Application of Statistical Tools for Data Analysis and Interpretation in Rice Plant Pathology

doi:10.1016/j.rsci.2017.07.001

摘要/Abstract

. [J]. Rice Science, 2018, 25(1): 1-18.

图/表 2

参考文献 160

[1]	Abamu F J, Akinsola E A, Alluri K.1998. Applying the AMMI models to understand genotype-by-environment (GE) interactions in rice reaction to blast disease in Africa.Int J Pest Manag, 44(4): 239-245.
[2]	Adeyanju A, Little C, Yu J M, Tesso T.2015. Genome-wide association study on resistance to stalk rot diseases in grain sorghum.G3-Genes Genom Genet, 5(6): 1165-1175.
[3]	Adhikari T B, Mew T W, Teng P S.1994. Phenotypic diversity of Xanthomonas oryzae pv. oryzae in Nepal.Plant Dis, 78: 68-72.
[4]	Adhikari T B, Cruz C, Zhang Q, Nelson R J, Skinner D Z, Mew T W, Leach J E.1995. Genetic diversity of Xanthomonas oryzae pv. oryzae in Asia.Appl Environ Microb, 61(3): 966-971.
[5]	Adhikari T B, Mew T W, Leach J E.1999. Genotypic and pathotypic diversity in Xanthomonas oryzae pv. oryzae in Nepal.Phytopathology, 89(8): 687-694.
[6]	Ahn S W, Ou S H.1982. Quantitative resistance of rice blast disease.Phytopathology, 72(3): 279-282.
[7]	Analytis S.1973. Zur Methodik der Analyse von Epidemien Dargestellt am Apfelschorf (Venturia inaequalis(Cooke) Aderh.).Acta Phytomed, 1: 1-76.
[8]	Annicchiarico P.1997. Joint regression vs. AMMI analysis of genotypes environment interactions for cereals in Italy.Euphytica, 94(1): 53-62.
[9]	Austin M P, Orloci L.1975. Multivariate analysis in vegetation research.J Ecol, 68(1): 276.
[10]	Bastien M, Sonah H, François B.2014. Genome wide association mapping of Sclerotinia sclerotiorum resistance in soybean with a genotyping-by-sequencing approach.Plant Genome, 7(1): 1-13.
[11]	Becker H C, Leon J.1988. Stability analysis in plant breeding.Plant Breeding, 101(1): 1-23.
[12]	Berger R D, Mishoe J W.1976. GSMP simulation of several growth functions to describe epidemic progress.Proc Am Phytopathol Soc, 3: 217.
[13]	Bharadwaj C L, Singh B M.1983. The stability of resistance to Pyricularia oryzae Cav. in rice. Ind Phytopathol, 36: 422-426.
[14]	Bradbury P J, Zhang Z, Kroon D E, Casstevens T M, Ramdoss Y, Buckler E S.2007. TASSEL: Software for association mapping of complex traits in diverse samples.Bioinformatics, 23: 2633-2635.
[15]	Campbell C L, Madden L V, Pennypacker S P.1980. Structural characterization of bean root rot epidemics.Phytopathology, 70(2): 152-155.
[16]	Campbell C L, Madden L V.1990. Introduction to Plant Disease Epidemiology. New York: John Wiley & Sons.
[17]	Carlson G A.1969. Bayesian analysis of pesticide use. In: Proceedings of the American Statistic Association. Business and Economic Statistics Section: 411-416.
[18]	Carlson G A.1970. A decision theoretic approach to crop disease prediction and control.Am J Agric Econ, 52(2): 216-223.
[19]	Chiang K S, Huang Y T.2005. Analysis of the spatial pattern of rice leaf blast.Plant Prot Bull Taipei, 47(2): 129-142.
[20]	Choi W J.1987. A computer simulation model for rice leaf blast. Suweon: Korea Seoul National University.
[21]	Collett D.1991. Modelling Binary Data. London: Chapman & Hall.
[22]	Crossa J, Gauch H G J, Zobel R W.1990. Additive main effects and multiplicative interaction analysis of two international maize cultivar trials.Crop Sci, 30(3): 493-500.
