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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。 相似文献
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不同钾氮配比对荔枝果实矿质元素含量及其耐贮性的影响 总被引:1,自引:1,他引:0
【目的】在广东省惠州市荔枝主产区,于2009 2012年连续3年研究不同钾氮养分比例对荔枝果实矿质元素含量的影响及其与耐贮性的关系,以期为荔枝高产优质高效栽培与耐贮增值的科学施肥技术提供理论依据。【方法】在大田栽培条件下,以1995年嫁接苗种植的国内主栽品种妃子笑为试材,设钾氮不同施用比例(K2O/N分别为0.6、0.8、1.0、1.2和1.4)5个处理,分别用K0.6N、K0.8N、K1.0N、K1.2N、K1.4N表示。在荔枝收获期测定果实矿质元素含量,并进行室温(25±1°C)自然贮藏试验,每2d采样测定相关贮藏指标。【结果】1)随着K2O/N比的提高,荔枝外果皮钾(K)、硼(B)含量呈下降趋势,内果皮K含量呈先下降后增加,果肉K、内外果皮和果肉钙(Ca)、内果皮B含量均呈现先增加后下降,果核Ca含量呈现逐渐增加的趋势。2)随着K2O/N比的提高,内外果皮K/Ca、Mg/Ca、(Mg+K)/Ca、K/B比均呈先下降后增加,外果皮Ca/B比呈增加的趋势。3)内果皮K含量与果实好果率呈极显著负相关,外果皮Ca、内果皮B含量与果实好果率呈显著或极显著正相关。内、外果皮K含量与果皮细胞膜透性呈显著正相关,外果皮Ca含量与果皮细胞膜透性呈显著负相关。内、外果皮K含量与多酚氧化酶(PPO)、过氧化物酶(POD)活性呈显著正相关,而内、外果皮Ca含量则与两种酶活性呈显著负相关。4)内、外果皮K/Ca、Mg/Ca、(Mg+K)/Ca和K/B比与果实好果率呈显著或极显著负相关,与果皮细胞膜透性、PPO和POD活性均呈显著或极显著正相关,而Ca/B比则完全相反。【结论】荔枝生产中合理调控钾、氮养分施用比例(K2O/N),不仅可以提高内、外果皮的Ca/B比值,还有利于降低内、外果皮K/Ca、Mg/Ca、(Mg+K)/Ca和K/B的比值,对提高果实耐贮性具有重要作用。本试验条件和施肥方法下,K2O/N的施用比例以1.2∶1时能最大限度地满足优良耐贮性能适宜的养分含量及比例。 相似文献
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以三月红荔枝(Litchi chinensis Sonn.cv Sanyuehong)成年树为试材,以叶面喷施Ca、Mg肥以及它们的混合液为处理,以清水为对照(CK),探讨叶面喷施Ca和Mg肥对三月红荔枝果皮着色影响的初步机理。结果表明,叶面喷施不同的肥料可以明显提高果皮同种矿质元素的含量;不同处理和CK的果皮水溶性K含量与全Ca含量、水溶性K含量与全Mg含量、水溶性Mg含量与全Ca含量以及全Ca含量与全Mg含量的偏相关系数均达到显著水平,水溶性和全量K、Ca和Mg含量之一分别与其余5种含量间的复相关系数达到极显著水平;Ca+Mg处理解决了三月红荔枝果皮"滞绿"问题,Mg处理解决了三月红荔枝果肉"退糖"问题;Mg处理和CK的果皮水溶性Mg含量较高,是促进其果皮红色着色的主导因素,Ca处理的果皮全Ca含量较高,是促进其果皮红色着色的主导因素,Ca+Mg处理的果皮水溶性Mg含量以及全Ca含量较高,是促进其果皮红色着色的主导因素;不同处理和CK的果皮全Mg、水溶性Ca、全Ca含量均与其花色素苷含量呈正相关指数函数回归关系,不同处理和CK的果皮水溶性Ca含量均与叶绿素含量呈负相关指数函数关系。可见,在三月红荔枝果皮着色发育过程中,Ca和Mg元素具有增益作用,不同的施肥处理通过提高Ca、Mg元素的含量而促进果皮着色。 相似文献
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在云南省玉溪市华宁南盘江低热河谷区、华宁山地丘陵区、元江干热河谷区和新平山地丘陵区4个柑桔主产区,选取一个月内未施肥的101个代表性柑桔园采集土壤进行分析。结果表明,玉溪柑桔园土壤pH值变幅在3.98~8.07之间,52.48%土壤pH基本适宜柑桔生长,14.85%土壤pH适宜柑桔生长;土壤有机质匮乏,59.40%土壤低于15g/kg;土壤碱解N,有效P、K、Ca、Mg、Fe、Mn、Zn、Cu、B的平均含量分别为78.64 mg/kg、53.95mg/kg、273.15 mg/kg、3240.37mg/kg、233.39 mg/kg、23.21 mg/kg、43.82 mg/kg、5.67mg/kg、2.89mg/kg、0.50mg/kg。总体上,土壤碱解N和有效B含量不足(低量或缺乏),不足比例分别为78.22%和66.34%;有效K、Ca、Mn和Cu含量超标(高量或过量)居多,超标比例分别为64.36%、51.48%、56.44%和83.17%;有效P、Fe、Zn含量丰富(适宜、高量或过量)为主,丰富比例分别为67.31%、75.24%和88.12%;有效Mg不足、适宜和超标果园则各占约1/3。桔园土壤养分状况的区域特征方面,华宁优于新平,新平优于元江。土壤pH与土壤有效Ca、Mg的正相关性极显著,与有效Mn、Cu的负相关性极显著,土壤有机质与土壤大部分养分正相关且达到显著水平。玉溪柑桔生产上应注意调节土壤pH值,增施有机肥和N、B肥,适度少施K、P肥,注意Ca、Mn和Cu肥的控制。 相似文献
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菊科花卉常见缺素症及植株养分含量变化探讨 总被引:5,自引:1,他引:4
通过溶液培养的方法,研究了3种主要菊科花卉(金盏菊、孔雀草、万寿菊)在缺N、P、K、Ca 、Mg、S条件下的缺素症状及其生物量与营养元素变化情况。结果表明,金盏菊、万寿菊缺N,孔雀草缺K时症状最为明显;缺N对金盏菊、孔雀草、万寿菊的植株生物量影响最大;与全素(CK)相比,金盏菊和万寿菊缺K处理植株N浓度增加,3种花卉缺N、缺K处理均增加植株的P含量,但缺P处理降低植株K浓度,缺K处理增加含Ca量,缺Ca处理增加含K量和含Mg量,金盏菊缺Mg处理的含K量增加,3种花卉缺S处理植株S含量降幅不大,孔雀草和万寿菊缺N、P、K、Ca处理均可导致植株S含量增加。 相似文献
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赣南华盛顿脐橙果实发育中几种矿质营养含量动态的研究 总被引:7,自引:1,他引:6
赣南红黄壤的土壤条件导致柑橘树体缺素现象比较普遍,而华盛顿脐橙缺素症状并不明显.本文以赣南华盛顿脐橙为试验材料,对其果实发育中果实不同部位(果皮和果肉)的B、Ca、K、Mg和叶片(越冬老叶和当年春梢叶)的B、Ca、K、Mg、Fe、Mn和Zn含量变化进行了对比测定.结果表明:果皮和果肉B含量均于果实膨大期出现显著上升高峰;而对应的Ca含量在幼果期至果实膨大初期相对较高,之后趋明显下降.老叶的B、Ca、Fe和Mn含量均相对稳定,对应春梢叶四者含量均于花后100 d(高温干旱期)出现大幅度下降,之后呈类似的变化趋势;而春梢叶的K、Mg和Zn含量并无此显著下降过程,且老叶的Mg和Zn含量均低于缺乏临界值. 相似文献
