Influence of Rootstock on the Mineral Concentrations of Flowers and Leaves From Sweet Cherry

Aso, Jesús Ángel Betrán; Falcón, Jesús Val; Millán, Luis Montañés; Pacheco, Emilio Monge; García, Luis Montañés; Sánchez, María Ángeles Moreno

doi:10.17660/actahortic.1997.448.24

Cited by 19 publications

(11 citation statements)

References 14 publications

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“…Micronutrient concentration was significantly influenced by rootstock. As previously reported (15), the Fe concentration in flowers was greater on SL 64, probably due to the better adaptation of P. mahaleb species in calcareous soils. Flower Mn concentration was highest on P. cerasus rootstocks (CAB 6P, CAB 11E and MM 9), especially when compared with MaxMa 97, MaxMa 14 and SL 64.…”

Section: Floral Mineral Nutrientssupporting

confidence: 84%

Flower and Foliar Analysis for Prognosis of Sweet Cherry Nutrition: Influence of Different Rootstocks

Jiménez

Garín

Gogorcena

et al. 2004

Journal of Plant Nutrition

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This research was aimed to study the interest of flower analysis as a tool for the prognosis of nutritional deficiencies on cherry trees and confirm the influence of rootstock on the mineral uptake by tree. This type of diagnosis is compared with foliar analysis. The trial was In general, the P. cerasus rootstocks (CAB 6P, CAB 11E and MM 9) showed values of leaf mineral elements more adequate, and also higher values of leaf chlorophyll concentration.

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Section: Floral Mineral Nutrientssupporting

confidence: 84%

Flower and Foliar Analysis for Prognosis of Sweet Cherry Nutrition: Influence of Different Rootstocks

Jiménez

Garín

Gogorcena

et al. 2004

Journal of Plant Nutrition

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“…In addition, Zarrouk et al (2005) indicated that only flower Zn concentration in peach was significantly correlated with Zn in leaves, as opposed to the other nonsignificant correlations. Similar data were reported by Sanz and Montañés (1995) for peach and Betrán et al (1997) and Jiménez et al (2004) for cherry. A PCA, one of the multivariate statistical procedures, was used to establish relationships among shoots, flower buds and flowers and to study correlations regarding Na content within sets of rootstock/cultivar combination.…”

Section: Evaluation Of Correlations Among Variables and Principal Comsupporting

confidence: 86%

“…There were statistically significant differences (P ≤ 0.05) in the present study among rootstock/cultivar combinations in Na content of (Figure 4). Betrán et al (1997) reported that the range of variation of Na ion in flowers, among rootstocks, was higher than leaves and other organs. Additionally, apart from rootstock, species and/ or genotypes play a key role in determining the Na content in the flowers of fruit crops, which is in agreement with previous work in flower (ZARROUK et al, 2005).…”

Section: Content Of Sodium (% Of Dry Weight)mentioning

confidence: 99%

Seasonal changes and content of sodium in main organs of European plum trees (Prunus domestica L.), fruit size and yield as affected by rootstocks on acidic soil

Milošević

Milošević²

2012

Sem. Ci. Agr.

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Seasonal changes and content of sodium in main organs of European plum trees (Prunus domestica L.), fruit size and yield as affected by rootstocks on acidic soilMudanças sazonais no teor de sódio dos órgãos, tamanho do fruto e produção da ameixeira européia (Prunus domestica L.) em função de porta-enxertos em solo ácido AbstractIn the present study, the seasonal changes of Na content of shoots, flower buds and flowers, and fruit weight and yield of two European plum cultivars ('Cacanska Lepotica' and 'Cacanska Najbolja') budded on Myrobalan (Prunus cerasifera Ehrh.) and Stanley rootstocks were analyzed after 6-8 years of planting on acidic sandy-loam soil. The Na content of the shoots and flower buds of each rootstock/ cultivar combination varied during season, and the highest content in above organs was observed in May and August, respectively. The effect of rootstocks on the examined parameters was variable due to the strong rootstock/cultivar/year interaction observed. The shoots and flower buds of cultivars budded on Stanley and Myrobalan rootstocks gave the highest and lowest Na content, respectively, whereas the highest Na content in flowers registered in 'Cacanska Lepotica' on Myrobalan. The content of Na in the plum organs suggests the following trends: 1-year old shoots > 2-year-old shoots > flower buds > flowers. There were no statistically significant correlations among plum organs with respect to Na content. The Principal Component Analysis showed that Stanley rootstock had a higher Na accumulation and distribution capacity than Myrobalan rootstock in plum trees. Finally, content of Na in the main organs of plum trees and acidic soil have not a negative effect on fruit weight and yield of plum cultivars, since these properties were respectable. Key words: Acidic soil, fruit weight and yield, plum trees, shoots, sodium accumulation ResumoNeste estudo, foram analisadas as mudanças sazonais do teor de Na nos ramos, botões florais e flores, bem como no peso dos frutos e na produtividade de duas cultivares de ameixeiras européias ('Cacanska lepotica' e 'Cacanska najbolja') enxertadas sobre os porta-enxertos Myrobalan (Prunus cerasifera Ehch.) e Stanley, aos 6-8 anos após o plantio em solo ácido areno-argiloso. O conteúdo de Na nos ramos e nos botões florais para cada combinação de copa/porta-enxerto teve a variação durante a temporada e o maior teor foi constatado em maio e agôsto, respectivamente. A influência do porta-enxerto sobre os parâmetros estudados foi variável devido à forte interação copa/porta-enxerto/ano. Os ramos e botãos florais das plantas enxertadas sobre os porta-enxerto Stanley e Myrobalan, tiveram o maior e o menor teor de Na, respectivamente; enquanto o maior teor de Na nas flores foi registrado na 'Cacanska lepotica' sobre o porta-enxerto Myrobalan. O conteúdo de Na nos órgãos de ameixa teve a seguinte evolução: ramos de 1 ano > ramos de 2 anos > botões florai > flores. Não houve correlação significativa entre os órgãos da ameixeira em termos de teor de Na. A Análise de Componentes P...