[23]	Debibakas S, Rocher S, Garsmeur O, Toubi L, Roques D, D’hont A, Hoarau J Y, Davgrois J H.2014. Prospecting sugarcane resistance to sugarcane yellow leaf virus by genome-wide association.Theor Appl Genet, 127(8): 1719-1732.
[24]	de Silva N H, Gea L, Lowe R.2014. Genetic analysis of resistance to Pseudomonas syringae pv. actinidiae(Psa) in a kiwifruit progeny test: An application of generalised linear mixed models (GLMMs).Springer Plus, 3: 547.
[25]	Dewey D R, Lu K H.1959. A correlation and path-coefficient analysis of components of crested wheat grass seed production.Agron J, 51(9): 515-518.
[26]	Eberhart S A, Russell W A.1966. Stability parameters for comparing varieties.Crop Sci, 6(1): 36-40.
[27]	Eskridge K M.1995. Statistical analysis of disease reaction data using nonparametric methods.Hort Sci, 30(3): 478-480.
[28]	Ezuka A, Horino O.1974. Classification of rice varieties and Xanthomonas oryzae strains on the basis of their differential interaction.Bull Tokai Kinki Natl Agric Exp Stat, 27: 1-19. (in Japanese)
[29]	Faris M A, de A Lara M, de S Leao Veiga A F.1979. Stability of sorghum midge resistance.Crop Sci, 19(5): 577-580.
[30]	Fisher R A.1925. Statistical Methods for Research Workers. Edinburgh, UK: Oliver and Boyd: 239.
[31]	Fisher R A.1936. The use of multiple measurements in taxonomic problems.Ann Human Geset, 7(2): 179-188.
[32]	Flores F, Moreno M T, Martinez A, Cubero J I.1996. Genotype-environment interaction in faba bean: Comparison of AMMI and principal coordinate models.Field Crops Res, 47: 117-127.
[33]	Folman L B, Postma J, Veen J A.2003. Inability to find consistent bacterial biocontrol agents of Pythium aphanidermatum in cucumber using screens based on ecophysiological traits.Microbiol Ecol, 45(1): 72-87.
[34]	Forbes G A, Chacon M G, Kirk H G, Huarte M A, van Damme M, Distel S, Mackay G R, Stewart H E, Lowe R, Duncan J M, Mayton H S, Fry W E, Andrivon D, Ellisseche D, Pelie R, Platt H W, MacKenzie G, Tan T R, Colon L T, Budding D J, Lozoya-Saldana H, Harnandez-Vilchis A, Capezio S.2005. Stability of resistance to Phytophthora infestans in potato: An international evaluation.Plant Pathol, 54(3): 364-372.
[35]	Gabriel K R.1971. The biplot graphic display of matrices with application to principal component analysis.Biometrika, 58(3): 453-467.
[36]	Gao L, Turner M K, Chao S, James K, Anderson J A.2016. Genome-wide association study of seedling and adult plant leaf rust resistance in elite spring wheat breeding lines. PLoS One, doi.org/10.1371/journal.pone.0148671.
[37]	Garrett K A, Madden L V, Hughes G, Pfender W F.2004. New application of statistical tools in plant pathology.Phytopathology, 94(9): 999-1003.
[38]	Golinski P, Kacmarek Z, Kiccana I, Wisniewska H, Kaptur P, Kostecki M, Chelkowski J.2002. Fusarium head blight of common Polish winter wheat cultivars: Comparison of effects of Fusarium avenaceum and Fusarium culmorum on yield components.J Phytopathol, 150(3): 135-141.
[39]	Gu K, Tian D, Yang F, Wu L, Sreekala C, Wang D, Wang G L, Yin Z.2004. High resolution genetic mapping of Xa27(t), a new bacterial blight resistance gene in rice, Oryza sativa L.Theor Appl Genet, 108: 800-807.
