Relevant bibliographies by topics / Rice Rice blast disease

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Rice Rice blast disease'

Author: Grafiati
Published: 4 June 2021
Last updated: 7 February 2022

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Journal articles on the topic "Rice Rice blast disease"

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Ebbole, Daniel J., Janna L. Beckerman, R. S. Zeigler, S. A. Leong, and P. S. Teng. "Rice Blast Disease." Mycologia 88, no. 3 (May 1996): 518. http://dx.doi.org/10.2307/3760894.

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Kato, Hajime. "Rice blast disease." Pesticide Outlook 12, no. 1 (2001): 23–25. http://dx.doi.org/10.1039/b100803j.

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Oerke, E. C. "Rice blast disease." Agricultural Systems 51, no. 3 (July 1996): 367–69. http://dx.doi.org/10.1016/0308-521x(96)86783-7.

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Dadley-Moore, Davina. "Understanding rice blast disease." Nature Reviews Microbiology 4, no. 5 (May 2006): 323. http://dx.doi.org/10.1038/nrmicro1422.

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Skamnioti, Pari, and Sarah J. Gurr. "Against the grain: safeguarding rice from rice blast disease." Trends in Biotechnology 27, no. 3 (March 2009): 141–50. http://dx.doi.org/10.1016/j.tibtech.2008.12.002.

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Amayo, R., Teddy Oparok, Jimmy Lamo, Silue Drissa, Richard Edema, and Geoffrey Tusiime. "Rice Blast Prevalence in Smallholder Rice Farmlands in Uganda." Journal of Agricultural Science 12, no. 10 (September 15, 2020): 105. http://dx.doi.org/10.5539/jas.v12n10p105.

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Rice blast disease remains the most important contributor to low and stagnated rice yields in Uganda. However, the role of the smallholder farming system in shaping the prevalence of the disease in the country is not known. In 2015B and 2016A, we surveyed smallholder rice farmlands in 27 districts of Uganda and recorded blast incidence, severity, and symptoms expression. Infected rice samples taken from the infected plants were sub-cultured on PDA media to confirm the pathogen and obtain isolates for the establishment of a core collection for breeding work. Rice blast prevalence in the districts varied from 50-100% and the national average stood at 72.61%, higher than that recorded five years ago. Mean incidence and severity varied significantly (< 0.001) with the highest incidence (96.8%) recorded in Luwero district and the least (21.3%) was recorded in the Amuru district. However, the eastern region recorded the highest average incidence (74.5%) followed by the central, the northern, and Mid-western regions. In the rice ecologies, the highest blast incidence was recorded in the rain-fed lowland rice (72.18%) followed by irrigated lowland (59.53%) and rain-fed upland rice (47.27%). This is the first report on the prevalence of blast in smallholder rice farmlands in Uganda and showed a higher prevalence of the disease.
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Mgonja, A. P. "Resistance to Rice Blast Disease of Some Land Rice Verieties." East African Agricultural and Forestry Journal 51, no. 1 (July 1985): 61–62. http://dx.doi.org/10.1080/00128325.1985.11663463.

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Petkevych, Z. Z., T. V. Dudchenko, and V. V. Dudchenko. "Trait collection of rice by resistance to rice blast." Genetičnì resursi roslin (Plant Genetic Resources), no. 24 (2019): 89–100. http://dx.doi.org/10.36814/pgr.2019.24.07.

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Aim. To study the genetic diversity of rice in terms of resistance to disease, to find sources of resistance, to select reference varieties and to form a trait collection of rice accessions with resistance to Pyricularia oryzae Cav. Results and Discussion. The study was carried out in an infectious-provocative nursery in the field and greenhouse of the Institute of Rice in compliance with the methodical guidelines in 2003 – 2016. In of the south Ukrainian, Pyricularia oryzea is the most harmful for rice. The article presents the results on forming a trait collection studying rice accessions. It presents the results of 7-year studies (2010 – 2016) on the search for sources for resistance to the pathogen among 190 rice accessions of different eco-geographical origin. In the years with various meteorological conditions and various development of disease, we revealed several sources of resistance to the pathogen. There were 64 disease-resistant accessions (33,7 %). Most of the accessions under investigation were medium-resistant to Pyricularia oryzae (50,5%). In the period of 2003 – 2004 and 2007 – 2009, 58 rice accessions were studied on artificial infection. In the greenhouse, 19 (33,7%) resistant accessions were found. Most of the accessions under investigation were susceptible (46,6%) and medium-resistant to Pyricularia oryzae (20,7 %). Conclusions. The trait collection comprising 58 accessions belonging to 13 varieties from 8 foreign countries has been formed. Reference varieties and sources of resistance to disease in combination with a set of economic features were defined. These accessions are of great interest to breeding for valuable agronomic traits as they combine resistance to disease with several economically valuable characteristics. The collection is of great importance for achieving different scientific and breeding objectives. All the valuable material will be transferred for introduction in breeding.
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HAMER, J. E. "Molecular Probes for Rice Blast Disease." Science 252, no. 5006 (May 3, 1991): 632–33. http://dx.doi.org/10.1126/science.252.5006.632.

