Soil Plus Foliar Nitrogen Application increases Cotton Growth and Salinity Tolerance

Soil or foliar application of nitrogen (N) can increase plant growth and salinity tolerance in cotton, but a combination of both methods is seldom studied under salinity stress. A pot experiment was conducted to study the effects of soil application (S), foliar application (F), and a combination of both (S+F) with labeled nitrogen (¹⁵N) on cotton growth, N uptake and translocation under salinity stress (ECe = 12.5 dS m^?1). Plant biomass, leaf area, leaf chlorophyll (Chl) content, leaf net photosynthetic (Pn) rate, levels of ¹⁵N and [Na⁺] and K⁺/ Na⁺ ratio in plant tissues were determined at 3, 7, 14 and 28 days after N application (DAN). Results showed that soil or foliar nitrogen fertilization improved plant biomass, leaf area per plant and leaf photosynthesis, and a combination of soil- plus foliar-applied N was superior to either S or F alone under salinity stress. Although foliar application favored a rapid accumulation of leaf N and soil application a rapid accumulation of root N, S+F enhanced N accumulation in both leaf and root under salinity stress. The combined N application also maintained significantly greater [K⁺] and K⁺/Na⁺ than either soil or foliar application alone. Therefore, the improved plant growth and salinity tolerance under S+F relative to soil or foliar N application alone was attributed to the increased total uptake of N, balanced N concentrations in different tissues through enhanced uptake and accumulation in both leaves and roots, and higher ratio of K⁺/Na⁺.     

Effect of Zinc Application on Growth and Some Biochemical Characteristics of Costmary (Chrysanthemum balsamita L.)

A pot experiment was conducted to investigate the effects of different zinc (Zn) application methods (soil and foliar application) and concentrations (1 and 2 mg kg^?1 in soil application and 1 and 3 g L^?1 in foliar application) on the growth, some biochemical characteristics, and nutrient concentrations of costmary (Chrysanthemum balsamita L.). Growth parameters were increased by zinc application regardless of its concentration and application method. Protein and total phenol content, antioxidant capacity, and chlorophyll index were increased by zinc supply. In contrast, proline and soluble sugars content showed a decreasing pattern with zinc application. Zinc application, either through soil or foliar application, increased the zinc content of shoots. Manganese uptake potential of plants was increased by foliar zinc application method but not by soil application of zinc. Zinc application had no significant effect on potassium content of plants.     

Effect of Foliar Applications of Humic Acid on Growth,Visual Quality,Nutrients Content and Root Parameters of Perennial Ryegrass (Lolium Perenne L.)

In recent years, applying humic acid (HA) has been common in turfgrass management. A series of experiments were conducted to evaluate the effect of HA on qualitative and quantitative characteristics of “Speedygreen” perennial ryegrass (Lolium perenne L.). Different concentrations of HA (0, 100, 400, and 1000 mg L^?1) were applied monthly as foliar application. Results showed that leaf phosphorus (P), potassium (K), and zinc (Zn) content, fresh and dry weight, chlorophyll content, and root fresh weights were not affected by HA. Meanwhile, HA improved the root and shoot development, except for root fresh weight. While just 100 mg L^?1 improved height, visual quality, nitrogen (N) content, roots length, and surface of roots, all of HA concentrations were effective on iron content. These results suggest that HA foliar application might be of benefit to enhance some nutrients uptake and root development of ryegrass possibly leading to improved drought resistance.     

Interaction of Salinity and Cadmium Stresses on Antioxidant Enzymes,Sodium, and Cadmium Accumulation in Four Barley Genotypes

A hydroponic experiment was carried out utilizing four barley genotypes with differing salt tolerances to investigate the influence of salinity (NaCl) and cadmium (Cd) on the activities of antioxidant enzymes, sodium (Na) and Cd concentrations, and accumulation in plants. The activities of the two antioxidant enzymes, superoxide dismutase (SOD) and peroxidase (POD), were significantly increased when plants were exposed to both Na and Cd stresses for all genotypes, relative to the control. The increased enzymatic activity was more predominant with a prolonged time of stress exposure. The combined stress (NaCl+Cd) led to a further increase in POD activity, but had little effect on SOD activity. Two salt-tolerant genotypes, ‘Gebeina’ and ‘Zhou 1,’ showed a more rapid increase of POD and SOD activities than the two salt-sensitive genotypes, ‘Newgoutei’ and ‘Quzhou’ in response to the combined stress treatment. Additions of NaCl to the Cd-containing medium caused a significant reduction in both Cd concentration and accumulation. The extent of the reduction in Cd concentration was also dependent on genotypes. The salt-tolerant genotypes had lower Na concentrations than sensitive genotypes, and the effect of Cd stress on Na concentration and accumulation varied with genotypes. It may be concluded that a significant interaction exists between Na and Cd in their influence on antioxidant enzyme activity and the accumulation of each element in the plant.     

