Improved functional and nutritional properties of tomato fruit during cold storage

The use of synthetic antioxidants has been associated with serious concerns for human and environmental health. During ripening stages, tomato fruit is exposed to different abiotic stresses which not only influence its nutritional, mechanical, and functional properties at harvest, but also affect the quality and shelf life of the fruit during storage. This study investigated the pattern of changes in dietary antioxidants during various ripening stages of tomato fruit (cv. Red Rose) and their impact on storage behavior of the fruit during cold storage. Tomato fruits were harvested at mature green, breaker, turning, pink, light-red and red stages of maturity. Then, they were analysed for flesh firmness, soluble solids content, titratable acidity, total sugars, pH, dry matter content, lipophilic (lycopene, β-carotene, and total carotenoids), and hydrophilic (ascorbic acid, phenolic and flavonoids) antioxidants. Additional fruits were harvested at each maturity stage and divided into three equal lots, then were subjected to low-temperature (10 ± 1 °C) storage with 80 ± 5% RH, for 7, 14, and 21 days. Flesh firmness, and the levels of dietary antioxidants were analysed following the subsequent storage periods. The results revealed that the peak of hydrophilic antioxidants such as ascorbic acid, phenolic compounds, and flavonoids was between the ‘pink’ and the ‘light-red’ stages of fruit maturity. Whereas tomatoes harvested at the ‘red’ stage of maturity had the highest levels of lycopene and β-carotene. Both the stage of fruit maturity at harvest and duration of cold storage influenced flesh firmness, organoleptic and functional properties of ‘Red Rose’ tomato fruit. In conclusion, the results of the current investigation have practical implications in formulating foods with improved functional properties at processing industries.     

The sizes, maturity stages and biomass of mayfly assemblages colonizing disturbed stream bed patches in central Kenya

The sizes, maturity stages and biomass of mayfly species colonizing disturbed patches on the stream bed surface of the Naro Moru River, Kenya, were determined from June 1993 to January 1994. All maturity stages I–VI⁺ were present in the pre-disturbance mayfly assemblages. Colonization of the disturbed patches by mayflies of different maturity stages was continuous, but slow or fast depending on the season and species. The overall post-disturbance maturity structure of the mayflies colonizing the disturbed patches did not demonstrate any distinct pattern. The majority of Caenis nymphs colonizing the patches in wet season II (November–January) were in emerging maturity stage VI⁺, whilst the majority of the individuals of Afronurus and Choroterpes ( Euthraulus ) populations matured from stage I in the wet seasons to stage VI⁺ in the dry season. Furthermore, the majority of the individuals of Baetis ( Nigrobaetis ) sp.1 were maturing to stages IV–VI during the wet seasons. Small-sized mayfly individuals (body length <3.0 mm) of all mayflies colonized the disturbed patches in the majority of numbers. However, although having the highest densities, they contributed a very low biomass compared with the fewer large-sized nymphs. There was no size gradation in the colonization of the disturbed patches, since all sizes were sampled at all times but in differing proportions. Colonization of the patches by mayflies was not size- or maturity stage-specific. Size distribution patterns could be useful in assessing which mayfly size-spectra are more or less susceptible to disturbance in streams.     

Changes during low-oxygen storage in the effects of ethylene on induction of ethylene synthesis and stimulation of respiration of 'Gloster 69' apples

