المؤلفون: Quiroz Ojeda, Claudia Milena, Salazar González, Claudia Elizabeth, Betancourth García, Carlos Arturo

المصدر: Revista Facultad de Ciencias Básicas; Vol. 18 No. 1 (2022); 61 - 74 ; Revista Facultad de Ciencias Básicas; Vol. 18 Núm. 1 (2022); 61 - 74 ; 2500-5316 ; 1900-4699

مصطلحات موضوعية: Diseases, Anastomosis Groups, Genetic and Pathogenic Variability, Management and Control of Rhizoctonia, enfermedades, grupos de anastomosis, variabilidad genética y patogénica, manejo y control de Rhizoctonia, doenças, grupos de anastomose, variabilidade genética e patogênica, manejo e controle de Rhizoctonia

وصف الملف: application/pdf; text/xml

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Wu et al., “Arbuscular mycorrhizal fungi for vegetable (VT) enhance resistance to Rhizoctonia solani in watermelon by alleviating oxidative stress”, Biological control, vol. 152, n.° 104433, pp. 1–11, 2021, doi:https://www.mdpi.com/2223-7747/11/13/1780; A. S. Gondal, A. Rauf and F. Naz, “Anastomosis Groups of Rhizoctonia solani associated with tomato foot rot in Pothohar Region of Pakistan”, Sci Rep, vol. 9, n.° 3910, pp. 1-12, 2019, https://www.nature.com/articles/s41598-019-40043-5; A. Manasikana, S. Sulandari and A. Priyatmojo, “Diversity of Rhizoctonia solani Isolates of Rice Varieties of Ciherang, IR 64, Mekongga, and Situ Bagendit”, Jurnal Fitopatologi Indonesia, vol. 17, n.° 4, pp. 141–150, 2021, https://www.researchgate.net/publication/356586466_Diversity_of_Rhizoctonia_solani_Isolates_of_Rice_Varieties_of_Ciherang_IR_64_Mekongga_and_Situ_Bagendit; S. D. Desvani, I. B. Lestari, H. R. Wibowo, S. Supyani, S. H. Poromarto and H. Hadiwiyono, “Morphological characteristics and virulence of Rhizoctonia solani isolates collected from some rice production areas in some districts of Central Java”, AIP Conf Proc, vol. 2014, n.° 020068, pp. 1–8, 2018, https://doi.org/10.1063/1.5054472; S. Mannai, H. Jabnoun-Khiareddine , B. Nasraoui and M. Daami-Remadi, “Rhizoctonia Root Rot of Pepper (Capsicum annuum): Comparative Pathogenicity of Causal Agent and Biocontrol Attempt using Fungal and Bacterial Agents”, J Plant Pathol Microbiol, vol. 09, n.° 02, pp. 1–9, 2018, doi:10.4172/2157-7471.1000431; O. O. Ajayi-Oyetunde and C. A. Bradley, “Identification and Characterization of Rhizoctonia Species Associated with Soybean Seedling Disease”, Plant Dis, vol. 104, n.° 4, pp. 520–533, 2017, doi:10.1094/PDIS-06-16-0810-RE; M. Hashi and T. Kareem, “Effects of Biological Soil Disinfestation on Rhizoctonia solani Causal Agent of Potato Black Scarf and Stem Canker Disease”, Indian Journal of Ecology, vol. 47, n.° 10, pp. 214–219, 2020.; E. M. Inokuti, A. Reis, P. C. Ceresini, M. P. S. Câmara and S. J. Michereff, “Diversity and pathogenicity of anastomosis groups of Rhizoctonia associated with potato stem canker and black scurf diseases in Brazil”, Eur J Plant Pathol, vol. 153, n.° 4, pp. 1333–1339, 2019, doi:10.1007/s10658-018-01627-5; S. Gush, N. Muzhinji, M. Truter and J. E. Van der Waals, “First report of Rhizoctonia solani AG 2-2IIIB causing elephant hide on potato tubers in South Africa”, Plant Dis, vol. 103, n.