Zinc Sulfate Foliar Application Effects on Some Physiological Characteristics and Phenolic and Essential Oil Contents of Lavandula stoechas L. Under Sodium Chloride (NaCl) Salinity Conditions

Lavandula stoechas L. plant is a perennial evergreen used as a fragrant ornamental and medicinal plant. In order to study the effect of foliar spray of zinc sulfate (ZnSO₄) (0, 1000, and 2000 mgL^?1) and sodium chloride (NaCl) salinity (0, 75, and 150 mM) on some physiological characteristics of Lavandula stoechas L. plants, a pot experiment was carried out at the Research Greenhouse of Azarbaijan Shahid Madani University, Iran. Physiological characteristics [root and leaf dry weights, total soluble solids (TSSs), total anthocyanins, chlorophyll b, Zn²⁺, potassium (K⁺) contents, and K⁺/Na⁺ ratio] were significantly affected by the interaction effects of ZnSO₄ foliar application and salinity levels. The highest root dry weight, chlorophyll b, anthocyanin, and Zn contents as well as TSS were found in the plants with NaCl₀ × ZnSO_{4 2000} mgL^?1. For Na⁺, the greatest value was recorded with NaCl ₁₅₀ × ZnSO₄₀. The highest K⁺/Na⁺ ratio was found in the control plants. Foliar application of ZnSO₄ promoted the total phenolic content, especially at 2000 mgL^–1. The highest amounts of flower dry weights were recorded at NaCl₀. Chlorophyll a, total flavonoids, stem dry weight, and essential oil content were affected with ZnSO₄ treatment and salinity levels. The highest values for the essential oil content, chlorophyll a content, and stem dry weight were attained by the nonsaline treatment. Both foliar application levels positively influenced the essential oil and flavonoid contents of the plants. The results reveal that zinc application had marked effects on the physiological characteristics of Lavandula stoechas L. plants growing under salinity stress conditions.     

Effects of Foliar Spray of K on Mint,Radish, Parsley and Coriander Plants in Aquaponic System

An aquaponic system was designed to investigate the effects of foliar applications of potassium (K) on mint, radish, parsley, and coriander growth and physiological characteristics. Plants were sprayed with 100 mL pot^?1 of 0.5 g L^?1 potassium sulfate (K₂SO₄) twice a week. Fresh and dry masses of shoot in all species were higher in K-treated plants. Potassium concentration increased with K spray in the shoots of all species. K-sprayed parsley accumulated a greater amount of Fe and chlorophyll in shoots. Values of SPAD index in all species decreased significantly in untreated plants. The highest Quantum Photosynthetic Yield (F_v/F_m) values were observed in coriander plants treated with K, which was attributed to higher SPAD value in these plants. Potassium application had a negative effect on sodium (Na) and positive effect on magnesium (Mg), manganese (Mn), and zinc (Zn) concentrations in plants. These results indicated that foliar spray of K can effectively alleviate nutrient deficiencies in leafy and root vegetables grown in aquaponics.     

Effects of foliar Fe and Zn fertilizers on storage root Fe,Zn, and beta-carotene content of sweet potato (Ipomoea batatas L.)

Foliar sprays of iron (Fe) and zinc (Zn) fertilizers are effective in improving Fe and Zn concentrations in sweet potato. The objective of this experiment was to examine the effects of foliar fertilization with Fe and Zn in association with amino acids (AA) on Fe and Zn biofortification and the nutritional quality of sweet potato under both greenhouse and field conditions. Compared with treatment CK, foliar Fe, Zn, and Fe-Zn fertilizer applications could biofortify Fe and Zn concentrations and other nutrients in sweet potato to different extents. However, when 0.4% (wt/vol) AA was added to Fe-Zn fertilizer, the average Fe and Zn concentrations were increased by 70.2% and 59.8% under greenhouse conditions, and 52.9% and 43.7% under field conditions, respectively. The Fe-Zn-AA fertilizer application also resulted in incremental increases in root yield and beta-carotene content. This research identified some useful foliar fertilizers for accelerating Fe and Zn accumulation in selected sweet potato cultivars.     

