The Amino-Acids of Grass Pollen

Pollens collected from nine grass species were analysed forammonia, urea, glutamine, asparagine, amino-nitrogen, totalsoluble nitrogen, and total nitrogen. Four grass pollens werealso assayed microbiologically for 17 individual amino-acids. Wide variations in composition were found between pollens fromdifferent grasses. Soluble nitrogen was in most cases relativelyhigh in proportion to the total nitrogen. Asparagine occurredin much greater amount than glutamine. Of the free amino-acids,the most abundant was proline, its content in the perennialryegrass pollen reaching 165 per cent, of the dry weight ofthe pollen.     

Nitrogen and Cation Nutrition of Three Ecologically Different Plant Species

Apple rootstocks M.7 were given a nitrogen application either in the spring or in the preceding autumn. At the time of the spring application some rootstocks were ringed. During the 50-day experimental period from bud-break, shoot growth and the amount of nitrogen incorporated into the new shoots were slightly reduced in the spring-treated trees and strongly reduced in the ringed trees of both treatments. Roots of unringed autumn-fertilized trees showed higher levels of total and amino nitrogen than those of similar trees in the spring treatment; to a lesser degree, the reverse held for xylem sap from the stem. Ringing increased the amino-nitrogen level in the roots, which suggests a reduced translocation rate. The nitrogen treatments led to marked differences in the percentage composition of the amino-nitrogen fraction of roots and xylem sap. The distribution of amino acids and amides in the roots and that in xylem sap of the same trees was divergent, but arginine and asparagine often were the most important constituents. Aspartic acid was rather abundant in xylem sap. Ringing did not affect the composition of the amino-nitrogen fraction in the roots quantitatively but increased the proportion of arginine in the sap. The possible relationship between the composition of xylem sap and soluble nitrogen in the roots is discussed. It is argued that especially in spring-fertilized trees appreciable amounts of nitrogen must be translocated via the phloem in addition to the transport in the xylem.     

Biochemical changes in developing seeds of pigeonpea (Cajanus cajan)

Soluble sugars, starch, soluble nitrogen and protein nitrogen were studied in developing seeds of 3 cultivars of pigeonpea. When expressed on a per seed basis soluble sugars increased up to 35 days after flowering and then declined slightly. Rapid starch accumulation was observed between 14 and 28 days after flowering. The levels of soluble nitrogen and protein nitrogen underwent rapid changes during the same period. Amino-acid composition of seed protein was also studied at different stages of maturation. Sodium dodecyl sulphate polyacrylamide gel electrophoresis of salt-soluble proteins revealed that seed storage globulins are formed after 14 days of flowering and do not change much during later stages of maturation.     

Spring Mobilization of Storage Nitrogen in Isolated Shoot Section of Apple

The process of mobilization of nitrogenous compounds in trees during spring development was studied in short isolated shoot sections (usually bearing one bud each) of Golden Delicious apple trees. During leafing-out of the bud, changes in the amounts of total, protein and soluble nitrogen and of soluble amino acids and amides in bark and wood were followed. The nitrogen required by the growing parts came mainly from protein breakdown in the tissues below the bud; in the tissues above the bud, total nitrogen decreased little, whereas the drop in protein nitrogen was considerable. In de-budded sections and in internode sections where total nitrogen remained almost unchanged, protein hydrolysis occurred as well. It is concluded that the protein breakdown is not strongly dependent on the demand of the bud for nitrogen. Inversion of the sections did not result in any change in the pattern of nitrogen mobilization: a marked drop occurred in the nitrogen content of the physiologically basal part of the section and only a slight decrease in the apical part. The translocation of stored nitrogenous compounds to the growing parts seems to occur in the phloem, at least over short distances. Asparagine and arginine were found to be the major components of the soluble amino-nitrogen fraction throughout. The relative importance of asparagine was reduced in tissue where a substantial loss of nitrogen occurred during leafing-out of the bud. This is explained in terms of a preferential export of asparagine to the bud.     