° 7, p. 1776, 2019, doi:10.1094/PDIS-10-18-1850-PDN; E. Chavarro-Mesa, N. Herrera-Blanco, C. Beltrán-Acosta, A. Cotes-Prado and J. Ángel-Díaz, “Genetic diversity of Rhizoctonia solani AG-3PT, the etiological cause of stem canker and black scurf in Colombian potatoes”, Ciencia Tecnología Agropecuaria, vol. 22, n.° 3, pp. 1-24, 2021, doi:10.21930/RCTA.VOL22_NUM3_ART:1888; A. N. Al-Abedy, F. A. Al-Fadhal, M. H. Karem, Z. Al-Masoudi and S. A. AL-Mamoori, “Genetic variability of different isolates of Rhizoctonia solani Kühn isolated from iranian imported potato tubers (Solanum tuberosum L.)”, International Journal of Agricultural and Statistical Sciences, vol. 14, n.° 2, pp. 587–598, 2018.; I. Kotba, M. Achouri, A. Benbouazza, E. H. Achbani, A. O. Touhami and A. Douira, “Morphological, Pathogenic and Molecular Characterisation of Rhizoctonia solani Strains Isolated from Potato”, Annu Res Rev Biol, vol. 29, n.° 4, pp. 1–16, 2018, doi:10.9734/arrb/2018/44926; T. Misawa and D. Kurose, “Anastomosis group and subgroup identification of Rhizoctonia solani strains deposited in NARO Genebank, Japan”,Journal of General Plant Pathology, vol. 85, n.°4, pp. 282–294, 2019, doi:10.1007/s10327-019-00848-8; A. Banerjee et al., “First report of Rhizoctonia solani AG-2-2 IV causing large patch disease of Japanese lawn grass in India,” Journal of Plant Pathology, vol. 102, n.° 4, pp. 1-4, 2020, doi:10.1007/s42161-020-00634-y; A. Garibaldi, G. Tabone, D. Bertetti and M. L. Gullino, “First report of Rhizoctonia solani AG-4 HG-I causing crown rot on Abelmoschus manihot in Italy”, Journal of Plant Pathology, vol. 102, n.° 1303, p. 1303, 2020, doi:10.1007/s42161-020-00588-1; A. Barreto, S. Paulus, M. Varrelmann and A. K. Mahlein, “Hyperspectral imaging of symptoms induced by Rhizoctonia solani in sugar beet: comparison of input data and different machine learning algorithms”, Journal of Plant Diseases and Protection, vol. 127, n.° 4, pp. 441–451, 2020, doi:10.1007/s41348-020-00344-8; M. Batnini et al., “The alternative oxidase pathway is involved in optimizing photosynthesis in Medicago truncatula infected by Fusarium oxysporum and Rhizoctonia solani”, Physiol Plant, vol. 169, n.° 4, pp. 600–611, 2020, doi:10.1111/ppl.13080; Y. Zhao, N. Yang, Y. Deng, K. Tao, H. Jin and T. Hou, “Mechanism of Action of Novel Pyrazole Carboxamide Containing a Diarylamine Scaffold against Rhizoctonia solani”, J Agric Food Chem, vol. 68, n.° 40, pp. 11068–11076, 2020, doi:10.1021/acs.jafc.9b06937; X. Cheng et al., “Fungicide SYP-14288 inducing multidrug resistance in Rhizoctonia solani”, Plant Dis, vol. 104, n.° 10, pp. 2563–2570, 2020, doi:10.1094/PDIS-01-20-0048-RE; C. Betancourth, B. Sañudo, C. Flórez and C. 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Bonotto, “Pesquisa documental na pesquisa qualitativa: conceitos e caracterização”, Revista de Investigaciones UNAD, vol. 14, n.° 2, pp. 55–73, 2015.; P. Cadena-Iñiguez, R. Rendón-Medel, J. Aguilar-Ávila, E. Salinas-Cruz, F. D. R. De la Cruz-Morales and D. Ma. Sangerman-Jarquín, “Métodos cuantitativos, métodos cualitativos o su combinación en la investigación: un acercamiento en las ciencias sociales”, Rev Mex De Cienc Agric, vol. 8, n.