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施用氮、磷、钾对密植梨枣生长与叶片养分季节动态的影响 总被引:7,自引:2,他引:5
以山地梨枣(Zizyphus jujuba Mill. cv. Lizao)为试验材料,采用野外试验与室内分析,研究了黄土丘陵区山地滴灌下施用氮磷钾对矮化密植梨枣叶片8种营养元素(N、P、K、Ca、Mg、Fe、Mn、Zn)季节动态变化规律以及施肥对梨枣生长,产量及品质的影响。结果表明:不同生育期梨枣叶片养分含量变化具有一定的规律性。开花坐果期(5月上旬至7月上旬),叶片N、P、K含量处较高水平,Mg、Fe、Mn、Zn含量处于较低水平。果实膨大期(7月中下旬到8月下旬),叶片N、P有一个相对稳定的含量,K快速下降,而Fe、Mn、Zn含量上升。果实成熟期(9月初到10月初),叶片N、P、K含量下降,Mg、Fe、Mn、Zn则是缓慢上升并趋于稳定。叶片N、P、K、Mn含量之间呈正相关,Ca、Mg、Fe、Zn含量之间也呈正相关关系,叶片N、P、K之间达极显著正相关关系,而N、P、K与Ca、Mg、Fe、Zn含量之间呈负相关关系。施氮肥可促进前期枣树新枝生长和枣果膨大;施磷肥可提高产量,达到33210 kg/hm2;施钾肥可明显提高枣果品质。 相似文献
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温肇穆 《广西农业生物科学》1990,(2)
本文报道广西龙胜县里骆林区24~28年生杉木林林内和林外降水的养分含量及其变化。林外雨的元素含量,以kg/ha·a表示,N是12.972,P 0.289,K 7.249,Ca 9.154,Mg 3.676。乔木层的元素淋溶量,以kg/ha·a表示,N是10.715,P 0.249,K 9.420,Ca 8.675,Mg 9.574。N,P,K的淋溶量与它们在杉木冠层中的积累量呈直线相关;K,Ca,Mg的淋溶量与林内降水量呈直线相关。降水淋溶是K和Mg归还的主要途径。 相似文献
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E. A. Girardi F. A. A. Mourão Filho C. C. D. Graf F. B. Olic 《Journal of plant nutrition》2013,36(9):1465-1480
The production system for certified citrus nursery trees in São Paulo State, Brazil, stipulates the use of screenhouses, rigorous selection of rootstocks, and the production of budwood under high standards in order to prevent diseases such as sudden death, Citrus Var, and foot rot (Phytophthora spp.). The establishment of adequate nutritional levels for citrus nursery trees also leads to higher production efficiency in this system. This work was divided into two trials. The first evaluated the influence of certain concentrations and formulas of slow-release fertilizer on the growth of ‘Pera’ sweet orange (Citrus sinensis L. Osbeck) budded on ‘Rangpur’ lime (Citrus limonia Osbeck) on two substrates. The development of ‘Rangpur’ lime liners was not influenced by composition of the substrate, nor by the concentrations or formulas of slow-release fertilizers. Substrate composition and formulas, or concentrations of fertilizers also did not affect budded tree growth, except that the greatest root fresh and dry matter were found in plants cultivated with lower concentrations. The second trial evaluated the influence of different soluble and slow-release fertilizers on growth of ‘Valencia’ sweet orange (Citrus sinensis L. Osbeck) nursery trees budded on ‘Rangpur’ lime. Scion length, stem diameter, scion fresh and dry matter, and leaf area were not affected by fertilizer sources. Fertigation induced the greatest development of roots (fresh and dry matter) when limestone was added. 相似文献
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Sweet orange (Citrus sinensis (L) Osbeck Cv. Agege) was intercropped between 1996 and 1999 on an alfisol (Oxic Paleustalf), at the National Horticultural Research Institute, Ibadan Nigeria. The objectives were to determine the best compatible crops that would provide stable environmental conditions for sweet orange growth and yield. The companion crops were maize (M) (Zea mays L. DMR-LSR-W) in the early planting season, followed by cowpea (CP) (Vigna unguiculata L., Walp