不同抗旱品种高粱苗中脯氨酸累积的差异

高粱抗旱品种“3197 B”比不抗旱品种“三尺三”在同样渗透胁迫条件下,要累积更多的游离脯氨酸。未受渗透胁迫前,两品种地上部的总氨基氮和游离氨基氮水平相似。氨基酸组成也相同。六种主要氨基酸分别占总的量和游离氨基酸量的50％和65％左右。受渗透胁迫24h后,总氨基氮水平未变,游离氨基氮增加,两品种的变化相似。因而,品种间脯氨酸累积的差异,似乎不因蛋白质或游离氨基酸的氨基酸组分的不同和蛋白质水解或合成受促进或抑制程度的不同而异。受渗透胁迫后,3197B植株内不但脯氨酸绝对量,而且相对量都超过“三尺三”。脯氨酸合成的潜在能力在3197B和“三尺三”之间有差别。     

Changes in carbohydrates,amino acids and proteins in developing seed of chickpea

Developing seeds of chickpea cultivars G-130, L-550 and 850-3/27 grown under field conditions were sampled at different stages of maturity and analysed for soluble sugars, starch, soluble nitrogen, protein nitrogen and amino acids. Fr. wt of seeds of all three cultivars decreased after 28 days of flowering while the dry wt continued to increase. Rapid starch accumulation was observed between 14 and 28 days after flowering. Starch as per cent of seed dry wt started to decrease after 28 days, while starch per seed increased till maturity. The percentage of salt-soluble proteins decreased with maturation of seed. The electrophoretic pattern revealed that deposition of seed storage protein in cotyledons occurred 14 days after flowering. Most of the biochemical activity apparently occurred between 14 and 28 days after flowering.     

Effect of nitrogen nutrition on endosperm protein synthesis in wild and cultivated barley grown in spike culture

In normal growth conditions, total protein percent (salt soluble plus hordein fractions) in the endosperm at maturity in barley cultivar Hordeum vulgare L. cv `Ruth' was about 14%, whereas in an accession of wild barley, Hordeum spontaneum Koch line 297, it was about 28%. Spike culture experiments were conducted to ascertain whether there were basic differences between the two genotypes under conditions of widely different nitrogen supply. Spikes of each genotype were grown from 8 to 25 days after flowering in in vitro culture in a growth medium containing 0 to 4 grams per liter nitrogen supplied as NH<sub>4</sub>NO<sub>3</sub>. Spikes were pulse-labeled at intervals from 12 to 24 days after flowering with 3.7 megabecquerel of [<sup>3</sup>H]leucine to determine relative rates of synthesis of hordein-1 and hordein-2 polypeptides. At low nitrogen levels `Ruth' had a lower protein content than 297, but at increasing nitrogen levels its protein content increased rapidly and reached a maximum (35%) higher than 297 (30%). The relative contribution of the hordein fraction to total protein increased mainly with time, and hordein-1 to total hordein increased mainly with nitrogen level, in both genotypes. There appeared to be no fundamental limitations in the capacity of `Ruth' to accumulate protein; 297 appears to have a greater basal level of nitrogen availability under normal conditions.     

