49-cas-dintoxications-en-bretagne-dont-cinq-enfants-6577053.php. [Google Scholar]
Bajwa AA, Farooq M, Nawaz A, Yadav L, Chauhan BS, Adkins S. 2019. Impact of invasive plant species on the livelihoods of farming households: Evidence from Parthenium hysterophorus invasion in rural Punjab, Pakistan. Biological Invasions 21(11): 3285–3304. https://doi.org/10.1007/s10530-019-02047-0. [Google Scholar]
Bell CE, Wilen CA, Stanton AE. 2003. Invasive plants of horticultural origin. HortScience 38(1): 14–16. https://doi.org/10.21273/HORTSCI.38.1.14. [Google Scholar]
Blagojević J, Janjatović S, Ignjatov M, Trkulja N, Gašić K, Ivanović Ž. 2020. First report of a leaf spot disease caused by Alternaria protenta on the Datura stramonium in Serbia. Plant Disease 104(3): 986–986. https://doi.org/10.1094/PDIS-06-19-1335-PDN. [Google Scholar]
Boyette CD. 1986. Evaluation of Alternaria crassa for biological control of jimsonweed: Host range and virulence. Plant Science 45(3): 223–228. https://doi.org/10.1016/0168-9452(86)90143-3. [Google Scholar]
Boyette CD, Turfitt LB. 1988. Factors influencing biocontrol of jimsonweed (Datura stramonium L.) with the leaf-spotting fungus Alternaria crassa. Plant Science 56(3): 261–264. https://doi.org/10.1016/0168-9452(88)90106-9. [Google Scholar]
Bozoğlu T, Alkan M, Derviş S, Özer G. 2022. Leaf spot caused by Alternaria crassa on Datura stramonium in Turkey. Australasian Plant Disease Notes 17(1): 26. https://doi.org/10.1007/s13314-022-00471-1. [Google Scholar]
Bradshaw CJA, Hoskins AJ, Haubrock PJ, Cuthbert RN, Diagne C, Leroy B, et al. 2021. Detailed assessment of the reported economic costs of invasive species in Australia. NeoBiota 67: 511–550. https://doi.org/10.3897/neobiota.67.58834. [Google Scholar]
Breeyen AD, Lange C, Fowler SV. 2022. Plant pathogens as introduced weed biological control agents: Could antagonistic fungi be important factors determining agent success or failure? Frontiers in Fungal Biology 3: 959753. https://doi.org/10.3389/ffunb.2022.959753. [Google Scholar]
Brink PT. 2013. The economic costs of invasive alien species (IAS). Biodiversity’s ticking time bomb: Understanding and addressing the problem of invasive species in Europe. IEEP’s biodiversity programme. European Parliament, 21 February 2013. [Google Scholar]
Bruneton J. 2009. Pharmacognosie, phytochimie, plantes médicinales. 4^e éd. Paris (France): Lavoisier, Tech et Doc, 150 p. [Google Scholar]
Brust GE, House GJ. 1988. Weed seed destruction by arthropods and rodents in low-input soybean agroecosystems. American Journal of Alternative Agriculture 3(1): 19–25. https://doi.org/10.1017/S0889189300002083. [Google Scholar]
Chadha A, Florentine S, Javaid M, Welgama A, Turville C. 2020. Influence of elements of climate change on the growth and fecundity of Datura stramonium. Environmental Science and Pollution Research 27(28): 35859–35869. https://doi.org/10.1007/s11356-020-10251-y. [Google Scholar]
Chambre d’Agriculture Bourgogne-Franche-Comté. 2024. Fiche CULTURES. Comment lutter contre le datura ? PROAGRI pour vous, aujourd’hui, et demain, 8 p. [Google Scholar]
Chauvel B, Dessaint F, Cardinal-Legrand C, Bretagnolle F. 2006. The historical spread of Ambrosia artemisiifolia L. in France from herbarium records. Journal of Biogeography 33: 665–673. https://doi.org/10.1111/j.1365-2699.2005.01401.x. [Google Scholar]
Chollet S, Papet Y, Mura P, Brunet B. 2010. Détermination des teneurs en atropine et scopolamine de différentes espèces sauvages et ornementales du genre Datura. Annales de Toxicologie Analytique 22(4): 173–179. https://doi.org/10.1051/ata/2010028. [Google Scholar]
Cohen S, Berny C, Meyran S, Mialon A, Manchon M. 2003. Intoxication volontaire par une tisane de feuilles de Datura. Annales de Toxicologie Analytique 15(4): 287–291. https://doi.org/10.1051/ata/2003008. [Google Scholar]
Culliney TW. 2005. Benefits of classical biological control for managing invasive plants. Critical Reviews in Plant Sciences 24(2): 131–150. https://doi.org/10.1080/07352680590961649. [Google Scholar]
