The Effect of Cultural Operations on the Composition of the Xylem Sap of Tea Plants Recovering from Pruning

Complete removal of foliage-bearing branches from tea plantsrecovering from pruning at low altitudes has been observed toresult in a scorching of the newly-developing buds and shoots.Studies on the xylem sap composition have revealed that thereis a very sharp increase in the amino-N content of the sap.The relationship between the sap composition and the physiologyof the plant is discussed.     

Chemical forms of aluminum in xylem sap of tea plants (Camellia sinensis L.)

To identify the chemical forms of aluminum (Al) transported from roots to shoots of tea plants (C. sinensis L.), ²⁷Al-nuclear magnetic resonance and ¹⁹F NMR spectroscopy were used to analyze xylem sap.The concentration of Al in collected xylem sap was 0.29 mM, twice as high as that of F. Catechins were not detected in xylem sap. The concentration of malic acid in xylem sap was higher than that of citric acid, whereas the concentration of oxalic acid was negligible.There were two signals in the ²⁷Al NMR spectra of xylem sap, a larger signal at 11 ppm and a smaller one at −1.5 ppm. The former signal was consistent with the peak for an Al-citrate model solution, suggesting that an Al-citrate complex was present in xylem sap. Although the latter signal at −1.5 ppm was thought to indicate the presence of an Al-F complex (at 1.7 ppm) in xylem sap, there was only one signal at −122 ppm in the ¹⁹F NMR spectrum of xylem sap, indicating that the main F complex in xylem sap was F⁻.These results indicate that Al might be translocated as a complex with citrate, while Al-malate, Al-oxalate and Al-F complexes are not major Al complexes in xylem sap of tea plants.     

Changes in the Composition of the Xylem Exudate of Tea Plants (Camellia sinensis L.) during Recovery from Pruning

A method of collecting the xylem sap from tea plants in quantitiessufficient for analysis is described. Organic nitrogenous compoundsaccounted for most of the nitrogen present in the sap. Glutamine,theanine, glutamic acid, aspartic acid, and lysine were quantitativelythe most important nitrogenous compounds. Also present in lesseramounts were leucine/isoleucine, phenyl alanine, valine, andasparagine. Inorganic phosphate, sulphate, glucose, fructose,and sucrose were also present. Phosphoryl choline was not detected. During recovery from pruning there was a definite change inproportions of some of the constituents in the sap. The totalamino-acid content decreased to a very low level 9 days afterpruning followed by an increase with bud break. Glutamine andtheanine were the most important constituents quantitatively.These tended to decrease relatively more than the other aminoacids during the first few days after pruning. The increasein glutamine and, to a lesser extent, theanine was more markedwith bud break. Phosphoryl choline was not detected in the sapat any stage during the recovery period. The changes in thelevel of phosphate, sulphate, and sugars were somewhat parallelto the changes in the level of amino acids. All these constituentsdecreased to a low level a few days after pruning and increasedwith bud break. These findings suggest that new growth was madelargely at the expense of translocated nitrogenous and othercompounds.     

Chemical Changes In Young Tea Plant (Camellia sinensis L.) Tissues Following Application of Fertilizer Nitrogen

The uptake of ammonium sulphate by 14-month-old potted tea plantsgrown in a glasshouse was studied over the 11-week period followingapplication. Concurrent changes in the starch of root-wood,amino acids of xylem sap, and total nitrogen of leaves, stems,root-wood, and feeder roots were determined. Depletion of nitrogenfrom the soil at different depths and transformation of NH₄⁺to NO₃^– was also followed. The results show that the uptake of nitrogen commences within2 days of application as indicated by a marked increase in theamino-acid content of the xylem sap. Glutamine and, to a lesserextent, theanine were quantitatively the most important aminoacids in the sap. The amino-acid content of the sap was a maximumat about the time rapid depletion of the ammonium of the soiltook place. An interesting feature of the work is the reciprocalrelationship between the changes in the starch of root-woodand amino acids in the sap a few days after fertilizer application.Studies on the ammonium and nitrate levels of the soil at differentdepths showed that transformation of NH₄⁺ to NO₃^– occurredin the soil. The response of the various tissues to applied fertilizer nitrogenand increase in the fresh weight of the shoot system showedsimilar trends and may be correlated with the depletion of ammonium-nitrogenfrom the soil.     