不同水分管理下优质稻花后植株碳氮流转与籽粒生长及品质的相关性

以桂华占、八桂香为材料,在干湿交替灌溉、亏缺灌溉、淹水灌溉3种水分条件下,研究优质稻花后植株碳氮流转与籽粒生长及品质的相关性。结果表明:不同水分管理下,桂华占和八桂香花后碳氮流转与籽粒的生长间存在密切相关。主要表现在:(1)茎鞘和叶片干物质转运对籽粒干物质积累的贡献率为16.86%～25.68%,花后茎叶干物质运转速度和运转率与籽粒起始灌浆势呈显著甚至极显著正相关;籽粒最大灌浆速率、活跃灌浆期、持续灌浆时间与叶片干物质运转速度和运转率呈极显著正相关,与茎鞘干物质运转速度和运转率呈极显著负相关;(2)茎鞘碳同化物转运对籽粒的产量和淀粉产量的贡献率则为干湿交替灌溉>亏缺灌溉>淹水灌溉;但叶片碳同化物转运对籽粒的产量和淀粉产量的贡献率则为淹水灌溉>亏缺灌溉>干湿交替灌溉;茎叶可溶性糖积累量的减少和籽粒直链淀粉含量和积累量增加是同步的,且茎叶可溶性糖积累量快速递减期(花后3～12d)与直链淀粉含量和积累量快速递增期(花后6～12d)同步;(3)茎鞘和叶片氮素转运对籽粒氮素积累的贡献率为44.05%～117.66%,叶片总氮转运对籽粒氮素积累的贡献率大于茎鞘,茎鞘和叶片氮同化物对籽粒氮素的贡献率以淹水灌溉处理的最大,亏缺灌溉处理的次之,干湿交替灌溉处理的最小。     

小麦开花期灌水对土壤养分及根系分布的影响

本研究通过分析开花期灌水对小麦产量、植株养分分配和土壤养分分布的影响及其与根系特性的关系,为小麦充分利用水肥资源提供理论支撑。以抗旱高产品种‘洛麦28'和高光效品种‘百农207'为材料,采用2 m深土柱栽培方法,设置开花期灌水(T₁)和开花期不灌水(T₂)两个水分处理,测定了不同组织器官、不同土层土壤氮、磷、钾含量及根系分布特性等指标。结果表明: 小麦收获期土壤中铵态氮、速效磷和速效钾主要分布在0～80 cm土层中,硝态氮主要分布在80 cm以下土层中,开花期灌水促进小麦吸收0～60 cm土层的铵态氮、速效磷、速效钾和80 cm以下土层的硝态氮,减少了硝态氮向深层土壤的淋溶;小麦根系主要集中在0～60 cm土层中,随土壤深度的增加而减少。成熟期干物质积累量、全氮和全磷主要分配在小麦籽粒中,而全钾主要分配在茎秆中;开花期灌水显著增加了小麦百粒重,提高了小麦产量;根系形态指标与土壤硝态氮在0～40 cm土层中呈显著负相关,与土壤铵态氮在80～100 cm土层中呈极显著正相关,与土壤速效磷在0～100 cm土层中呈显著正相关。开花期灌水促进了根系在小麦生育末期对土壤养分的充分吸收,延长了养分从营养器官向生殖器官的转运功能期,使营养器官中的养分充分地转运到籽粒中去,增加小麦粒重,进而提高产量。     

Effects of adrenalectomy on urea synthesis in rats

The effect of depletion of glucocorticoids on the dynamics of hepatic amino-N conversion was examined 2 and 7 days after adrenalectomy in a total of 22 rats substituted by adrenaline. The capacity of urea synthesis was studied by infusion of alanine under steady state conditions with arterial concentrations of alanine between 7.3 and 11.6 mmol/l. The animals were nephrectomized and the capacity was calculated as accumulation of urea in total body water corrected for intestinal hydrolysis. Adrenalectomy reduced the capacity of urea synthesis to 55% of the capacity for control rats and reduced the alanine metabolic rate to 60%. In control rats the urea synthesis exceeded the alanine infusion by indicating an extrahepatic tissue release of amino acids. This difference disappeared after adrenalectomy. The body weight and food intake did not change during the study period. Thus lack of glucocorticoids influences the in vivo nitrogen economy both by decreasing the liver function as to conversion of amino-nitrogen and by decreasing release of tissue amino-nitrogen.     