° 7, pp. 1603–1617, 2017, doi:10.29312/remexca.v8i7.515; A. Garibaldi, G. Tabone, I. Luongo and M. L. Gullino, “First report of Rhizoctonia solani AG 2-1 causing crown rot on alcea rosea in Italy”, Plant Disease, vol. 105, n.° 3, p. 707, 2021, doi:10.1094/PDIS-07-20-1635-PDN; M. Mori, T. Bannai and T. Misawa, “First report of leaf blight and petiole rot of carrot caused by Rhizoctonia solani AG-1 IB”, Journal of General Plant Pathology, pp. 1–4, 2020, doi:10.1007/s10327-020-00966-8; T. Wallon, A. Sauvageau and H. van der Heyden, “Detection and quantification of Rhizoctonia solani and Rhizoctonia solani AG1-IB causing the bottom rot of lettuce in tissues and soils by multiplex qPCR”, Plants, vol. 10, n.° 57, pp. 1–17, 2021, doi:10.3390/plants10010057; S. T. Koike, H. Stanghellini and A. Burkhardt, “First report of crown rot caused by Rhizoctonia solani AG 2-1 on broccoli rabe in Arizona”, Plant Disease, vol. 104, no. 11, p. 3079, 2020, doi:10.1094/PDIS-03-20-0514-PDN; S. Yang et al.,“Anastomosis Group and Pathogenicity of Rhizoctonia solani Associated with Stem Canker and Black Scurf of Potato in Heilongjiang Province of China”,American Journal of Potato Research,vol. 94, no. 2, pp. 95–104, 2017, doi:10.1007/s12230-016-9535-3; M. Wei, A. Wang, Y. Liu, L. Ma, X. Niu and A. Zheng, “Identification of the Novel Effector RsIA_NP8 in Rhizoctonia solani AG1 IA That Induces Cell Death and Triggers Defense Responses in Non-Host Plants”, Front Microbiol, vol. 11, no. 1115, pp. 1–12, 2020, doi:10.3389/fmicb.2020.01115; M. Aydin and F. Ünal, “Anastomosis Groups and Pathogenicity of Rhizoctonia solani Kühn Isolates Isolated from Pistachio (Pistacia vera L.) Saplings in Siirt Province, Turkey”, Turk Tarim Arast Derg, vol. 8, no. 1, pp. 18–26, 2021, doi:10.19159/tutad.781041; Z. Tiru, M. Sarkar, A. Chakraborty, A. Pal and P. Mandal, “Effect of different vegetable-grains media on variability in mycelial growth pattern and sclerotia formation of Rhizoctonia solani”, J Adv Sci Res, vol. 12, no. 1, pp. 295–300, 2021.; Z. Zhang et al., “Genome sequence of Rhizoctonia solani Anastomosis Group 4 strain Rhs4ca, a widespread pathomycete in field crops”, Molecular Plant-Microbe Interactions, vol. 34, no. 7, pp. 826-829, 2021, DOI: https://doi.org/10.1094/MPMI-12-20-0362-A; S. Takooree et al., “First report of black scurf caused by Rhizoctonia solani AG-3 on potato tubers in Mauritius”, Plant Disease, vol. 105, no. 1, p. 213, 2021, doi:10.1094/PDIS-06-20-1183-PDN; S. W. Budiarti, R. Lukman, C. Sumardiyono, A. Wibowo and A. Priyatmojo, “Effect of photoperiod on the cultural morphology of Rhizoctonia solani isolates of maize from Yogyakarta and Central Java, Indonesia”, Biodiversitas, vol. 20, no. 7, pp. 2028–2038, 2019, DOI: https://doi.org/10.13057/biodiv/d200732; P. Patidar, G. K. Awadhiya and K. P. Patil, “Assessing the effects of varied temperature, pH and wave length of light on the growth and sclerotial formation of Rhizoctonia solani Kühn”, Agriculture Update, vol. 12, no. 7, pp. 1866–1873, 2017, doi:10.15740/has/au/12.techsear(7)2017/1866-1873; L. Iradukunda, Y.-P. Wang, O. Nkurikiyimfura, T. Wang, L.-N. Yang and J. Zhan, “Establishment and Application of a Multiplex PCR Assay for the Rapid Detection of Rhizoctonia solani Anastomosis Group (AG)-3PT, the Pathogen Causing Potato Black Scurf and Stem Canker”, Pathogens, vol. 11, n.