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Liu, Yan, Xinshuai Qi, Dave R. Gealy, Kenneth M. Olsen, Ana L. Caicedo, and Yulin Jia. "QTL Analysis for Resistance to Blast Disease in U.S. Weedy Rice." Molecular Plant-Microbe Interactions® 28, no. 7 (July 2015): 834–44. http://dx.doi.org/10.1094/mpmi-12-14-0386-r.

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Understanding the genetic architecture of adaptation is of great importance in evolutionary biology. U.S. weedy rice is well adapted to the local conditions in U.S. rice fields. Rice blast disease is one of the most destructive diseases of cultivated rice worldwide. However, information about resistance to blast in weedy rice is limited. Here, we evaluated the disease reactions of 60 U.S. weedy rice accessions with 14 blast races, and investigated the quantitative trait loci (QTL) associated with blast resistance in two major ecotypes of U.S. weedy rice. Our results revealed that U.S. weedy rice exhibited a broad resistance spectrum. Using genotyping by sequencing, we identified 28 resistance QTL in two U.S. weedy rice ecotypes. The resistance QTL with relatively large and small effects suggest that U.S. weedy rice groups have adapted to blast disease using two methods, both major resistance (R) genes and QTL. Three genomic loci shared by some of the resistance QTL indicated that these loci may contribute to no-race-specific resistance in weedy rice. Comparing with known blast disease R genes, we found that the R genes at these resistance QTL are novel, suggesting that U.S. weedy rice is a potential source of novel blast R genes for resistant breeding.
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Dissertations / Theses on the topic "Rice Rice blast disease"

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Jantasuriyarat, Chatchawan. "Identification and characterization of genes involved in the interaction between rice and rice blast fungus, Magnaporthe grisea." Columbus, Ohio : Ohio State University, 2006. http://rave.ohiolink.edu/etdc/view?acc%5Fnum=osu1158295749.

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Islam, Muhammad Sougatul. "Insertional mutagenesis to identify novel determinants of pathogenicity in Magnaporthe oryzae." Thesis, University of Exeter, 2012. http://hdl.handle.net/10871/10802.

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Rice blast disease is caused by the filamentous fungus Magnaporthe oryzae and is the most destructive disease of cultivated rice. It was the first plant pathogenic fungus to have its genome sequence published which opened up the opportunities to discern the principal genetic components that confer pathogenicity on the fungus. The availability of the genome sequence has also presented fresh challenges in terms of converting sequence data into meaningful biological information. Functional genomics studies involve the generation of genome-wide mutant collections and comprehensive screens with potential to identify novel pathogenicity determinants. In this study I utilized Agrobacterium tumefaciens mediated random insertional mutagenesis to study the infection mechanism of M. oryzae. A collection 10,200 M. oryzae T-DNA insertion mutants were generated as part of this study and pathogenicity was assayed by high-throughput disease screening. From the primary qualitative screening I obtained 200 mutants that were reduced or lacking in pathogenicity. Quantitative re-screening allowed selection of 71 T-DNA mutants, including 9 non-pathogenic and 63 reduced virulence mutants exhibiting at least a 50% reduction in disease symptoms. Finally, we selected 8 non-pathogenic mutants for detailed phenotypic and gene functional analysis. A novel approach was used to retrieve T-DNA tagged genes from mutants of interest. Next generation DNA sequencing (NGS) was used to retrieve T-DNA flanking sequences in a high-throughput manner. The efficiency of NGS to facilitate the high-throughput large scale insertional mutagenesis was therefore demonstrated. Out of 8 selected mutants, I identified three novel genes that putatively encode a transcription factor, a PH domain containing signalling protein and a MAP kinase. I also provided evidence that, MGG_05343 is a functional C6 zinc finger transcription factor involved in conidiogenesis. The PH domain containing protein MGG_12956 is involved in vegetative growth, condiogenesis and virulence. The novel kinase MGG_15325 is a S. cerevisiae IME2 homolog that belongs to the Ime2 class of non-classical MAP kinase subfamily. Intriguingly, M. oryzae IME2 seems to have an essential role in growth in planta because the mutant was able to penetrate and colonize plant tissue but failed to cause necrotic rice blast lesions. Identification of these novel genes will allow us greater insight into the processes required for condiogenesis, vegetative and invasive growth and a more integrated understanding of the post-penetration phases of plant tissue colonization. Interestingly, I identified two mutants tagged with T-DNA insertion in the autophagy genes ATG2 and ATG3, reaffirming the importance of infection-associated autophagy in plant infection by M. oryzae and we characterized the ATG3 gene. In addition, I generated a resource of 63 unidentified T-DNA mutants which can potentially lead to identification of more novel determinants of pathogenicity in rice blast disease.
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McCafferty, Heather Ross Kennedy. "Identification of genes involved in pathogenesis of the rice blast fungus, Magnaporthe grisea." Thesis, University of Exeter, 1997. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.388625.