光周期诱导甘蔗花芽分化及成花逆转过程中生理代谢的变化

以两个在自然条件下难开花的甘蔗品种‘ROCl6’和‘ROC22’为材料,研究经光周期诱导甘蔗花芽分化和成花逆转过程中叶片碳水化合物和可溶性蛋白质含量的变化。结果表明,未分化前,两品种经光周期诱导后叶片可溶性总糖、淀粉和蛋白质含量与对照相比无明显变化;从花芽分化诱变期开始,两品种叶片可溶性总糖、淀粉和蛋白质含量迅速增加,明显高于对照（未分化）。随着花芽进一步分化,其叶片可溶性总糖、淀粉含量逐渐降低并低于对照,处在一个较低的水平,蛋白质含量始终高于对照。成花逆转植株在花芽分化前期叶片可溶性总糖、淀粉和蛋白质含量也高于对照,但低于正常抽穗开花植株;之后随着花芽分化的停止,其叶片可溶性总糖、淀粉含量一直保持较稳定的水平,仅蛋白质略有降低。说明甘蔗花芽分化期间大量的基因表达并且合成各种蛋白质的过程需要消耗大量的碳水化合物。     

Regeneration of Phyllostachys heteroclada and its relations with rhizome carbon- and nitrogen metabolism

In order to search for the ways to restrain the flowering process and promote the regeneration of bamboo (Phyllostachys heteroclada), five types of regeneration experiments were conducted, including 1) harvesting all the bamboos in the first year and the flowered bamboos in the next year all at the beginning stage of florescence, 2) harvesting the flowered bamboos at the beginning stage of florescence in two consecutive years, 3) harvesting the fully flowered bamboos in the first year and the bamboos at the beginning stage of florescence in the next year, 4) fertilizing the bamboo floor before growing season in consecutive two years, and 5) no any manipulation. In each of the cases, the carbon- and nitrogen metabolism and related enzyme activities in bamboo rhizome were studied. The results showed that treatment 1 had the best effect, which resulted in the greatest number (207) of new shoots produced and with the highest survival rate (69.33%), and had the most obvious effect on restraining bamboo flowering and promoting regeneration. Also, it produced the highest contents of soluble sugar (10.89%) and total sugar (20.39%), the highest total sugar to total nitrogen ratio (34.56), and the highest glutamine synthetase activity (104.52 mg x g(-1) x h(-1)) in bamboo rhizome. These findings demonstrated that the carbon- and nitrogen metabolism in the rhizome had definite relationships with the flowering process and regeneration of bamboo, and the rhizome growth played a critical role in bamboo propagation.     

Impact of balsam fir flowering on pollen and foliage biochemistry in relation to spruce budworm growth, development and food utilization