Mechanism for the detoxification of aluminum in roots of tea plant (Camellia sinensis (L.) Kuntze)

To determine the mechanism of aluminum (Al) detoxification in the roots of tea plants (Camellia sinensis (L.) Kuntze), the amounts of Al and Al-chelating compounds (fluoride (F), organic acids and catechins) were measured and the chemical forms of Al in root cell extracts were identified by the application of 27Al-nuclear magnetic resonance (NMR) spectroscopy. Tea plants were cultivated in nutrient solutions containing 0, 4, 1.0 and 4.0 mM of Al at pH 4.2 for approximately 10 weeks. The levels of soluble Al, water-soluble oxalate and citrate, but not F, malate or catechins in young roots increased with an increase in the concentration of Al in the treatment solution. The 27Al NMR spectra of root tips and cell sap extracted from root tips that had been treated with Al were almost identical and had four signals, with two (11 and 16 ppm) apparently corresponding to the known chemical shifts of Al-oxalate complexes. In the spectra of cell sap, the resonances at 11 and 16 ppm increased with an increase in the Al contents. These results suggest that the levels of Al-oxalate complexes increased in response to an increase in the Al level, implying that oxalate is a key Al-chelating compound in the mechanism of Al detoxification in the tea root.     

荔枝树干液流速率与气象因子的关系

采用热扩散茎流仪于2011—2012年连续监测‘桂味’荔枝树干液流速率,将所得数据和果园内自动气象站观测数据一起进行对比分析,建立了液流速率与气象因子的关系模型。实验结果表明:(1)树干液流速率日变化呈现"昼高夜低"的规律。季节变化有呈现"先高后低"的趋势,整体上以果实发育期和成熟期(5—7月)液流速率较高。2011年年平均液流速率明显大于2012年;(2)树干液流速率日变化在晴天时多呈单峰曲线,且振幅较大;在雨天呈多峰曲线,且振幅较小。总体上,晴天平均液流速率约是雨天的两倍;(3)回归分析表明,在一定范围内,树干液流速率与太阳辐射强度、空气温度呈正相关,与空气湿度呈负相关。影响液流速率最重要的气象因子在晴天是空气温度,在雨天是太阳辐射。     

Relationships between xylem sap constituents and leaf conductance of well-watered and water-stressed maize across three xylem sap sampling techniques

Many different techniques have been used for xylem sap collection, but few direct comparisons of techniques have been conducted and few comparisons have been based on comprehensive analyses of xylem sap. Moreover, the suitability of extraction techniques for use on plants grown under water-stress conditions has not been addressed. Xylem sap was extracted from both well-watered and water-stressed Zea mays plants using three different techniques. The main aim was to determine how the extraction method altered the correlations between sap constituents and stomatal conductance in order to determine which relationships change with extraction technique. A 'root pressure' technique was the simplest method of extracting large volumes of sap, but the low sap delivery rates altered the composition of sap. Two pressurization techniques that varied in the position from which sap was collected were tested. The pressurization techniques allowed for the control of delivery rates that influence sap constituent concentrations. The position from which xylem sap was collected on the plant was also found to be important. All three techniques produced consistent correlations between ABA and chloride delivery rates and changes in stomatal conductance, suggesting that each technique could be applied to identify certain putative xylem-borne signals.     