[40]	Gunther H.1986. Simulation of the Epidemiology of Pyricularia oryzae in Rice: A First Attempt. Wageningen, the Netherlands Department of Theoretical Production Ecology, Wageningen Agricultural University: 80.
[41]	Gurung S, Mamidi S, Bonman J M, Xiong M, Brown-Guedira G, Adhikari T B.2014. Genome-wide association study reveals novel quantitative trait loci associated with resistance to multiple leaf spot diseases of spring wheat.PLoS One, 9(9): e108179.
[42]	Hannessy G G, de Milliano W A J, McLaren C G.1990. Influence of primary weather variables on sorghum leaf blight severity in southern Africa.Phytopathology, 80(10): 943-945.
[43]	Hashimoto A, Matsumoto K, Adachi T.1982. Some trials for forecasting rice leaf blast epidemics by application of the computer simulation.Annu Rep Soc Pl Prot North Jpn, 33: 12-14.
[44]	Hashimoto A, Hirano K, Matsumoto K.1984. Studies on the forecasting of rice blast development by application of the computer simulation.Sp Bull Fukushima Pref Agric Exp Stn, 2: 1-104.
[45]	Hau B, Kranz J.1977. A comparsion of different transformations of progress curves.Phytopathol Z, 88: 53-68.
[46]	Hazel L N.1943. The genetic basis for constructing selection indices.Genetics, 28(6): 476-490.
[47]	Hughes G, Madden L V.1995. Some methods allowing for aggregated patterns of disease incidence in the analysis of data from designed experiments.Plant Pathol, 44(6): 927-943.
[48]	Indira S, Rana B S, Reddy B B, Rao N G P.1983. Stability of host plant resistance to sorghum charcoal rot. Ind Phytopathol, 36(3): 473-479.
[49]	IRRI (International Rice Research Institute). 2002. Standard Evaluation System for Rice. Manila, the Philippines: International Rice Research Institute.
[50]	Ishiguro K.1986. Composing a simulation model for epidemics of rice panicle blast.J Agric Sci (Japan), 41: 491-495.
[51]	Ishiguro K, Hashimoto A.1988. Development of a simulation model for rice panicle blast epidemics: Composition of basic model.Bull Fukishima Pref Agric Res Stn, 27: 1-19.
[52]	Ishiguro K, Hashimoto A.1990. Development of a simulation model for rice [Oryza sativa] panicle blast epidemics: 2. Its verification and sensitive analysis. Bull Fukis Pref Agric Res Stn, 29: 15-70.
[53]	Jeger M J.1986. The potential of analytic compared with simulation approaches to modeling in plant disease epidemiology. In: Leonard K, Fry W. Plant Disease Epidemiology, Population Dynamics and Management. Macmillan,New York, USA: 255-281.
[54]	Jeger M J, van Den Bosch F, Madden L V, Holt J.1998. A model for analyzing plant-virus transmission characteristics and epdemic development.IMA J Math Appl Med, 15: 1-18.
[55]	Jeger M J.2000. Theory and plant epidemiology.Plant Pathol, 49(6): 651-658.
[56]	Jeger M J, Viljanen-Rollinson S L H.2001. The use of the area under disease progresscurve (AUDPC) to assess quantitative disease resistance in crop cultivars.Theor Appl Genet, 102(1): 32-40.
[57]	Jeger M J.2004. Analysis of disease progress as a basis of evaluating disease management practices.Annu Rev Phytopathol, 42: 61-82.
[58]	Johnson D A, Alldredge J R, Vakoch D L.1996. Potato late blight forecasting models for semiarid environment of south-central Washington.Phytopathology, 86(5): 480-484.