° 627, pp. 1-11, 2022, doi:10.3390/pathogens11060627; A. L. Salamone and P. A. Okubara, “Real-time PCR quantification of Rhizoctonia solani AG-3 from soil samples”, J Microbiol Methods, vol. 172, n.° 105914, pp. 1-8, 2020, doi:10.1016/j.mimet.2020.105914; A. Khaeruni, T. Wijayanto, M. H. Musa, M. Rahayu, A. Rahman and V. N. Satrah, “Effectiveness of the composition of bokashi organic materials on the ability of biofresh biological agents in inducing resistance of three maize varieties to sheath blight disease (Rhizoctonia solani)”, IOP Conf Ser Earth Environ Sci, vol. 454, no. 012150, pp. 1-8, 2020, doi:10.1088/1755-1315/454/1/012150; S. Mohammadi, E. Shahabi and A. Kasraian, “Effect of endomycorrhiza fungi Glomus spp. on induction of resistance in potato plants against Rhizoctonia solani”,Indian Phytopathol, vol.73, no. 2, pp. 213–217, 2020, doi:10.1007/s42360-020-0207-0; M. Ebrahimi-Zarandi, G. Shahidi Bonjar, R. Roohallah Saberi, M. El-Shetehy, I. Saadoun and E. Barka, “Exploring two streptomyces species to control Rhizoctonia solani in tomato”, Agronomy, vol. 11, no. 1384, 2021, doi:10.3390/agronomy11071384; G. Bonanomi et al., “Decomposition and organic amendments chemistry explain contrasting effects on plant growth promotion and suppression of Rhizoctonia solani damping off”, PLoS One, vol. 15, no. 4, pp. 1–20, 2020, doi:10.1371/journal.pone.0230925; S. Wei et al., “Molecular level changes during suppression of Rhizoctonia solani growth by humic substances and relationships with chemical structure”, Ecotoxicol Environ Saf, vol. 209, no. 71, p. 111749, 2021, doi:10.1016/j.ecoenv.2020.111749; T. Hussain, A. Khan and M. A. Khan, “Biocontrol of Soil Borne Pathogen of Potato Tuber Caused by Rhizoctonia solani through Biosurfactant based Bacillus strain”, J Nepal Agric Res Counc, vol. 7, pp. 54–66, 2021, doi:10.3126/jnarc.v7i1.36921; A. A. Heflish, A. Abdelkhalek, A. A. Al-Askar and S. I. Behiry, “Protective and curative effects of Trichoderma asperelloides Ta41 on tomato root rot caused by Rhizoctonia solani Rs33”, Agronomy, vol. 11, no. 1162, pp. 1-17, 2021, doi:10.3390/agronomy11061162; C. Garrido-Flores, C. Cedano-Saavedra, M. Delgado-Junchaya and Z. Neira-Sánchez, “Actividad micoparasítica de nueve aislamientos de diferentes cepas de Trichoderma sp. sobre Rhizoctonia solani en frejol Caupí (Vigna unguiculata L.)”, TAYACAJA, vol. 4, no. 2, pp. 59–65, 2021, doi:10.46908/tayacaja.v4i2.172; M. Rupesh Sharma, “Effect of Different Concentration and Duration of Chemical Treatment on the Germination and Growth of Sclerotia of Rhizoctonia Solani Kuhn”, vol.7, n.° 4, pp. 202-204, 2022. ISSN No:-2456-2165; Y. Liu, A. Qi, M. E. Haque, M. Z. R. Bhuiyan and M. F. R. Khan, “Combining penthiopyrad with azoxystrobin is an effective alternative to control seedling damping-off caused by Rhizoctonia solani on sugar beet”, Crop Protection, vol. 139, n.° 105374, pp. 1-6, 2021, doi:10.1016/j.cropro.2020.105374; Y. Liu, A. Qi and M. Khan, “Age-Dependent Resistance to Rhizoctonia solani in Sugar Beet,” Plant Dis, vol. 103, n.° 9, pp. 2322–2329, 2019, doi:10.1094/PDIS-11-18-2001-RE; https://revistas.unimilitar.edu.co/index.php/rfcb/article/view/6523

