Accumulation of anthocyanins and quercetin glycosides in ‘Gala’ and ‘Royal Gala’ apple fruit skin with UV-B–Visible irradiation: modifying effects of fruit maturity, fruit side, and temperature

2001 ◽  
Vol 90 (1-2) ◽  
pp. 57-68 ◽  
Author(s):  
P.F Reay ◽  
J.E Lancaster
Keyword(s):  
Apple Fruit ◽  
Fruit Skin ◽  
Fruit Maturity ◽  
Quercetin Glycosides ◽  
Visible Irradiation

scholarly journals Foliar Application of Phosphorus Improves Apple Fruit Color During Ripening

2015 ◽  
Vol 63 (4) ◽  
pp. 1195-1200 ◽  
Author(s):  
Franci Štampar ◽  
Jan Bizjak ◽  
Robert Veberič ◽  
Jerneja Jakopič
Keyword(s):  
Skin Color ◽  
Total Phenolics ◽  
Foliar Application ◽  
Apple Fruit ◽  
Fruit Color ◽  
Anthocyanin Content ◽  
Red Color ◽  
Total Anthocyanins ◽  
Quercetin Glycosides ◽  
Apple Production

The red color of skin is a much desired property in apple production. For better red fruit coloration the applications of foliar fertilizers on the basis of calcium and phosphorus are used. In the present study ‘Braeburn’ apple trees were sprayed twice with Phostrade Ca (phosphorus), 5 and 3 weeks before harvest. In 7-days intervals fruit color, the content of flavonoids and enzyme activity involved in the synthesis of anthocyanins have been monitored. Foliar application of Phostrade Ca caused a more intense red skin color of apples and higher anthocyanin content. Their level increased during ripening, in treated apples the content of total anthocyanins was 20-fold higher at harvest while in control apples only 9-fold higher compared to the initial values. Cyanidin 3-galactoside was the most abundant anthocyanin (80 to 86% of total anthocyanins), followed by cyanidin 3-arabinoside, cyanidin 3-glucoside, cyanidin 3-xyloside and cyanidin 7-arabinoside. Prostrade Ca increased the levels of all quercetin glycosides, with the exception of quercetin 3-rhamnoside. No significant influence of Phostrade Ca on the content of hydroxycinnamic acids, dihydrochalcones, flavanols and total phenolics has been monitored. The activity of FHT and DFR increased during ripening but Phostrade Ca influenced only higher activity of DFR.

Patterns of microcracking in apple fruit skin reflect those of the cuticular ridges and of the epidermal cell walls

Planta ◽  
2018 ◽  
Vol 248 (2) ◽  
pp. 293-306 ◽  
Author(s):  
Moritz Knoche ◽  
Bishnu P. Khanal ◽  
Martin Brüggenwirth ◽  
Sarada Thapa
Keyword(s):  
Epidermal Cell ◽  
Cell Walls ◽  
Apple Fruit ◽  
Fruit Skin

scholarly journals Surface moisture increases microcracking and water vapour permeance of apple fruit skin

Plant Biology ◽  
2020 ◽  
Vol 23 (1) ◽  
pp. 74-82 ◽  
Author(s):  
B. P. Khanal ◽  
Y. Imoro ◽  
Y. H. Chen ◽  
J. Straube ◽  
M. Knoche
Keyword(s):  
Water Vapour ◽  
Apple Fruit ◽  
Surface Moisture ◽  
Fruit Skin

Non-Destructive Evaluation of Apple Fruit Maturity on the Tree

2007 ◽  
Vol 66 (1) ◽  
Author(s):  
Martin Geyer ◽  
Bernd Herold ◽  
Manuela Zude ◽  
Ingo Truppel
Keyword(s):  
Apple Fruit ◽  
Non Destructive Evaluation ◽  
Fruit Maturity ◽  
Non Destructive

Diagnosis and Variation in Appearance of Brown Stink Bug (Hemiptera: Pentatomidae) Injury on Apple

2009 ◽  
Vol 44 (4) ◽  
pp. 314-322 ◽  
Author(s):  
Tracy C. Leskey ◽  
Brent D. Short ◽  
Starker E. Wright ◽  
Mark W. Brown
Keyword(s):  
Laboratory Diagnosis ◽  
Apple Fruit ◽  
Stink Bug ◽  
Stink Bugs ◽  
Fruit Skin ◽  
Euschistus Servus ◽  
Potential Problems ◽  
Extent Of Damage ◽  
Observed Damage ◽  
Shape And Size