[59]	Jowett D, Browning J A, Haning B C.1974. Non-linear disease progress curves. In: Kranz J. Epidemics of Plant Diseases. Berlin: Springer-Verlag: 115-136.
[60]	Kleinn C, Jovel J, Hilje L.1999. A model for assessing the effect of distance on disease spread in crop fields.Crop Prot, 18(9): 609-617.
[61]	Koizumi S, Kato H.1990. Distribution of rice blast lesions and susceptible tissues in rice canopy.Bull Natl Agric Res Cent Tsukuba, 19: 1-15.
[62]	Kranz J, Mogk M, Stumpf A.1973. EPIVEN: Ein simulator fur Apfelschort.Z Pflanzenk Pflanze, 80: 181-187.
[63]	Kranz J.1974a. Comparison of epidemics.Ann Rev Phytopathol, 12(1): 355-374.
[64]	Kranz J.1974b. The role and scope of mathematical analysis and modeling in epidemiology. In: Kranz, J. Epidemics of Plant Diseases. Berlin, Springer-Verlag: 7-54.
[65]	Kranz J.1978. Comparative anatomy of epidemics. In: Horsfall J G, Cowling E B. Plant Disease. New York, USA: Academic Press: 33-62.
[66]	Leach J E, Rhoads M L, Vera Cruz C M, White F F, Mew T W.1992. Assessment of genetic diversity and population structure of Xanthomonas oryzae pv. oryzae with a repetitive DNA element.Appl Environ Microbiol, 58(7): 2188-2195.
[67]	Lebeda A, Jendrulek T.1987a. Application of cluster analysis for establishment of genetic similarity in gene-for-gene host parasite relationships.J Phytopathol, 119(2): 131-141.
[68]	Lebeda A, Jendrulek T.1987b. Cluster analysis as a method for evaluation of genetic similarity in specific host-parasite interaction ( Lectuca sativa-Bremia lactucae).Theor Appl Genet, 75(1): 194-199.
[69]	Lebeda A, Jendrulek T.1988. Application of methods of multivariate analysis in comparative epidemiology and research into field resistance.J Plant Dis Prot, 95(5): 495-505.
[70]	Lin C S, Bins M R, Lefkovitch L P.1986. Stability analysis: Where do we stand?Crop Sci, 26(5): 894-900.
[71]	Loreti S, Galleli A, Belisario A, Wajnberg E, Corazza L.2001. Investigation of genomic variability ofXanthomonas arboricola pv. juglandis by AFLP analysis.Eur J Plant Pathol, 107(6): 583-591.
[72]	Madden L V, Pennypacker S P.1979. Principal component analysis of tomato early blight epidemics.J Phytopathol, 95(4): 364-369.
[73]	Madden L V, Hughes G.1994. BBD: Computer software for fitting the beta binomial distribution to disease incidence data.Plant Dis, 78(5): 536-540.
[74]	Madden L V, Turechek W W, Nita M.2002. Evaluation of generalized linear mixed models for analyzing disease incidence data obtained in designed experiments.Plant Dis, 86(3): 316-325.
[75]	Madden L V.2006. Botanical epidemiology: Some key advances and its continuing role in disease management.Eur J Plant Pathol, 115(1): 3-23.
[76]	Madden L V, Paul P A.2011. Meta-analysis for evidence synthesis in plant pathology: An overview.Phytopathology, 101(1): 16-30.
[77]	Maddison A C, Holt J, Jeger M J.1996. Spatial dynamics of a monocyclic disease in perennial crop.Ecol Model, 88: 45-52.
[78]	Mahuku G, Peters R D, Platt H W, Daayf F.2000. Random amplified polymorphic DNA (RAPD) analysis of Phytophthora infestans isolates collected in Canada during 1994 to 1996.Plant Pathol, 49(2): 252-260.
[79]	Manibhushanrao K, Krishnan P.1991. Epidemiology of blast (EPIBLA): A simulation model and forecasting system for tropical rice in India. In: Rice Blast Modeling and Forecasting. Seoul, Korea Republic: International Rice Research Conference. 27-31.