Cumulative Effect of Soil and Foliar Application of Nitrogen,Phosphorus, and Sulfur on Growth,Physico-Biochemical Parameters,Yield Attributes,and Fatty Acid Composition in Oil of Erucic Acid-Free Rapeseed-Mustard Genotypes

ABSTRACT

The feasibility of split (soil + foliar) applications of nitrogen (N) and phosphorus (P) and addition of a small quantity of sulfur (S) in the spray was tested for improving performance of rapeseed-mustard genotypes in a factorial randomized field experiment. Three genotypes (two erucic acid free, viz. Brassica napus L. cv. ‘Hyola PAC – 401’ and Brassica juncea L. Czern. and Coss. cv. ‘TERI (0E) M 21-Swarna’, and one best performing high yielding Brassica juncea L. cv. ‘Rohini’ as a check) were grown with four soil (B) plus foliar (F) applications of N, P, and S with uniform basal 30 kg potassium (K) ha^{? 1} (K₃₀), viz. (i) the optimum soil-applied treatment supplemented with the spray of deionized water (B_N90P30 + Fw) comprising control, (ii) B_N70P30 + F _N20, (iii) B_N70P28 + F_N20P2, and (iv) B_N70P28 + F_N20P2S2. Soil Plus foliar application of nutrients, particularly B_N70P28 + F_N20P2S2, improved their performance with respect to growth characteristics (shoot length plant^{? 1}, leaf number plant^{? 1}, area leaf^{? 1}, leaf area index, fresh weight plant^{? 1}, and dry weight plant^{? 1}), physico-biochemical parameters (net photosynthetic rate, stomatal conductance, carboxylation efficiency, water use efficiency, carbonic anhydrase activity, leaf NPK content, and N use efficiency), yield attributes (pod number plant^{? 1}, seed number pod^{? 1}, 1000-seed weight, seed yield ha^{? 1}, oil content, and oil yield ha^{? 1}), and fatty acid composition in oil of these genotypes. The cultivar ‘Hyola PAC-401’ performed best particularly with B_N70P28 + F_N20P2S2. The improvement in the response of genotypes to the split application of nutrients may be attributed to their ready availability through foliar application.     

Effects of Nitrogen Application on Chlorophyll Content,Water Relations,and Yield of Maize Hybrids under Saline Conditions

An experiment was conducted to assess whether accumulation of photosynthetic pigments, proline, and maintenance of water relation attributes relate to the yield of maize hybrids differing in salt tolerance. Two maize hybrids, Pioneer32B33 and Dekalb979, were grown at three salinity levels under four nitrogen treatments. The experiment was laid out in a three-factor randomized complete block design and there were three replications of each treatment. Salt stress significantly decreased leaf chlorophyll a and a/b contents, whereas chlorophyll b and total chlorophyll were slightly increased. Under salinity stress, relative water content decreased, and water potential and osmotic potential become more negative. As a result, turgor potential also decreased. Nitrogen application improved all the chlorophyll pigments, water-related attributes, and yield components. However, chlorophyll a/b ratio was decreased. Overall, because of the differential response of maize hybrids to salt stress in terms of their performance in photosynthetic pigments, water relations, and yield, it can be concluded that hybrid Pioneer32B33 might perform better, if grown under salinity regime and sufficient nitrogen was applied in the growth medium.     

Physiological Response of Foliar Fertilized Matricaria recutita L. Grown on Industrially Polluted Soil

Essential oil quality, quantity, and antioxidant capacity of foliar fertilized Matricaria recutita L., grown on industrially polluted with cadmium (Cd) and lead (Pb) soil were studied. The polluted field is near the waste depository of ferrous metallurgical combine “Kremikovci”. Content of Cd and Pb in the soil exceeded permissible concentrations 4.6 and 2.0 times, respectively. The presence of high levels of heavy metals in the soil resulted in retained plant growth. In M. recutita grown on industrially polluted soil, a decrease of root and shoot dry biomass and reduction of number of lateral steams was observed. Otherwise, the number and biomass of flowers per plant increased. Antioxidant defense in the foliar fertilized plants grown on industrially polluted soil could due mainly to increased levels of peroxidases with substrates ascorbate, glutathione, guaiacol, and hydrogen peroxide. Enhanced levels of Cd and Pb in soil did not influence essential oil yield and quality of chamomile.     