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Valdovinos, Ponce Guadalupe. "Molecular and cellular analyses of pathogenicity and host specificity in rice blast disease." Diss., Manhattan, Kan. : Kansas State University, 2007. http://hdl.handle.net/2097/456.

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He, Ruifeng, Fernanda Salvato, Jeong-Jin Park, Min-Jeong Kim, William Nelson, Tiago Balbuena, Mark Willer, et al. "A systems-wide comparison of red rice (Oryza longistaminata) tissues identifies rhizome specific genes and proteins that are targets for cultivated rice improvement." BioMed Central, 2014. http://hdl.handle.net/10150/610086.

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BACKGROUND:The rhizome, the original stem of land plants, enables species to invade new territory and is a critical component of perenniality, especially in grasses. Red rice (Oryza longistaminata) is a perennial wild rice species with many valuable traits that could be used to improve cultivated rice cultivars, including rhizomatousness, disease resistance and drought tolerance. Despite these features, little is known about the molecular mechanisms that contribute to rhizome growth, development and function in this plant.RESULTS:We used an integrated approach to compare the transcriptome, proteome and metabolome of the rhizome to other tissues of red rice. 116 Gb of transcriptome sequence was obtained from various tissues and used to identify rhizome-specific and preferentially expressed genes, including transcription factors and hormone metabolism and stress response-related genes. Proteomics and metabolomics approaches identified 41 proteins and more than 100 primary metabolites and plant hormones with rhizome preferential accumulation. Of particular interest was the identification of a large number of gene transcripts from Magnaportha oryzae, the fungus that causes rice blast disease in cultivated rice, even though the red rice plants showed no sign of disease.CONCLUSIONS:A significant set of genes, proteins and metabolites appear to be specifically or preferentially expressed in the rhizome of O. longistaminata. The presence of M. oryzae gene transcripts at a high level in apparently healthy plants suggests that red rice is resistant to this pathogen, and may be able to provide genes to cultivated rice that will enable resistance to rice blast disease.
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Suttiviriya, Pavinee. "Functional Study of Pi9- and Piz-t-Associated Proteins (PANs and PAZs) in Resistance to Magnaporthe oryzae." The Ohio State University, 2018. http://rave.ohiolink.edu/etdc/view?acc_num=osu1532013219115136.

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Park, Chan Ho. "The Role of Ubiquitination in the Interaction between Rice and Magnaporthe Oryzae." The Ohio State University, 2011. http://rave.ohiolink.edu/etdc/view?acc_num=osu1322629251.

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Dixon, Katherine Pamela. "Identification and characterisation of the OSM1 map kinase gene from rice blast fungus Magnaporthe grisea." Thesis, University of Exeter, 1999. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.302540.

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Overton, Jonathan. "An investigation into the biochemical basis of resistance in the rice plant Oryza sativa to the disease rice blast - caused by the ascomycete fungus Magnaporthe grisea." Thesis, University of Reading, 1995. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.320104.

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Lee, Dayoung. "Towards a Multifaceted Understanding of Host Resistance and Pathogenicity in Rice Sheath Blight and Blast Diseases." The Ohio State University, 2019. http://rave.ohiolink.edu/etdc/view?acc_num=osu1555510608170391.

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Books on the topic "Rice Rice blast disease"

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Duve, Thomas. Der Reisbrenner in Südkorea: Eine geographische Untersuchung zur Bedeutung biotischer Begrenzungsfaktoren im Reisanbau. Giessen: Tropeninstitut, 1989.

