Einfluß exogener und endogener Faktoren auf den Calciumgehalt von Paprika- und Bohnenfrüchten

Effect of external and internal factors on the calcium content of paprika and bean fruits In water culture experiments with paprika and bean plants the effect of Ca supply, transpiration and growth rate on the Ca content of the fruits has been studied. A 10-fold increase in Ca supply only slightly increased the Ca content. The Ca content of the paprika fruits was increased considerably at high transpiration rates of either the whole shoot or the single fruit. High transpiration also increased the Mg content but had no effect on the K content. In bean high transpiration rates only increased the Ca content in the early stages of fruit development. The ratio of Ca translocation versus water loss by transpiration sharply declined during fruit growth in both species. In paprika the highest ratio (μg Ca/ml) in the fruits corresponded with the ratio in the leaves. In bean fruits, however, this ratio distinctly exceeded that of fully developed leaves. At high transpiration rates of the shoot 20% of the Ca (⁴⁵Ca) injected into the fruit were translocated out of the fruit. At low transpiration rates of the shoot the corresponding value was below 1%. Most of all the growth rate of the fruits affected the Ca content. With increasing growth rate the Ca transport into the fruits was hardly altered which in turn led to a sharp decrease of the Ca content per unit dry weight. The results support the idea of the Ca transport into the fruit via the xylem. This Ca transport — i.e. also the Ca content of the fruit — is regulated and is also to be influenced by direct or indirect alterations of the water transport in the xylem.     

Seasonal changes in the major nutrient content of vicia faba plants

Abstract

The changes with time in the growth and total content of N, P, K, Ca, Mg and S in the whole above‐ground part of Vioia faba plants have been studied throughout their development. These bean plants were indeterminate and fruit growth commenced before shoot extension growth ceased. The total dry weight of mature fruit (pods plus beans) exceeded that of the combined leaves and stems at any time. The distribution patterns of the elements fell into two groups; with N, P, K and S the fruit content was large and dominant, while only a modest proportion of the Ca and Mg was in the fruit. There was evidence that some N, P, K and S was re‐distributed from other tissues, but by far the greatest part moved directly into the bean during their expansion stage. These results are discussed in relation to previous reports of the origin of the nutrients of other grain legumes, with particular emphasis on the differences between indeterminate and determinate species.     

Antioxidant activity in fruits and leaves of blackberry, raspberry, and strawberry varies with cultivar and developmental stage

Fruits and leaves from different cultivars of thornless blackberry (Rubus sp.), red raspberry (Rubus idaeus L.), black raspberry (Rubus occidentalis L.), and strawberry (Fragaria x ananassa D.) plants were analyzed for total antioxidant capacity (oxygen radical absorbance capacity, ORAC) and total phenolic content. In addition, fruits were analyzed for total anthocyanin content. Blackberries and strawberries had the highest ORAC values during the green stages, whereas red raspberries had the highest ORAC activity at the ripe stage. Total anthocyanin content increased with maturity for all three species of fruits. Compared with fruits, leaves were found to have higher ORAC values. In fruits, ORAC values ranged from 7.8 to 33.7 micromol of Trolox equivalents (TE)/g of fresh berries (35. 0-162.1 micromol of TE/g of dry matter), whereas in leaves, ORAC values ranged from 69.7 to 182.2 micromol of TE/g of fresh leaves (205.0-728.8 micromol of TE/g of dry matter). As the leaves become older, the ORAC values and total phenolic contents decreased. The results showed a linear correlation between total phenolic content and ORAC activity for fruits and leaves. For ripe berries, a linear relationship existed between ORAC values and anthocyanin content. Of the ripe fruits tested, on the basis of wet weight of fruit, cv. Jewel black raspberry and blackberries may be the richest source for antioxidants. On the basis of the dry weight of fruit, strawberries had the highest ORAC activity followed by black raspberries (cv. Jewel), blackberries, and red raspberries.     

Seasonality of nutrients vis-à-vis fruit quality of pomegranate cv. Bhagwa on vertisol

The temporal changes of nutrient concentration in leaves and their accumulation in fruit are good indicators of plant nutrient demand for each developmental stage. Seasonality of nutrients in leaves and fruits of pomegranate and their relation with fruit quality was evaluated in commercial orchards using cv. “Bhagwa.” The concentration of nitrogen (N), phosphorus (P), potassium (K), sulfur (S), iron (Fe), zinc (Zn) and boron (B) in leaves decreased while calcium (Ca), magnesium (Mg), manganese (Mn) and copper (Cu) concentration increased during fruit growth and development. Total nutrient accumulation increased gradually in fruit and translated into growth of arils, and increase in juice content and total soluble solids, however as the biomass accumulation in fruit was much faster than nutrient accumulation, concentration of majority nutrients except Mg decreased rapidly, followed by slow and continuous decrease till maturity. During fruit enlargement, demand for N, P, K, Fe, Cu and Zn was high while requirement for Ca, Mg and S was high during fruit development.     

