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2013
A. P. Viana, Riaz, S., and Walker, M. A., Genetic dissection of agronomic traits within a segregating population of breeding table grapes, vol. 12, pp. 951-964, 2013.
Amerine MA and Ough CS (1980). Methods for Analysis of Musts and Wines. Wiley and Sons, New York.   Ballester J, Socias I, Company R, Arus P, et al. (2001). Genetic mapping of a major gene delaying blooming in almond. Plant Breed. 120: 268-270. http://dx.doi.org/10.1046/j.1439-0523.2001.00604.x   Barker CL, Donald T, Pauquet J, Ratnaparkhe MB, et al. (2005). Genetic and physical mapping of the grapevine powdery mildew resistance gene, Run1, using a bacterial artificial chromosome library. Theor. Appl. Genet. 111: 370-377. http://dx.doi.org/10.1007/s00122-005-2030-8 PMid:15902396   Beavis WD (1998). QTL Analyses: Power, Precision and Accuracy. In: Molecular Dissection of Complex Traits (Paterson AH, ed.). CRC Press, Boca Raton, 145-162.   Boursiquot JM, Dessup M and Rennes C (1995). Distribution des principaux caractères phénologiques, agronomiques et technologiques chez Vitis vinifera L. Vitis 34: 31-35.   Broman KW and Sen S (2009). A Guide to QTL Mapping with R/qtl. Springer, New York. http://dx.doi.org/10.1007/978-0-387-92125-9   Cabezas JA, Cervera MT, Ruiz-Garcia L, Carreno J, et al. (2006). A genetic analysis of seed and berry weight in grapevine. Genome 49: 1572-1585. http://dx.doi.org/10.1139/g06-122 PMid:17426772   Coleman C, Copetti D, Capriati G, Hoffmann S, et al. (2009). The powdery mildew resistance gene REN1 co-segregates with an NBS-LRR gene cluster in two Central Asian grapevines. BMC Genet. 10-89. http://dx.doi.org/10.1186/1471-2156-10-89 PMid:20042081 PMCid:2814809   Conner PJ, Brown SK and Weeden NF (1998). Molecular-marker analysis of quantitative traits for growth and development in juvenile apple trees. Theor. Appl. Genet. 96: 1027-1035. http://dx.doi.org/10.1007/s001220050835   Costantini L, Grando MS, Feingold S, Ulanovsky S, et al. (2007). Generation of a common set of mapping markers to assist table grape breeding. Am. J. Enol. Vitic. 58: 102-111.   Costantini L, Battilana J, Lamaj F, Fanizza G, et al. (2008). Berry and phenology-related traits in grapevine (Vitis vinifera L.): from quantitative trait loci to underlying genes. BMC Plant Biol. 8: 38. http://dx.doi.org/10.1186/1471-2229-8-38 PMid:18419811 PMCid:2395262   Cruz CD (2006). Programa Genes (Versão Windows), Aplicativo Computacional em Genética e Estatística. Editora UFV, Viçosa.   Dirlewanger E, Moing A, Rothan C, Svanella L, et al. (1999). Mapping QTLs controlling fruit quality in peach (Prunus persica (L.) Batsch). Theor. Appl. Genet. 98: 18-31. http://dx.doi.org/10.1007/s001220051035   Dokoozlian NK and Kliewer WM (1996). Influence of light on grape berry growth and composition varies during fruit development. J. Am. Soc. Hort. Sci. 121: 869-874.   Doligez A, Bouquet A, Danglot Y, Lahogue F, et al. (2002). Genetic mapping of grapevine (Vitis vinifera L.) applied to the detection of QTLs for seedlessness and berry weight. Theor. Appl. Genet. 105: 780-795. http://dx.doi.org/10.1007/s00122-002-0951-z PMid:12582493   Doligez A, Bertrand Y, Dias S, Grolier M, et al. (2010). QTLs for fertility in table grapes (Vitis vinifira L.). Tree Genet. Genomes 6: 413-422. http://dx.doi.org/10.1007/s11295-009-0259-0   Fanizza G, Lamaj F, Costantini L, Chaabane R, et al. (2005). QTL analysis for fruit yield components in table grapes (Vitis vinifera). Theor. Appl. Genet. 