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Wang, Guo-Liang. Advances in genetics, genomics and control of rice blast disease. New York: Springer, 2009.

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International Rice Blast Conference (2nd 1998 Montpellier, France). Advances in rice blast research: Proceedings of the 2nd International Rice Blast Conference, 4-8 August 1998, Montpellier, France. Dordrecht: Kluwer Academic Publishers, 2000.

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Wang, Guo-Liang, and Barbara Valent, eds. Advances in Genetics, Genomics and Control of Rice Blast Disease. Dordrecht: Springer Netherlands, 2009. http://dx.doi.org/10.1007/978-1-4020-9500-9.

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Kawasaki, Shinji, ed. Rice Blast: Interaction with Rice and Control. Dordrecht: Springer Netherlands, 2004. http://dx.doi.org/10.1007/978-0-306-48582-4.

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Tharreau, D., M. H. Lebrun, N. J. Talbot, and J. L. Notteghem, eds. Advances in Rice Blast Research. Dordrecht: Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-015-9430-1.

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Rao, K. Manibhushan. Sheath rot disease of rice. Delhi: Daya Pub. House, 1996.

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Fukuta, Yoshimichi, Casiana M. Vera Cruz, and Nobuya Kobayashi. Development and characterization of blast resistance using differential varieties in rice. Tsukuba, Japan: International Research Center for Agricultural Sciences, 2009.

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F. A. M. Nurul Islam. Socio-economic study of rice sheath blight disease. Comilla: Bangladesh Academy for Rural Development, 2005.

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Williams, Jean. An investigation into the basis of resistance in rice towards the rice blast pathogen, pyricularia oryzae, using tissue culture. Birmingham: University of Birmingham, 1986.

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Book chapters on the topic "Rice Rice blast disease"

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Koizumi, S., T. Ashizawa, and K. S. Zenbayashi. "Durable Control of Rice Blast Disease with Multilines." In Rice Blast: Interaction with Rice and Control, 191–99. Dordrecht: Springer Netherlands, 2004. http://dx.doi.org/10.1007/978-0-306-48582-4_23.

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Roumen, E. C. "Selection for Partial Resistance in Rice to Rice Blast." In Durability of Disease Resistance, 195–99. Dordrecht: Springer Netherlands, 1993. http://dx.doi.org/10.1007/978-94-011-2004-3_17.

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Yamaguchi, Isamu. "Overview on the Chemical Control of Rice Blast Disease." In Rice Blast: Interaction with Rice and Control, 1–13. Dordrecht: Springer Netherlands, 2004. http://dx.doi.org/10.1007/978-0-306-48582-4_1.

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Koga, H., and O. Nakayachi. "Cytology of Infection and Host Resistance in Rice Blast Disease." In Rice Blast: Interaction with Rice and Control, 155–61. Dordrecht: Springer Netherlands, 2004. http://dx.doi.org/10.1007/978-0-306-48582-4_18.

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Nemoto, Fumihiro, and Kiyoshi Ishiguro. "Computer Simulation Approaches for Rice Blast Disease Forecasting in Japan." In Rice Blast: Interaction with Rice and Control, 289–95. Dordrecht: Springer Netherlands, 2004. http://dx.doi.org/10.1007/978-0-306-48582-4_34.

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Kawata, Motoshige, Toshihiko Nakajima, Koichi Mori, Tetsuo Oikawa, and Shigeru Kuroda. "Genetic Engineering for Blast Disease Resistance in Rice, Using a Plant Defensin Gene from Brassica Species." In Rice Blast: Interaction with Rice and Control, 173–78. Dordrecht: Springer Netherlands, 2004. http://dx.doi.org/10.1007/978-0-306-48582-4_20.

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Notteghem, J. L. "Durable Resistance to Rice Blast Disease." In Durability of Disease Resistance, 125–34. Dordrecht: Springer Netherlands, 1993. http://dx.doi.org/10.1007/978-94-011-2004-3_10.

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Nishiguchi, M., M. Shimono, Y. Eguchi, H. Okuizumi, J. Yazaki, K. Nakamura, F. Fujii, et al. "Microarray Analysis of Gene Expression in Rice Treated with Probenazole, a Resistance Inducer, in Special Reference to Blast Disease." In Rice Blast: Interaction with Rice and Control, 145–54. Dordrecht: Springer Netherlands, 2004. http://dx.doi.org/10.1007/978-0-306-48582-4_17.

