Studies in Sieve-tube Exudation through Aphid Mouth-parts: The Effects of Light and Girdling

Exudation from the mouth-parts of the willow aphid Tuberolachnussalignus (Gmelin) inserted in the phloem of Salix sp. was studied.Leafy rooted cuttings 80–100 cm. in length were grownin artificial light. Exuding mouth-parts were located on thestem below the crown of leaves and the rates of exudation andconcentration of sucrose in the exudate measured whilst theleaves were alternately illuminated (600–800 f.c.) anddarkened. In darkness the rate of sap and sucrose exudationincreased and the concentration fell, relative to the valuesin the light. Similar effects were produced by girdling thestem just beneath the crown of leaves. These were shown to besecondary effects due to a lessening of transpirational tensionsduring darkness or after girdling. They were eliminated if changesin water tension were avoided. Direct effects of light and girdling on exudation were demonstratedby allowing the leaves to assimilate ¹⁴CO₂ and measuring thespecific activity of the exudate. These changes in radioactivityseen against the constancy in total sugar exudation demonstratea switch in source from leaf to stem. An attempt is made toexplain the pattern of changes in specific activity of the exudateduring light and dark periods in terms of shifts in the locationof contributing sources. The rate of translocation between two aphid colonies situateda measured distance apart was estimated by noting the timeswhen the honeydew from each reached a certain level of radioactivity.A mean figure of 28 cm./hr. was obtained.     

The Effect of Calcium Starvation on Assimilate Partitioning and Mineral Distribution of the Phloem

Populus plants were grown in a medium lacking calcium and exposedto ¹⁴CO₂. In contrast to plants in the complete nutrient medium,the percentage amount of ¹⁴C-assimilates increased in the leavesof calcium-deficient plants and decreased in the stem and theroots. When plants were grown without potassium or magnesiumno differences in the amount of ¹⁴C-label occurred in comparisonwith plants in the complete nutrient medium. Translocation wasrecorded by microautoradiography. It was observed that considerableamounts of labelled photoassimilates were unloaded from thephloem in the middle part of the stem in plants of the completenutrient medium. In contrast, during calcium starvation ¹⁴C-labelwas restricted to the phloem of the stem. In addition, the concentrationsof magnesium and phosphorus showed a remarkable increase instem sieve tubes of calcium-deficient plants. When sieve tubesof source leaves from Populus, barley and maize were comparedwith those of sink leaves, the latter showed higher calciumconcentrations. The results suggest that calcium is a necessaryfactor in the regulation of phloem translocation. Key words: Calcium deficiency, phloem translocation, sieve element loading and unloading, X-ray microanalysis     

Localization of ATPase in Sink Tissues of Ricinus

Histochemical localization of ATPase was carried out on phloemtissues from vegetative and reproductive sinks of Ricinus communis,using lead precipitation procedures. Reaction products werelocalized mainly at the plasma membrane of the sieve elements,companion cells and phloem parenchyma cells. Activity was alsopresent in plasmodesmata, the tonoplast of companion cells anddispersed P-protein within the sieve element lumen. The resultsare discussed in relation to the possible involvement of a plasmamembrane ATPase in apoplastic and symplastic unloading fromthe phloem conducting tissues. ATPase, sink tissues, unloading, Ricinus communis     

The Composition of Phloem Exudate and Xylem Sap from Tree Tobacco (Nicotiana glauca Grah.)

