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International Journal of Pest Management Volume 70, 2024 - Issue 1
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Review

Agronomic practices and biotechnological methods dealing with the occurrence, dispersion, proliferation and adaptation of weedy rice (Oryza sativa f. spontanea)

Serge SvizzeroFaculté de Droit et d’Economie, Université de La Réunion, Saint Denis, FranceCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0003-3895-7273
ORCID Icon
Pages 62-75 | Received 15 Feb 2020, Accepted 11 Jun 2021, Published online: 05 Jul 2021

References

  • Ahmed S, Salim M, Chauhan BS. 2014. Effect of weed management and seed rate on crop growth under direct dry seeded rice systems in Bangladesh. PLoS One. 9(7):e101919.
  • Andrew IKS, Storkey J, Sparkes DL. 2015. A review of the potential for competitive cereal cultivars as a tool in integrated weed management. Weed Res. 55(3):239–248.
  • BASF. 2018. BASF launches Provisia™ Rice System delivering enhanced rotational strategy for crops worldwide. https://www.basf.com/cn/en/media/news-releases/global/2018/06/basf-launches-provisia-rice-system.html. [accessed January 04, 2020].
  • Burgos NR, Singh V, Tseng TM, Black H, Young ND, Huang Z, Hyma KE, Gealy DR, Caicedo AL. 2014. The impact of herbicide-resistant rice technology on phenotypic diversity and population structure of United states weedy rice. Plant Physiol. 166(3):1208–1220.
  • c 2017. A global analysis of alternative tillage and crop establishment practices for economically and environmentally efficient rice production. Sci Rep. 7(1):9342.
  • Chauhan BS. 2013. Management strategies for weedy rice in Asia. Los Banos (Philippines): International Rice Research Institute; 16 p.
  • Daniell H. 2002. Molecular strategies for gene containment in transgenic crops. Nat Biotechnol. 20(6):581–586.
  • Delouche JC, Burgos NR, Gealy DR, Zorrilla de San Martin G, Labrada R. 2007. Weedy Rices – Origin, Biology, Ecology and Control. FAO Plant Production and Protection Paper 188. Rome: Food and Agriculture Organization of the United Nations (FAO); p. 144.
  • Devkota C, Sudhir-Yadav, Khanda CM, Beebout SJ, Mohapatra BK, Mohapatra BK, Singleton GR, Puskur R, 2020. Assessing alternative crop establishment methods with a sustainability lens in rice production systems of Eastern India. J Cleaner Prod. 244:118835.
  • Devkota KP, Pasuquin E, Elmido-Mabilangan A, Dikitanan R, Singleton GR, Stuart AM, Vithoonjit D, Vidiyangkura L, Pustika AB, Afriani R, et al. 2019. Economic and environmental indicators of sustainable rice cultivation: a comparison across intensive irrigated rice cropping systems in six Asian countries. Ecol Indic. 105:199–214.
  • Dimaano NGB, Ali J, Cruz PCS, Baltazar AM, Diaz MGQ, Acero BL, Li Z. 2017. Performance of newly developed weed-competitive rice cultivars under lowland and upland weedy conditions. Weed Sci. 65(6):798–817.
  • Durand-Morat A, Nalley LL. 2019. Economic benefits of controlling red rice: a case study of the United States. Agronomy. 9(8):422.
  • Durand-Morat A, Nalley LL, Thoma G. 2018. The implications of red rice on food security. Global Food Secur. 18:62–75.
  • Eastham K, Sweet J. 2002. Genetically Modified Organisms (GMOs): The significance of gene flow through pollen transfer, Environmental Issue Report 28. Copenhagen, Denmark: European Environmental Agency.
  • Ellstrand NC, Heredia SM, Leak-Garcia JA, Heraty JM, Burger JC, Yao L, Nohzadeh-Malakshah S, Ridley CE. 2010. Crops gone wild: evolution of weeds and invasives from domesticated ancestors. Evol Appl. 3(5–6):494–504.
  • Engku AK, , Nohzadeh-Malakshah S, Norida M, Juraimi AS, Rafii MY, Abdullah SNA, Alam MA. 2016. Gene flow from Clearfield® rice to weedy rice under field conditions. Plant Soil Environ. 62(1):16–22.
  • F.A.O. of the United Nations. 2006. Recommendations for improved weed management. [accessed 2020 Jan 8]. http://www.fao.org/3/a0884e/a0884e00.htm.