现代温室冬春茬黄瓜矿质元素吸收与分配特性研究

以欧洲类型迷你黄瓜品种戴多星为试材,研究了现代温室条件下冬春茬黄瓜不同生育期的干物质积累和矿质营养吸收分配特性,并对黄瓜的矿质营养需求量进行了估算。结果表明,黄瓜生长发育前期,植株干物质积累主要集中在叶部,初果期以茎部为主,中后期以果实积累最多。各矿质元素在黄瓜不同器官的积累量随植株生长而增加,但分配率不同。其中生长前期70%8～0%集中在叶部,茎和根中的分配量仅占同期的20%3～0%,结果后期根部的矿质元素分配率下降到1%～2%,茎叶中的比例也大幅度下降,花果中的分配率为40%5～0%。矿质元素吸收量随生长发育而呈不同程度的增加,整个生长期以氮、钾、钙为主,其次是镁和磷。各生长阶段植株对不同矿质元素吸收量不同,02～0.d和406～0.d期间钙吸收量最大,分别为8.6和21.3.kg/hm2;608～0.d钾吸收量最大,达到79.6.kg/hm2;204～0.d和801～00.d氮吸收量最大,分别为7.4和88.7.kg/hm2。     

Macronutrient Accumulation in Coffee Fruits at Brazilian Zona Da Mata Conditions

Macronutrient accumulation in fruits and concentrations of these nutrients in leaves of fruit-bearing branches of arabica coffee were studied between anthesis and maturation. The experiment was carried out in a 2.0 × 1.0 m spacing of an arabica coffee orchard, collecting fruits and leaves of 18 randomized parcels at 12 sampling times, using a split-plot design. The largest accumulation rates of dry matter (DM), nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), and sulfur (S) were observed at the rapid expansion fruit stage, among 79 to 85 DAA (Days after the anthesis). Compared to the other nutrients, Ca and Mg accumulation occurred quickly in the 1st suspended growth stadium.     

不同氮钾施用水平对番茄营养吸收和土壤养分变化的影响

以“辽园多丽”番茄为试材,在日光温室内桶栽条件下,研究不同氮钾水平对番茄养分吸收和土壤养分变化的影响。结果表明:在一定范围内,随着土壤中施氮量和施钾量的增多,番茄叶片和果实中含氮量、含钾量越高。说明氮、钾两种元素可互相促进彼此的吸收,但是,超过一定范围,会降低果实中氮素和钾素的比例。不同氮钾处理对植株磷素的吸收影响不大。土壤中增施钾肥在一定程度上抑制了番茄植株对钙素和镁素的吸收,土壤中氮素含量的高低对叶片中钙的吸收影响不大,土壤中适当氮水平可促进番茄叶片和果实中镁素的吸收和积累,施氮量过高则降低了果实中钙素、镁素的积累。随着土壤中氮肥和钾肥施入量的增多,土壤中碱解氮和速效钾的含量呈升高趋势,不同施钾水平条件下,中等钾素处理土壤中碱解氮含量较高。     

Effect of saline irrigation on the biomass yield,and the protein,nitrogen, phosphorus,and potassium composition of alfalfa in a pot experiment

During 1994–1995, field experiments were conducted in six apple orchards located in the southwest of Finland (the mainland and the Åland Islands). The cultivars were ‘Melba’, ‘Raike’, ‘Red Atlas’, ‘Lobo’, ‘Aroma’, and ‘Åkero’. Fruit samples were picked at about one week before commercial maturity and stored for three to six months at 2 to 4°C and 85–95% relative humidity. During storage the percentage of physiological disorders was visually recorded. Fruit nitrogen (N) and calcium (Ca), firmness, diameter, juice titratable acidity (TA), and soluble solids concentrations (SSC) were determined at harvest. Nitrogen and Ca in the soil and leaves collected during fruit development were determined. The ranges in fruit N were 296–624 and Ca 27–68 mg kg^‐1 fresh weight, and in the leaves N 15–23 and Ca 9–19 g kg^‐1 dry matter. The N/Ca ratio was 5 and 16 and 0.9 and 2.3 in fruit and leaves, respectively. There was more variation between years in N and Ca contents of leaves than that of fruit. Other fruit quality characteristics varied between seasons and cultivars. Leaf N correlated positively with fruit diameter and negatively with fruit dry matter. The incidence of physiological disorders on apples after three month storage was 2 to 13% and after six months 10 to 95%. Fruit with Ca content below 45 mg kg^‐1 fresh weight were susceptible to bitter pit ('Aroma’ and ‘Åkero') and Jonathan spot ('Red Atlas'). The cultivar ‘Melba’ was susceptible to bruising damages and ‘Raike’ and ‘Red Atlas’ were affected more with internal breakdown and core browning.     