Diagne C, Leroy B, Vaissière AC, Gozlan RE, Roiz D, Jarić I, et al. 2021. High and rising economic costs of biological invasions worldwide. Nature 592(7855): 571–576. https://doi.org/10.1038/s41586-021-03405-6. [CrossRef] [PubMed] [Google Scholar]
DiTomaso JM, Masters RA, Peterson VF. 2010. Rangeland invasive plant management. Rangelands 32(1): 43–47. https://doi.org/10.2111/RANGELANDS-D-09-00007.1. [Google Scholar]
Djeddour DH, Shaw RH. 2010. The Biological Control of Fallopia japonica in Great Britain: Review and Current Status. Outlooks on Pest Management 21: 15–18. https://doi.org/10.1564/21feb04. [Google Scholar]
Ecophytopic. 2024. Liste des produits de biocontrôle. [2024/08/21]. https://ecophytopic.fr/reglementation/proteger/liste-des-produits-de-biocontrole. [Google Scholar]
Fatur K, Kreft S. 2020. Common anticholinergic solanaceaous plants of temperate Europe − A review of intoxications from the literature (1966-2018). Toxicon 177: 52–88. https://doi.org/10.1016/j.toxicon.2020.02.005. [Google Scholar]
Fried G. 2017. Guide des plantes invasives. Paris (France): Belin. Guide des fous de nature, 272 p. [Google Scholar]
Fried G, Affre L, Albert A, Antonetti P, Bretagnolle F, Caillon A, et al. 2024. Analyse de la terminologie relative aux plantes vasculaires exogènes : application à l’inventaire des archéophytes et néophytes de France hexagonale. Naturae 4: 69–97. https://doi.org/10.5852/naturae2024a4. [Google Scholar]
Gaire BP, Subedi L. 2013. A Review on the pharmacological and toxicological aspects of Datura stramonium L. Journal of Integrative Medicine 11(2): 73–79. https://doi.org/10.3736/jintegrmed2013016. [Google Scholar]
Gerber R, Naudé TW, de Kock SS. 2006. Confirmed Datura poisoning in a horse most probably due to D. ferox in contaminated tef hay. Journal of South African Veterinary Assocation 77(2): 86–89. https://doi.org/10.4102/jsava.v77i2.350. [Google Scholar]
GISP. 2024. Organization − Global Invasive Species Programme. [2024/08/21]. https://www.cbd.int/kb/record/organization/3690. [Google Scholar]
Harker KN, O’Donovan JT. 2013. Recent weed control, weed management, and integrated weed management. Weed Technology 27: 1–11. https://doi.org/10.1614/WT-D-12-00109.1. [Google Scholar]
Hinz HL, Winston RL, Schwarzländer M. 2019. How safe is weed biological control? A global review of direct nontarget attack. The Quarterly Review of Biology 94(1): 1–27. https://doi.org/10.1086/702340. [Google Scholar]
IPBES. 2023. Summary for policymakers of the thematic assessment report on invasive alien species and their control of the intergovernmental science-policy platform on biodiversity and ecosystem services. In : Roy HE, Pauchard A, Stoett P, Renard TT, eds. Bonn (Germany): IPBES secretariat. https://doi.org/10.5281/zenodo.7430692. [Google Scholar]
Jean Baptiste A, Macario PA, Islebe GA, Vargas-Larreta B, Pool L, Valdez-Hernández M, et al. 2019. Secondary Succession under invasive species (Pteridium aquilinum) conditions in a seasonal dry tropical forest in southeastern. PeerJ 7: e6974. https://doi.org/10.7717/peerj.6974. [Google Scholar]
Kaur S, Schwartz-Lazaro LM, Werle R, Cordeau S. 2023. Editorial: Integrated weed management for reduced weed infestations in sustainable cropping systems. Frontiers in Agronomy 5: 1301564. https://doi.org/10.3389/fagro.2023.1301564. [Google Scholar]
Killgore EM, Sugiyama LS, Barreto R. 1997. Prospective biological control of Miconia calvescens in Hawai’I with nonindigenous fungus Colletotrichum gloeosporiodes (Penz.) sacc.f.sp. miconiae. Proceedings of the First Regional Conference on Miconia Control (August 26-29, 1997), pp. 65–71. [Google Scholar]
Loubet I, Caddoux L, Fontaine S, Michel S, Pernin F, Barrès B, et al. 2021. A high diversity of mechanisms endows ALS-inhibiting herbicide resistance in the invasive common ragweed (Ambrosia artemisiifolia L.). Scientific Reports 11: 19904. https://doi.org/10.1038/s41598-021-99306-9. [Google Scholar]