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Hyun Khang, Chang, and Barbara Valent. "Magnaporthe oryzae and Rice Blast Disease." In Cellular and Molecular Biology of Filamentous Fungi, 591–606. Washington, DC, USA: ASM Press, 2014. http://dx.doi.org/10.1128/9781555816636.ch37.

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Guimaraes, E. P., A. S. Prabhu, and O. P. Morais. "Selecting for Partial Resistance to Rice Blast in Brazilian Upland RICE." In Durability of Disease Resistance, 321. Dordrecht: Springer Netherlands, 1993. http://dx.doi.org/10.1007/978-94-011-2004-3_49.

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Conference papers on the topic "Rice Rice blast disease"

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Bragina O.A., O. A. "Identification of sources of blast resistance in rice." In Растениеводство и луговодство. Тимирязевская сельскохозяйственная академия, 2020. http://dx.doi.org/10.26897/978-5-9675-1762-4-2020-28.

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In recent years, the most dangerous and harmful rice disease - blast disease - has begun to spread in the rice-growing regions of the Krasnodar Territory. Using phytopathological methods, an assessment of the resistance of rice varieties and lines to blast disease was carried out. Against a natural infectious background, rice breeding materials are differentiated by the level of resistance and susceptibility to disease.
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Ramesh, S., and D. Vydeki. "Rice Blast Disease Detection and Classification Using Machine Learning Algorithm." In 2018 2nd International Conference on Micro-Electronics and Telecommunication Engineering (ICMETE). IEEE, 2018. http://dx.doi.org/10.1109/icmete.2018.00063.

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Yan, Lifei, and Jun Zhang. "Image segmentation of rice blast disease based on two-dimensional histogram in HSI space." In 2018 13th World Congress on Intelligent Control and Automation (WCICA). IEEE, 2018. http://dx.doi.org/10.1109/wcica.2018.8630477.

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Tian, Long, Zefu Wan, Dong Li, Jiale Jiang, Xia Yao, Qiang Cao, Yongchao Tian, Yan Zhu, Weixing Cao, and Tao Cheng. "Detecting Rice Blast Disease Using Model Inverted Biochemical Variables from Close-Range Reflectance Imagery of Fresh Leaves." In IGARSS 2018 - 2018 IEEE International Geoscience and Remote Sensing Symposium. IEEE, 2018. http://dx.doi.org/10.1109/igarss.2018.8519229.

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Agbulos, Ma Kristin, Yovito Sarmiento, and Jocelyn Villaverde. "Identification of Leaf Blast and Brown Spot Diseases on Rice Leaf with YOLO Algorithm." In 2021 IEEE 7th International Conference on Control Science and Systems Engineering (ICCSSE). IEEE, 2021. http://dx.doi.org/10.1109/iccsse52761.2021.9545153.

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Bavaskar, Anil, and Sanjivani G. Barde. "Automatic Classification of Brown Spot and Blast Diseases of Rice Using Vegetation Indices Based Segmentation." In International Conference on Science and Engineering for Sustainable Development. Infogain Publication, 2017. http://dx.doi.org/10.24001/ijaems.icsesd2017.120.

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Phadikar, Santanu, and Jyotirmoy Goswami. "Vegetation indices based segmentation for automatic classification of brown spot and blast diseases of rice." In 2016 3rd International Conference on Recent Advances in Information Technology (RAIT). IEEE, 2016. http://dx.doi.org/10.1109/rait.2016.7507917.

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Mynbayeva, D. O., B. N. Usenbekov, Zh K. Zhunusbayeva, A. K. Amirova, and H. A. Berkimbay. "RICE BLAST PROBLEMS IN KAZAKHSTAN." In «Breeding, seed production, cultivation technology and processing of agricultural crops». Federal State Budgetary Scientific Institution Federal Scientific Rice Centre, 2021. http://dx.doi.org/10.33775/conf-2021-354-356.

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Zhang, Hao, Qian-yu Jin, Rong-yao Chai, Hao Hu, and Ke-feng Zheng. "Monitoring Rice Leaves Blast Severity with Hyperspectral Reflectance." In 2010 2nd International Conference on Information Engineering and Computer Science (ICIECS). IEEE, 2010. http://dx.doi.org/10.1109/iciecs.2010.5678125.

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Sazzad, T. M. Shahriar, Ayrin Anwar, Mahiya Hasan, and Md Ismile Hossain. "An Image Processing Framework To Identify Rice Blast." In 2020 International Congress on Human-Computer Interaction, Optimization and Robotic Applications (HORA). IEEE, 2020. http://dx.doi.org/10.1109/hora49412.2020.9152912.

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