Granier树干液流测定系统在马占相思的水分利用研究中的应用

介绍了Granier热消散探针在树干液流测定中的工作原理,并利用该系统长期监测广东鹤山马占相思林14株样树的液流密度,分析了树木个体内和个体之间液流密度的差异、整树和林段水分利用的量化特征.由于树木边材结构以及周围微环境的差别,树木内和个体间的液流密度差异非常明显,变异系数的平均值分别为15.51%-37.26%、37.46%-50.73%.尽管液流密度的差异较大,但同一株树木不同方位的液流密度之间却呈现明显的线性相关（p＜0.0001）,这是重要的特征值,使得只需测定某一方位的液流密度经尺度外推计算整树和林段蒸腾成为可能.树木液流对环境因子响应的变化规律取决于所参照的时间尺度,日变化主要受光辐射、水汽压差等气候因子的控制,而土壤水份对液流的季节变化影响较大.形态特征明显影响树木的液流,高大树木由于边材较厚、树干粗壮和冠幅较宽而承载较多的辐射能量,因而水分蒸腾较高.对树木液流密度在径向和方位上进行适当的整合,可较准确地计算整树和林段蒸腾.由液流估测的马占相思整树和林段蒸腾的结果显示,该群落的水分利用在时间和空间上均有明显的分化.     

Is the ABA concentration in the sap collected by pressurizing leaves relevant for analysing drought effects on stomata? Evidence from ABA-fed leaves of transgenic plants with modified capacities to synthesize ABA.

Most studies on the role of ABA in the stomatal response of the whole plant to drought rely on a good estimate of ABA concentration in xylem sap. In this report, varying volumes of sap (V(sap)) were collected by pressurizing leaves cut from several lines of N. plumbaginifolia with modified capacities to synthesize ABA. Leaves were fed with solutions of known ABA concentration ([ABA](solution) from 0-500 micromol m(-3)) for 2-3 h before sap collection. ABA concentration in extruded sap ([ABA](sap)) was compared with [ABA](solution). In low-volume extracts (less than 0.35 mm(3) cm(-2) leaf area) collected from leaves of well-watered plants, [ABA](sap) was close to [ABA](solution). For all lines, [ABA](sap) decreased with increasing V(sap). The same dilution effect was observed for leaves pressurized just after sampling on droughted plants, suggesting, as for detached leaves fed with ABA, that [ABA](sap) in low-volume extracts approximated well with the concentration of ABA entering leaves still attached on droughted plants. However, ABA-fed leaves sampled from droughted plants yielded higher [ABA](sap) than ABA-fed leaves sampled from well-watered plants. [ABA](sap) was also increased, although very slightly, when leaves were preincubated in highly enriched ABA solution. This indicates that some leaf ABA contributed to the ABA concentration returned in the extruded sap. Consistently, [ABA](sap) in medium-volume extracts (0.35-0.65 mm(3) cm(-2) leaf area) was lower for leaves sampled on under-producing lines than on the wild type. Despite these distortions between [ABA](solution) and [ABA](sap) in medium-volume extracts, stomatal conductance of ABA-fed leaves closely correlated with [ABA](sap) with a similar relationship in all cases, whilst relationships with [ABA](solution) were more scattered.     

Chemical Composition of Phloem Sap from the Uppermost Internode of the Rice Plant

The chemical composition of phloem sap from the uppermost internodeof rice plants (Oryza sativa L., var. Kantou), one week afteranthesis, was compared with that of phloem sap from the leafsheath of a young seedling. The pure phloem sap from rice plantswas collected by an insect laser technique. The phloem sap from the uppermost internode contained a highlevel of sucrose (573.8 mM) which was the only sugar detected.The concentrations of total amino acids, potassium and ATP were124.8 mM, 40.4 mM and 1.76 mM, respectively. The concentrationof sucrose was three times higher and the potassium level wasone third as high in the internode sap as in the phloem sapfrom the leaf sheath. The total concentration of amino acidswas almost the same, but the relative amount of each amino acidwas quite different. The ratios of levels of Glu to Gln andof levels of Asp to Asn in the phloem sap from the uppermostinternode were smaller than those in the phloem sap from theleaf sheath. The adenylate energy charge was 0.92–0.93in both types of phloem sap. The amino acid composition of the phloem sap from the uppermostinternode was compared with that of the phloem sap of the flagleaf and the endosperm sap of the same plant, one week afteranthesis. The differences in composition along the phloem pathwaysuggest the selective translocation of amino acid. (Received July 21, 1989; Accepted December 11, 1989)     

Accounting for sap flow from different parts of the root system improves the prediction of xylem ABA concentration in plants grown with heterogeneous soil moisture

