Quantifying sink and source limitations on dry matter partitioning to fruit growth in peach trees

We describe an approach for determining the degree of sink and source limitations on peach ( Prunus persica L. Batsch) fruit growth during several growth periods. Source limitations on fruit growth may be due to either a shortfall in assimilate supply within the tree (supply limitation) or to a deficiency in the capacity of the translocation system to deliver assimilates in sufficient quantity to support the maximum fruit growth rate (transport/competition limitation). To ascertain the potential maximum rate of fruit growth, fruit thinning treatments were used. One month after bloom, the number of fruits per tree was adjusted to between 50 and 700 on an early and a late maturing peach cultivar (cvs Spring Lady and Cal Red, respectively). Rates of potential sink demand, potential source supply and actual fruit growth were estimated from sequential harvests of all fruits on 42 trees on two (Spring Lady) and three (Cal Red) dates. These values were used to estimate the proportion of potential growth achieved, and the supply and transport/competition limitations on fruit growth. The results indicated that source limitations were significant on trees with moderate to high fruit numbers. These source limitations were due to supply limitations during all harvest intervals and to transport/competition limitations during the early harvest intervals. Sink limitations occurred to the greatest extent during the mid-period of fruit growth on the later maturing cultivar.     

不同材质果袋春夏季节套袋对黄瓜果实发育和品质的影响

以“冬冠3号”黄瓜品种为试材,于春夏生长季节（4—7月份）在日光温室中研究了白膜袋、鲜膜袋、白纸袋和黄纸袋4种套袋处理对黄瓜果实微环境、果实生长发育和营养品质及农药残留的影响。结果表明：不论晴天还是阴天,所有套袋处理的袋内光照强度降低,相对湿度增大,温度提高;白纸袋增温效果最好,鲜膜袋内相对湿度最高,黄纸袋内光照最弱。单株单瓜套袋和单株果实连续套袋试验均表明,套袋后果实鲜重增长加快,瓜长度增加,瓜皮色显著变浅。连续套袋后,单瓜重普遍提高,大头瓜率降低,但化瓜率、弯瓜率和尖头瓜率增加;游离氨基酸含量提高;维生素C含量无显著变化;叶绿素和类胡萝卜素的含量普遍降低;可溶性蛋白质含量白纸袋和鲜膜袋的提高,黄纸袋和白膜袋的降低,但与CK间的差异均未达到5％显著水平。套袋可有效降低果实中氧化乐果的残留量,其中黄纸袋效果最好,其次为鲜膜袋、白膜袋和白纸袋。综合考虑各指标,认为春夏季节黄瓜果实套袋栽培应优先选用白纸袋,鲜膜袋和白膜袋不适宜在该季节使用。     

无籽枇杷研究初报

利用冻害果实、生长调节剂诱导、多倍体品种等进行无籽枇杷生产试验,结果表明,生长调节剂诱导及利用多倍体品种是生产无籽枇杷果实的较佳方法。     

Endogenous polyamines in apple and their relationship to fruit set and fruit growth

The distribution of free and bound polyamines was investigated from blooming until harvest on flower, fruitlets and fruits of Malus domestica Borkh cv. Golden Delicious, Relationships between polyamines and fruit set and growth were also investigated. The level of free polyamines was high only during the first weeks after full bloom and then decreased gradually. The amount of bound trichloroacetic acid-insoluble polyamines was much higher than free polyamines. Bound spermine in particular showed a high value for almost 40 days after full bloom, while spermidine and putrescine were no longer detectable even a few days after full bloom.
In relation to fruit set, it was possible to observe that abscission peaks took place when free polyamine levels were low or decreasing. Insofar as fruit growth is concerned, the most substantial variations in polyamine levels occurred very early in the season when fruit dry weight and protein amount were also changing rapidly and fruit diameter was almost impossible to measure.     