The composition of xylem sap and exudate from stem incisionsof Nicotiana glauca Grah. was compared in detail. Exudationfrom stem incisions occurred over a 5 min period in certainplants, enabling collection of 5–30 µl of sap. Therate of exudation showed an exponential decline. Exudate hada high dry matter content (170–196 mg ml^–1) andhigh sugar (sucrose) levels. Xylem sap had a low pH (5.8) andexudate a pH of 7.9. Glutamine dominated the amino compoundsin xylem sap and exudate, and K⁺ was the major cation. Totalamino compounds in stem exudate reached 10.8 mg ml^–1 whereasxylem sap contained much lower levels (0.28 mg ml^–1).All mineral elements and amino compounds with the exceptionof calcium were more concentrated in stem exudate than in xylemsap. Sucrose was labelled heavily in stem exudate following pulsingof an adjacent leaf with ¹⁴CO₂. A concentration gradient ofsugar (2.1 bar m^–1) was recorded for stems. Levels ofsucrose, amino compounds and K⁺ ions in stem exudate showeda diurnal periodicity. Each commodity reached maximum concentrationat or near noon and minimum concentration about dawn. The evidencesuggests that exudate from stem incisions of N. glauca is arepresentative sample of solutes translocated in the phloem. Nicotiana glauca Grah., phloem sap, xylem sap, sucrose, amino compounds, mineral ions     

Phloem Exudate Collected via Scale Insect Stylets for the CAM Species Opuntia ficus-indica under Current and Doubled CO2 Concentrations

A method was devised for collecting phloem sap from the CAMspecies Opuntia ficus-indica using severed stylets of a scaleinsect (Dactylopius opuntiae), for which exudation could continuefor up to 5 d. For both basal (planted) cladodes and first-orderdaughter cladodes, the concentrations of sucrose and total aminoacids in the phloem exudate were virtually constant over 24-hperiods whereas the chlorenchyma osmolality had sizeable increasesduring the night under both current and doubled atmosphericCO₂ concentrations. Sucrose, total amino acids, and potassiumaccounted for 56, 21, and 9%, respectively, of the osmolalityof the phloem exudate, which was about 350 mOsm at the two CO₂concentrations; valine, isoleucine, leucine, tyrosine, glutamine,and lysine accounted for about 70% of the total amino acids.Doubling the CO₂ concentration led to approx. 5% more sucrose,560% more mannose and 17% less amino acids in the phloem exudateand also significantly increased mannose, starch and glucomannanin the chlorenchyma. Atmospheric CO₂ concentrations thus affectedvarious solute properties in the phloem and the chlorenchymaof O. ficus-indica.Copyright 1995, 1999 Academic Press Dactylopius opuntiae, Opuntia ficus-indica, cladode, CO₂ concentrations, Crassulacean acid metabolism, phloem exudate     

The Physiology of the Sieve Tube: PRELIMINARY EXPERIMENTS USING APHID MOUTH PARTS

The willow aphid Tuberolachnus salignus feeds by inserting itsstylets into a single sieve element. If the insect is severedfrom its proboscis whilst feeding, sap from the sieve tube exudesfrom the cut end of the stylet canal and may continue for manyhours. By attaching a capillary tube the rate of exudation canbe measured and the sap analysed. Normally the rate of exudationwas about 1 mm.³ per h. This means a movement of water and sucroseof 100 cm./h. or 100 sieve elements per min. The sap was foundto contain between 5 and 15 per cent, sucrose, up to 0.4 percent, raffinose, no reducing sugars, and about 0.5 per cent,amino-acids. Girdles some distance above and below exuding stylets failedto stop exudation (Tables I and II). This indicates a rapidsealing of the cut ends of the sieve tube and a switch-overin source of supply from the leaves to storage cells in thestem. The use of isolated stem segments and even irrigated stripsof bark followed. Using these, the following points have beenestablished, (a) There is no polarity of movement (Table IV);(b) a minimal length of about 16 cm. of stem or 800–1,000sieve elements are needed to give the full exudation rate (Fig.5); (c) when the D.P.D. on the inside of the bark is raised(Figs. 6, 7, and 8), the rate of exudation declines, but theconcentration of the exudate rises and exudation continues,indicating a maintenance of turgor, even in face of a D.P.D.of 20 atm. or more. Secretion of sugar into the sieve tube continuesalbeit slowly even against a sieve tube concentration of 50per cent. These findings are discussed in relation to current theoriesof translocation and are considered to favour the mass flowhypothesis.     