When soil moisture is heterogeneous, sap flow from, and ABA status of, different parts of the root system impact on leaf xylem ABA concentration ([X-ABA]leaf). The robustness of a model for predicting [X-ABA]leaf was assessed. 'Two root-one shoot' grafted sunflower (Helianthus annuus L.) plants received either deficit irrigation (DI, each root system received the same irrigation volumes) or partial rootzone drying (PRD, only one root system was watered and the other dried the soil). Irrespective of whether relative sap flow was assessed using sap flow sensors in vivo or by pressurization of de-topped roots, each root system contributed similarly to total sap flow during DI, while sap flow from roots in drying soil declined linearly with soil water potential (Psisoil) during PRD. Although Psisoil of the irrigated pot determined the threshold Psisoil at which sap flow from roots in drying soil decreased, the slope of this decrease was independent of the wet pot Psisoil. Irrespective of whether sap was collected from the wet or dry root system of PRD plants, or a DI plant, root xylem ABA concentration increased as Psisoil declined. The model, which weighted ABA contributions of each root system according to the sap flow from each, almost perfectly explained [X-ABA] immediately above the graft union. That the model overestimated measured [X-ABA]leaf may result from changes in [X-ABA] along the transport pathway or an artefact of collecting xylem sap from detached leaves. The implications of declining sap flow through partially dry roots during PRD for the control of stomatal behaviour and irrigation scheduling are discussed.     

Spring Sap of Trees

In the spring, sap in perennial plants becomes available after winter dormancy. As is well known, substances including minerals and organic nutrients are transported from storage compartments in roots and stems to growth regions. For this solute distribution, xylem as well as phloem are used and probably also the cambial region and the ray system. In the present study, a puncture method has been used to record sap availability in six north European tree species during the spring. Attempts were made to withdraw sap from the trees at points 0.5 m, 1.3 m and 3.0 m above ground with “phloem needles” (constructed according to Hammel 1968), and a syringe. Sap could be withdrawn for the longest period for the sycamore (71 days). Birch (47 days) gave an intermediate period, beech (12 days), oak (12 days) and alder (13 days) gave short periods, and sap could not be withdrawn from ash. Effects of two environmental factors, temperature and light intensity on sap availability were examined. Temperature dependence of sap availability, already observed in the genus Acer, was confirmed in sycamore maple (Acer pseudoplatanus). There also seemed to be a correlation between sap availability and light intensity. Analysis of sugar in the tree sap revealed that sucrose was the only sugar in the sap of sycamore but hexoses (glucose and fructose) were preponderant in the sap of the other trees. The pH of sycamore sap (pH 6.9–5.4) fell as the season advanced. However, the pH-values of sap from the other trees did not vary significantly.     

Xylem Sap from Actinidia chinensis: Apparent Differences in Sap Composition Arising from the Method of Collection

Large differences in composition were found between xylem sapcollected from Actinidia chinensis (Chinese gooseberry or kiwifruit) as bleeding sap and sap collected by vacuum extraction.A comparison of saps collected by the two methods has littlemeaning, however, unless the position on the plant from whichsap was collected and the prior treatment of the plant are specified.Furthermore the composition of bleeding sap changes rapidlywith time, probably because of marked gradients in concentrationof individual solutes in the xylem sap from the base to thetop of the plant. Contamination of vacuum-extracted sap by cellularcontents was shown to be insignificant. Sap collected as bleeding sap and by vacuum extraction are ofsomewhat different origins. It would be difficult to predictthe composition of bleeding sap simply from a knowledge of vacuum-extractedsap: it may be similarly unwise to predict the composition ofthe transpiration stream from that of vacuum extracted sap. Actinidia chinensis, kiwi fruit, Chinese gooseberry, xylem sap, bleeding sap, vacuum-extraction     

Whole tree xylem sap flow responses to multiple environmental variables in a wet tropical forest

In order to quantify and characterize the variance in rainforest tree physiology, whole tree sap flow responses to local environmental conditions were investigated in 10 species of trees with diverse traits at La Selva Biological Station, Costa Rica. A simple model was developed to predict tree sap flow responses to a synthetic environmental variable generated by a principle components analysis. The best fit was obtained with a sigmoid function which explained between 74 and 93% of the variation in sap flux of individual trees. Sap flow reached an asymptote where higher light and evaporative demand did not cause sap flux to increase further. Soil moisture had little influence on sap flux. The morphological characteristics of the trees significantly affected sap flow; taller trees responded to changes in environmental variables sooner than shorter trees and high liana cover buffered tree sap flow responses to weather. The effect of species‐specific differences on the model was small; the mean effectiveness of the model was reduced by 6% when parameters were estimated from a single pool of measurements taken from all individuals. The results indicate that sap flow response could be effectively estimated using a simple general model and composite environmental index for these 10 diverse tree species.     