cv. Ife-brown) in the late planting season of each year, cassava (CA) (Manihot esculenta, Crantz cv. TMS30572), and pineapple (P) (Ananas comosus,cv. Smooth cayenne). For comparison, there were sole plots of sweet orange (SCT), maize (SM), cowpea (SCP), Cassava (SCA), and pineapple (SP) to serve as controls. The treatments were assigned to plots using a randomized complete block design (RCB). The growth of sweet orange intercropped with cassava was not as good as that of sole orange or orange intercropped with maize/cowpea (CT + M/CP) and pineapple (CT + P). Sweet orange in pure stands and CT + M/CP produced flowers 24 months after transplanting, with 75% and 87% of trees producing flowers and fruits, respectively. Forty-two months after transplanting sweet orange, SCT, CT + M/CP, and CT + CA had 1.63, 1.45, and 0.05 citrus fruit t/ha, respectively. Sweet orange intercropped with pineapple did not produce fruits. The effects of the crop mixtures on the soil showed that pH decreased by 2.17, which was a 5.2% decrease for all the cropping systems after three years of continuous cropping. There was a build up of nitrogen (N) and organic carbon in the soil for all the intercrops after the third year of the study. The cropping mixture of CT + M/CP and SCT had the highest N value of 0.70 g N/kg soil as compared to 0.30 g N/kg pre-planting. Zinc (Zn) a major nutrient of citrus, decreased from 3.16 mg/kg to 0.37 mg/kg under SCT and SP cropping systems. Sweet orange leaf analysis for N in all the treatments showed that leaf N was higher than the 2.5–2.7% optimum level, except for citrus intercropped with cassava, which had a leaf N concentration of 2.36%. Sweet orange intercropped with maize/cowpea had the highest phosphorus (P) level of 0.17%, followed by SCT, while sweet orange intercropped with cassava or pineapple had the lowest P values. Potassium (K) was in the adequate range in the sweet orange leaves for all the cropping systems, but the Zn content was below the satisfactory range of 20–50 ppm. The nutrient dynamics were results of the interaction among cropping systems, soil depth, and cropping cycle. Maize intercropped in the early planting season followed by cowpea in the late season was the most compatible crop with sweet orange in terms of fruit yield. 相似文献
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Rapisarda P Bellomo SE Fabroni S Russo G 《Journal of agricultural and food chemistry》2008,56(6):2074-2078
Tacle and Clara [Monreal clementine (Citrus clementina Hort. ex Tan) x Tarocco orange (Citrus sinensis L. Osbeck)] are two new triploid citrus hybrids developed by the CRA-Istituto Sperimentale per l'Agrumicoltura (Acireale, Italy). The fruits are easy-peeling and juicy, have a pleasant taste like the Tarocco orange, and are sweet like the Monreal clementine. In addition, a distinctively attractive characteristic of these mandarin-like fruits is the red-pigmented flesh caused by the presence of anthocyanins. This study reports the juice quality attributes of fresh fruits harvested at different ripening stages and of cold-stored fruits kept for 104 days at 6+/-1 