The Uptake and Flow of C, N and lons between Roots and Shoots in Ricinus communis L.

Seedlings of Ricinus communis L. cultivated in quartz sand weresupplied with a nutrient solution containing either 1 mol m^–3NO^–₃ or 1 mol m^–3 NH⁺₄ as the nitrogen source. Duringthe period between 41 and 51 d after sowing, the flows of N,C and inorganic ions between root and shoot were modelled andexpressed on a fresh weight basis. Plant growth was clearlyinhibited in the presence of NH⁺₄. In the xylem sap the majornitrogenous solutes were nitrate (74%) or glutamine (78%) innitrate or ammonium-fed plants, respectively. The pattern ofamino acids was not markedly influenced by nitrogen nutrition;glutamine was the dominant compound in both cases. NH⁺₄ wasnot transported in significant amounts in both treatments. Inthe phloem, nitrogen was transported almost exclusively in organicform, glutamine being the dominant nitrogenous solute, but theN-source affected the amino acids transported. Uptake of nitrogenand carbon per unit fresh weight was only slightly decreasedby ammonium. The partitioning of nitrogen was independent ofthe form of N-nutrition, although the flow of nitrogen and carbonin the phloem was enhanced in ammonium-fed plants. Cation uptakerates were halved in the presence of ammonium and lower quantitiesof K⁺, Na⁺ and Ca²⁺ but not of Mg²⁺ were transported to theshoot. As NH⁺₄ was balanced by a 30-fold increase in chloride in thesolution, chloride uptake was increased 6-fold under ammoniumnutrition. We concluded that ammonium was predominantly assimilated inthe root. Nitrate reduction and assimilation occurred in bothshoot and root. The assimilation of ammonium in roots of ammonium-fedplants was associated with a higher respiration rate. Key words: Ricinus communis, nitrogen nutrition (nitrate/ammonium), phloem, xylem, transport, partitioning, nitrogen, carbon, potassium, sodium, magnesium, calcium, chloride     

The Cellular Pathway of Radial Transfer of Photosynthates in Stems of Phaseolus vulgaris L.: Effects of Cellular Plasmolysis and p-Chloromercuribenzene Sulphonic Acid

Cellular plasmolysis with l M solutions of mannitol appearedto sever plasmodesmatal interconnections between all cells ofthe stems of Phaseolus vulgaris plants except the sieve element-companioncell (se—cc) complexes. Phloem loading and uptake of [¹⁴C]sucroseby the storage cells of the stems was unimpaired by cellularplasmolysis followed by rehydration of the stem tissues. Accumulationof phloem-transported ¹⁴C-photosynthates of the treated stemswas inhibited in summer-grown plants and unaffected in winter-grownplants indicating that phloem unloading follows a symplasticand a free-space route respectively depending on growth season.At a concentration that did not interfere with cellular metabolism,p-chloromercuribenzene sulphonic acid (PCMBS) applied to thestems blocked [¹⁴C]sucrose loading into the phloem and storagecells of the stem, but had no effect on the pool size of free-spacesugars. This latter response is consistent with a facilitatedmechanism of sugar unloading to the stem free-space. Accumulationof phloem-transported ¹⁴C-photosynthates was stimulated by PCMBSand this effect was most pronounced in winter-grown plants.Cellular plasmolysis followed by rehydration abolished the PCMBSaction on ¹⁴C-photosynthate accumulation. This effect is consistentwith a PCMBS induction of phloem unloading through the stemsymplast. It is proposed that phloem unloading in bean stemsmay follow either a free-space or symplastic route and thatthe latter route is entrained under sink-limited conditions. Phaseolus vulgaris, french bean, stem, phioem unloading, free-space, symplast     

Measurement of Unloading and Reloading of Photo-assimilate within the Stem of Bean