Concentration and Delivery of Abscisic Acid in Xylem Sap are Greater at the Shoot Base than at a Target Leaf Nearer to the Shoot Apex

Abstract: Samples of xylem sap from 5-week-old Ricinus corn-munis L. were obtained after severing a lamina, or shoot, from plants pressurized at the roots with air to raise hydrostatic xylem water potentials to atmospheric. In situ sap flow gauges, and mass flow measurements, showed that removing the lamina approximately doubted sap flow rate through the petiole stub that remained attached to the plant. This was a consequence of flow out of the roots being diverted along this low-resistance pathway and away from leaves higher in the canopy. Leaf and whole shoot excision temporarily released extra solutes in to sap as it discharged from the cut petiole or from the hypo-cotyl stump. This contamination prevented the use of sap extracted from detached lamina by overpressurizing in a Scholan-der bomb. To minimise distortions to sap flow and wound-induced contamination, estimates of in planta concentration and delivery (concentration × sap flow rate) of ABA and osmolality in xylem sap were made using sap flow rates measured before excision and concentrations in flowing sap collected approximately 30 mm after excision. At this time, effects of excision on solute contamination had subsided. The approach revealed that withholding water from upper roots increased ABA delivery from roots into the shoot base 3-fold. However, approximately half this ABA was lost en route to the youngest fully open leaf. This loss of ABA may explain the slow stomatal response to drying of upper roots shown by R. communis .     

甘肃石羊河流域干旱荒漠区花棒蒸腾耗水量

研究了甘肃石羊河流域干旱荒漠区天然生长条件下花棒的蒸腾耗水规律．结果表明：花棒木质部液流速率随探针插入深度的加大呈“高-低”变化趋势;主根直径较小的花棒各位点的平均液流速率上升速度较快,变幅较大;不同主根直径花棒的液流量相差较大,但变化趋势较为一致,即昼夜变幅较大,夜间液流量较小,白天液流量较大,呈多峰曲线;日液流量与蒸发蒸腾量ET0呈线性相关,蒸腾耗水主要在6-9月,占生长季总蒸腾量的79．04％;花棒生长后期日液流量与0—50cm深沙层含水量呈显著相关,与其它层含水量无明显相关性;气象因素对花棒树干液流量影响的大小表现为日均气温〉空气水汽压差〉风速．     

陇东旱地果园覆沙对苹果树蒸腾耗水及果实品质的影响

针对甘肃陇东旱地苹果园季节性干旱问题,以15年生长富2号苹果树为试材,测定果园覆沙后土壤水分、温度,以及果树主干液流速率、叶片气孔导度、果实品质等指标.结果表明：果园覆盖5 cm厚河沙,2-4月地温升高幅度低于1 ℃,6、7月晴天地温升高2.44 ℃,阴天地温升高2.61 ℃;在果树生长季节土壤含水量始终保持在田间持水量的60%以上.土壤含水量较高的时期（H期）晴天,树干液流曲线呈“几”字形宽峰曲线,覆沙处理液流启动时间较对照提前0.6 h,峰值较对照高25.5%,阴天峰值较对照高165.6%,且液流活动时间延长;土壤含水量较低的时期（L期）晴天,覆沙处理液流呈单峰曲线,启动时间较对照提前0.5～1 h,峰值在794 g·h^-1左右,而阴天液流启动时间较对照提前近1 h,峰值较对照高311.0%.3-7月对照的棵间蒸发量（E_s）较覆沙处理高156.0%,过多的地面蒸发是造成果树缺水的主要原因.覆沙后果实单果质量显著提高,果实硬度略有降低,果实可溶性固形物、维生素C、总糖、有机酸含量均有所提高.     