Effects of Zinc Application on Growth,Absorption and Distribution of Mineral Nutrients Under Salinity Stress in Soybean (Glycine Max L.)

The purpose of the present work was to evaluate effects of zinc application on growth and uptake and distribution of mineral nutrients under salinity stress [0, 33, 66, and 99 mM sodium chloride (NaCl)] in soybean plants. Results showed that, salinity levels caused a significant decrease in shoot dry and fresh weight in non-zinc application plants. Whereas, zinc application on plants exposed to salinity stress improved the shoot dry and fresh weight. Potassium (K) concentration, K/sodium (Na) and calcium (Ca)/Na ratios significantly decreased, while sodium (Na) concentration increased in root, shoot, and seed as soil salinity increased. Phosphorus (P) concentration significantly decreased in shoot under salinity stress. Moreover, calcium (Ca) significantly decreased in root, but increased in seed with increased salinization. Iron (Fe) concentration significantly decreased in all organs of plant (root, shoot, and seed) in response to salinity levels. Zinc (Zn) concentration of plant was not significantly affected by salinity stress. Copper (Cu) concentration significantly decreased by salinity in root. Nonetheless, manganese (Mn) concentration of root, shoot, and seed was not affected by experimental treatments. Zinc application increased Ca/Na (shoot and seed) ratio and K (shoot and seed), P (shoot), Ca (root and seed), Zn (root, shoot, and seed) and Fe (root and shoot) concentration in soybean plants under salinity stress. Zinc application decreased Na concentration in shoot tissue.     

铁、锌配施对藿香生长、产量及有效成分的影响

为探究铁、锌不同浓度配施对藿香生长、产量及有效成分的影响,以藿香为试验材料,采用双因素随机区组设计,研究铁锌配施对藿香生长、产量、各部位铁锌分配及挥发油含量的影响。结果表明,叶面喷施铁锌肥能显著影响藿香的生长发育、产量和挥发油成分,显著影响藿香的抗氧化酶活性,显著提高淀粉、还原糖、可溶性糖和可溶性蛋白含量,通过影响氮代谢相关酶活性间接影响植株氮代谢过程。叶面施铁对藿香产量的影响大于叶面施锌,铁锌配施的增产效果优于单独施用铁、锌肥;综合考虑藿香的生长和产量指标,认为Fe₁Zn₁(0.2%铁,0.1%锌)为铁锌配施的最优处理组合。施用锌铁肥能够增加藿香各部位的铁锌含量,锌在不同部位的含量呈叶>根>茎的变化趋势,铁在不同部位的含量呈根>叶>茎的变化趋势,锌主要集中在藿香叶片,而铁则主要集中在藿香根部。高浓度的叶面施铁有助于叶片Ca含量的累积。铁锌配施能显著提高藿香挥发油含量,并影响挥发油成分,其中D-柠檬烯含量最高,在Fe₁Zn₂处理时达到最大值(22.99%)。综上,合理配施铁锌肥能提高藿香主要化学成分的含量,但过高浓度的施用增产效果并不明显。本研究结果为铁锌肥在藿香生产中的应用提供了理论依据。     

Response of Zweigelt Grapevine to Foliar Application of Potassium Fertilizer: Effects on Gas Exchange,Leaf Potassium Content,and Incidence of Traubenwelke

Zweigelt grapes have recently become susceptible to infestation with Traubenwelke (grape wilting) and the susceptibility has been assumed to be related to potassium (K) deficiency. The aim of the studies was to determine the effects of foliar application of K on leaf K content, leaf gas exchange, and on infestation of grapes with Traubenwelke. Three foliar fertilizers of K (Agripotash, 27.4% K; Nutrileaf, 33.2% K; and KNO₃, 38.7% K) and one of magnesium (Mg) (Agrovit Mg, 4.8% Mg) were tested on grapevines (Vitis vinifera, L. cv. ‘Zweigelt’) in field studies in 2003 and 2004. Foliar analysis showed that the tested foliar fertilizers had no effect on leaf K content in either year. Furthermore, the frequency of infestation with grape wilting was not reduced by K fertilizers. Measurements of leaf gas exchange in 2004 showed that all fertilizer treatments reduced photosynthesis (A) and stomatal conductance (gs) compared with the untreated control.     