degrees C and 90-95% relative humidity. Physico-chemical analyses showed that the fresh-fruit juice yield ranged between 39 (Tacle) and 41% (Clara); these values were 11-14% lower after 104 days of storage. Vitamin C content in the Clara juice was decisively higher than that in the Tacle juice. Juice anthocyanins and other polyphenols increased during cold storage. These results show that low-temperature storage enhances the functional attributes of Tacle and Clara fruit juices. 相似文献
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Creasing is a physiological disorder in oranges fruits that affects rind quality. This disorder has been associated with insufficient or imbalances of nutrients in the fruit. A study was carried out in an orange orchard cv. Fukumoto. At harvest, fruit samples were selected with and without creasing, according to visual symptoms. External and internal fruit quality was evaluated in whole fruit, then dry matter and mineral content and concentration (nitrogen N, potassium K, calcium Ca and magnesium Mg) was analyzed in flavedo, albedo and pulp. Oranges with creasing had larger weight and fruit size, higher water content in the pulp and whole fruit, lower coarse rind grading, thinner peel, higher nitrogen content in the pulp and the whole fruit, higher potassium content in all fruit components and lower calcium content and concentration. Magnesium content, only in flavedo showed significant differences, being higher in fruit without creasing. Fruit size and Ca were key factors related to the expression of creasing disorder, as well as nutrient balance. 相似文献
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不同砧木对脐橙幼树生长和叶片养分含量变化的影响 总被引:4,自引:1,他引:4
以体细胞杂种红桔+枳和红桔+粗柠檬、有性杂种Troyer枳橙和Sweingel枳柚作砧木的脐橙2年生嫁接苗为试材,利用盆栽试验研究了不同砧木对苗木生长和叶片养分含量年动态变化的影响。结果表明,红桔+枳的生长势和花量明显地优于其它砧木,红桔+粗柠檬的生长和花量介于2种有性杂种之间;砧木基本上不影响叶片N、P、K、Mg和Mn含量年变化,但明显影响叶片Ca、Fe和Zn含量的年变化;在同一个生长期,不同砧木对叶片养分含量有明显的影响。此外本文还讨论了体细胞杂种砧木的利用价值。 相似文献
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Grass or herb intercropping with trees is widely practiced as an orchard-floor management strategy, but nutrient competition from grass species can inhibit the growth of intercropped fruit trees. Two experiments were conducted to investigate whether inoculation with the arbuscular mycorrhizal (AM) fungus Glomus versiforme can alleviate such competition and thus promote the growth of intercropped fruit trees by increasing soil nutrient exploitation. In the first experiment, intercropping was established in rhizoboxes containing sweet orange (Citrus sinensis) and the leguminous herb Stylosanthes gracilis inoculated with the AM fungus. Mycorrhizal inoculation did not appear to decrease competition, but increased the biomass of the herb much more than that of sweet orange. Inoculation had little effect on phosphorus (P) content of sweet orange, but significantly increased that of the legume roots. The AM fungal contribution to P uptake of the herb was twice that of sweet orange. Lateral roots of the herb tended to branch horizontally, with a large proportion entering the soil volume occupied by sweet orange; AM