Effects of Lead on the Content,Accumulation, and Translocation of Nutrients in Bean Plant Cultivated in Nutritive Solution

Increasing contents of lead (Pb; from 0 to 10 mg L^?1) as contaminant were added in Clark's nutritive solution to evaluate the effects on content, accumulation, and translocation of macronutrients [phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), and sulfur (S)] and micronutrients [copper (Cu), manganese (Mn), zinc (Zn), and iron (Fe)] in different parts of the bean plant (Phaseolus vulgaris L.). Experiments were built using an entirely randomized statistical arrangement and measurements were performed after 60 days of exposure to Pb. The contents of almost all nutrients decreased when Pb was added, except for P in root, Mg in fruits, and S in root and fruits. Reduction in accumulation of all nutrients in the three parts of plants was determined, and an increase in the translocation index was observed for the following nutrients: Mg and Zn in fruits and S in fruits and leaves. For the remaining nutrients, the translocation index diminished.     

猕猴桃树对氮素吸收、利用和贮存的定量研究

为了探明猕猴桃树对氮素吸收、利用和贮存规律,为确定合理的施肥量和施肥时期提供依据,以10年生秦美猕猴桃树为试材,采用彻底刨根,分解取样的方法,研究了年周期各器官的生物量、氮含量和氮累积量变化动态。结果表明,猕猴桃整株生物量全年增加了12.14 kg/plant,在果实生长期（5月18到9月8日）增加较快,增加量为7.99 kg/plant。氮素在猕猴桃树的根、茎、叶、果及皮层和木质部的分布为:根、叶、果实＞茎;皮层＞木质部;冬季氮的贮存部位是根和茎的皮层,并且主要贮存在茎的皮层。年周期猕猴桃树体总吸氮量为216.78 kg/hm2,进入果实收获期以后和结果前共吸收33.75 kg/hm2,整个果实生长期吸收183.03 kg/hm2,分别占总吸氮量的15.57%和84.43%。5月18日到7月9日和7月9日到9月8日两个阶段吸收的氮素量分别占总吸氮量的53.13％和31.30％,据此计算得猕猴桃的合理施氮量为N 412.91 kg/hm2（产量40 t/hm2);推荐在休眠期结束前施基肥 N 64.29 kg/hm2,座果前追施壮果肥 N 219.38 kg/hm2,果实膨大末期追施促稍肥 N 129.24 kg/hm2。     

Effects of Antitranspirant Spray and Potassium: Calcium: Magnesium Ratio on Photosynthesis,Nutrient and Water Uptake,Growth, and Yield of Sweet Pepper

Sweet pepper plants (Capsicum annuum L.) were cultivated hydroponically under different nutrient cation ratios at both high potassium (K)/calcium (Ca) (12:2) or magnesium (Mg)/Ca (4:2) ratios, compared with half strength Hoagland's solution (K:Ca:Mg; 3.5:2:0.5). Additionally, antitranspirant (Pinolene) was sprayed every fortnight to the aerial part of the plant at 1% (v/v). The antitranspirant (AT) did not affect dry weight accumulation in the leaves, stems, roots, total plant leaf area, or leaf dry weight percentage. Net carbon dioxide (CO₂) assimilation was not impaired by the AT but the water uptake was reduced significantly independent of the nutrient solution used. The AT did not affect the cation uptake but high Mg significantly reduced Ca concentration in leaves, stems, and fruits, whilst high K had an effect only in old leaves and fruits. The AT reduced fructose and glucose concentration in the leaves but no effect was found in the fruits. Fruit yield was not affected by AT, but it was increased when plants were grown with high Mg/Ca. The percentage of blossom-end rot was reduced with the AT, whilst it was increased with the solutions having high K/Ca or high Mg/Ca. The AT significantly reduced fruit firmness in high Mg/Ca and control solution but no effect was found for fruit color, shape index, total soluble solids, or pericarp thickness.     