Effects of Salinity and Water Stress on Growth and Macro Nutrients Concentration of Pomegranate (Punica granatum L.)

In order to study the effects of salinity and water stress on growth and macronutrients concentration of pomegranate plant leaves, a factorial experiment was conducted based on completely randomized design with 0, 30, and 60 mM of salinity levels of sodium chloride and calcium chloride (1:1) and three irrigation intervals (2, 4, and 6 days) with 3 replications on ‘Rabab’ and ‘Shishegap’ cultivars of pomegranate. The results of the shoot and root analysis indicated that the salinity and drought affected the concentration and distribution of sodium (Na⁺), potassium (K⁺), chloride (Cl^?), calcium (Ca²⁺), magnesium (Mg²⁺), and phosphorus (P⁺) in pomegranate leaves. Mineral concentrations of sodium (Na⁺), chloride (Cl^-), potassium (K⁺), in shoots and roots were increased with increasing salinity. Drought treatments increased the concentration of Cl^?, Na⁺, and Mg²⁺ in the shoot. Both cultivars showed significant differences in the concentrations of elements, however the most accumulation of Na⁺ and Cl^? was observed in ‘Rabab,’ while the ‘Shishegap’ cultivar had the most absorption of K⁺. ‘Shishegap’ cultivar showed higher tolerance to salinity than ‘Rabab’ through maintaining the vegetative growth and lower chloride transport to the shoot, and improvement of potassium transport to shoot.     

Effects of Nutrient and NaCl Salinity on Growth,Yield, Quality and Composition of Pepper Grown in Soilless Closed System

The effects of nutrient or sodium chloride (NaCl) salinity on pepper grown in closed soilless culture systems were studied. A control (2 dS m^?1) and two saline nutrient solutions (4 dS m^?1) differing in the salt sources (fertilizers or NaCl) were studied. Shoot biomass production as well as total and marketable yield were more affected by NaCl than nutrient salinity. Fruit dry matter and total soluble solids increased in both salinity treatments compared to the control. Total phenol content rose slightly (10%) with NaCl salinity, while the concentration of carotenoids was enhanced by 40% with NaCl compared to the control and nutrient salinity. The results showed that the response of pepper to salinity is both osmotic and ion specific, but a more negative effect was recorded under NaCl stress. Moreover, the highest content of antioxidant compounds in NaCl treated fruits may indicate that NaCl caused more stressful conditions than nutrient salinity.     

Effects of Arbuscular Mycorrhizal Fungi on Seedling Growth and Physiological Traits of Melilotus officinalis L. Grown Under Salinity Stress Conditions

This study was conducted to determine the effects of arbuscular mycorrhizal (AM) inoculation on the leaf relative water content (LRWC), survival capacity, mycorrhizal dependency (MD), essential oil content and total protein content of Melilotus officinalis grown in a greenhouse under salinity stress. The experiment was conducted in a completely randomized factorial arrangement design using five replications. Zero (0), 50, 100, 150 and 200 mM sodium chloride (NaCl) and two AM fungal levels were applied. Control (without inoculation) and inoculated (with AM fungi) treatments were considered two mycorrhizal levels. LRWC and survival capacity values in AM Melilotus officinalis were significantly higher than that in the non-AM-inoculated plants. Generally, MD, essential oil content and total protein content values were significantly higher in the AM-inoculated Melilotus officinalis compared with the non-AM-inoculated plants in all treatments. Results suggest that Melilotus officinalis could be used for the economic usage of the saline lands.     