Lipids in xylem sap of woody plants across the angiosperm phylogeny

Lipids have been observed attached to lumen-facing surfaces of mature xylem conduits of several plant species, but there has been little research on their functions or effects on water transport, and only one lipidomic study of the xylem apoplast. Therefore, we conducted lipidomic analyses of xylem sap from woody stems of seven plants representing six major angiosperm clades, including basal magnoliids, monocots and eudicots, to characterize and quantify phospholipids, galactolipids and sulfolipids in sap using mass spectrometry. Locations of lipids in vessels of Laurus nobilis were imaged using transmission electron microscopy and confocal microscopy. Xylem sap contained the galactolipids di- and monogalactosyldiacylglycerol, as well as all common plant phospholipids, but only traces of sulfolipids, with total lipid concentrations in extracted sap ranging from 0.18 to 0.63 nmol ml⁻¹ across all seven species. Contamination of extracted sap from lipids in cut living cells was found to be negligible. Lipid composition of sap was compared with wood in two species and was largely similar, suggesting that sap lipids, including galactolipids, originate from cell content of living vessels. Seasonal changes in lipid composition of sap were observed for one species. Lipid layers coated all lumen-facing vessel surfaces of L. nobilis, and lipids were highly concentrated in inter-vessel pits. The findings suggest that apoplastic, amphiphilic xylem lipids are a universal feature of angiosperms. The findings require a reinterpretation of the cohesion-tension theory of water transport to account for the effects of apoplastic lipids on dynamic surface tension and hydraulic conductance in xylem.     

栓皮栎人工林树干液流对不同时间尺度气象因子及水面蒸发的响应

于2006-2008年主要生长季节,利用热扩散技术连续测算得到了华北土石山区30年生栓皮栎人工林液流量(SF),并结合同步测定的太阳辐射(Ra)、空气温度(Ta)、饱和水汽压亏缺(VPD)、风速(V)和降雨量(P)等气象因子、水面蒸发(EV0)及叶面积指数(LAI)等因子,分析了栓皮栎液流对不同时间尺度气象因子及水面蒸发的响应规律,探索建立长时间尺度水面蒸发与树干液流之间的关系模型。试验结果表明:(1)在主要生长季(4—9月份)期间,栓皮栎单株液流与同期测定的Ra、Ta、VPD和V等气象因子间均存在着较强的相关性。时间尺度为10min、1h、d、旬、月时,决定系数分别为0.388、0.482、0.539、0.654和0.812。说明随着时间尺度的增加,相关性越强;在不同时间尺度下,影响SF的最主要气象因子均为Ra。月SF与月Ra变化趋势的同步性尤为明显。(2)日尺度和月尺度上EV0与SF之间具有很好的线性关系,决定系数分别为0.578和0.876,比同时期、相等样本数条件下SF与Ra、Ta、VPD、V多元线性拟合的决定系数分别高3.6%和3.9%。(3)2006、2007、2008年生长季节降雨量分别为464.8、393.3mm和315.0mm,栓皮栎单株液流分别为2024.1L、1739.2L和1688.7L,年际间SF变化趋势与降雨量存在一定的一致性。     

Conservation of element concentration in xylem sap of red spruce

We investigated the chemistry of xylem sap as a marker of red spruce metabolism and soil chemistry at three locations in northern New England. A Scholander pressure chamber was used to extract xylem sap from roots and branches cut from mature trees in early June and September. Root sap contained significantly greater concentrations of K, Ca, Mg, Mn, and Al than branch sap. Sap collected in June contained a signficantly greater concentration of Mn than sap collected in September. Sap concentration was related to forest location for N and Mn. Variations in concentrations of N and K were significantly related to the interaction of tree organ and month of collection. Variations in concentrations of P, Cu, Zn, and Fe were not attributable to tree organ, month of collection, or forest location. Patterns of element concentration in xylem sap compared to previously published data on soil solution chemistry indicated a high degree of homeostatic control of xylem sap chemistry. This control likely represents a significant allocation of resources within the tree energy budget.