111: 658-664. http://dx.doi.org/10.1007/s00122-005-2016-6 PMid:15995866   Fischer BM, Salakhutdinov I, Akkurt M, Eibach R, et al. (2004). Quantitative trait locus analysis of fungal disease resistance factors on a molecular map of grapevine. Theor. Appl. Genet. 108: 501-515. http://dx.doi.org/10.1007/s00122-003-1445-3 PMid:14574452   Fournier-Level A, Cunff LL, Gomez C, Doligez A, et al. (2009). Quantitative genetic bases of anthocyanin variation in grape (Vitis vinifera L. ssp. sativa) berry: A quantitative trait locus to quantitative trait nucleotide integral study. Genetics 183: 1127-1139. http://dx.doi.org/10.1534/genetics.109.103929 PMid:19720862 PMCid:2778965   García MR, Asíns MJ and Carbonell EA (2000). QTL analysis if yield and seed number in Citrus. Theor. Appl. Genet. 101: 487-493. http://dx.doi.org/10.1007/s001220051507   Grattapaglia D and Sederoff R (1994). Genetic linkage maps of Eucalyptus grandis and Eucalyptus urophylla using a pseudo-testcross: Mapping strategy and RAPD markers. Genetics 137: 1121-1137. PMid:7982566 PMCid:1206059   IPGRI, UPOV and OIV (1997). Descriptors for Grapevine (Vitis spp.). International Union for the Protection of New Varieties of Plants, Geneva, Switzerland/Office International de la Vigne et du Vin, Paris, France/International Plant Genetic Resources Institute, Rome, Italy.   King GL, Maliepard C, Lynn JR, Alston FH, et al. (2000). Quantitative genetic analysis and comparison of physical and sensory descriptors relating to fruit flesh firmness in apple (Malus pumila Mill.). Theor. Appl. Genet. 100: 1074-1084. http://dx.doi.org/10.1007/s001220051389   Marguerit E, Boury C, Manicki A, Donnart M, et al. (2009). Genetic dissection of sex determinism, inflorescence morphology and downy mildew resistance in grapevine. Theor. Appl. Genet. 118: 1261-1278. http://dx.doi.org/10.1007/s00122-009-0979-4 PMid:19238349   Mejía N, Gebauer M, Mu-oz L, Hewstone N, et al. (2007). Identification of QTLs for seedlessness, berry size, and ripening date in a seedless x seedless table grape progeny. Am. J. Enol. Vitic. 58: 499-507.   Melchinger AE, Utz HF and Schon CC (2004). QTL analyses of complex traits with cross validation, bootstrap and other biometrical methods. Euphytica 137: 1-11. http://dx.doi.org/10.1023/B:EUPH.0000040498.48379.68   Quilot B, Wu BH, Kervella J, Genard M, et al. (2004). QTL analysis of quality traits in an advanced backcross between Prunus persica cultivars and the wild relative species P. davidiana. Theor. Appl. Genet. 109: 884-897. http://dx.doi.org/10.1007/s00122-004-1703-z PMid:15168024   Riaz S, Dangl GS, Edwards KJ and Meredith CP (2004). A microsatellite marker based framework linkage map of Vitis vinifera L. Theor. Appl. Genet. 108: 864-872. http://dx.doi.org/10.1007/s00122-003-1488-5 PMid:14605808   Riaz S, Krivanek AF, Xu K and Walker MA (2006). Refined mapping of the Pierce's disease resistance locus, PdR1, and Sex on an extended genetic map of Vitis rupestris x V. arizonica. Theor. Appl. Genet. 113: 1317-1329. http://dx.doi.org/10.1007/s00122-006-0385-0 PMid:16960717   Riaz S, Tenscher AC, Rubin J, Graziani R, et al. (2008). Fine-scale genetic mapping of two Pierce's disease resistance loci and a major segregation distortion region on chromosome 14 of grape. Theor. Appl. Genet. 117: 671-681. http://dx.doi.org/10.1007/s00122-008-0802-7 PMid:18516585   Wang D, Karle R and Iezzoni AF (2000). QTL analysis of flower and fruit traits in sour cherry. Theor. Appl. Genet. 100: 535-544. http://dx.doi.org/10.1007/s001220050070
2011
A. P. Viana, Riaz, S., and Walker, M. A., Evaluation of genetic dissimilarity in a segregating wine grape population, vol. 10, pp. 3847-3855, 2011.