Phosphorus,potassium and calcium concentration limits in bean plants grown under deficiency after a period of sufficiency

Bush bean plants (Phaseolus vulgaris L. cv Tacacarigua) were grown under deficient P, K or Ca nutrient solutions after seven days in sufficiency and relative growth rate, root weight ratio, specific leaf area, leaf area development and nutrient concentration profiles in the dry matter of succesive leaves, analyzed throughout ontogeny. Acute Deficiency Concentration Limits (ADCL) were defined for P (0.14%) and K (1.20%) as the concentration in the leaves able to sustain a state of marginal growth, and may indicate the physiological condition in which restoration of optimal supply may not be followed by a recovery of the plants. The continuation of growth, dry matter dilution and retranslocation within the plant are suggested as major determinants of ADCL.     

Effects of soil type,mineral nutrition and salinity on greenhouse‐grown muskmelon in winter 1

Greenhouse experiments under winter conditions were conducted to examine the effects of soil type, mineral nutrition and salinity on vegetative growth and. fruit yield of ‘Galia’ muskmelon (Cucumis melo L.). Growth in a calcareous soil or in sand, under low nutrition level or with 200 mM NaCl added during fruit maturation, imposed significant stresses on the plants expressed by (a) a decrease in dry matter accumulation in vegetative organs, in fruit number and size, and (b) an increase in dry matter percentage in leaf blades and stems. Despite the significant differences in vegetative growth of plants grown in heavy soil vs sandy soil, and in high nutrition vs low nutrition levels, the distribution of dry matter among vegetative organs (leaves, stems and roots) was affected only slightly. Sandy soil, low nutrition and high salinity decreased branching, and thus the distribution of dry matter between the main shoot and the branches. Dry matter percentage in leaf blades and stems was a sensitive parameter which increased under soil, nutrition or salinity stresses. Fruit netting and total soluble solids (TSS) content were significantly decreased by sandy soil and low nutrition level. Application of salinity during fruit growth increased both netting and TSS.     

四季柚生育期叶片和果实中矿质元素含量变化的研究

本研究以四季柚为试材,定期测定果实发育周期内叶片与果实的矿质元素含量,研究四季柚叶片和果实矿质养分需求特征与相关性,为树体营养科学调控,优质高效施肥提供理论依据。结果显示,叶片生长过程中N、 P元素含量呈逐渐下降趋势,K、 Ca、 Mg、 B、 Zn含量呈先增后降趋势,S含量总体保持上升趋势,Fe含量呈现先降后稳再上升趋势,Cu含量总体较稳定,Mn含量呈现出先上升后下降再上升趋势; 果实生长过程中,N、 P、 K、 Ca、 S含量呈下降趋势,Mg含量呈现先升后降的趋势,微量元素中Fe、 Mn元素含量变化幅度较小,B、 Zn、 Cu元素含量变化趋势略有不同。叶片与果实之间矿质元素协同吸收作用较弱,而果实与果皮之间作用较强。研究表明,萌芽前应适当增施氮、 磷肥,6月中旬增施钙肥,7月中旬增施钾肥和镁肥,以及重视微量元素肥料的应用。     

不同施钙措施对番茄果实钙含量和钙形态的影响

在营养液中加钙及在花期、幼果期分别向花、叶、幼果喷施20mg.L萘乙酸(NAA)+0.5%CaCl2混合液能够显著增加果实钙含量,其中营养液高钙和喷叶处理增钙效果最好,喷幼果和喷花处理也有较明显的效果,3周大果喷钙对果实增钙效果不明显。增钙的同时,不同措施不同程度影响了果实K、Mg、P及某些微量元素的含量。果实增钙主要是增加了果胶酸钙含量,以营养液高钙、喷叶和喷幼果处理增加程度最高;各种施钙措施显著增加了果实Vc含量,降低了可滴定酸度,改善了果实品质。还探讨了不同施钙措施对植株各部位钙含量和果实钙含量的影响机理。     

Change in the carotenoid and antioxidant content of spice red pepper (paprika) as a function of ripening and some technological factors

A study was conducted to investigate the change in quality attributes of red pepper (paprika) (Capsicum annuum L. var. Km-622) as a function of ripening and some technological factors. Of quality attributes, carotenoids and bioantioxidants (ascorbic acid and tocopherols) have been studied. It was found that the dynamics of fruit ripening with regard to carotenoids and bioantioxidants was influenced to a considerable extent by weather conditions of the production season. A rainy and cool season yielded fruits with more beta-carotene but less diesters of red xanthophylls as compared to those produced in a relatively dry and warm season. The ripening stage at harvest was found to affect the quality of paprika. Harvest at unripe stages (color break or faint red) resulted in a high accumulation of dehydroascorbic acid in the overripe fruits, whereas de novo biosynthesis of carotenoids and tocopherols was partially retarded. Application of pre-drying centrifugation resulted in a marked loss of ascorbic acid, and as a consequence, carotenoid stability was impaired during the storage of ground paprika. Sugar caramelization caused dry pods and ground paprika to retain more pigments and tocopherol as compared to those from control or centrifuged red pepper samples. During the storage of ground paprika, color stability was improved by grinding the seeds with the pericarp.     