Lv J, Wang H, Chang N, Li H, Shi C. 2023. Effects of Datura stramonium L. Invasion into Different Habitats on Native Plant Functional Traits and Soil Carbon, Nitrogen and Phosphorus Stoichiometric Characteristics. Biology 12: 1497. https://doi.org/10.3390/biology12121497. [Google Scholar]
Maillet J, Lopez-Garcia C. 2000. What criteria are relevant for predicting the invasive capacity of a new agricultural weed? The case of invasive American species in France. Weed Research 40(1): 11–26. https://doi.org/10.1046/j.1365-3180.2000.00171.x. [Google Scholar]
MASA. 2024a. Quels sont les produits de biocontrôle ? [2024/08/21]. https://agriculture.gouv.fr/quels-sont-les-produits-de-biocontrole. [Google Scholar]
MASA. 2024b. Qu’est-ce que le datura ? [2024/08/21]. https://agriculture.gouv.fr/quest-ce-que-le-datura. [Google Scholar]
Masurel E. 2007. Contribution à l’étude de la contamination de l’ensilage de maïs par des adventices toxiques : conséquences pratiques chez les bovins. Thèse de docteur vétérinaire, Université Paul Sabatier de Toulouse. Mémoire de fin d’études, 109 p. [Google Scholar]
Meyerson LA, Mooney HA. 2007. Invasive alien species in an era of globalization. Frontiers in Ecology and the Environment 5(4): 199–208. https://doi.org/10.1890/1540-9295(2007)5[199:IASIAE]2.0.CO;2. [Google Scholar]
Montagnani C, Gentili R, Smith M, Guarino MF, Citterio S. 2017. The Worldwide Spread, Success, and Impact of Ragweed (Ambrosia spp.). Critical Reviews in Plant Sciences 36: 139–178. https://doi.org/10.1080/07352689.2017.1360112. [Google Scholar]
Mutebi RR, Ario AR, Nabatanzi M, Kyamwine IB, Wibabara Y, Muwereza P, et al. 2022. Large outbreak of jimsonweed (Datura stramonium) poisoning due to consumption of contaminated humanitarian relief food: Uganda, March-April 2019. BMC Public Health 22(1): 623. https://doi.org/10.1186/s12889-022-12854-1. [Google Scholar]
Nghiem LTP, Soliman T, Yeo DCJ, Tan HTW, Evans TA, Mumford JD, et al. 2013. Economic and environmental impacts of harmful non-indigenous species in Southeast Asia. PLoS ONE 8(8): e71255. https://doi.org/10.1371/journal.pone.0071255. [Google Scholar]
Nguyen NA, Eskelson BNI, Gergel SE, Murray T. 2021. The occurrence of invasive plant species differed significantly across three urban greenspace types of Metro Vancouver, Canada. Urban Forestry & Urban Greening 59: 126999. https://doi.org/10.1016/j.ufug.2021.126999. [Google Scholar]
Pilet L. 2024. Biocontrôle de Datura stramonium L., plante adventice toxique pour la santé humaine et animale. Thèse de doctorat, Université Bourgogne Franche-Comté, 281 p. https://theses.hal.science/tel-05110048v1/file/137884_PILET_2024_archivage.pdf. [Google Scholar]
Pilet L, Reibel C, Gautheron N, Edel-Hermann V, Giuliano S, Herbach M, et al. 2024. First report of Fusarium oxysporum causing damping-off on Datura stramonium in France. New Disease Reports 50(2): e12309. https://doi.org/10.1002/ndr2.12309. [Google Scholar]
Pimentel D, Zuniga R, Morrison D. 2005. Update on the environmental and economic costs associated with alien-invasive species in the United States. Ecological Economics 52(3): 273–288. https://doi.org/10.1016/j.ecolecon.2004.10.002. [Google Scholar]
Pratt CF, Shaw RH, Tanner RA, Djeddour DH, Vos JGL. 2013. Biologicak control of invasive non-native we eds An opportunity not to ignored. Entomologische berichten 73(4): 144–154. [Google Scholar]
Pyšek P, Hulme PE, Simberloff D, Bacher S, Blackburn TM, Carlton JT, et al. 2020. Scientists’ warning on invasive alien species. Biological Reviews 95: 1511–1534. https://doi.org/10.1111/brv.12627. [Google Scholar]
Raghu S, Walton C. 2007. Understanding the Ghost of Cactoblastis Past: Historical Clarifications on a Poster Child of Classical Biological Control. BioScience 57(8): 699–705. https://doi.org/10.1641/B570810. [Google Scholar]
Rai PK, Singh JS. 2020. Invasive alien plant species: Their impact on environment, ecosystem services and human health. Ecological Indicators 111: 106020. https://doi.org/10.1016/j.ecolind.2019.106020. [Google Scholar]
Reboud X. 2019. Pourquoi et comment le datura contamine-t-il les denrées alimentaires ? The Conversation. https://theconversation.com/pourquoi-et-comment-le-datura-contamine-t-il-les-denrees-alimentaires-113772. [Google Scholar]