The impact of balsam fir (Abies balsamea (L.) Miller) flowering on nutritional and allelochemical quality of pollen, current-year and one-year-old foliage is studied in relation to spruce budworm (Choristoneura fumiferana Clem.) (Lepidoptera: Tortricidae) growth, development and utilization of food and nitrogen. In the laboratory, using fresh food from the field, we simulated conditions of low larval population density, in which there is no current-year foliage depletion during the spruce budworm feeding period. Similarly, we simulated conditions of high larval population density when current-year foliage depletion occurs.Because of the high nutritive value of pollen (high amounts of amino acids and minerals, especially nitrogen; low monoterpene content), insects from flowering trees reached the fifth instar five days earlier than those from non-flowering trees, and had heavier dry- and nitrogen-weights at the beginning of the fifth instar. At budbreak, switching from pollen to current-year foliage negatively affected conversion efficiencies and digestibilities of food and nitrogen (AD; ADN; ECDN; ECI; ECIN). The switch from pollen to new foliage had a detrimental impact on fifth-instar survival and on newly-moulted sixth-instar dry- and nitrogen-weights. Moreover, during the fifth instar, balsam fir flowering reduced the nutritive value of current-year foliage, which in turn, might have contributed to the reduced larval growth. Nevertheless, during the sixth instar, balsam fir flowering affected the biochemistry of current-year foliage in ways that enabled larvae to compensate for their low fifth-instar biological performance; larvae also managed to reach pupal dry weight similar to larvae reared on non-flowering trees. Current-year foliage from flowering trees contained less nitrogen, total soluble sugars and total monoterpenes. Those foliar characteristics enabled larvae to increase food and nitrogen consumption rates (RCR; RNCR), because of lower repellency and/or post-ingestional feedback from monoterpenes.As for current-year foliage, balsam fir flowering reduced nitrogen, total soluble sugar and total monoterpene contents in one-year-old foliage during the sixth-instar feeding period. These characteristics enabled sixth-instar larvae, fed on old foliage from flowering trees, to have high relative food and nitrogen consumption rates (RCR; RNCR). Larvae were also able to reach higher relative growth rates (RGR) and relative nitrogen accumulation rates (RNAR) compared to larvae reared on one-year-old foliage from non-flowering trees. Finally, larvae on flowering trees had pupal dry weight similar to those from non-flowering trees, but reached the adult stage nine days earlier.Regardless the foliage type consumed by spruce budworm larvae during the sixth instar, pollen consumption during early larval stages reduced total development time, and thus exposure time to natural enemies. This phenomenon might increase larval survival. Balsam fir flowering changed the biochemistry of one-year-old and current-year foliages, but did not affect pupal dry weights of larvae reared on flowering trees compared to those reared on non-flowering trees. Thus, at low population density, spruce budworm populations in balsam fir flowering stands might be favoured over those in balsam fir non-flowering stands. In addition, when larvae consumed one-year-old foliage during the entire sixth instar, those on flowering trees are probably favoured over those on non-flowering trees. However, because flowering trees produce less new foliage than non-flowering trees, current-year foliage depletion may occur earlier on flowering trees than on non-flowering trees. Thus, at similar larval population density, larvae on flowering trees might have to feed on one-year-old foliage earlier than those on non-flowering trees. In that case, spruce budworm populations on non-flowering stands would be favoured over those on flowering stands.     

Growth rates and nutrition status of an open and a closed population of Rhododendron ferrugineum L . in the northwestern Alps (France)

 This study evaluates the utility of cell compounds as indicators of nutrition status of plant populations. An overview of the soluble free amino-acids, carbohydrates and P-compounds in the two year classes of leaves from Rhododendron ferrugineum populations showing variable biological performances, was drawn up using carbon-13 and phosphorus-31 nuclear magnetic resonance spectroscopy (NMR). The results showed differences between the age of leaves and the degree of population closure. The open population, which has the smallest growth rate and net primary productivity, had generally lower levels of amino-acids but higher levels of carbohydrates and P-compounds. Neither the amounts of mineral nitrogen produced by the soils nor the total nitrogen concentrations in leaves differed significantly. Still we hypothesize that the nitrogen availability could be largely responsible for the variations observed between the populations, as phosphorus analyses showed that the two populations did not suffer significant P deficiencies. Differences in vitality of R. ferrugineum may be explained by the fact that in an open population R. ferrugineum is forced into a situation of sharing nutrients with other species while in a closed population it is the sole species to exploit a specific pool of nutrients. Finally we observed that the ¹³C- and ³¹P-NMR approach is more suitable for studying the nutrition status of plant populations under field conditions than the determination of the total amounts of different elementary nutrients. Received: 2 May 1995 / Accepted: 22 February 1996     

Vacuole Cysteine Proteases and Ribulose-1,5-Bisphosphate Carboxylase/Oxygenase Degradation during Monocarpic Senescence in Cowpea Leaves