Respiration and growth of tomato fruit

The respiration rate and diameter expansion growth of young tomato fruit were measured simultaneously and related to changes in carbon import and plant water status. Respiration rate was directly proportional to the volume expansion rate of fruit growing on isolated plant tops at a positive water potential, whether the growth rate was changed by changing the fruit temperature or by manipulating the source:sink ratio of the plants. From the latter relationship, the maintenance respiration rate was estimated by extrapolation to zero growth and was found to be about 25% of the respiration rate of the average fruit at 21°C. Alternatively, when carbon import was prevented by heat-ringing the fruit peduncle, the respiration rate of the fruit declined to about 40% of the control rate and remained steady, while the expansion rate then declined steadily to >10% of the control rate. These results show that fruit expansion was not contributing significantly to fruit respiration. Indeed, large fluctuations in fruit expansion rate could also be induced by repeated darkening and illumination of potted plants without a corresponding change in fruit respiration. Most significantly, fruit expansion was considerably reduced when plants were allowed to wilt, hut there was no change in fruit respiration rate unless the fruit peduncle was subsequently heat-ringed. We conclude that a major part of the respiration of young tomato fruit was determined by the rate of carbon import, or associated processes, and that fruit expansion per se can occur with relatively low respiratory costs.     

Interaction of 4-chloroindole-3-acetic acid and gibberellins in early pea fruit development

In pea, normal pod (pericarp) growth requires the presence of seeds; and in the absence of seeds, gibberellins (GAs) and/or auxins can stimulate pericarp growth. To further characterize the function of naturally occurring pea GAs and the auxin, 4-chloroindole-3-acetic acid (4-Cl-IAA), on pea fruit development, profiles of the biological activities of GA3, GA1, and 4-Cl-IAA on pericarp growth were determined separately and in combination on pollinated deseeded ovaries (split-pericarp assay) and nonpollinated ovaries. Nonpollinated ovaries (pericarps) responded differently to exogenous GAs and 4-Cl-IAA than pollinated deseeded pericarps. In nonpollinated pericarps, both GA3 and 4-Cl-IAA stimulated pericarp growth, but GA3 was significantly more active in stimulating all measured parameters of pericarp growth than 4-Cl-IAA. 4-Cl-IAA, GA1, and GA3 were observed to stimulate pericarp growth similarly in pollinated deseeded pericarps. In addition, the synergistic effect of simultaneous application of 4-Cl-IAA and GAs on pollinated deseeded pericarp growth supports the hypothesis that GAs and 4-Cl-IAA are involved in the growth and development of pollinated ovaries.     

Differential expression of expansin gene family members during growth and ripening of tomato fruit

cDNA clones encoding homologues of expansins, a class of cell wall proteins involved in cell wall modification, were isolated from various stages of growing and ripening fruit of tomato (Lycopersicon esculentum). cDNAs derived from five unique expansin genes were obtained, termed tomato Exp3 to Exp7, in addition to the previously described ripening-specific tomato Exp1 (Rose et al. (1997) Proc Natl Acad Sci USA 94: 5955–5960). Deduced amino acid sequences of tomato Exp1, Exp4 and Exp6 were highly related, whereas Exp3, Exp5 and Exp7 were more divergent. Each of the five expansin genes showed a different and characteristic pattern of mRNA expression. mRNA of Exp3 was present throughout fruit growth and ripening, with highest accumulation in green expanding and maturing fruit, and lower, declining levels during ripening. Exp4 mRNA was present only in green expanding fruit, whereas Exp5 mRNA was present in expanding fruit but had highest levels in full-size maturing green fruit and declined during the early stages of ripening. mRNAs from each of these genes were also detected in leaves, stems and flowers but not in roots. Exp6 and Exp7 mRNAs were present at much lower levels than mRNAs of the other expansin genes, and were detected only in expanding or mature green fruit. The results indicate the presence of a large and complex expansin gene family in tomato, and suggest that while the expression of several expansin genes may contribute to green fruit development, only Exp1 mRNA is present at high levels during fruit ripening.     