Amerine MA and Ough CS (1980). Methods for Analysis of Musts and Wines. Wiley and Sons, New York.   Cantos E, Espin JC and Tomas-Barberan FA (2002). Varietal differences among the polyphenol profiles of seven table grape cultivars studied by LC-DAD-MS-MS. J. Agric. Food Chem. 50: 5691-5696. http://dx.doi.org/10.1021/jf0204102 PMid:12236700   Cruz CD (2006). Programa Genes (Versão Windows), Aplicativo Computacional em Genética e Estatística. Editora UFV, Viçosa.   Cruz CD and Carneiro PCS (2003). Modelos Biométricos Aplicados ao Melhoramento Genético. Editora UFV, Viçosa.   deVicente MC and Tanksley SD (1993). QTL analysis of transgressive segregation in an interspecific tomato cross. Genetics 134: 585-596. PMid:8100788 PMCid:1205500   Dokoozlian NK and Kliewer WM (1996). Influence of light on grape berry growth and composition varies during fruit development. J. Amer. Soc. Hort. Sci. 121: 869-874.   Falconer DS and Mackay TFC (1996). Introduction to Quantitative Genetics. 4th edn. Longman, London. PMCid:1061158   Gower JC (1971). A general coefficient of similarity and some of its properties. Biometrics 27: 857-871. http://dx.doi.org/10.2307/2528823   Granate MJ, Cruz CD and Pacheco CAP (2002). Predição de ganho genético com diferentes índices de seleção no milho pipoca CMS-43. Pesq. Agropec. Bras. Brasília 37: 1001-1008.   Grant V (1975). Genetics of Flowering Plants. 2nd edn. Columbia University Press, New York.   Iacopini P, Baldi M, Storchi P and Sebastiani L (2008). Catechin, epicatechin, quercetin, rutin and resveratrol in red grape: Content, in vitro antioxidant activity and interactions. J. Food Comp. Anal. 21: 589-598. http://dx.doi.org/10.1016/j.jfca.2008.03.011   IPGRI, UPOV and OIV (1997). Descriptors for Grapevine (Vitis spp.). International Union for the Protection of New Varieties of Plants, Geneva, Switzerland/Office International de la Vigne et du Vin. International Plant Genetic Resources Institute, Paris.   Lima LAGV, Mélo EA, Maciel MIS, Prazeres FG, et al. (2005). Total phenolic and carotenoid contents in acerola genotypes harvested at three ripening stages. Food Chem. 90: 565-568. http://dx.doi.org/10.1016/j.foodchem.2004.04.014   Marois JJ, Nelson JK, Morrison JC, Lile LS, et al. (1986). The influence of berry contact within grape clusters on the development of Botrytis cinerea and epicuticular wax. Am. J. Enol. Vitic. 37: 293-296.   Marois JJ, Bledsone AM and Bettiga LJ (1992). Bunch rots. Grape Pest Management. Univ. Calif., Div. Agric. Nat Res. Publ. No. 3343.   Michailides TJ (1991). Susceptibility of pistachio male cultivars to Botrytis blossom and shoot blight caused by Botrytis cinerea. Plant Dis. 75: 410-415. http://dx.doi.org/10.1094/PD-75-0410   Rieseberg LH and Ellstrand NC (1993). What can molecular and morphological markers tell us about plant hybridization? Crit. Rev. Plant Sci. 12: 213-241.   Rieseberg LH, Widmer A, Arntz AM and Burke JM (2003). The genetic architecture necessary for transgressive segregation is common in both natural and domesticated populations. Phil. Trans. Roy. Soc. London B 358: 1141-1147. http://dx.doi.org/10.1098/rstb.2003.1283 PMid:12831480 PMCid:1693210   Santos FS, Amaral AT Jr, Freitas SP Jr, Rangel RM, et al. (2008). Genetic gain prediction of the third recurrent selection cycle in a popcorn population. Acta Sci. Agron. 30: 651-655.   Singleton VL (1966). The total phenolic content of grape berries during the maturation of several varieties. Am. J. Enol. Vitic. 17: 126-134.   Sinton TH, Ough CS, Kissler JJ and Kasimatis AN (1978). Grape juice indicators for prediction of potential wine quality. I. Relationship between crop level, juice and wine composition, and wine sensory ratings and scores. Am. J. Enol. Vitic. 29: 267-271.   Sokal RR and Rohlf FJ (1962). The comparison of dendrograms by objective methods. Taxon 11: 33-40. http://dx.doi.org/10.2307/1217208   Thomas CA and Orellana RG (1963). Nature of predisposition of castorbeans to Botrytis. II. Raceme compactness, internode length, position of staminate flowers, and bloom in relation to capsule susceptibility. Phytopathology 53: 249-251.   Vail ME and Marois JJ (1991). Grape cluster architecture and the susceptibility of berries to Botrytis cinerea. Phytopathology 81: 188-191. http://dx.doi.org/10.1094/Phyto-81-188   Weaver RJ, Kasimatis AN and McCune SB (1962). Studies with gibberellin on wine grapes to decrease bunch rot. Am. J. Enol. Vitic. 13: 78-82.