Characterisation of proteases degrading ribulose-1,5-bisphosphate carboxylase/oxygenase (RuBPCO, EC: 4.1.1.39) was studied in the cowpea leaf during monocarpic senescence 3 and 9 d after flowering (DAF), representing early and mid pod fill. The stage at 3 DAF coincided with decrease in the metabolic parameters characterising senescence, i.e., contents of total soluble proteins, RuBPCO, and leaf nitrogen. At 9 DAF, there was a decline in total soluble proteins and an appearance of a 48 kDa cysteine protease. Characterisation of the proteases was done using specific inhibitors. Subcellular localisation at 3 DAF was studied by following the degradation of RuBPCO large subunit (LSU) in the vacuole lysates using immunoblot analyses. Cysteine proteases played a predominant role in the degradation of RuBPCO LSU at the crude extract level. At 9 DAF, expression of cysteine protease isoforms was monitored using polyclonal antibodies against papain and two polypeptides of molecular masses 48 and 35 kDa were observed in the vacuole lysates. We confirmed thus the predominance of cysteine proteases in the vacuoles during different stages of pod development in cowpea leaf.     

Effects of waterlogging on chickpeas II. Possible causes of decreased tolerance of waterlogging at flowering

Waterlogging tolerance of chickpeas was found, in earlier work, to decrease sharply at flowering. Three experiments were performed to attempt to explain the mechanisms involved in this response. In the first, a range of treatments was imposed to modify the plant's source/sink relationships, as carbohydrate supply and partitioning were considered possible determinants of waterlogging tolerance. Plants from which buds were removed showed the most rapid recovery after waterlogging. Defoliation immediately before waterlogging reduced the rate of recovery. Application of benzyladenine plus gibberellic acid prior to waterlogging delayed stomatal closure and leaf senescence, inhibited apical growth and stimulated axillary growth. The second experiment aimed to confirm the influence of bud removal and to determine whether waterlogging tolerance is correlated with carbohydrate supply. Treatments comprised two sowing times, ten days apart, and two bud treatments (retained and removed). Waterlogging was imposed when older plants had been flowering for seven days and younger plants were in bud. Waterlogging caused soluble sugars to accumulate in the lower stem, suggesting that a deficiency of assimilates did not contribute to waterlogging injury. Similarly, waterlogging increased nitrogen concentration in the stem, through mobilisation from senescing leaves. Bud removal enhanced leaf survival and reduced mortality rate after waterlogging; it also increased starch concentration in the lower stem, indicating that storage of assimilates decreased in flowering plants. However, across all treatments, starch concentration was not correlated with waterlogging tolerance. In the third experiment, the effect of the senescence-promoting factor ethylene on preflowering and flowering plants was assessed, using the ethylene-releasing agent ethephon. Ethephon reduced growth to a slightly greater extent when applied prior to flowering than at flowering. There was no evidence that inadequate supply of carbohydrates or nitrogen in the stem, or increased sensitivity to ethylene, contributed to waterlogging intolerance in flowering chickpea plants.     

Effect of root temperature on the amino-nitrogen composition of leaves in successive segments of apple shoots

Young apple trees ( Malus pumila Mill. cv. Cox's Orange Pippin) given nitrogen either at or 40 days after bud-break were kept at a root temperature of 6, 18 or 30°C under otherwise constant conditions. Twelve weeks after the start of the experiment leaves from successive shoot segments and roots were collected and in most cases analysed to assess total nitrogen, protein nitrogen, and the main amides and amino acids. The percentage composition of the amino-nitrogen fraction of the roots was not or was hardly at all affected by the treatments; asparagine predominated, followed by arginine. In contrast, in the leaves the share of arginine dropped from about 90% at 6°C to about 30% at 30°C in favour of especially asparagine. This pattern was mainly attributable to the situation in the basal sections of the shoot. In the middle and top segments the temperature effects were small. In general, a high level of amino nitrogen corresponded to a high contribution of arginine. Soluble nitrogen was higher after the late than after the early application of nitrogen. Shoot growth was reduced at 6°C root temperature, but little difference was seen between 18 and 30°C. It was concluded that with respect to nitrogen metabolism roots and shoots function more or less independently of each other. The hypothesis that the roots affect leaf nitrogen metabolism via the supply of growth substances produced in the roots, presumably cytokinins, is discussed.     