[80]	Marchetti M A.1983. Dilatory resistance to rice blast in USA rice. Phytopathology, 73(5): 645-649.
[81]	Marchetti M A, Xianghua L.1986. Screening techniques to identify slow-blasting rice lines. In: Progress in Upland Rice Research. Manila, the Philippines: International Rice Research Institute: 317-326.
[82]	Maxwell A E.1961. Recent trends in factor analysis.J Roy Statis Soc A, 124: 49-59.
[83]	McCoy R E.1976. MYCOS, a computer simulator of ascochyta blight of Chrysanthemum.Proc Fla State Hort Soc, 89: 296-299.
[84]	Mersha Z, Hau B.2008. Effect of bean rust (Uromyces appendiculatus) epidemics of host dynamics of common beans(Phaseolus bulgaris). Plant Pathol, 57(4): 674-686.
[85]	Mila A L, Carriquiry A L.2004. Bayesian analysis in plant pathology.Phytopathology, 94(9): 1027-1030.
[86]	Mohammadi Z, Sabouri A, Mousanejad S.2015. Association analysis for traits associated with powdery mildew tolerance in barley (Hordeum vulgare L.) using AFLP markers. J Plant Mol Breeding, 3(1): 1-17.
[87]	Mohapatra N K, Mukherjee A K, Mishra A K, Nayak P.1997. Dispertion statistics and sequential sampling plan for rice blast disease.Oryza, 34: 367-371.
[88]	Mohapatra N K, Mukherjee A K, Suriya Rao A V, Nayak P.2008. Disease progress curves in the rice blast pathosystem compared with the logistic and Gompertz models.J Agric Biol Sci, 3(1): 28-37.
[89]	Mohapatra N K, Mukherjee A K, Suriya Rao A V, Jambhulkar N N, Nayak P.2014. Comparison of different parameters for evaluation of partial resistance to rice blast disease.Am J Exp Agric, 4(1): 58-79.
[90]	Mukherjee A K, De R N, Nayak P.1995. Identification of slow-blasting resistance in early rice.Oryza, 32(2): 101-103.
[91]	Mukherjee A K, Mohapatra N K, Nayak P.1996. The use of selection indices for identification of slow-blasting rice genotypes.Int J Trop Plant Dis, 14: 179-187.
[92]	Mukherjee A K, Nayak P.1997. Association among the components of slow-blasting resistance in rice.J Mycol Plant Pathol, 27: 175-183.
[93]	Mukherjee A K, Suriya Rao A V, Nayak P.1998. Stable slow-blasting resistance in rice.Ann Plant Prot Sci, 6(1): 11-18.
[94]	Mukherjee A K, Suriya Rao A V, De R N, Nayak P.1999. Genetic diversity among slow-blasting rice genotypes.Oryza, 36(1): 70-73.
[95]	Mukherjee A K, Mohapatra N K, Suriya Rao A V, Nayak P.2005. Effect of nitrogen fertilization on the expression of slow-blasting resistance in rice.J Agric Sci, 143: 385-393.
[96]	Mukherjee A K, Mohapatra N K, Nayak P.2010. Estimation of area under the disease progress curves in a rice blast pathosystem from two data points.Eur J Plant Pathol, 127(1): 33-39.
[97]	Mukherjee A K, Mohapatra N K, Nayak P.2013a. Identification of slow-blasting rice genotypes through multivariate analysis of components of resistance.J Agric Biol Sci, 8(2): 125-138.
[98]	Mukherjee A K, Mohapatra N K, Bose L K, Jambhulkar N N, Nayak P.2013b. Additive main effects and multiplicative interaction (AMMI) analysis of G × E interactions in rice-blast pathosystems to identify stable resistant genotypes.Afr J Agric Res, 8(44): 5492-5507.