الاتاحة: https://revistas.unimilitar.edu.co/index.php/rfcb/article/view/6523

المؤلفون: Aqleem Abbas, Amjad Ali, Azhar Hussain, Abdulwahed Fahad Alrefaei, Syed Atif Hasan Naqvi, Muhammad Junaid Rao, Iqra Mubeen, Tahir Farooq, Fatih Ölmez, Faheem Shehzad Baloch

المصدر: Plants; Volume 12; Issue 13; Pages: 2515

مصطلحات موضوعية: phylogeny, genetic diversity, anastomosis groups, grain legumes, forage legumes, Rhizoctonia solani

جغرافية الموضوع: agris

وصف الملف: application/pdf

Relation: Plant Genetics, Genomics and Biotechnology; https://dx.doi.org/10.3390/plants12132515

الاتاحة: https://doi.org/10.3390/plants12132515

المؤلفون: Aqleem Abbas, Xiangling Fang, Shehzad Iqbal, Syed Atif Hasan Naqvi, Yasir Mehmood, Muhammad Junaid Rao, Zeshan Hassan, Roberto Miño Ortiz, Alaa Baazeem, Mahmoud Moustafa, Sulaiman Alrumman, Sally Negm

المصدر: Genes, Vol 13, Iss 2417, p 2417 (2022)

مصطلحات موضوعية: soybean, R. solani, anastomosis groups, distribution, genetic diversity, phylogeny, Genetics, QH426-470

Relation: https://www.mdpi.com/2073-4425/13/12/2417; https://doaj.org/toc/2073-4425; https://doaj.org/article/6a170aa5280343428232245a7392af9f

الاتاحة: https://doi.org/10.3390/genes13122417
https://doaj.org/article/6a170aa5280343428232245a7392af9f

المؤلفون: Erper, Ismail, Ozer, Goksel, Kalendar, Ruslan, Avci, Sirin, Yildirim, Elif, Alkan, Mehtap, Turkkan, Muharrem

المساهمون: Institute of Biotechnology, Crop Science Research Group, Department of Agricultural Sciences

مصطلحات موضوعية: Genetics, developmental biology, physiology, red cabbage, Rhizoctonia spp, anastomosis groups, iPBS, pathogenicity

وصف الملف: application/pdf

Relation: Funding: This study was founded by the Research and Development Unit (BAP) of Ondokuz Mayis University with the project no PYO.ZRT.1904.18.015, and by the Science Committee of the Ministry of Education and Science of the Republic of Kazakhstan (grant no. AP08855353) for RK.; Erper , I , Ozer , G , Kalendar , R , Avci , S , Yildirim , E , Alkan , M & Turkkan , M 2021 , ' Genetic diversity and pathogenicity of Rhizoctonia spp. isolates associated with red cabbage in Samsun (Turkey) ' , Journal of fungi , vol. 7 , no. 3 , 234 . https://doi.org/10.3390/jof7030234; ORCID: /0000-0003-3986-2460/work/91248656; http://hdl.handle.net/10138/328281; 0dab513b-946e-4869-a341-80f8bd1e94a3; 000633761900001

الاتاحة: http://hdl.handle.net/10138/328281

المؤلفون: Pascual, C. B., Toda, T., Raymondo, A. D., Hyakumachi, M.

المصدر: Journal Article

مصطلحات موضوعية: Anastomosis groups, Cluster analysis, PCR-RFLP analysis, Rhizoctonia solani, Zea mays

Relation: https://www.ukdr.uplb.edu.ph/journal-articles/3351

الاتاحة: https://www.ukdr.uplb.edu.ph/journal-articles/3351

المؤلفون: Ismail Erper, Goksel Ozer, Ruslan Kalendar, Sirin Avci, Elif Yildirim, Mehtap Alkan, Muharrem Turkkan

المصدر: Journal of Fungi; Volume 7; Issue 3; Pages: 234

مصطلحات موضوعية: red cabbage, Rhizoctonia spp., anastomosis groups, iPBS, pathogenicity

جغرافية الموضوع: agris

وصف الملف: application/pdf

Relation: Fungal Pathogenesis and Disease Control; https://dx.doi.org/10.3390/jof7030234

الاتاحة: https://doi.org/10.3390/jof7030234

المؤلفون: Lanoiselet, V. M., Cother, E. J., Cother, N. J., Ash, G. J., Harper, J. D. I.

المصدر: Mycologia, 2005 Jan 01. 97(1), 77-83.

URL الوصول: https://www.jstor.org/stable/3762198

المؤلفون: Ceresini, Paulo C., Shew, H. David, Vilgalys, Rytas J., Cubeta, Marc A.

المصدر: Mycologia, 2002 May 01. 94(3), 437-449.

URL الوصول: https://www.jstor.org/stable/3761778

المؤلفون: Gonzalez, Dolorez, Carling, Donald E., Kuninaga, Shiro, Vilgalys, Rytas, Cubeta, Marc A.

المصدر: Mycologia, 2001 Nov 01. 93(6), 1138-1150.

URL الوصول: https://www.jstor.org/stable/3761674

المؤلفون: Pope, Elizabeth J., Carter, Dee A.

المصدر: Mycologia, 2001 Jul 01. 93(4), 712-719.