Effects of tillage and nitrogen addition rate on nitrogen metabolism,grain yield and protein content in wheat in lime concretion black soil region

Aims The purpose of this study was to determine a suitable combination of tillage method and nitrogen rate to improve wheat (Triticum aestivum) yield and protein content in lime concretion black soil.
Methods Under the field experimental conditions, three tillage methods (subsoiling and rotary tillage, rotary tillage, and conventional tillage) were used as the main treatments, and four nitrogen application rates (0, 120, 225 and 330 kg·hm^–2) were used as sub-treatments. Nitrogen assimilation after jointing stage, grain yield, and protein content were determined in wheat plants to study the effects of different tillage methods and nitrogen application rate on these variables.
Important findings Results showed that the glutamine synthetase (GS) activity, free amino acid content, and soluble protein content in wheat plants initially increased and then decreased during growth. The peaks of GS activity, free amino acid content, and soluble protein content occurred 10 days after flowering in the subsoiling treatment with 225 or 330 kg·hm^–2 nitrogen application rate, and at the flowering stage for other treatment combinations. Compared with the conventional tillage and rotary tillage, the bulk density of 10 to 40 cm soil in the subsoiling treatment was significantly reduced, and the soil total porosity and root dry weight were significantly increased. Tillage method and nitrogen application rate had a significant impact on grain yield and protein content in wheat plants. Grain yield and protein content were highest in the subsoiling treatment. Regardless of the tillage method, the grain yield and protein content both increased with increasing nitrogen application rate. The grain yield in the subsoiling treatment was highest with nitrogen application rate at 330 kg·hm^–2, whereas the outputs of conventional tillage and rotary tillage were peaked at nitrogen application rate of 225 kg·hm^–2. The grain proteincontent was highest at nitrogen application rate of 225 kg·hm^–2 under the three tillage methods. Thus, subsoiling with optimum nitrogen rate should be promoted in lime concretion black soil. Subsoiling increased grain yield and protein quality by improving soil conditions and the absorption of root systems for soil nitrogen.     

珠三角桃树摘叶期和气象因子对桃花应节盛花的影响

根据不同摘叶期、桃花盛花期观测资料和同期气象资料,研究了摘叶和气象因子对桃花应节盛花的影响.结果表明,摘叶期和盛花期的关系以分段线性方程拟合效果最佳,12月12日以前,线性方程的斜率为0.7594,12月12日以后,线性方程近似水平.11月中旬至盛花期平均气温、花前50 d总日照时数是桃花盛花期出现迟早的关键气象因子.它们与摘叶期至盛花期天数的相关系数分别为-0.62和-0.45,经检验,差异达到显著水平.在此基础上,利用多元线性回归分析,建立了桃花适宜摘叶期预测模型.样本回代检验79.2%的样本误差在2 d以内,2004年试报效果也较好.     

The Movement of Organic Nitrogen Compounds in Plants: With two Figures in the Text

The hypothesis that the movement of organic nitrogen, like thatof carbohydrate, is governed by the prevailing concentrationgradients for the mobile compounds in the phloem has been testedby determining the effect on nitrogen distribution when normaltranslocation was interrupted by ringing in Pelargonium spp.and Vicia faba plants. Nitrogen compounds in the plant tissue were fractionated intoprotein, soluble protein, amide, amino-acid, peptide, nitrate,and ammonia nitrogen. The presence of short-chain peptides inthe extracts was confirmed by paper chromatography. Results showed that accumulation above the ringed zone was confinedto the soluble nitrogen fractions and that amino-acids and possiblypeptides were involved in translocation. The direction of movementmay be determined by the prevailing concentration gradientsof these compounds in the phloem tissue.