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“…Interestingly, Moreno et al (1996Moreno et al ( , 2001 reported that sweet cherries on Colt grown on heavy and calcareous soil showed deficiency or close to deficiency values for N and K, and values higher than normal for Ca and Mg at 60 DAFB. On this line, Betrán et al (1997) (Tisdale, Nelson 1966). Al- (Leece 1975); (-) lower content than optimum; (+) higher content than optimum; the different letters in last column indicate significant differences among ΣDOP indexes within each cultivar at P ≤ 0.05 by the LSD test; DAFB -days after full bloom; DOP -deviation from optimum percentage though overall Fe levels were very deficient, the Fe present may have been quite active physiologically (Leece 1975).…”

Section: Dop and σDop Indexesmentioning

confidence: 99%

“…According to Betrán et al (1997), the standard sampling time for cherry foliar diagnosis is usually assessed at mid-summer, i.e. approximately at 120 days after full bloom (DAFB).…”

Section: Leaf Nutrient Composition At 60 Dafbmentioning

confidence: 99%

Early tree growth, productivity, fruit quality and leaf nutrients content of sweet cherry grown in a high density planting system

Milošević¹,

Milošević²,

Glišić³

et al. 2015

Hort. Sci. (Prague)

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Milošević T., Milošević N., Glišić I., Nikolić R., Milivojević J. (2014): Early tree growth, productivity, fruit quality and leaf nutrients content of sweet cherry grown in a high density planting system. Hort. Sci. (Prague), 42: 1-12.From 2008 to 2013 the phenology, early tree growth, precocity, yield, fruit quality attributes and leaf nutrient status of four sweet cherry cultivars (May Early, Germersdorfer, Sunburst and Celeste) were evaluated on Colt rootstock in the Cacak region (Serbia) with 1,250 trees/ha. The soil type was heavy and acidic. The results showed that cv. May Early blossomed and ripened earlier than the other cultivars, and had the highest tree vigour, better yield performance and the poorest fruit physico-chemical attributes. The best fruit quality was found in cv. Sunburst which is categorized as a low precocious cultivar with small yield capacity. Lower tree vigour, good productivity and fruit quality were shown by cv. Celeste. In general, leaf analysis indicated that all cultivars had excessive levels of N and Cu, and in some cases P, whereas K, Ca, Mg, Fe, Mn, Zn and B were deficient in all cultivars. The best balanced nutritional values (ΣDOP) were observed in cv. Sunburst, whereas wider imbalance was observed in cv. Celeste for macronutrients. In contrast, the ΣDOP for micronutrients indicated that cv. Celeste had the best balanced nutritional values, whereas cv. Sunburst had the worst.

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Influence of Rootstock on the Mineral Concentrations of Flowers and Leaves From Sweet Cherry

Cited by 19 publications

References 14 publications

Flower and Foliar Analysis for Prognosis of Sweet Cherry Nutrition: Influence of Different Rootstocks

Flower and Foliar Analysis for Prognosis of Sweet Cherry Nutrition: Influence of Different Rootstocks

Seasonal changes and content of sodium in main organs of European plum trees (Prunus domestica L.), fruit size and yield as affected by rootstocks on acidic soil

Early tree growth, productivity, fruit quality and leaf nutrients content of sweet cherry grown in a high density planting system

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