E. A. Santos, Souza, M. M., Viana, A. P., Almeida, A. A. F., Freitas, J. C. O., and Lawinscky, P. R., Multivariate analysis of morphological characteristics of two species of passion flower with ornamental potential and of hybrids between them, vol. 10, pp. 2457-2471, 2011.
Abreu PP, Souza MM, Santos EA, Pires MV, et al. (2009). Passion flower hybrids and their use in the ornamental plant market: perspectives for sustainable development with emphasis on Brazil. Euphytica 166: 307-315. http://dx.doi.org/10.1007/s10681-008-9835-x Allard RW (1960). Princípios do Melhoramento Genético das Plantas. Editora Edgard Blücher Ltda, Rio de Janeiro. Bruckner CH (1997). Perspectivas do Melhoramento Genético do Maracujazeiro. In: Maracujá: Temas Selecionados (Manica I, Bruckner CH and Hoffmann M, eds.). Cinco Continentes Editora, Porto Alegre, 25-46. Cerqueira-Silva CB, Cardoso-Silva CB, Conceicao LD, Nonato JV, et al. (2009). Comparison of coefficients and distance measurements in passion fruit plants based on molecular markers and physicochemical descriptors. Genet. Mol. Res. 8: 870-879. http://dx.doi.org/10.4238/vol8-3gmr614 PMid:19731209 Cervi AC (2005). Espécies de Passiflora L. (Passifloraceae) publicadas e descritas nos últimos 55 anos (1950-2005) na América do Sul e principais publicações brasileiras. Estudos Biol. 27: 19-24. Cervi AC (2006). O gênero Passiflora L. (Passifloraceae) no Brasil, espécies descritas após o ano de 1950. Fontqueria 16: 1-5. Crochemore ML, Molinari HBC and Vieira LGE (2003). Genetic diversity in passion fruit (Passiflora spp.) evaluated by RAPD markers. Braz. Arch. Biol. Technol. 46: 521-527. http://dx.doi.org/10.1590/S1516-89132003000400005 Cruz CD (2006). Programa Genes - Estatística Experimental e Matrizes. Editora UFV, Viçosa. Cruz CD and Carneiro PCS (2003). Modelos Biométricos Aplicados ao Melhoramento Genético. Editora UFV, Viçosa. Faleiro FG, Junqueira NTV and Braga MF (2005). Germoplasma e Melhoramento Genético do Maracujazeiro - Desafios da Pesquisa. In: Maracujá: Germoplasma e Melhoramento Genético (Faleiro FG, Junqueira NTV and Braga MF, eds.). Embrapa Cerrados, Planaltina, 187-210. Gonçalves GM, Viana AP, Neto FVB and Pereira MG (2007). Seleção e herdabilidade na predição de ganhos genéticos em maracujá-amarelo. Pesq. Agropec. Bras. 42: 193-198. Killip EP (1938). The American species of Passifloraceae. Field Mus. Nat. Hist. Bot. Ser. 19: 1-613. Kobayashi K, Horisaki A, Niikura S and Ohsawa R (2007). Diallel analysis of floral morphology in radish (Raphanus sativus L.). Euphytica 158: 153-165. http://dx.doi.org/10.1007/s10681-007-9439-x Manica I (1981). Fruticultura 1: Maracujá. Editora Ceres, São Paulo. Meletti LMM, Soares-Scott MD, Bernacci LC and Passos IRS (2005). Melhoramento Genético do Maracujá: Passado e Futuro. In: Maracujá: Germoplasma e Melhoramento Genético (Faleiro FG, Junqueira NTV and Braga MF, eds.). Embrapa Cerrados, Planaltina, 55-78. Moraes MC, Geraldi IO, Matta FP and Vieira MLC (2005). Genetic and phenotypic parameter estimates for