Ecophysiology of papaya: a review

Campostrini, Eliemar; Glenn, D. Michael

doi:10.1590/s1677-04202007000400010

Cited by 59 publications

(37 citation statements)

References 40 publications

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“…10) and higher A rates in this genotype at midday. In fact, in other papaya plants high VPD leaf-air causes g s decreases and, consequently, in A (El-Sharkawy et al, 1986, Reis et al, 2006, Campostrini and Glenn, 2007.…”

Section: Discussionmentioning

confidence: 99%

“…However, little information is available about the interaction of environmental factors (climate and soil) and physiological processes (namely, photosynthesis) of these new genotypes (Marler et al, 1994). Such knowledge can decisively contribute to an efficient agricultural zoning, to build up correct management strategies aiming of higher productivity and to genetic breeding programs for papaya (Schaffer and Andersen, 1994, Reis et al, 2006, Singels et al, 2005, Campostrini and Glenn, 2007. In order to support genetic breeding programs of papaya, this work studied some photosynthetic and biometric components in five papaya genotypes (Carica papaya L. During the experiment relative humidity and temperature were measured by a thermohigrometer (Spectrum Technologies, USA), and PPFD by a Quantum Data Logger (Spectrum Technologies, USA).…”

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Morphological analysis and photosynthetic performance of improved papaya genotypes

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Campostrini

Azevedo

et al. 2009

Braz. J. Plant Physiol.

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Brazil is the largest world producer of papaya and the third largest exporter despite of only 1.5 to 2.0% of its production is exported. Such an underexplored exportation potential highlight the necessity for physiological studies on new cultivars and hybrids to verify their agronomic and commercial viability. Two Brazilian states, Bahia and Espirito Santo, are responsible for 80% of national production. Papaya can also be an agricultural alternative to north / northeast of Rio de Janeiro, because the region is close to consumer centers and have similar environmental conditions of the most productive regions. Nevertheless, it is worth to develop cultivars that can express the highest yield potential in this region. The aim of this work was to characterize physiologically two hybrids developed for the north/northeast of Rio de Janeiro (UENF/Caliman 01 and JS12) in comparison with three top commercial genotypes (Golden, Sunrise Solo 7212 and Tainung) of Carica papaya L.. The cv. Golden presented the lowest shoot and root growth, the lowest height, shrunk diameter, specific leaf weight, less efficiency in electrons transport per sample area and show the lowest ability to synthesized total chlorophylls in comparison with the others genotypes. At noon, this genotype showed higher stomatal conductance, related to the leaf-air vapor pressure deficit, which lead to higher transpiration rate and intrinsic water use efficiency. No differences were detected in the photosynthetic rates among the five genotypes suggesting that the UENF`s hybrids are endowed with similar photosynthetic capacity and morphological characteristics to the top commercial genotypes. The relevance of this characterization to drive future successful genetic improvement programs will be discussed.

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

Morphological analysis and photosynthetic performance of improved papaya genotypes

Netto

Campostrini

Azevedo

et al. 2009

Braz. J. Plant Physiol.

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“…Les rendements en fruits correspondants pour les cultivars 3, 21,3 et 7,8) kg par plante, respectivement. Le cultivar Sel-42 a présenté les fruits les plus gros (poids, 460,0 g ; largeur, 11,7 cm ; longueur, 16,7 cm), suivi de près par ceux de 3 g,11,3 cm et 15,3 cm, respectivement). En revanche le cultivar BH-65 a produit les fruits les plus petits (poids, 250,0 g ; largeur, 9,7 cm ; longueur, 13,3 cm).…”

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Growth, yield and fruit quality of three papaya cultivars grown under protected cultivation

Gunes¹,

Gübbük²

2011

Fruits

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Growth, yield and fruit quality of three papaya cultivars grown under protected cultivation.Abstract -Introduction. Papaya is grown mainly under tropical conditions due to its requirement of high temperatures year-round. With modern greenhouse technology and production systems, the Mediterranean countries are now able to produce many tropical crops such as banana and papaya. Such technology has also increased the yield and improved fruit quality in comparison with open field production systems. Materials and methods. Our study was conducted in an unheated greenhouse in the Mediterranean region of Turkey. Three papaya cultivars were evaluated for their physical and physicochemical properties and yield.Results. There were no significant differences in chemical properties related to fruit cultivars. Conversely, certain features of the development cycle of these three cultivars varied: BH-65 flowered at only 65.4 cm compared with SS-45 (133.8 cm) and Sel-42 (135.1 cm). Fruit set was improved for Sel-42 (63.7 fruits) compared with SS-45 (49.3 fruits) and BH-65 (31.3 fruits). The corresponding yields for Sel-42, SS-45 and BH-65 were (28.3, 21.3 and 7.8) kg per plant, respectively. The Sel-42 cultivar presented the largest fruits (weight, 460.0 g; width, 11.7 cm; length, 16.7 cm), closely followed by those of SS-45 (433.3 g, 11.3 cm and 15.3 cm, respectively). In contrast, the cultivar BH-65 produced the smallest fruits (weight, 250.0 g; width, 9.7 cm; length, 13.3 cm). The physical and chemical characteristics did not vary among the cultivars. Conclusion. Our results allow us to recommend the cultivars Sel-42 and SS-45 for greenhouse cultivation under a Mediterranean climate in Turkey. Turkey / Carica papaya / variety trials / protected cultivation / life cycle / yields / quality / fruits Croissance, rendement et qualité des fruits de trois cultivars de papaye menés sous culture protégée.Résumé -Introduction. Le papayer est principalement cultivé en conditions tropicales en raison de ses besoins en températures élevées toute l'année. Grâce à la technologie à effet de serre et aux systèmes modernes de production, les pays méditerranéens sont maintenant capables de produire de nombreuses cultures tropicales telles que bananiers et papayers. Une telle technologie a aussi augmenté le rendement et amélioré la qualité des fruits par rapport au système de production à l'air libre. Matériel et méthodes. Notre étude a été menée dans une serre non chauffée, en conditions méditerranéennes de Turquie. Trois cultivars de papaye (SS-45, BH-65, et Sel-42) ont été éva-lués pour leurs caractéristiques physiques et physico-chimiques et leurs rendements. Résultats. Il n'y a eu aucune différence significative des propriétés chimiques des fruits liée aux cultivars. A l'inverse, certaines caractéristiques du cycle de développement de ces trois cultivars ont varié ; BH-65 a fleuri à seulement 65,4 cm de hauteur par rapport à SS-45 (133,8 cm) et Sel-42 (135,1 cm) ; La nouaison a été améliorée pour Sel-42 (63,7 fruits) par rapport à SS-45 (4...