Competition and fruit set in the Washington navel orange

In the Washington navel orange [ Citrus sinensis (L.) Osbeck] an increase in the number of flowers results in a reduction of flower weight at anthesis and the initial fruit growth rate, and the number of developing fruitlets increases. Most of these fruitlets are shed during post-anthesis, and the final set of fruit is unrelated to the number of flowers and to the total amount of metabolites and mineral elements used up in fructification but appears to be controlled by the capacity of the tree to supply metabolites to the developing fruitlets during post-anthesis. When the number of flowers is too large, there is a reduction both in the number of initially developing fruitlets and in their growth rate. The final set of fruit is reduced through a different mechanism acting at anthesis and involving differences in mineral composition, which impairs the capacity of the fruit to act as a sink.     

Water relations and growth of tomato fruit pericarp tissue

The water relations of young tomato fruit pericarp tissue were examined and related to tissue expansion. The relationship between bulk turgor pressure and tissue expansion (as change in fresh mass or length of tissue) was determined in slices of pericarp cut from young, growing fruit by incubation in different osmotic concentrations of polyethylene glycol 6000 or mannitol. The bulk turgor of this tissue was low (about 0.2 MPa), even in fruit from plants that were otherwise fully turgid, whether measured psychrometrically or by length change in osmotic solutions. The rate of tissue growth at maximum turgor was less than that at moderate turgor unless calcium was added to the incubation medium. However, added calcium also decreased the rate of growth at lower turgor pressures. Yield turgor was < 0.1 MPa, but it was increased by the addition of calcium ions. Electrolyte leakage from tissue was greatest at maximum turgor pressure but was decreased by the addition of calcium ions or osmoticum. Tissue growth was unaffected by a range of plant growth regulators (IAA, abscisic acid, benzyladenine and GA₃) but was inhibited, particularly at high turgor, by low concentrations of malic or citric acid. The low turgor pressure of pericarp tissue could be due to the presence of apoplastic solutes within the pericarp, and evidence for this is discussed. Thus, fruit tissue may be able to maintain optimal expansion rates only at moderate turgor and low calcium concentration.     

秦光油桃果实生长曲线和落果波相的观察

以北京8号桃作对照,对秦光油桃果实生长发育和落果进行了系统观察,结果表明秦光油桃果实生长曲线与桃一样,也可分为3个时期。不同的是秦光油桃硬核期果实仍继续生长,果实生长不呈典型的“双S”曲线。秦光油桃硬核期落果较重,这可能与其在硬核期继续生长有关。     

Influence of canopy fruit location on morphological,histochemical and biochemical changes in two oil olive cultivars

The influence of different irradiance conditions was evaluated under natural solar radiation by comparing well-exposed (in) and shaded fruit (out) in canopies of olive trees (Olea europaea L). Over a 2-year period, from 50 days after full bloom up to harvest time, “in” and “out” olive samples of two genotypes (“Frantoio Millennio” and “Coratina 5/19”) were periodically collected. Morphological, histochemical, and biochemical analysis were performed to study the changes on fruit morphometric traits, oil body accumulation, and β-glucosidase enzyme activity. Some parameters were modified by shading inside the canopy in which the proportion of incident photosynthetically active radiation intercepted by the crop was 47%. Shaded fruits developed at slow rate and were characterized by late darkgoing time, reduced size, with a tendency toward oblong shape. The rapid histochemical procedure proposed to estimate the oil body accumulation during fruit ripening showed that a reduced irradiance caused a decrease in oil body density. The canopy position influenced, in a different way, the β-glucosidase activity in relation to the fruit-ripening stage in both genotypes. These findings indicate that providing an adequate and uniform lighting of the olive canopy by careful choices of orchard management practices can be a key factor for several yield components.     