yield and fruit quality traits from a single wide cross in yellow passion fruit. HortScience 40: 1978-1981. Nunes TS and Queiroz LP (2007). Uma nova espécie de Passiflora L. (Passifloraceae) para o Brasil. Acta Bot. Bras. 21: 499-502. http://dx.doi.org/10.1590/S0102-33062007000200022 Peixoto M (2005). Problemas e Perspectivas do Maracujá Ornamental. In: Maracujá: Germoplasma e Melhoramento Genético (Faleiro FG, Junqueira NTV and Braga MF, eds.). Embrapa Cerrados, Planaltina, 457-464. Pimentel-Gomes F (2000). Curso de Estatística Experimental, 14ª ed. Gráfica Degaspari, Piracicaba. Primot S, D’Eeckenbrugge GC, Rioux V and Pérez JAO (2005). Variación morfológica de tres especies de curubas (Passiflora tripartita var. mollissima, P. tarminiana y P. mixta) y sus híbridos en el valle del cauca (Colombia). Rev. Bras. Frutic. 22: 467-471. http://dx.doi.org/10.1590/S0100-29452005000300030 Radmann EB and Oliveira RP (2003). Caracterização de cultivares apirênicas de citros de mesa por meio de descritores morfológicos. Pesq. Agropecu. Bras. 38: 1123-1129. Rushing F (2003). Tough Plants for Southern Gardens: Low Care, No Care, Tried and True Winners. Cool Springs Press, Tennessee. Santos EA (2008). Melhoramento de Passifloras para Ornamentação Utilizando Passiflora palmeri var. sublanceolata, Passiflora foetida var. foetida e Híbridos F1 Ornamentais: Confirmação via RAPD, Parâmetros Genéticos e Efeitos do Sombreamento. Master’s thesis, UESC, Ilhéus. Silva MGM, Viana AP, Goncalves GM and Amaral Junior AT (2009). Seleção recorrente intrapopulacional no maracujazeiro-amarelo: alternativa de capitalização de ganhos genéticos. Cienc. Agr. 33: 170-176. http://dx.doi.org/10.1590/S1413-70542009000100024 Singh D (1981). The relative importance of characters affecting genetic divergence. Indian J. Genet. Plant. Breed. 41: 237-245. Ulmer T and MacDougal JM (2004). Passiflora: Passionflowers of the World. Timber Press, Portland. Valois ACC, Schmidt GS and Sanotto MD (1980). Análise de Qualidade e Quantidade de Grãos em População de Milho (Zea mays L). Master’s thesis, USP, São Paulo. Vanderplank J (2000). Passion Flowers. 3th edn. The MIT Press, Cambridge. Vencovsky R (1987). Herança Quantitativa. In: Melhoramento e Produção do Milho (Paterniani E and Viegas GP, eds.). 2ª ed. Fundação Cargill, Campinas, 137-214. Vencovsky R and Barriga P (1992). Genética Biométrica Aplicada ao Fitomelhoramento. Sociedade Brasileira de Genética, Ribeirão Preto. Viana A, Souza M, Araújo I, Corrêa R, et al. (2010). Genetic diversity in Passiflora species determined by morphological and molecular characteristics. Biol. Plant. 54: 535-538. http://dx.doi.org/10.1007/s10535-010-0094-z Viana AJ (2009). Delimitação entre as Espécies Passiflora edulis Sims e Passiflora sp. Nativa da Bahia com Base em Características Citogenéticas, Moleculares e Morfológicas. Master’s thesis, UESC, Ilhéus. Viana AP, Pereira TNS, Pereira MG and Amaral Júnior AT (2004). Parâmetros genéticos em populações de maracujazeiro-amarelo. Rev. Ceres 51: 541-551.