[99]	Nayak D, Bose L K, Singh U D, Singh S, Nayak P.2008a. Measurement of genetic diversity of virulence in populations ofXanthomonas oryzae pv. oryzae in India. Commun Biom Crop Sci, 3(1): 16-28.
[100]	Nayak D, Bose L K, Singh S, Nayak P.2008b. Additive main effects and multiplicative interaction analysis of host-pathogen relationship in rice-bacterial blight pathosystem.Plant Pathol J, 24(3): 337-351.
[101]	Nayak P, Chakrabarti N K.1986. Stable resistance to bacterial blight disease in rice.Ann Appl Biol, 109(1): 179-186.
[102]	Nayak P, Reddy P R.1987. The pattern of bacterial leaf blight disease development and spread in rice.J Phytopathol, 119(3): 255-261.
[103]	Nelson S C.1995. STCLASS: Spatiotemporal distance class analysis software for the personal computer.Plant Dis, 79(6): 643-648.
[104]	Ngugi H K, Esker P D, Scherm H.2011. Meta-analysis to determine the effect of plant disease management measures: Review and case studies on soybean and apple.Phytopathology, 101(1): 31-41.
[105]	Noe J P, Barker K R.1985. Relation of within field spatial variation of plant parasitic nematode population densities and edaphic factors.Phytopathology, 75(2): 247-252.
[106]	Nutter F F W.2007. The role of plant disease epidemiology in developing successful integrated disease management programmes. In: Ciancio A, Mukerji G. General Concepts in Integrated Pest and Disease Management. Dordrecht, the Netherlands: Springer: 45-79.
[107]	Ochiai H, Horino O, Miyajima K, Kaku H.2000. Genetic diversity of Xanthomonas oryzae pv. oryzae strains from Sri Lanka.Phytopathology, 90(4): 415-421.
[108]	Onasanya A, Sere Y, Nwilene F, Abo M E, Akator K.2004. Reactions and resistance status of differential rice genotypes to rice yellow mottle virus, Genus Sobemovirus in Cote d’ Ivoire. Asian J Plant Sci, 3(6): 718-723.
[109]	Parlevliet J E.1979. Components of resistance that reduce the rate of epidemic development.Annu Rev Phytopathol, 17: 203-222.
[110]	Piepho H P.1999. Analyzing disease incidence data from designed experiments by generalized linear mixed models.Plant Pathol, 48(5): 668-674.
[111]	Rao C R.1952. Advanced Statistical Methods in Biometrical Research. New York: John Wiley and Sons, Inc.
[112]	Rao S A V, Mukherjee A K, Mohapatra N K, Nayak P.2007. Spatial distribution of rice blast disease under natural field epidemics.Res J Agric Biol Sci, 3(6): 615-620.
[113]	Rees R G, Thompson J P, Goward E A.1979. Slow-rusting and tolerance to rust in wheat: II. The progress and effects of epidemics of Puccinia recondite tritici in selected wheat cultivars.Aust J Agric Res, 30(3): 421-432.
[114]	Richards F J.1959. A flexible growth function for empirical use.J Exp Bot, 10(2): 290-301.
[115]	Richards F J.1969. The quantitative analysis of growth. In: Steward F C. Plant Physiology. New York, USA: Academic Press: 3-76.
[116]	Robinson J, Jalli M.1999. Sensitivity of resistance to net blotch of barley.J Phytopathol, 147(4): 235-241.
[117]	Rodriguez M, Gálvez G E.1975. Indications of partial resistance of rice to the fungus Pyricularia oryzae Cav. Int Biodeter Bull, 15(2): 218-219.
[118]	Sah D A, Madden L V.2004. Nonparametric analysis of ordinal data in designed factorial experiments.Phytopathology, 94(1): 33-43.
[119]	Sandland R L, McGilchrist C A.1979. Stochastic growth curve analysis.Biometrics, 35(1): 255-271.