There is growing evidence that the phloem transport pathwayis leaky with passive unloading into the apoplast and activereloading from the apoplast. In this paper we report in vivomeasurements of unloading and reloading in immature stems ofbean expressed as a percentage per unit length of the photo-assimilateflow within the transport pathway. Gross unloading was up to6% cm^-1 and net unloading up to 4% cm^-1. Time constants of bulkflow through 10 cm of stem were about 4-6 min whereas thoseof net unloading were 8-13 min and of gross unloading, at themost, 7-8 min. Key words: Phloem transport, apoplast, bean stem     

Seed Coat Unloading in Pisum sativum--Osmotic Effects in Attached versus Excised Empty Ovules

Experiments were undertaken with embryo-less ovules of Pisumsativum to study the influence of apoplastic osmolality on seedcoat import and seed coat unloading.¹¹CO₂ pulse labelling alongwith collimated monitoring of plant tissues were used with attachedovules to measure continuously and simultaneously total podimport, import into a modified ovule and photo-assimilate washoutfrom the seed coat of the ovule into a flow-through bathingsolution.Our results indicated that seed coat import was immediatelyaffected by a change in the applied bathing solution osmolality,with a decrease in osmolality lowering seed coat import andan increase in osmolality increasing import. ¹¹C-photo-assimilatewashout from attached ovules was found to respond in a similarmanner to the apoplastic osmolality. However, the osmotic effecton ¹¹C-washout was a delayed response and it appears that themajority of this observed response was due to the alterationin seed coat tracer import. Further experiments with ¹⁴C-labelled,excised seed coat halves (i.e. no further import) supportedthis hypothesis by demonstrating that seed coat unloading (measuredas ¹⁴C-photo-assimilate washout) was actually enhanced at alow solution osmolality. PCMBS had no effect on seed coat importor washout in attached, modified ovules, suggesting that photo-assimilateunloading from seed coats of Pisum does not involve a carrierprotein. Studies of the spatial distribution of imported ¹⁴Cin Pisum seed coats further suggest that this unloading, intothe apoplast, occurs from non-phloem cell types, and that themovement of photo-assimilates from the sieve elements to theterminal unloading site occurs via symplastic transport. Key words: Pisum sativum, seed coat, seed coat unloading, phloem unloading     

Accumulation of Oxygen Gas in Excised Maize Root on Aging in Water, and Water Uptake by the Root

Transfer of excised maize root from wet sawdust to water causeda considerable reduction in the exudation rate of the root.After 1-day aging in water, the exudation rate increased about8-fold and the exudation continued for 3 days. Osmotic pressureof the exudate from the root decreased with time after excisionreaching almost zero in 2 days in spite of a high exudationrate. Concentrations of sugars, acids, Ca²⁺ and Mg²⁺ in theexudate decreased with the decrease of osmotic pressure, whilethe decrease in K⁺ concentration delayed and P₁ concentrationincreased. The gas content of the root, especially of O₂, increased duringaging in water. The accumulated O₂ gas may promote water uptake,because degasification of the root by evacuation induced a decreaseof water uptake. Also, the longitudinal gradient of the O₂ contentin the root coincides with the gradient of water uptake intensity. (Received February 7, 1982; Accepted July 2, 1983)     

Translocation in Plants Possessing Supernumerary Phloem: II. THE INCLUDED PHLOEM OF BOUGAINVILLEA GLABRA CHOISY AND THE BICOLATERAL BUNDLES OF CUCUMBER (CUCUMIS SATIVUS L.)

The translocation path in the included phloem of Bougainvilleaand in the bicolateral bundles of cucumber was studied by exposingyoung branches to ¹⁴CO₂ and detecting the radioactive compoundsby autoradiography. In Bougainvillea, the structure and functionof the phloem system is comparatively uncomplicated and uniform.All phloem bundles, i. e. those which are located in parenchymatoustissue of the central zone and those embedded in the secondaryxylem, become labelled. Exogenous IAA was translocated in thebundles, but the exact mode of translocation was not ascertained.Apical dominance was not affected by girdling. The implicationof this fact is discussed with respect to the translocationof the auxin that determines the correlative inhibition involvedin apical dominance. In cucumber the inner phloem became labelled throughout theplant to a lesser extent than the outer phloem. However, inthe petiole of the assimilating leaf the intensity of the labelwas the same in both inner and outer phloem, although the innerphloem has fewer elements. Below the treated leaf the innerphloem translocated less than the outer phloem. Above this leafthe inner phloem was entirely unlabelled     