Reibel C, Pilet L, Gautheron N, Steinberg C, Guillemin JP. 2023. Recherche de candidats bioherbicides pour le contrôle du datura stramoine ; résultats préliminaires. In: 25^e Conférence du COLUMA, Journées Internationales sur la lutte contre les Mauvaises Herbes. Orléans: AFPP, 5–7 décembre. [Google Scholar]
Renault D, Manfrini E, Leroy B, Diagne C, Ballesteros-Mejia L, Angulo E, Courchamp F. 2021. Biological invasions in France: Alarming costs and even more alarming knowledge gaps. NeoBiota 67: 191–224. https://doi.org/10.3897/neobiota.67.59134. [Google Scholar]
Réussir Grandes Cultures. 2024. Maïs et désherbage : « Je suis intransigeant sur le moindre pied de datura pour limiter sa prolifération ». [2024/08/21]. https://www.reussir.fr/grandes-cultures/mais-et-desherbage-je-suis-intransigeant-sur-le-moindre-pied-de-datura-pour-limiter-sa, publié le 19 mars 2024. [Google Scholar]
Rodriguez A. 2023. Biologie et gestion du datura stramoine (Datura stramonium). PROLEOBIO, L’évènement autour de l’Agriculture Biologique. Terres Inovia, le 17 mars 2023. [Google Scholar]
Schwarzländer M, Hinz HL, Winston RL, Day MD. 2018. Biological control of weeds: An analysis of introductions, rates of establishment and estimates of success, worldwide. BioControl 63: 319–331. https://doi.org/10.1007/s10526-018-9890-8. [Google Scholar]
Shackleton RT, Witt ABR, Piroris FM, van Wilgen BW. 2017. Distribution and socio-ecological impacts of the invasive alien cactus Opuntia stricta in Eastern Africa. Biological Invasions 19(8): 2427–2441. https://doi.org/10.1007/s10530-017-1453-x. [Google Scholar]
Spina SP, Taddei A. 2007. Teenagers with jimson weed (Datura stramonium) poisoning. Canadian Journal of Emergency Medecine 9(6): 467–469. https://doi.org/10.1017/S1481803500015530. [Google Scholar]
Stoller EW, Wax LM. 1974. Dormancy changes and fate of some annual weed seeds in the soil. Weed Science 22: 151–155. https://doi.org/10.1017/S0043174500036754. [Google Scholar]
Suckling DM. 2013. Benefits from biological control of weeds in New Zealand range from negligible to massive: A retrospective analysis. Biological Control 66(1): 27–32. https://doi.org/10.1371/journal.pone.0084847. [Google Scholar]
Suckling DM, Sforza RFH. 2014. What Magnitude Are Observed Non-Target Impacts from Weed Biocontrol? PLOS One 9(1): e84847. https://doi.org/10.1371/journal.pone.0084847. [Google Scholar]
Triolet M, Cordeau S, Steinberg C, Guillemin JP. 2016. Bioherbicides. In: Agriculture sans herbicides, 2^e éd. France Agricole, 415 p. https://hal.science/hal-01604035. [Google Scholar]
Triolet M, Edel-Hermann V, Gautheron N, Mondy S, Reibel C, André O, et al. 2022. Weeds harbor an impressive diversity of fungi, which offers possibilities for biocontrol. Applied and Environmental Microbiology 88(6): e02177–21. https://doi.org/10.1128/aem.02177-21. [Google Scholar]
Valhor. 2024. Les plantes exotiques envahissantes et la filière horticole. [2024/08/21]. https://www.valhor.fr/developper-votre-activite/enjeux-societaux-et-environnementaux/plantes-exotiques-envahissantes. [Google Scholar]
Weidlich EWA, Flórido FG, Sorrini TB, Brancalion PHS. 2020. Controlling invasive plant species in ecological restoration: A global review. Journal of Applied Ecology 57(9): 1806–1817. https://doi.org/10.1111/1365-2664.13656. [Google Scholar]
Westbrooks R. 1998. Invasive plants, changing the landscape of America: Fact book. Washington DC: Federal Interagency Committee for the Management of Noxious and Exotic weeds (FICMNEW), 109 p. [Google Scholar]
Winston RL, Schwarzländer M, Hinz HL, Day MD, Cock MJW, Julien MH. 2021. Biological control of we eds A world catalogue of agents and their target weeds. Morgantown: Health Technology Enterprise Team. [Google Scholar]
Worthington TR, Nelson EP, Bryant MJ. 1981. Toxicity of tornapple seeds to the pig. Veterinary record 108: 208–211. https://doi.org/10.1136/vr.108.10.208. [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.