[120]	Sanogo S, Yang X B.2004. Overview of selected multivariate statistical methods and their use in phytopatholgical research.Phytopathology, 94(9): 1004-1006.
[121]	Savary S, Willocquet L, Elazegui F A, Castilla N P, Teng P S.2000. Rice pest constraints in topical Asia: Quantification of yield losses due to rice pests in a range of production situations.Plant Dis, 84(3): 357-369.
[122]	Scherm H, Ngugi H K, Ojiambo P S.2006. Trends in theoretical plant epidemiology.Eur J Plant Pathol, 115: 61-73.
[123]	Schlosser I, Kranz J, Bonman J M.2000. Characterization of plant type and epidemiological development in the pathosystem “upland rice/rice blast” (Pyricularia grisea) by means of multivariate statistical methods. J Plant Dis Prot, 107(1): 12-32.
[124]	Schneider J H M, van den Boogert P H J F, Zadoks J C.1999. Exploring differential interactions betweenRhizoctonia solani AG 2-t isolates and tulip cultivars. Plant Dis, 83(5): 474-481.
[125]	Searle S R, Casella G, McCulloch C E.1992. Variance components. New York, USA: John Wiley Sons, Inc.
[126]	Shaner G, Finney R E.1977. The effect of nitrogen fertilization on the expression of slow-mildewing resistance in knox wheat.Phytopathology, 67: 1051-1056.
[127]	Shaw D V, Larson K D.1999. A Meta-analysis of strawberry yield response to replant soil fumigation with combinations of methyl Bromide-chloropicrin and four alternative systems.HortScience, 34(5): 839-845.
[128]	Shew B B, Beute M K, Campbell C L.1984. Spatial pattern of southern stem rot caused byScleritium riflsii in six North Carolina peanut fields. Phytopathology, 74(6): 730-735.
[129]	Shinada H, Yamamoto T, Sato H, Yamamoto E, Hori K, Yonemaru J, Sato T, Fujino K.2015. Quantitative trait loci for rice blast resistance detected in a local rice breeding population by genome-wide association mapping.Breeding Sci, 65(5): 388-395.
[130]	Shrum R D.1975. Simulation of wheat stripe rust (Puccinia striiformis West) using EPIDEMIC, a flexible plant disease simulator. Prog Rep Pa Agric Exp Stn: 347.
[131]	Singh R K.1972. Selection index: Yes or No?Vistas Pl Sci, 2: 111-140.
[132]	Singh R K, Chaudhary B D.1985. Biometrical Methods in Quantitative Genetic Analysis. New Delhi Ludhiana: Kalyani Publishers: 318.
[133]	Singh S P, Jetwani M G, Rana B S, Rao N G P.1978. Stability of host plant resistance to sorghum shootfly,Antherigona soccata(Rondam). Ind J Ent, 40: 376-383.
[134]	Smith H F.1936. A discriminant function for plant selection.Ann Hum Genet, 7(3): 240-250.
[135]	Sneath P H A, Sokal R R.1973. Numerical Taxonomy: The Principles and Practice of Numerical Classification. San Francisco: W H Freeman and Company: 573.
[136]	Snedecor G W, Cochran W G.1976. Statistical Methods. 6th edn. Ames: Iowa State University Press.
[137]	Sprent P, Smeeton N C.2001. Applied Nonparametric Statistical Methods. Boca Raton, FL: Chapman Hall.
[138]	Thompson J P, Rees R G.1979. Pattern analysis in epidemiological evaluation of cultivar resistance.Phytopathology, 69(6): 545-549.
[139]	Torres C Q.1986. Effect of plant age on the expression of resistance to Pyricularia oryzae Cav. in upland rice varieties. Los Banos, Laguna, the Philippines: University of the Philippines: 82.