Some Experimental and Theoretical Observations Concerning Mass Flow in the Vascular Bundles of Heracleum

The theory and practice of applying the thermodynamics of irreversibleprocesses to mass-flow theories is presented. Onsager coefficientswere measured on cut and uncut phloem and cut xylem strandsof Heracleum muntegazzimum. In 0.3 N sucrose + 1 mN KC1 theyare as follows. In phloem, L_EE = 5 ? 10–⁴ mho cm^–1,L_pE = 9 ? 10^–6 cm³ s^–1 cm^–2 volt^–1 cm,and L_PP = 0.16 cm³ s^–1 cm^–2 (J cm^–3)^–1cm. In uncut phloem strands L_EE is about 1 ? 10^–3 mhocm^–1. In xylem in 2 x 10^–3 N KCI, L_pp = 50 to 225,L_PE = 2 ? 10^–4, and L^EE = 4 ? 10^–3. The measurementsare tentative since the blockage of the sieve plates is an interferingfactor, but if they are valid they lead to the conclusion thatneither a pressure-flow nor an electro-kinetic mechanism envisaginga ‘long distance’ current pathway can be the majormotive ‘force’ for transport in mature phloem. Measurementsof biopotentials along conducting but laterally detached phloembundles of Heracleum suggest, nevertheless, that there may bea small electro-osmotic component of at least 0.1 mV cm^–1endogenous in the phloem.     

Transport of 14C-IAA in Cucurbita maxima: A Comparative Study of Rapid, Non-Polar Movement and Slow, Polar Auxin Transport

The transport of ¹⁴C-IAA has been studied in Cucurbita maxima.IAA fed to the leaf of an intact plant moves rapidly in a non-polarfashion in the phloem. Collection and analysis of exudate fromsevered sieve tubes showed that there was no metabolic conversionor complexing of IAA for several hours. Polar movement of ¹⁴C-IAA in isolated internode segments occursat rates an order of magnitude slower than movement in the phloem.The importance of discrete and isolated channels of hormonetransport, that vary in direction and rates, is briefly discussed.     

The Effects of Sulphur Dioxide on Phloem Transport in Two Cereals

Gould, R. P., Minchin, P. E. H. and Young, P. C. 1988. The effectsof sulphur dioxide on phloem transport in two cereals.—J.exp. BoL 39: 997–1007. In vivo investigations using ¹¹C-labelled photosynthate revealedthat there is a change in the patterns of tracer profiles whencereal leaves are exposed to SO₂. The change after exposureto SO₂ was interpreted in terms of a decrease in lateral waterflow into the sieve tubes brought about by reduced phloem loadingalong the length of a leaf. Analysis also revealed that thespeed of translocation was reduced, as expected by the Munchmodel of phloem transport. Key words: Sulphur dioxide, phloem transport, cereal leaves     

The Composition of Phloem Exudate and Xylem Sap from Broccoli (Brassica oleracea var. italica) Supplied with NH4+, NO""3 or NH4NO3