The ability of ethylene to stimulate respiration and advance the onset of rapid ethylene production was investigated at different times during storage of 'Gloster 69' apples in 2 kPa O₂ at 1.5–3.5°C. Ethylene stimulated respiration in apples at 15°C immediately after harvest; maximal rates were recorded at 10–1000 μl I⁻¹ but attainment of these rates was delayed after low O₂ storage until day 3 of treatment at 15°C. The onset of rapid ethylene production at 15°C occurred later in non-ethylene-treated apples after storage than after harvest. Ethylene production was induced in some apples during ethylene treatment for 3 or 6 days; in others it was induced about 20 days after treatment, but a proportion of the fruit showed no induction in the 45-day duration of experiments. An ethylene treatment at 10 μl I⁻¹ led to a near maximal increase in the frequency of induction of ethylene production at all times. After storage apples were mainly induced during treatment or not induced, whereas after harvest induction after treatment was more frequent. The presence of 2000 μl l⁻¹ norbornadiene during ethylene treatment inhibited the stimulation of respiration and the induction of ethylene production; this inhibition was only partly reversed by ethylene at 1000 μl l⁻¹ the experiments suggest that receptors for ethylene were present at all stages but that response capacity changed during storage.     

Responses of reactive oxygen metabolism and quality in mango fruit to exogenous oxalic acid or salicylic acid under chilling temperature stress

After being immersed in water, oxalic acid (OA) or salicylic acid (SA) aqueous solutions, mango ( Mangifera indica L. cv. Zill) fruit were stored at 14°C or at 5°C with shelf life to determine the effects of exogenous OA or SA on reactive oxygen metabolism, quality and chilling injury (CI) of the fruit. Mango CI could be reduced by OA and SA treatments. Compared with that in control, accompanied with alleviated CI at shelf life, fruit treated with OA or SA had significantly higher reduction states of ascorbate and glutathione. Moreover, the treated fruit showed lower superoxide anion content, higher hydrogen peroxide content, lower lipoxygenase (EC 1.13.11.12) activity and higher activities of superoxide dismutase (EC 1.15.1.1), catalase (EC 1.11.1.6), guaiacol peroxidase (EC 1.11.1.7), ascorbate peroxidase (EC 1.11.1.11) and glutathione reductase (EC 1.6.4.2). In addition, fruit firmness, total soluble solids and titratable acidity content were not obviously affected by OA and SA treatments. It was suggested that the effect of OA or SA on mango CI probably attributed to more reducing status of ascorbate and glutathione, less O₂⁻ accumulation and more H₂O₂ accumulation.     

In vitro growth and ripening of strawberry fruit in the presence of ACC, STS or propylene

Strawberry ( Fragaria ananassa Duch.) fruit exhibit limited capacity for continued development following harvest. This problem can be circumvented by maintaining harvested strawberry fruit in solutions containing sucrose and a bactericide. In this study, we investigated the respiratory and ethylene production kinetics and ethylene responsiveness in strawberry fruit harvested immature and ripened in vitro in the presence of propylene. The effects of 1-amino-cyclopropane-1-carboxylic acid (ACC) and silver thiosulfate (STS) alone and in combination were also examined. Respiration and ethylene patterns of fruit harvested green and developed in vitro declined with maturation and ripening, as did those of field-grown fruit harvested at different stages of ripeness. Exposure of detached green strawberry fruit to 5000 μl litre^-1 propylene failed to stimulate respiration or ethylene production, but advanced pigmentation changes and fresh-weight gain significantly. Excised fruit provided with 1 mol^-3 ACC exhibited increased ethylene production, enhanced fresh-weight gain, and accelerated anthocyanin accumulation, but showed no change in respiration. The developmental response of harvested strawberry fruit to propylene or ACC was dependent on fruit maturity at harvest, with white fruit exhibiting greater insensitivity compared with green fruit. Silver thiosulfate (0.5 mol^-3) applied alone or in combination with ACC failed to delay ripening in excised strawberry fruit. These experiments demonstrate that ripening in detached strawberry fruit can be modified by ethylene only in green fruit that are provided with a carbohydrate source. Ethylene, when applied exogenously as ACC or propylene to green fruit, can slightly increase fruit growth and the rate of colour development.     