Regulation of tomato fruit growth by epidermal cell wall enzymes

Water relations of tomato fruit and the epidermal and pericarp activities of the putative cell wall loosening and tightening enzymes Xyloglucan endotransglycosylase (XET) and peroxidase were investigated, to determine whether tomato fruit growth is principally regulated in the epidermis or pericarp. Analysis of the fruit water relations and observation of the pattern of expansion of tomato fruit slices in vitro , has shown that the pericarp exerts tissue pressure on the epidermis in tomato fruit, suggesting that the rate of growth of tomato fruit is determined by the physical properties of the epidermal cell walls. The epidermal activities of XET and peroxidase were assayed throughout fruit development. Temporal changes in these enzyme activities were found to correspond well with putative cell wall loosening and stiffening during fruit development. XET activity was found to be proportional to the relative expansion rate of the fruit until growth ceased, and a peroxidase activity weakly bound to the epidermal cell wall appeared shortly before cessation of fruit expansion. No equivalent peroxidase activity was detected in pericarp tissue of any age. It is therefore plausible that the expansion of tomato fruit is regulated by the combined action of these enzyme activities in the fruit epidermis.     

Disentangling the link between leaf photosynthesis and turgor in fruit growth

Despite the importance of understanding plant growth, the mechanisms underlying how plant and fruit growth declines during drought remain poorly understood. Specifically, it remains unresolved whether carbon or water factors are responsible for limiting growth as drought progresses. We examine questions regarding the relative importance of water and carbon to fruit growth depending on the water deficit level and the fruit growth stage by measuring fruit diameter, leaf photosynthesis, and a proxy of cell turgor in olive (Olea europaea). Flow cytometry was also applied to determine the fruit cell division stage. We found that photosynthesis and turgor were related to fruit growth; specifically, the relative importance of photosynthesis was higher during periods of more intense cell division, while turgor had higher relative importance in periods where cell division comes close to ceasing and fruit growth is dependent mainly on cell expansion. This pattern was found regardless of the water deficit level, although turgor and growth ceased at more similar values of leaf water potential than photosynthesis. Cell division occurred even when fruit growth seemed to stop under water deficit conditions, which likely helped fruits to grow disproportionately when trees were hydrated again, compensating for periods with low turgor. As a result, the final fruit size was not severely penalized. We conclude that carbon and water processes are able to explain fruit growth, with importance placed on the combination of cell division and expansion. However, the major limitation to growth is turgor, which adds evidence to the sink limitation hypothesis.     

Evaluation of lures and traps for male and female monitoring of Mediterranean fruit fly in pome and stone fruit

Commercial traps and lures have recently become available for monitoring male and female Mediterranean fruit fly, Ceratitis capitata (Wiedemann) (Diptera: Tephritidae) in Australia, with possible applications in monitoring and mass trapping. This study investigated the attractiveness of commercially available male [Capilure^® (CPL), Trimedlure (TML) cone, plugs, and wafers] and female‐targeted synthetic lures (three‐component BioLure^®, BioLure^® Unipak, Ceratitis^® Unipak, TMA Plus^® Unipak and Biotrap^® gel), and five female‐targeted traps [Maxi^® trap, Sorygar Tephri‐trap, Probodelt^® cone trap, and BioTrap Globe^® traps (two versions)]. Results showed that TML and CPL lures were equivalent up to 8 weeks, but TML‐baited traps captured 1.2–4.6 times more male medflies than CPL‐baited traps with lures aged 9–16 weeks. For female‐targeted trapping, all tested lures were female selective. Ceratitis^® Unipak was equivalent to three‐component (3‐C) BioLure^®, whilst BioLure^® Unipak captured 1.1–1.5 times more medflies than 3‐C BioLure^®. The least efficient lures were TMA Plus^® Unipak and Biotrap Fruit Fly Attractant Gel. Tephri‐traps were the least efficient trap, with Maxi traps catching 1.9–6.7 times more medflies than the Tephri‐trap. The appropriate selection of lures and traps for applications in monitoring and mass trapping are discussed.     