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“…No entanto, o uso de sementes de boa qualidade não garante a produção de mudas, pois a expressão efetiva do vigor da semente pressupõe ótimas condições ambientais, para o estabelecimento das plântulas. O crescimento e o rendimento final de um material genético são o resultado de suas interações com o ambiente, sendo necessária, assim, a identificação das condições ambientais ideais para o estabelecimento de plântulas e formação de mudas vigorosas (Marcos Filho 2005, Campostrini & Glenn 2007.…”

Section: Emergence and Vigor Of Papaya Genotypes Seedlings According unclassified

“…Além disso, o entendimento das respostas de genótipos aos fatores específicos do ambiente pode contribuir para programas de melhoramento da espécie (Campostrini & Glenn 2007) Maguire (1962); c) Diâmetro do coleto (DC) -determinado na base do caule, com o auxílio de paquímetro digital, após 45 e 120 DAS, sendo o resultado expresso em mm; d) Comprimento da raiz (CR) e da parte aérea (CPA) -aos 45 e 120 DAS, avaliaram-se o comprimento de raiz primária e parte aérea das plântulas, com o auxílio de uma folha milimetrada, medindo-se da extremidade da raiz até o coleto (CR) e do coleto à extremidade da parte aérea (CPA), sendo os resultados expressos em cm; e) Massa seca da raiz (MSR) e da parte aé-rea (MSPA) -aos 45 e 120 DAS, as plantas foram seccionadas no coleto, raízes e parte aérea, acondicionadas em sacos de papel e mantidas em estufa de circulação forçada de ar, à temperatura de 70ºC, até atingirem massa constante (72 horas), sendo pesadas em balança analítica com precisão de 0,0001 g e os resultados expressos em mg; f) Taxas de crescimento -a partir das medidas de massa seca realizadas aos 45 (t 1 ) e 120 (t 2 ) DAS, foram calculadas a razão entre massa de raiz e parte aérea (R:PA) e a taxa de crescimento absoluto (TCA = M 2 -M 1 / t 2 -t 1 ), conforme descrito por Hunt (1982), em que M 1 = massa inicial; M 2 = massa final; t 1 = tempo inicial; t 2 = tempo final.…”

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Emergência e vigor de mudas de genótipos de mamoeiro em função da irradiância

Mengarda

Lopes

Buffon

2014

Pesqui. Agropecu. Trop.

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A luminosidade influencia na emergência de sementes e no desenvolvimento inicial do mamoeiro, sendo necessária a identificação do nível de irradiância ideal para o estabelecimento de plântulas e formação de mudas vigorosas. Objetivou-se estudar a emergência de sementes e o vigor das mudas de quatro genótipos de mamoeiro, em diferentes níveis de irradiância. Foram utilizadas sementes de Carica papaya L. dos genótipos híbrido Caliman 01, Golden THB, híbrido triplo e híbrido JS12 x Waimanalo, sob quatro níveis de irradiância (60 µmol m-2 s-1, 130 µmol m-2 s-1, 580 µmol m-2 s-1 e 1.200 µmol m-2 s-1). Utilizou-se delineamento inteiramente casualizado, em esquema de parcelas subdivididas 4x4, com quatro repetições. Foram avaliados a percentagem e o índice de velocidade de emergência. As mudas foram avaliadas aos 45 e 120 dias após a semeadura (DAS), quanto ao comprimento e massa seca da raiz e da parte aérea, sendo calculadas a razão raiz/parte aérea e a taxa de crescimento absoluto, aos 120 DAS. O sol pleno prejudicou a emergência, enquanto a baixa irradiância prejudicou o desenvolvimento das mudas. A irradiância intermediária (130 µmol m-2 s-1 e 580 µmol m-2 s-1) foi mais adequada ao desenvolvimento das mudas de mamoeiro, até os 120 DAS. O genótipo Golden THB foi mais sensível à elevada irradiância, enquanto os híbridos Caliman 01 e JS12 x Waimanalo toleraram a condição de sol pleno.

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Ecophysiology of papaya: a review

Cited by 59 publications

References 40 publications

Morphological analysis and photosynthetic performance of improved papaya genotypes

Morphological analysis and photosynthetic performance of improved papaya genotypes

Growth, yield and fruit quality of three papaya cultivars grown under protected cultivation

Emergência e vigor de mudas de genótipos de mamoeiro em função da irradiância

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