  • F.A.O. of the United Nations. 2020a. Sustainable rice systems. [accessed 2020 Jan 5]. http://www.fao.org/agriculture/crops/thematic-sitemap/theme/spi/scpi-home/managing-ecosystems/sustainable-rice-systems/en/.
  • F.A.O. of the United Nations. 2020b. The Sustainable Rice Landscapes Initiative (SRLI). [accessed 2020 Jan 9]. http://www.fao.org/asiapacific/partners/networks/rice-initiative/fr/.
  • Ferrero A. 2003. Weedy rice, biological features and control. In: Labrada R, editor. Weed management for developing countries. Addendum 1. FAO. access 2020 Jan 8. http://www.fao.org/3/Y5031E/y5031e09.htm#bm9.
  • Gealy DR, Mitten DH, Rutger JN. 2003. Gene flow between red rice (Oryza sativa) and herbicide–resistant rice (O. sativa): implications for weed management. Weed Technol. 17(3):627–645.
  • Gressel, J. (ed). 2005. Introduction – the challenges of ferality. In: Crop ferality and volunteerism. Boca Raton, FL: CRC Press; p. 1–8.
  • Gressel J. 2002. Preventing, delaying and mitigating gene flow from crops – Rice as an example. In Proceedings of the Seventh International Symposium on the Biosafety of Genetically Modified Organisms, Beijing, China; p. 50–64.
  • Gressel J. 2015. Dealing with transgene flow of crop protection traits from crops to their relatives. Pest Manag Sci. 71(5):658–667.
  • Gressel J, Al-Ahmad H. 2005. Molecular containment and mitigation of genes within crops: prevention of gene establishment in volunteer offspring and feral strains. In: Gressel J, editor. Crop ferality and volunteerism. Boca Raton, FL: CRC Press.
  • Gressel J, Al-Ahmad H. 2013. Transgenic mitigation of transgene dispersal by pollen and seed. In: Oliver MJ, Li Y, editor. Plant gene containment. John Wiley &Sons, INC, Oxford, UK.
  • Gressel J, Valverde BE. 2009. A strategy to provide long-term control of weedy rice while mitigating herbicide resistance transgene flow, and its potential use for other crops with related weeds. Pest Manag Sci. 65(7):723–731.
  • Grimm A, Fogliatto S, Nick P, Ferrero A, Vidotto F. 2013. Microsatellite markers reveal multiple origins for Italian weedy rice. Ecol Evol. 3(14):4786–4798.
  • Harker KN, O’Donovan JT. 2013. Recent weed control, weed management, and integrated weed management. Weed Technol. 27(1):1–11.
  • Hills MJ, Hall L, Arnison PG, Good AG. 2007. Genetic use restriction technologies (GURTs): strategies to impede transgene movement. Trends Plant Sci. 12(4):177–183.
  • Juraimi AS. 2013. Sustainable weed management in direct seeded rice culture: a review. Aust J Crop Sci. 7(7):989–1002.
  • Kanapeckas KL, Vigueira CC, Ortiz A, Gettler KA, Burgos NR, Fischer AJ, Lawton-Rauh AL. 2016. Escape to ferality: the endoferal origin of weedy rice from crop rice through de-domestication. PloS One. 11(9):e0162676.
  • Kumar V, Ladha JK. 2011. Direct seeding of rice: Recent developments and future research needs. Adv Agr. 111:297–413.
  • Labrada R. 2002. Major weed problems in rice - red/weedy rice and the Echinochloa complex, in. FAO Rice Information. 3(2):11–17.
  • Li L-F, Li Y-L, Jia Y, Caicedo AL, Olsen KM. 2017. Signatures of adaptation in the weedy rice genome. Nat Genet. 49(5):811–814.
  • Lombardo F, Kuroki M, Yao S-G, Shimizu H, Ikegaya T, Kimizu M, Ohmori S, Akiyama T, Hayashi T, Yamaguchi T, et al. 2017. The superwoman1-cleistogamy2 mutant is a novel resource for gene containment in rice. Plant Biotechnol J. 15(1):97–106.
  • Mahajan G, Chauhan BS, Kumar V, 2014. Integrated weed management in rice. In: Chauhan S, Mahajan G, editors. Recent advances in weed management. New York: Springer; p. 125–154.
  • Marambe B. 2005. Properties of rice growing in abandoned paddies in Sri Lanka, in Crop ferality and volunteerism. In: Gressel J, editor. Crop ferality and volunteerism. Boca Raton, FL: CRC Press; p. 295–303.
  • Marambe B. 2008. Weedy rice: evolution, threats, and management. Tropical Agriculturist. 157:43–64.
  • Matloob A, Khaliq A, Chauhan BS, 2015. Weeds of direct-seeded rice in Asia: Problems and opportunities. Adv Agron. 130:291–336.