扇脉杓兰果实生长动态及胚胎发育过程观察

对授粉后不同发育阶段扇脉杓兰(Cypripedium japonicum Thunb.)果实的生长动态进行了观察和分析,并分别采用TrC法和常规石蜡切片法研究了种子生活力及其胚胎发育过程.观察结果湿示:扇脉杓兰果实形态成熟时间约为110 d,其中,授粉后0～20 d为第1次迅速生长期,授粉后20～30 d为第1次缓慢生长期,授粉后30～50 d为第2次迅速生长期,授粉后50～110 d为第2次缓慢生长期;果实纵径和横径的生长动态变化过程相似,但横径的生长动态曲线较纵径平缓,形态成熟时果实的纵径和横径分别为48.87和13.59 mm.成熟种子由内外2层种皮和球形胚构成,不具胚乳,内外种皮间具空气腔;败育种子只具有内种皮和外种皮而无种胚.胚胎发育类型为石竹型,种胚自受精形成合子到发育为成熟球形胚约需95 d.种胚发育时合子第1次不均衡横裂形成基细胞和顶细胞;基细胞发育为胚柄细胞,胚柄细胞高度液泡化,在胚胎发育的过程中不进行分裂并逐渐退化消失;顶细胞不参与胚柄形成,并且经过有丝分裂最终形成球形胚;内珠被在种子成熟时发育成为1层致密的紧贴胚体的内种皮.种胚纵径和横径的生长动态变化相似,成熟球形胚的纵径和横径分别为208.71和106.19 μm.扇脉杓兰种子生活力较高,有生活力的种子占56％.根据研究结果推测:自然状态下扇脉杓兰种子萌发率较低,可能与致密的种皮、种子中较小的胚体以及无胚乳导致的营养成分不足有关.     

Phytohormones in fruit development and maturation

Phytohormones are integral to the regulation of fruit development and maturation. This review expands upon current understanding of the relationship between hormone signaling and fruit development, emphasizing fleshy fruit and highlighting recent work in the model crop tomato (Solanum lycopersicum) and additional species. Fruit development comprises fruit set initiation, growth, and maturation and ripening. Fruit set transpires after fertilization and is associated with auxin and gibberellic acid (GA) signaling. Interaction between auxin and GAs, as well as other phytohormones, is mediated by auxin-responsive Aux/IAA and ARF proteins. Fruit growth consists of cell division and expansion, the former shown to be influenced by auxin signaling. While regulation of cell expansion is less thoroughly understood, evidence indicates synergistic regulation via both auxin and GAs, with input from additional hormones. Fruit maturation, a transitional phase that precipitates ripening, occurs when auxin and GA levels subside with a concurrent rise in abscisic acid (ABA) and ethylene. During fruit ripening, ethylene plays a clear role in climacteric fruits, whereas non-climacteric ripening is generally associated with ABA. Recent evidence indicates varying requirements for both hormones within both ripening physiologies, suggesting rebalancing and specification of roles for common regulators rather than reliance upon one. Numerous recent discoveries pertaining to the molecular basis of hormonal activity and crosstalk are discussed, while we also note that many questions remain such as the molecular basis of additional hormonal activities, the role of epigenome changes, and how prior discoveries translate to the plethora of angiosperm species.     

Identification and characterisation of the tomato parthenocarpic mutant high fruit set under stress (hfs) exhibiting high productivity under heat and salt stress

Pollination and therefore fruit set in tomato (Solanum lycopersicum) is very sensitive to temperature. Parthenocarpy can be a very useful trait in tomato breeding in sustainable agriculture faced with global warming. Within a collection of Moneymaker tomato mutants a monogenic and recessive mutant with high fruit number was identified in heat stress conditions and named high fruit set under stress (hfs). No morphological alterations in vegetative and reproductive organs were observed except the bigger size of ovary. hfs is parthenocarpic, pollination not being required for fruit set, although this trait was not absolute since it produced some under‐seeded fruit. When plants were grown under extreme temperatures (higher than 35°C), hfs exhibits higher fruit yield than wild‐type (WT) due to increased fruit number. Another very interesting characteristic of hfs is its improved fruit quality under heat stress, exhibiting a better sweetness/acidity balance than WT. Interestingly, hfs was also tolerant to the combination of heat and salt stress, and the positive effect on production was due to both components of yield, fruit number and fruit weight. The generation of mostly seedless fruit and the high productivity and fruit quality under extreme temperatures make hfs a very interesting mutant to obtain new breeding high‐yield lines in adverse environmental conditions.     