inoculation enhanced this effect. In Experiment 2, growth of the plants in monoculture revealed that the mycorrhizal dependency of the legume was much higher than that of sweet orange. It is suggested that mycorrhizal dependency can have a large influence on the role of the AM fungus in mediating competition in an intercropping system, and that fruit trees with high mycorrhizal dependency, together with a grass or herb with low mycorrhizal dependency, may be the optimum intercrop combination in orchards. 相似文献
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Polymethoxyflavones (PMFs) from citrus genus have been of particular interest because of their broad spectrum of biological activities, including antiinflammatory, anticarcinogenic, and antiatherogenic properties. There have been increasing interests in the exploration of health beneficial properties of PMFs in citrus fruits. Therefore, the isolation and characterization of PMFs from sweet orange (Citrus sinensis) peel will lead to new applications of the byproducts from orange juice processes and other orange consumption in nutraceutical and pharmaceutical products. In our study, eight hydroxylated PMFs, six PMFs, one polymethoxyflavanone, one hydroxylated polymethoxyflavanone, and two hydroxylated polymethoxychalcones were isolated from sweet orange peel and their structures were elucidated by various MS, UV, and different NMR techniques. Some of the hydroxylated PMFs and chalcones are newly isolated from sweet orange peel. 相似文献
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《Communications in Soil Science and Plant Analysis》2012,43(19-20):3061-3076
Seasonal changes in nutrient concentrations of leaf and fruit structural parts (rind and pulp) from ‘Newhall’ (Citrus. sinensis Osbeck) and ‘Skagg's Bonanza’ (C. sinensis Osbeck) navel oranges were investigated during fruit development in two successive years. Leaf calcium (Ca), manganese (Mn), and potassium (K) concentrations were relatively constant throughout the whole season with the exception of an increase of K at stage 1, the period of fruitlet growth [before 80 days after full bloom (DAFB)], whereas the magnesium (Mg), boron (B), iron (Fe), and zinc (Zn) concentrations declined distinctly during stage 2 (80–180 DAFB), the period of fruit rapid enlargement. In rind, Ca, B, Fe, and Mn concentrations reached the greatest levels at stage 2, different from K and Mg, which increased at stage 1 and decreased thereafter. In pulp, concentrations of Ca, K, Mg, and Mn declined gradually with time, whereas a small rise in B toward the end of sampling and a clear increase of Fe at stage 2 were observed. It was suggested that ‘Newhall’ required greater B inherently in fruits as the cultivar had greater B concentrations in fruit parts and had greater rind/leaf B concentration ratios than ‘Skagg's Bonanza.’ ‘Newhall’ had relatively greater rind Ca content and exhibited Ca distribution more uniformly within its fruit parts, which probably enhanced the crack resistance. 相似文献
20.
四季柚生育期叶片和果实中矿质元素含量变化的研究 总被引:2,自引:0,他引:2
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。 相似文献