Influence of salinity on the size at maturity for fish species reproducing in contrasting West African estuaries

The influence of salinity on life-history traits was tested using two adjoining West African estuaries: the Gambia with a 'normal' salinity gradient (salinity always <40 and decreasing from the mouth upstream) and the Sine Saloum (Senegal) with an inverse gradient (from 35 at the estuary mouth up to >130 in the upper reaches). The breeding seasons and subsequent fork length ( L _F) at first maturity ( L _F50) were estimated for different fish species reproducing both in the Sine Saloum and in the Gambia River estuaries using a database built from experimental fish samplings between 1990 and 2003 with a purse seine (30 locations in the Sine Saloum and 44 in the Gambia). The database contained 30 553 individuals belonging to 60 different species among which only 20 species reproduced in both estuaries. The breeding seasons peaked just before, or at the beginning of the rainy season (June to July), and there were almost no sexually mature fishes at the beginning of the dry season (November to December). Patterns of differences between L _F50 of the two estuaries did not follow a general trend (positive or negative), but varied in the same way for females and males of a given species. The L _F50 was only systematically reduced with increasing salinity in species living in high-salinity waters (>70). For species living below 70, differences in sizes at first maturity between the two estuaries did not show any clear relationship with salinity. The smallest mature individual found in an environment was a good indicator of the size at first maturity reached in a particular ecosystem because the trend of the species differences between the two ecosystems generally followed that of the differences in size at maturity.     

Cytokinins and fruit development in the kiwifruit (Actinidia deliciosa). I. Changes during fruit development

The cytokinin content in fruit tissue of the kiwifruit ( Actinidia deliciosa [A. Chev.] C. F. Liang et A. R. Ferguson var. deliciosa cv. Hayward) was monitored during fruit development to identify which cytokinins were present and if they were linked with specific stages of fruit growth. Cytokinins were isolated and purified by column chromatography and high-performance liquid chromatography and quantified by radioimmunoassay. A novel HPLC step utilising an amine column was successfully introduced as a preparative step in the separation of the O - and 9-glucosides from the free bases and ribosides. The radioimmunoassay results were validated, and the different cytokinins identified, by gas chromatography-mass spectrometry. Cytokinins detected in fruit included the cytokinin free bases, zeatin and isopentenyladenine, their ribosides, nucleotides and both O - and 9-glucosides. Both qualitative and quantitative changes of the cytokinins occurred during fruit development. A decrease in cytokinin concentration occurred after anthesis (from 342 pmol g⁻¹ fresh weight at anthesis to 41 pmol g⁻¹ fresh weight 27 days after anthesis). A large increase in cytokinin concentration and content per fruit occurred as the fruit reached commercial maturity (to 1900 pmol g⁻¹ fresh weight). Individual cytokinins showed quite different patterns. Zeatin, in particular, showed a peak in concentration (13 pmol g⁻¹ fresh weight) 11 days after anthesis that correlated with the beginning of the cell division phase of fruit growth. The accumulation of cytokinin (mostly zeatin riboside or zeatin nucleotide) in mature fruit may be of significance for the postharvest storage of kiwifruit fruit.     

DNA marker-assisted evaluation of fruit firmness at harvest and post-harvest fruit softening in a diverse apple germplasm

Several different genes have been proposed as responsible for fruit texture variability at harvest and/or after storage. We have analysed 127 apple cultivars for allelic composition in two key genes that are directly involved in the ethylene biosynthesis pathway, Md-ACS1 and Md-ACO1, and two other genes that are involved in cell wall degradation, Md-Exp7 and Md-PG1. Firmness was measured with a penetrometer at harvest and after 6 or 12 weeks (early- and late-maturing cultivars, respectively) of cold storage. Maturation time was positively correlated with firmness at harvest and negatively correlated with fruit softening rate (difference between firmness at harvest and after storage, divided by number of weeks in storage). Polyploid cultivars showed significantly higher firmness at harvest compared to diploids. Alleles previously described as responsible for good texture were associated with significantly lower softening for Md-ACS1 and Md-PG1, but the opposite was noted for Md-EXP7. Results were nonsignificant for Md-ACO1. Allele frequencies were very uneven in all four loci, with the three most common multi-locus configurations accounting for 64 % of the entire material. The predictive power of these genes was calculated with a partial least squares discriminant analysis, and these accounted for 15 % of the observed variation in initial firmness and 18 % for softening rate. Inclusion of maturation time, storage time (i.e. 6 or 12 weeks) and initial firmness into the model however increased the predictability of softening rate to 38 %. Dividing the material in modern (released after 1960) and old cultivars did not change the outcome of our analyses.     