Peroxidase isozyme patterns in the skin of maturing tomato fruit

The cessation of tomato fruit growth is thought to be induced by an increase in the activity of enzymes which rigidify cell walls in the fruit skin. Peroxidase could catalyse such wall‐stiffening reactions, and marked rises in peroxidase activity were recently reported in skin cell walls towards fruit maturity. Peroxidase isoforms in the fruit are here analysed using native gel electrophoresis. New isoforms of apparent M_r 44, 48 and 53 kDa are shown to appear in cell walls of the fruit skin at around the time of cessation of growth. It is inferred that these isozymes are present in the cell wall in vivo. Fruit from a range of non‐ripening mutants were also examined. Some of these do not soften or ripen for many weeks after achieving their final size. The new isozymes were found in skin cell walls of mature fruit in each of these mutants, as in the wild‐type and commercial varieties. It is concluded that the late‐appearing isozymes are not associated with fruit ripening or softening, and are probably not ethylene‐induced. They may act to control fruit growth by cross‐linking wall polymers within the fruit skin, thus mechanically stiffening the walls and terminating growth.     

Modelling the effect of fruit growth on surface conductance to water vapour diffusion

BACKGROUND AND AIMS: A model of fruit surface conductance to water vapour diffusion driven by fruit growth is proposed. It computes the total fruit conductance by integrating each of its components: stomata, cuticle and cracks. METHODS: The stomatal conductance is computed from the stomatal density per fruit and the specific stomatal conductance. The cuticular component is equal to the proportion of cuticle per fruit multiplied by its specific conductance. Cracks are assumed to be generated when pulp expansion rate exceeds cuticle expansion rate. A constant percentage of cracks is assumed to heal each day. The proportion of cracks to total fruit surface area multiplied by the specific crack conductance accounts for the crack component. The model was applied to peach fruit (Prunus persica) and its parameters were estimated from field experiments with various crop load and irrigation regimes. KEY RESULTS: The predictions were in good agreement with the experimental measurements and for the different conditions (irrigation and crop load). Total fruit surface conductance decreased during early growth as stomatal density, and hence the contribution of the stomatal conductance, decreased from 80 to 20 % with fruit expansion. Cracks were generated for fruits exhibiting high growth rates during late growth and the crack component could account for up to 60 % of the total conductance during the rapid fruit growth. The cuticular contribution was slightly variable (around 20 %). Sensitivity analysis revealed that simulated conductance was highly affected by stomatal parameters during the early period of growth and by both crack and stomatal parameters during the late period. Large fruit growth rate leads to earlier and greater increase of conductance due to higher crack occurrence. Conversely, low fruit growth rate accounts for a delayed and lower increase of conductance. CONCLUSIONS: By predicting crack occurrence during fruit growth, this model could be helpful in managing cropping practices for integrated plant protection.     

Female-biased sex allocation in relation to growth rate of fruit in Erythronium japonicum

Using four populations of the liliaceous perennial Erythronium japonicum, I examined the hypothesis that sex allocation will be female-biased if the duration of sink-limited growth of fruits, during which fruits grow exponentially, is long. I found that all marked fruits in each population had a period of sink-limited growth. Among the four populations, the mean length of sink-limited growth increased, and the mean dry mass ratio of the sum of the corolla and androecium/fruit decreased, in a consistent order. Thus, plants in populations where the duration of sink-limited growth was long allocated relatively more of their resources to their female functions. This result was consistent with the above hypothesis. Received: 21 March 1998 / Accepted: 27 August 1998