[140]	Tukey J W.1977. Exploratory data analysis.Addison-Wesley Pub Co., 26: 163-182.
[141]	van den Bosch F, Zadoks J C, Metz J A J.1988. Focus expansion in plant disease: I. The constant rate focus expansion.Phytopathology, 78: 55-58.
[142]	van der Plank J E. 1963. Plant Diseases: Epidemics and Control. New York: Academic Press: 349.
[143]	Villareal R L, MacKenzie D R, Nelson R R, Coffman W R.1980. Apparent infection rates of Pyricularia oryzae on different rice cultivars. Phytopathology, 70(12): 1224-1226.
[144]	Waggoner P E, Horsfall J G.1969. EPIDEM: A simulator of plant disease written for a computer. Connecticut. Agricultural Experimental Bulletin, USA: 698.
[145]	Waggoner P E, Horsfall J G, Lukens R J.1969. Epimay: A Simulator of Southern Corn Leaf Blight. New Haven, USA: Bulletin of the Connecticut Agricultural Experiment Station.
[146]	Wang C H, Yang Y L, Yuan X P, Xu Q, Feng Y, Yu H Y, Wang Y P, Wei X H.2014. Genome-wide association study of blast resistance in indica rice. BMC Plant Biol, 14(1): 311.
[147]	Wang Z M, Mackill D J, Bonman J M.1989. Inheritance of partial resistance to blast in indica rice cultivars. Crop Sci, 29(4): 848-853.
[148]	Williams W T.1976. Pattern analysis in agricultural science. Amsterdam, Oxford and New York: CSIRO, Melbourne and Elsevier, 331.
[149]	Xu X M, Ridout M S.1998. Effects of initial epidemic conditions, sporulation rate, and spore dispersal gradient on the spatio-temporal dynamics of plant disease epidemics.Phytopathology, 88(10): 1000-1012.
[150]	Xu X M, Ridout M S.2001. Effects of prevailing wind direction on spatial statistics of plant disease epidemics.J Phytopathol, 149: 155-166.
[151]	Xu X M.2006. Modeling and interpreting disease progress in time. In: Cooke B M, Gareth Jones D, Kaye B. The Epidemiology of Plant Disease. Dordrecht, the Netherlands: Springer: 215-238.
[152]	Yan W K, Hunt L A, Sheng Q L, Szlavnics Z.2000. Cultivar evaluation and mega-environment investigation based on the GGE biplot.Crop Sci, 40(3): 597-605.
[153]	Yang R C.2008. Why is MIXED analysis underutilised?Can J Plant Sci, 88: 563-567.
[154]	Yang R C.2010. Towards understansing and use of mixed-model analysis of agricultural experiments.Can J Plant Sci, 90(5): 605-630.
[155]	Yashitola J, Krishnaveni D, Reddy A P K, Sonti R V.1997. Genetic diversity within the population of Xanthomonas oryzae pv. oryzae in India.Phytopathology, 87(7): 760-765.
[156]	Yi S Y, Lee H Y, Kim H A, Lim C J, Kim W B, Jang H A, Jeon J S, Kwon S Y.2013. Microarray analysis of bacterial blight resistance 1 mutant rice infected with Xanthomonas oryzae pv. oryzae.Plant Breeding Biotechnol, 1(4): 354-365.
[157]	Yuen J.2003. Bayesian approaches to plant disease forecasting.Plant Health Progress, doi: 10.1094/PHP.2003-1113-06-RV.
[158]	Yuen J E, Hughes G.2002. Bayesian analysis of plant disease prediction.Plant Pathol, 51: 407-412.
[159]	Zadoks J C, Schein R D.1979. Epidemiology and Plant Disease Management. Oxford: Oxford University Press: 427.
[160]	Zhu L, Carlin B P, English P, Scalf R.2015. Hierarchical modeling of spatio-temporally misaligned data: Relating traffic density to pediatric asthma hospitalizations.Environmetrics, 11: 43-61.

RichHTML

PDF

可视化

摘要/Abstract

引用本文

使用本文

图/表 2

参考文献 160

相关文章 0

编辑推荐

Metrics