Non-destructive assessment of flesh firmness and dietary antioxidants of greenhouse-grown tomato (Solanum lycopersicum L.) at different fruit maturity stages

Non-destructive methods have been widely recognized for evaluating fruit quality traits of many horticultural crops and food processing industry. Destructive (analytical) test, and non-destructive evaluation of the quality traits were investigated and compared for ‘Red Rose’ tomato (Solanum lycopersicum L.) fruit grown under protected environment. Fresh tomato fruit at five distinctive maturity stages namely; breaker (BK), turning (TG), pink (PK), light-red (LR), and red (RD) were labeled and scanned using the handheld near infra-red (NIR) enhanced spectrometer at a wavelength range of 285–1200 nm. The labeled tomato samples were then measured analytically for flesh firmness, lycopene, β-carotene, total phenolic content (TPC) and total flavonoids content (TFC). The results revealed that quality traits could be estimated using NIR spectroscopy with a relatively high coefficient of determination (R²): 0.834 for total phenolic content, 0.864 for lycopene, 0.790 for total flavonoid content, 0.708 for β-carotene; and 0.679 for flesh firmness. The accumulation of Lyco and β-Car rapidly increased in tomatoes harvested between the TG and the LR maturity stages. Harvesting tomatoes at BK maturity stage resulted in significantly higher flesh firmness than harvesting at the later maturity stages. Tomato fruits had the lowest TPC and TFC contents at the earliest maturity stage (BK), while they had intermediate TPC and TFC levels at LR and RD maturity stages. NIR spectroscopic measurements of fruit firmness and lipophilic antioxidants in tomato fruit at various maturity stages were partially in accordance with those estimated by destructive (analytical) methods. Based on these findings, we recommend using non-destructive NIR spectroscopy as an effective tool for predicting tomato fruit quality during harvest stage and postharvest processing.     

不同季节施用KClO3化学调控剂对龙眼促花与果实品质的影响*

在茂名市水果科学研究所实验基地试验研究了不同季节施用以KClO₃为主要成份的龙眼促花调控剂对龙眼促花和果实质量影响的效应。结果表明:按龙眼树冠直径每米施药量180g处理,不同季节施药的促花效果存在显著差别,干旱少雨季节促花效果较佳,湿润多雨季节促花效果较差,促花效果与气候条件、龙眼树体长势及枝梢老熟程度有密切关系;不同季节成熟收获的龙眼果实质量存在一定差异,反季节与正造栽培收获的龙眼相比,可食率提高,果核变小,但糖份含量等品质指标则较差,其中以春末夏初收获的果实个大肉厚,外观较佳,市场销售价较高,因此夏末至秋初干燥季节施药处理、春末夏初收获龙眼的调控方案较适合茂名等冬暖的地区。     

Oviposition behaviour and larval development of Anastrepha fraterculus from Argentina in citrus