Shelp, B. J. 1987. The composition of phloem exudate and xylemsap from broccoli (Brassica oleracea var. italica) suppliedwith NH⁺₄, NO₃ or NH₄NO₃.—J. exp. Bot. 38: 1619–1636. The detailed composition of xylem sap and exudate from stemincisions of attached inflorescences of broccoli (Brassica oleraceavar. italica) was compared in plants supplied with NH⁺₄, NO₃or NH₄NO₃. A phloem origin for the exudate was suggested fromthe high levels of sugars (71–133 mg cm^-3), amino acids(8·1-26·7 mg cm³) and K. (2·3–3·8mg cm³), the low levels of NO₃ and Ca, the high C: N (w/w) ratios(8·3–33), and the alkaline pH (7·2–7·3).In contrast, the xylem sap was mildly acidic (pH 5·6–6·0),and possessed lower levels of all organic and inorganic solutesbut NO₃ and Ca, and lower ratios of K: Ca, Mg: Ca and C: N (0·6–4·4). Glutamine was the predominant o-phthalaldehyde-reactive aminocompound in both transport fluids with the next most abundantamino acids dependent on sap type and N-form. Together witharginine, -aminobutyric acid, which was found only in the xylemstream, was enhanced by NH⁺₄compared to NO₃ -nutrition suggestingthat glutamate metabolism was stimulated in the roots. Underlimiting N the amino acid concentrations in the transport fluidswere greater with NH⁺₄ than with NO₃. NO₃ reduction occurredin both the root and shoot with the latter site predominatingover the entire N range (0-300 mol m³). Even though the compositionof nitrogenous solutes in the xylem was dependent on cultivarand N source, the composition of the phloem streams supplyingthe developing inflorescence was relatively unaffected. The data on the element composition of organs and phloem sapare interpreted to suggest that, in spite of the restrictedmobility of some elements such as B and Mn, a significant proportionof their total supply to developing sinks is carried in thephloem stream. Key words: Transport fluid composition, plant nutrition, phloem mobility.     

Xylem exudation is related to nitrate assimilation pathway in detopped maize seedlings: use of nitrate reductase and glutamine synthetase inhibitors as tools

The xylem exudation of detopped 7-d-old seedlings of Zea maysL. doubled when KCI was present in the root medium comparedto seedlings maintained on water. It was further enhanced whenKCI was replaced by nitrogen compounds such as nitrate, ammoniumand glutamine. The role of the nitrate assimilation pathwayon the enhancement of xylem exudation rate was investigatedusing tungstate, an inhibitor of nitrate reductase (NR) activity,and phosphinothricin or methionine sulphoximine, inhibitorsof glutamine synthetase (GS) activity. The sap levels of NO₃^–,NH₄⁺, glutamine, and asparagine was used to ascertain the invivo inhibition of both enzymes. The tungstate effects werealso checked by measuring leaf in vitro NA activity and NR proteincontent. Xylem exudation rate of detopped seedlings fed withKNO₃ decreased when the nitrate assimilation pathway was blockedeither at the NR or at GS sites. This decrease was preventedwhen urea (acting as NH₄⁺ supply) was given simultaneously withtungstate. KNO₃ does not act directly on exudation, but throughthe involvement of NH₄⁺. The involvement of glutamine was alsoshown since GS inhibition resulted in a cancellation of theenhancing effect of KNO₃ on exudation. As change of exudationrate was not linked to change in sap osmolarity, it is assumedthat the assimilation chain could modify root water conductance.The role of glutamine was discussed. Key words: Exudation, maize, nitrate, conductance, NR, GS     

Pathways of Uptake and Accumulation of Sugars in Tomato Fruit

The route of sucrose unloading from the conducting tissue, theregulation of sucrose hydrolysis and the uptake and subsequentmetabolism of sugars were investigated in the rapidly growingtomato fruit. During the first two weeks of fruit enlargement, the vacuoleaccounted for more than 85% of the protoplast volume and theintercellular space accounted for 20% of the fruit placentaltissue. The plasmodesmatal frequency was highest between phloemparenchyma cells and lowest between phloem sieve cells and phloemparenchyma. The total invertase activity was about 8 µmolglucose g^–1 d. wt min^–1 during the rapid growingperiod and increased six-fold at ripening. The wall-bound invertaseaccounted for less than 11% of the total activity. Invertaseactivity increased with increasing sucrose concentrations (upto 50 mM) in the incubation medium, but decreased at higherconcentrations. Sucrose synthase activity could only be detectedwhen fruit was older than 19 d. The uptake and metabolism of sugars by fruit cells were investigatedby incubation of fruit slices with ¹⁴C-sugars for 3 h. The uptakeof sucrose increased with the sucrose concentration up to 200mM. The rate of glucose uptake and its conversion to the ethanol-insolublefraction were higher than those of sucrose. The uptake of sucrosedid not compete with that of glucose or vice versa, providedthe osmotic potential of the incubation solution was maintainedconstant. The uptake of sucrose was not inhibited by metabolicinhibitors such as PCMBS, CCCP, sodium azide or vanadate. TheATPase activity in the fruit tissue was low. These findings did not identify conclusively the mode of sucroseunloading. However, the uptake of sugars by fruit cells is non-specificand does not appear to require a membrane carrier or plasmalemmaATPase to provide energy for sucrose uptake. Fruit, invertase, Lycopersicon esculentum, phloem unloading, plasmodesmata, sucrose     