Adult brown stink bugs, Euschistus servus (Say), were caged individually on limbs with apple fruit of 6 cultivars in research orchards in West Virginia. Studies were performed to describe specific characteristics of damage that could be used for field and/or laboratory diagnosis of stink bug injury to apple fruit at harvest. These characteristics were separated into surface and subsurface features. On the apple surface, 3 prevailing types of stink bug injury were observed in the field: (1) a discolored dot, i.e., stink bug feeding puncture; (2) a discolored dot with a depression in the fruit; and (3) a discolored dot with a discolored depression in the fruit. Subsurface characters were related to the extent of damage observed on the fruit skin. Common subsurface damage ranged from a stylet sheath to corky tissue of variable color, shape, and size that sometimes was not contiguous with the skin. Laboratory evaluations under a dissecting microscope revealed that the size of the stink bug feeding puncture was ~0.17 mm diam. This character was the only consistent, definitive symptom of stink bug injury present among all observed damage. Due to variability in other surface and subsurface characters, and potential problems with visual apparency of injury in the field, evaluations of suspected stink bug damage should be performed with 40X magnification in the laboratory to confirm the presence of stink bug feeding punctures.

scholarly journals High Humidity and Age-Dependent Fruit Susceptibility Promote Development of Trichothecium Black Spot on Apple

Plant Disease ◽  
2019 ◽  
Vol 103 (2) ◽  
pp. 259-267 ◽  
Author(s):  
Pengbo Dai ◽  
Xiaofei Liang ◽  
Yajing Wang ◽  
Mark L. Gleason ◽  
Rong Zhang ◽  
...  
Keyword(s):  
Developmental Stages ◽  
Disease Incidence ◽  
Germination Rate ◽  
Black Spot ◽  
Apple Fruit ◽  
High Humidity ◽  
Factors Affecting ◽  
Fruit Maturity ◽  
Fruit Bagging

Fruit bagging is a widely used orchard practice in China. Trichothecium black spot (TBS) is a disease highly associated with the fruit bagging. In this study, we characterized in vitro factors affecting the causal agent, Trichothecium roseum, and TBS development and infection histology on field-bagged apple fruit in situ. Under in vitro conditions, conidial germination required exogenous nutrients, and the germination rate was significantly promoted by high humidity, a condition mimicking the bag microenvironment. Germ tubes penetrated fruit via natural openings including stomata, lenticels, and surface cracks. To determine the chronology of infection by T. roseum, ‘Fuji’ fruit were inoculated in the field at different developmental stages. The earliest infection occurred 60 days after full bloom (dafb), and disease incidence increased as fruit maturity advanced. At harvest time (165 dafb), lesions on more recently inoculated fruit (105 dafb, 150 dafb) were larger than lesions from fruit inoculated on earlier dates. Histological observation showed that infection of younger fruit elicited stronger host lignification responses restricting lesion development. Taken together, our results support the hypothesis that high humidity in sealed bags and increased susceptibility associated with advancing fruit maturity are key factors promoting T. roseum infection and TBS symptom development on bagged apple fruit.

The effect of high UV-B dosage on apple fruit photosystems at different fruit maturity stages

2014 ◽  
Vol 170 ◽  
pp. 103-114 ◽  
Author(s):  
Simeon Hengari ◽  
Karen I. Theron ◽  
Stephanie J.E. Midgley ◽  
Willem J. Steyn
Keyword(s):  
Apple Fruit ◽  
Maturity Stages ◽  
Fruit Maturity

scholarly journals Volatile Emissions and Quality of Bagged `Fuji' Apples

HortScience ◽  
1996 ◽  
Vol 31 (4) ◽  
pp. 638f-639
Author(s):  
J.P. Mattheis ◽  
D.A. Buchanan ◽  
J.K. Fellman
Keyword(s):  
Fungal Pathogens ◽  
Titratable Acidity ◽  
Apple Fruit ◽  
Washington State ◽  
Soluble Solids ◽  
Refrigerated Storage ◽  
Volatile Emissions ◽  
Fruit Maturity ◽  
Solids Content

Enclosing apple fruit in bags during development is widely practiced in Japan. Bags create a barrier that reduces damage from insects and fungal pathogens as well as treatments to control these problems. Bags also reduce the incidence of sunburn and change fruit appearance by altering peel pigmentation composition, two features that have prompted northwestern United States producers to bag `Fuji' apples. Fruit maturity and quality of bagged and nonbagged Fuji apples grown in Washington state were evaluated at harvest and after refrigerated storage in air or controlled atmosphere. Bagged fruit had less watercore and lower ethylene production at harvest compared to non-bagged fruit with similar starch ratings. Bagged fruit had lower soluble solids content, titratable acidity and firmness at harvest and during storage. Emission of ester and alcohol volatiles was consistently lower for bagged fruit. Postharvest volatile emissions were negatively correlated with bagging duration during development. Bagged fruit had no incidence of a peel disorder with similarity to delayed sunscald.

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