Citrus peel physicochemical attributes are considered the main components conferring partial or even total resistance to fruit fly (Diptera: Tephritidae) infestation. Fruit fly females adapt their ovipositional strategies to overcome such resistance. Here, we explored the effects of citrus species (Rutaceae) on the ovipositional behaviour of the South American fruit fly, Anastrepha fraterculus (Wiedemann), and on its immature development. Particularly, we investigated the effects of (1) citrus species on oviposition behaviour and immature development, (2) citrus species on oviposition preference and on the location of the eggs at different depth in the citrus peel, and (3) harvest season and post‐harvest storage time on oviposition behaviour and immature development in lemon. Citrus species influenced ovipositional behaviour and affected survival of immature stages. Females laid eggs in lemon [Citrus limon (L.) Burm.], orange [Citrus sinensis (L.) Osbeck], and grapefruit (Citrus paradisi Macfadyen). In orange and lemon, larvae were found dead close to the oviposition areas, suggesting chemically mediated resistance mechanisms. Under choice conditions, females preferred grapefruit over lemon and bigger clutches were found in the layers where embryonic development is favoured. Unsuitability of lemon as a medium to complete development was neither affected by harvest season nor by storage time of the fruit after harvest. The physical and chemical characteristics of the peel were distinctive to each citrus species and may have affected the specific levels of resistance of these citrus species to infestation by A. fraterculus.     

Long-term effects of low levels of SO2 on bean plants (Phaseolus vulgaris). II. Immission-response effects on biomass production: quantity and quality

Bean plants ( Phaseolus vulgaris L. cv. Processer) were grown in water culture with separate air supply to roots for four to five weeks at five levels of SO₂ ranging from 10 μg m⁻³ to 950 μg m⁻³. At harvest the plant material was divided into six fractions: root, stem, fruit and leaves of three age groups.
Plants were mainly affected at and above approx. 250 μg m⁻³ SO₂. Fresh weight was reduced in mature and old leaves, and roots and fruit. Dry weight was also reduced in mature and old leaves, and roots and stem. A reduction was found in chlorophyll a and chlorophyll b in mature and old leaves, and also starch was reduced in the leaves. Sulfur content of leaves and fruit increased with exposure time and concentration, while Br, Ca, Cl, K, Mn, P and Zn increased at the highest SO₂ level only. Total (but not specific) peroxidase activity increased in all aerial fractions, i.e. soluble protein increased just like peroxidase activity. Seventeen studied amino acids all increased on the average by 38% in mature bean pods.
The observed effects may be parts of a reaction for survival and propagation of the plant, as fruit quality was not affected, indeed, it sometimes improved slightly. The latter observation is of commercial interest.     

1-MCP对室温贮藏下不同成熟度猕猴桃的生理效应

以适期采收(成熟度Ⅰ)和晚采收(成熟度Ⅱ)的'海沃德'猕猴桃果实为材料,研究0.5 μL·L~(-1) 1-甲基环丙烯(1-MCP)处理对室温贮藏(20℃)条件下两种果实的生理生化指标的影响.结果显示:1-甲基环丙烯(1-MCP)处理能有效延缓贮藏期间两种成熟度果实的硬度、可滴定酸含量、维生素C含量的下降,显著降低二者的乙烯释放速率和呼吸强度及其峰值,提高果实的POD、CAT和SOD活性.与成熟度Ⅰ相比,成熟度Ⅱ果实的硬度下降较快,且丙二醛含量和呼吸速率却明显较高,呼吸速率和乙烯释放量高峰时间相对提前.研究表明,在相同的贮藏条件下,晚采收的'海沃德'猕猴桃果实成熟衰老进程明显快于适期采收果实,贮藏效果较差;1-MCP能够明显延长猕猴桃果实的贮藏时间,表现出显著的保鲜效果.     