Effects of Salinity and Pistachio Waste Application on Growth and Physiological Responses of Pistachio Seedlings

Low organic matter and high salinity are widespread throughout all pistachio (Pistacia vera L.) growing areas of Iran. The objective of this study was conducted to investigate effect of pistachio waste (PW), salinity, and their interaction on growth and chemical composition of pistachio seedlings. The experiment was carried out based on factorial and completely randomized design (CRD) with four replications. The treatments contained salinity in three levels [0, 1000, and 2000 mg sodium chloride (NaCl) kg^?1 soil] and PW in three levels (0, 3, and 6%). The results indicated that salinity application decreased leaf, stem, and root dry weights; leaf area; and length of stem, while this effect diminished with 3% PW application. Application of PW at the rate of 6% significantly reduced these parameters and accelerated effect of salinity levels. Leaf, stem, and root potassium (K) and phosphorus (P) concentrations were decreased by salinity application, while leaf, stem, and root sodium (Na) concentrations was increased. However, PW application increased these nutrient concentrations in the leaves, stem, and root, but significantly diminished the effect of salinity. The results showed that proline accumulation and reducing sugar content in the leaves were increased by salinity, PW, and their combination application. The results suggest that application of PW, especially at rate of 3%, can reduce some adverse effects of salinity on growth and chemical composition of pistachio seedlings.     

锶对菠菜幼苗生长、光合和抗氧化酶活性的影响

为探究锶对植物生长生理的影响,以菠菜幼苗为试验材料,研究不同浓度(0、0.1、0.5和2.5 mmol·L^-1)锶处理对菠菜幼苗的叶片鲜重、叶片锶浓度、光合指标和抗氧化酶活性的影响。结果表明,0.1 mmol·L^-1 SrCl₂处理对菠菜幼苗生长和各项生理指标均未产生明显影响,叶片锶浓度在35 mg·kg^-1左右。0.5 mmol·L^-1 SrCl₂处理对菠菜幼苗生长表现为先促进后抑制;处理20 d后,抗氧化酶活性明显上升,丙二醛(MDA)、净光合速率(Pn)和叶片鲜重相较于对照组分别增加了24%和降低了15%、10%,叶片锶浓度达到318.33 mg·kg^-1。2.5 mmol·L^-1 SrCl₂处理下,植株生长受到明显抑制,抗氧化酶系统的响应更为强烈,处理20 d后MDA增加了68%,Pn和叶片鲜重分别降低了30%和48%,叶片锶浓度达到857.51 mg·kg^-1。综上,低浓度锶处理对菠菜生长未产生明显影响,但随着锶处理浓度的增加和胁迫时间的延长,植物生长受到的胁迫作用加剧。本研究为明确锶对菠菜生长生理的调控机理提供了理论依据。     

Interactions of Salinity Stress and Flower Thinning on Tomato Growth,Yield, and Water Use Efficiency

This study was conducted to investigate the effects of salinity stress and flower number on growth, yield, water use efficiency (WUE), and fruit quality of cherry tomatoes cultivated under soilless conditions. The experiment was conducted in a plastic house (5-m wide × 11-m long) located in Gifu University. The seedlings were transplanted in a randomized complete block design with six plants per treatment (NT1 and ST1 were with four plants), giving a total of 44 plants in 22 pots (two plants per pot). Two different salinity levels [no-salinity and salinity with electrical conductivity: 0.8 and 3.0 dS m^?1, respectively] and four flower number treatments (8, 13, 18, and free per truss) were investigated in the experiment. The results showed that salinity stress negatively affected tomato growth, yield, and marketable yield, but improved tomato fruit quality. The number of flowers had no effect on tomato growth variables and WUE, but the yield significantly increased with increasing flower number. However, the fruit quality was decreased with increased flower number. A reasonable control for fruit load can increase marketable yield in commercial cultivation. Under salinity stress conditions, properly increasing the number of flowers can avoid yield reduction.     

Effects of Salinity Stress at Different Growth Stages on Tomato Growth,Yield, and Water-Use Efficiency

This study investigated the effects of salinity stress at different growth stages on the growth, yield, fruit quality, and water-use efficiency (WUE) of tomato (Solanum lycopersicum) plants cultivated under soilless conditions. Six different growth stages were exposed to the same salinity stress treatments using a completely randomized design, with three pots (six plants) per treatment. It was found that short-term (<21 days) salinity stress during any of the growth stages did not affect tomato growth or WUE, and during the vegetative stage did not affect yield. Salinity stress during the flowering and fruiting stages caused a reduction in tomato yield, which was due to a reduction in the number of fruit produced rather than the fruit size. However, salt exposure at the fruiting stage also improved fruit quality. The effect of salinity stress on the yield and fruit quality of the frontal and later truss depended on the developmental stage of the truss at the time when the stress occurred.