URL الوصول: https://www.jstor.org/stable/3761825

المؤلفون: Yang, X. B.

المصدر: Weed Science, 2001 Mar 01. 49(2), 241-247.

URL الوصول: https://www.jstor.org/stable/4046510

المؤلفون: Salazar, Oscar, Julián, María C., Hyakumachi, Mitsuro, Rubio, Victor

المصدر: Mycologia, 2000 May 01. 92(3), 505-509.

URL الوصول: https://www.jstor.org/stable/3761509

المؤلفون: Sen, Robin, Hietala, Ari M., Zelmer, Carla D.

المصدر: The New Phytologist, 1999 Nov 01. 144(2), 331-341.

URL الوصول: https://www.jstor.org/stable/2588777

المؤلفون: Salazar, Oscar, Julián, María C., Keijer, Jaap, Rubio, Victor

المصدر: Mycologia, 1999 May 01. 91(3), 459-467.

URL الوصول: https://www.jstor.org/stable/3761346

المؤلفون: Seifert, W. F., Hoogenhout, J., de Man, B. M.

المصدر: Radiation Research, 1997 Mar 01. 147(3), 354-361.

URL الوصول: https://www.jstor.org/stable/3579344

المؤلفون: Mihan, A. Alizadeh, Aghajani, M.A.

المصدر: Journal of Plant Pathology, 2016 Jul 01. 98(2), 211-218.

URL الوصول: https://www.jstor.org/stable/44280439

المؤلفون: Basseto, Marco Antonio, Vicentini, Samara Nunes Campos, Gasparotto, Luadir, Ceresini, Paulo Cezar

المساهمون: Universidade Estadual Paulista (UNESP)

مصطلحات موضوعية: Anastomosis groups, Rhizoctonia solani, Ribosomal DNA, Thanatephorus cucumeris

وصف الملف: 285-294

Relation: Summa Phytopathologica; http://dx.doi.org/10.1590/0100-5405/185131; Summa Phytopathologica, v. 45, n. 3, p. 285-294, 2019.; http://hdl.handle.net/11449/199556; S0100-54052019000300285; 2-s2.0-85073988505; S0100-54052019000300285.pdf; 2635092058300854; orcid:0000-0003-2381-2792

الاتاحة: http://hdl.handle.net/11449/199556
https://doi.org/10.1590/0100-5405/185131

المؤلفون: Infante Martínez, Danay, Martínez Coca, Benedicto

المصدر: Revista de Protección Vegetal; Vol. 34 No. 2 (2019): mayo-agosto ; Revista de Protección Vegetal; Vol. 34 Núm. 2 (2019): mayo-agosto ; 2224-4697 ; 1010-2752

مصطلحات موضوعية: Antagonism, anastomosis groups, R. solani, Trichoderma, antagonismo, grupos de anastomosis

وصف الملف: text/html; application/pdf; application/zip; application/epub+zip

Relation: http://revistas.censa.edu.cu/index.php/RPV/article/view/1031/1336; http://revistas.censa.edu.cu/index.php/RPV/article/view/1031/1345; http://revistas.censa.edu.cu/index.php/RPV/article/view/1031/1353; http://revistas.censa.edu.cu/index.php/RPV/article/view/1031/1361; http://revistas.censa.edu.cu/index.php/RPV/article/view/1031

الاتاحة: http://revistas.censa.edu.cu/index.php/RPV/article/view/1031

المؤلفون: ÜNAL, Filiz, DOLAR, Sara

المصدر: Volume: 63, Issue: 2 5-15 ; 0406-3597 ; 1308-8122 ; Plant Protection Bulletin ; Bitki Koruma Bülteni

مصطلحات موضوعية: anastomosis groups, Rhizoctonia, neighbour-joining, soil, wheat, akrabalık ilişkileri, anastomosis grup, buğday, toprak, Phytopathology, Fitopatoloji

وصف الملف: application/pdf

Relation: https://dergipark.org.tr/tr/download/article-file/3005934; https://dergipark.org.tr/tr/pub/bitkorb/issue/78135/1263982

الاتاحة: https://dergipark.org.tr/tr/pub/bitkorb/issue/78135/1263982
https://doi.org/10.16955/bitkorb.1263982

المؤلفون: Matsumoto, M., Cuong, H.V.

المصدر: Journal of Plant Pathology, 2014 Jul 01. 96(2), 377-380.

URL الوصول: https://www.jstor.org/stable/24332218