Gas exchange parameters, water relations and carbohydrate partitioning in leaves of field-grown Prunus domestica following fruit removal

The effect of fruit removal on gas exchange, water relations, chlorophyll and non-structural carbohydrate content of leaves from mature, field-grown plum trees ( Prunus domestica L. cv. Stanley) was determined over 2 consecutive growing seasons. Removal of fruits during stage II of fruit development decreased CO₂ assimilation rate within 24 h from 12.6 to 8.5 μmol m^-2 s^-1 in 1986, and from 12.1 to 10.2 μmol m^-2 s^-1 in 1987. Depression of net photosynthesis persisted for at least 5 days and was greatest in the early afternoon. Recovery of the CO₂ assimilation rate to pretreatment levels coincided in defruited trees with vegetative growth that was more than 5-fold that of fruiting trees in the first 6 weeks after fruit removal in 1986. Estimated photorespiration was similar in both fruiting and defruited trees. The stomatal contribution to the decrease of CO₂ assimilation rate, calculated from assimilation/intercellular CO₂ curves, ranged from 31 to 46%. Defruiting did not affect leaf water potential, but decreased leaf osmotic potential. Leaf levels of chlorophyll, fructose, glucose, sorbitol and sucrose were not affected by defruiting, whereas starch content increased up to 51% in leaves of defruited trees within 24 h after fruit removal. However, because of the small starch pool present in plum leaves (<1.9% dry weight) it is unlikely that starch accumulation was responsible for the observed decline in CO₂ assimilation rate after fruit removal. The decrease of CO₂ assimilation rate is discussed in relation to the hypothesis of assimilate demand regulating photosynthesis through a feedback mechanism.     

Calcium nitrate delays climacteric of persimmon fruit

Calcium nitrate (20 g litre^?1) delayed persimmon (Diospyros kaki) ripening on the tree and also reduced postharvest fruit deterioration when applied prior to fruit colour break. The magnitude of the response depended on the date of treatment. Application made one month prior to the peak of estimated commercial harvest was the most efficacious, and colour development, fruit softening and ethylene production were significantly retarded by the treatment. At harvest, there was no effect on fruit size or soluble solids content. Although there was a tendency for the content of soluble solids and fruit firmness to decrease with storage period, firmness of treated fruit was maintained.     

The response of apples cv. Cox's Orange Pippin to different concentrations of oxygen in the storage atmosphere

The response of apples cv. Cox's Orange Pippin to storage in flowing streams of air and nitrogen mixed to generate atmospheres ranging from 0.5% to 2% oxygen was examined in two seasons. The benefits of reducing store oxygen concentrations below 1.25% were small but storage in 0.75% may be advantageous for Cox's Orange Pippin apples in seasons when flesh firmness is low at harvest. Ethanol-induced flesh breakdown was recorded in samples stored in 0.5% O₂ in one season and the risk of low temperature breakdown was increased in oxygen levels below 1.25%. Ethylene production was reduced by lowering the oxygen concentration.     

Effects of paclobutrazol and chilling temperatures on lipids, antioxidants and ATPase activity of plasma membrane isolated from green bell pepper fruits

The effects of paclobutrazol treatment on plasma membrane lipid composition and ATPase activity of bell pepper fruit ( Capsicum annuum ) subjected to chilling temperatures were assessed. Application of the growth regulator paclobutrazol affected plant growth and fruit morphology. The plants were more compact and the fruits were less elongated than control fruits. There was about 60% more plasma membrane on a fresh weight basis from treated fruits. At harvest there was no difference in sterol to phospholipid ratio, or in phospholipid fatty acid composition of control compared with paclobutrazol treated fruit. However, plasma membrane ATPase acitivity of treated fruit was two times higher than that of control fruit. After storage at chilling temperature (2°C), the control fruit developed more chilling iniury, and had greater weight loss and a higher rate of K⁺ leakage than paclobulrazol treated fruit. Plasma membrane phospholipid content decreased and saturation of phospholipid fatty acids was higher than in control fruit. These two changes were largely absent in plasma membrane from treated fruit. At harvest antioxidant levels in the plasma membrane of paclobutrazol treated peppers were higher than in those of controls and changed little during storage, whereas levels in control fruit plasma membrane decreased 66%. ATPase activity increased and then decreased in control fruit held at low temperature, whereas in treated fruit activity was constant. The protective effect of paclobutrazol against chilling injury of pepper fruit may result from a combination of its effect on fruit morphology, and protection of the lipids against oxidative stress.     