苹果幼果发育期果柄结构和Ca、Mg、K水平的变化

以富士、金冠苹果树为试材,分析了同一花序不同部位的果实重量,Ca、Mg、K含量和果柄结构的变化,以期探讨果柄发育和幼果Ca、Mg、K吸收之间的关系及其在幼果脱落中的作用。结果表明,随幼果的发育,单个幼果重量和Ca、Mg、K含量呈增加趋势;与发育不正常的边果相比,发育正常的中心果和边果的鲜重、干重、果柄直径、维管束数目、木质部厚度、韧皮部维管束面积和单果Ca、Mg、K总含量较高,而以干重为单位的果柄Ca、Mg含量较低。相关分析表明,苹果幼果的单果重和Ca、Mg、K含量与果柄的直径、维管束数目、木质部厚度、韧皮部维管束面积呈显著正相关,说明幼果发育与Ca、Mg、K吸收和果柄结构密切相关,Ca、Mg、K吸收率低和果柄发育不良可能是导致落果的重要原因。     

冬枣果实发育期结果枝叶与营养枝叶矿质元素动态变化的比较

对比研究冬枣果实发育期内结果枝叶和营养枝叶片矿质元素动态变化的差异性,可为制定冬枣不同类型叶片的营养诊断标准提供理论依据。以沾化冬枣为试验材料,比较研究了沾化冬枣不同果实发育阶段（始花期、盛花期、末花期、硬核期、完熟期）结果枝叶和营养枝叶中矿质元素N、P、K、Ca、Mg、Na的含量动态变化及其差异性。结果表明,冬枣果实发育过程中,自始花期至完熟期叶片N、P含量呈下降趋势,K含量呈逐渐增高趋势,而Ca及Mg含量则呈先增高后降低的变化趋势,叶片Na含量在果实发育过程中变化较小,只有在完熟期呈现突然增高现象。在上述各生长发育阶段内,结果枝叶K含量多大于营养枝叶,而N、P、Ca、Mg、Na含量则呈相反的变化规律。方差分析表明,在盛花期至末花期内,两种类型叶片Ca、Mg含量的差异均达到显著水平（P<0.05）,N含量只有在盛花期存在显著差异,而两种类型叶片K和Na含量在各果实发育阶段内均无显著差异。叶片元素含量比值分析表明,冬枣叶片N/P在盛花期至完熟期逐渐增高,其值均大于16,可知该阶段冬枣叶片生长主要受P元素限制;K/Na、Ca/Na、Mg/Na在果实发育期内的变化规律与K、Ca、Mg元素变化规律基本类似,在完熟期这3个比值均较前期明显降低。相关分析结果表明,冬枣叶片中N/P主要由P含量决定,Ca/Na、Mg/Na分别由Ca与Na、Mg与Na共同决定,而在营养枝叶中K/Na主要由Na含量决定。综上,盛花期至末花期（6—7月）是冬枣矿质元素相对稳定时期,可作为冬枣结果枝叶和营养枝叶营养诊断的适宜时期,同时冬枣结果枝叶该时期可适当施加适量Ca、Mg肥料,从而保证冬枣的果实品质和产量。     

磷对不同玉米品种生长、体内磷循环和分配的影响

以杂交玉米蠡玉16和冀单28为供试作物,采用供高磷（250 mol/L）和低磷（5 mol/L）营养液的石英砂培养方法,研究2个玉米品种的各器官干重和磷积累与分配、体内磷在木质部和韧皮部中的循环、流动及磷的吸收和利用效率。结果表明,与供高磷处理相比,低磷处理的2个玉米品种各营养器官的干重、磷含量和木质部中运输的磷量显著降低; 而磷在体内韧皮部的再循环显著增加,并且玉米各部位叶片活化出的磷主要是通过韧皮部循环至根中后,再经过木质部向上部新生叶运输的; 体内光合产物与磷向上部叶的运输是不同步的过程。低磷时,与冀单28相比,蠡玉16的根冠比高010,整株干重和磷含量增加269%和120%,磷吸收和利用效率提高121%和133%,木质部总磷向上部叶运输的比例高306%。说明低磷条件下,磷高效玉米品种生物量大是由于具有较大的根冠比,木质部中更大比例的磷被分配到上部新生叶以及其具有较高的磷吸收和利用效率。