  • Merotto A, Goulart ICGR, Nunes AL, Kalsing A, Markus C, Menezes VG, Wander AE. 2016. Evolutionary and social consequences of introgression of nontransgenic herbicide resistance from rice to weedy rice in Brazil. Evol Appl. 9(7):837–846.
  • Mispan MS, et al. 2019. Managing weedy rice (Oryza sativa L.) in Malaysia: challenges and ways forward. J Res Weed Sci. 2:149–167.
  • Nadir S, Xiong H-B, Zhu Q, Zhang X-L, Xu H-Y, Li J, Dongchen W, Henry D, Guo X-Q, Khan S, et al. 2017. Weedy rice in sustainable rice production. A review. Agron Sustain Dev. 37(5). https://doi.org/10.1007/s13593-017-0456-4
  • Rathore M, Singh R, Kumar B. 2013. Weedy rice: an emerging threat to rice cultivation and options for its management. Curr Sci. 105(8):1067–1072.
  • Rathore M, Singh R, Kumar B, Chauhan BS. 2016. Characterization of functional trait diversity among Indian cultivated and weedy rice populations. Sci Rep. 6:24176.
  • Riaz A, Khaliq A, Fiaz S, Noor MA, Nawaz MM, Mahboob W, Ullah S. 2018. Weed management in direct seeded rice grown under varying tillage systems and alternate water regimes. Planta Daninha. 36:e018179036.
  • Serrat X, Esteban R, Penas G, Catala MM, Mele E, Messeguer J. 2013. Direct and reverse pollen-mediated gene flow between GM rice and red rice weed. AoB Plants. 5:plt050–plt050.
  • Shrivain VK, Burgos NR, Gealy DR, Sales MA, Smith KL. 2009. Gene flow from weedy red rice (Oryza sativa L.) to cultivated rice and fitness of hybrids. Pest Manage Sci. 65:1124–1129.
  • Singh K, Kumar V, Saharawat YS, Gathala M, Ladha JK, Chauhan BS. 2013. Weedy rice: an emerging threat for direct-seeded rice production systems in India. J Rice Res. 1(1):106.
  • Song ZP, Lu B-R, Zhu YG, Chen JK. 2003. Gene flow from cultivated rice to the wild species Oryza rufipogon under experimental field conditions. New Phytol. 157(3):657–665.
  • Song ZP, Lu B-R, Zhu YG, Chen JK. 2004. Pollen flow of cultivated rice measured under experimental conditions. Biodiversity Conserv. 13(3):579–590.
  • SRP. 2015. The Sustainable Rice Platform (SRP). Bangkok; [accessed 2020 Jan 6]. http://www.sustainablerice.org.
  • Sudianto E, Beng-Kah S, Ting-Xiang N, Saldain NE, Scott RC, Burgos NR. 2013. Clearfield ® rice: Its development, success, and key challenges on a global perspective. Crop Prot. 49:40–51.
  • Tesio F, Ferrero A. 2010. Allelopathy, a chance for sustainable weed management. Int J Sust Devel World Ecol. 17(5):377–389.
  • Tseng TM. 2013. Genetic diversity of seed dormancy and molecular evolution of weedy red rice [Theses and Dissertations]; p. 595. http://scholarworks.uark.edu/etd/595.
  • Ullah A, Khaliq A, Riaz A, Noor M, Fiaz S, Waqas M, Zain M, Ashraf U, Nawaz A. 2018. Seed pre-treatment and planting geometry positively influence herbicide efficacy in wheat (Triticum aestivum L.). Planta Daninha. 36.
  • Viero JLC, Schaedler CE, de Azevedo DB, dos Santos JVA, de Mello Scalcon R, Bitencourt de David D, Quevedo da Rosa F. 2018. Endozoochorous dispersal of seeds of weedy rice (Oryza sativa L.) and barnyardgrass (Echinochloa crus-galli L.) by cattle. Ciênca Rural. 48(8). https://doi.org/10.1590/0103-8478cr20170650
  • Vigueira CC, Olsen KM, Caicedo AL. 2013. The red queen in the corn: agricultural weeds as models of rapid adaptive evolution. Heredity (Edinb). 110(4):303–311.
  • Vigueira CC, Qi X, Song B-K, Li L-F, Caicedo AL, Jia Y, Olsen KM. 2019. Call of the wild rice: Oryza rufipogon shapes weedy rice evolution in Southeast Asia. Evol Appl. 12(1):93–104.
  • Winrock International. 2018. Adapting a Global Sustainability Standard for U.S. Rice Production. [accessed 2020 Jan 9]. https://www.winrock.org/ms/winrock-sustainable-rice-initiative/?pid=18789.
  • Zhang Z, Dai W, Song X, Qiang S. 2014. A model of the relationship between weedy rice seed-bank dynamics and rice-crop infestation and damage in Jiangsu Province, China. Pest Manag Sci. 70(5):716–724.
  • Zhang J, Kang Y, Valverde BE, Dai W, Song X, Qiang S. 2018. Feral rice from introgression of weedy rice genes into transgenic herbicide-resistant hybrid-rice progeny. J Exp Bot. 69(16):3855–3865.

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