Tomato fruit ascorbic acid content is linked with monodehydroascorbate reductase activity and tolerance to chilling stress

Quantitative trait loci (QTL) mapping is a step towards the identification of factors regulating traits such as fruit ascorbic acid content. A previously identified QTL controlling variations in tomato fruit ascorbic acid has been fine mapped and reveals that the QTL has a polygenic and epistatic architecture. A monodehydroascorbate reductase (MDHAR) allele is a candidate for a proportion of the increase in fruit ascorbic acid content. The MDHAR enzyme is active in different stages of fruit ripening, shows increased activity in the introgression lines containing the wild-type ( Solanum pennellii ) allele, and responds to chilling injury in tomato along with the reduced/oxidized ascorbate ratio. Low temperature storage of different tomato introgression lines with all or part of the QTL for ascorbic acid and with or without the wild MDHAR allele shows that enzyme activity explains 84% of the variation in the reduced ascorbic acid levels of tomato fruit following storage at 4 °C, compared with 38% at harvest under non-stress conditions. A role is indicated for MDHAR in the maintenance of ascorbate levels in fruit under stress conditions. Furthermore, an increased fruit MDHAR activity and a lower oxidation level of the fruit ascorbate pool are correlated with decreased loss of firmness because of chilling injury.     

Photosynthesis and carbohydrate partitioning in sweet cherry: Fruiting effects

The effect of fruiting on carbon fixation and retention in leaves was monitored by measuring net photosynthesis (Pn) and total non-structural carbohydrates (TNC) on a seasonal basis on mature fruiting and non-fruiting sweet cherry trees ( Prunus avium L. cv. Bing). Pn was also measured diurnally during stages II and III of fruit development. Pn rates increased to between 18 and 20 mg CO₂ dm^-2 h^-1 during stage II of fruit development and were maintained until harvest. Diurnally, Pn increased in the morning to 20 mg CO₂ dm^-2 h^-1 and this rate continued until sunset. Leaf carbohydrate levels decreased in both fruiting and non-fruiting trees beginning at the equivalent of stage II of fruit growth. Carbohydrates were lower in leaves and woody portions of current, 1- and 2-year-old shoots of fruiting trees. Although differences were found in levels of non-structural carbohydrates, no differences in Pn were found in fruiting vs non-fruiting plants on either a seasonal or a diurnal basis. Pn rates in swet cherry in the field were primarily affected by ontogeny and environment and not by sink strength.     

Ripening of Nectarine Fruit (Changes in the Cell Wall,Vacuole, and Membranes Detected Using Electrical Impedance Measurements)

Electrical impedance measurements were used to characterize changes in intracellular and extracellular resistance as well as changes in the condition of membranes during ripening of nectarines (Prunus persica [L.] Batsch cv Fantasia). These measurements were related to changes in fruit texture assessed by flesh firmness and apparent juice content. An electrical model indicated that, during ripening (d 1-5) of freshly harvested fruit, the resistance of the cell wall and vacuole declined by 60 and 26%, respectively, and the capacitance of the membranes decreased by 9%. Accurate modeling of the impedance data required an additional resistance component. This resistance, which declined by 63% during ripening, was thought to be associated with either the cytoplasmic or membrane resistance. Changes in tissue resistance measured using low frequencies of alternating current were closely related to flesh firmness. After storage at 0[deg]C for 8 weeks, the nectarines developed a woolly (dry) texture during ripening at 20[deg]C. The main difference between these chilling-injured nectarines and fruit ripened immediately after harvest was the resistance of the cell wall, which was higher in woolly tissue (4435 [omega] after 5 d at 20[deg]C) than in nonwoolly tissue (2911 [omega] after 5 d at 20[deg]C). The results are discussed in relation to physiological changes that occur during the ripening and development of chilling injury in nectarine fruit.