The Relationship between Sugar and Amino Acid Export to the Phloem in Young Wheat Plants

The relationship between amino acid and sugar export to thephloem was studied in young wheat plants (Triticum aestivumL. ‘Pro-INTA, Isla Verde’) using the EDTA-phloemcollection technique. Plants grown with a 16 h photoperiod showeda rapid decrease in the concentration of sugars and amino acidsin the phloem exudate from the beginning of the dark period.When plants grown with a 16 h photoperiod were kept in the darkfor longer than 8 h the free amino acid content in leaves andexudate (on a dry weight basis) increased continually throughoutthe 72 h of darkness. During the first 24 h of darkness thesugars in the phloem exudate decreased to 30% of the initialvalue, and returned to the control level when plants were returnedto light. When plants grown under low light intensity for 10d were transferred to high light intensity, they showed an increasein leaf sugar content (dry weight basis) after 3 d but therewere no differences in leaf free amino acid content (dry weightbasis) compared to low-light plants. The sugar concentrationin the phloem exudate was increased by higher light intensities,but there was no difference in the amino acid concentrationof the phloem exudate, and thus the amino acid:sugar ratio inthe phloem decreased in the high-light plants. The present resultssuggest that amino acids can be exported to the phloem independentlyof the export of sugars. Copyright 1999 Annals of Botany Company Sugar exudation, amino acid transport, nitrogen, phloem, transport, wheat, Triticum aestivum L.     

Changes in phloem export of sucrose in leaves in response to phosphorus, potassium and magnesium deficiency in bean plants

The effect of varied phosphorus (10 and 250 mmol P m^–3potassium (50 and 2010 mmol K m^–3) and magnesium (20 and1000 mmol Mg m^–3 supply on sucrose, reducing sugars, aminoacids, P, K, and Mg in phloem exudate was studied in bean (Phaseolusvulgaris L.) plants over a 12 d growth period in nutrient solution.Phloem exudates were collected from detached primary leavesusing the EDTA-promoted exudation technique. Compared with controlnutrient-sufficient plants, sucrose export in the phloem exudatewas drastically decreased by K deficiency and, particularly,by Mg deficiency, whereas P deficiency either had no effector stimulated sucrose export. In Mg-deficient plants the rateof sucrose export was decreased to 10–20% of the controlplants. There was a close Inverse relationship between phloemexport and leaf concentration of sucrose: higher leaf concentrationsof sucrose were accompanied by lower phloem export of sucrose.In contrast to sucrose, reducing sugars in the exudates werevery low and not affected by P, K and Mg deficiency. The phloemexport of amino acids was strongly depressed by Mg deficiency,but only slightly by P and K deficiency. Resupplying Mg to Mg-deficientplants for 12 h during the dark or light periods rapidly stimulatedsucrose export. After resup ply of Mg for 24 h and 48 h therate of sucrose export was comparable with the rate in the controlplants. The results demonstrate a key role for Mg in phloem loadingand export of photosynthates from source leaves, especiallysucrose. Inhibition of root growth and development of visualsymptoms of chlorosis in Mg-deficient plants are suggested asconsequences of Impaired phloem loading. In agreement with thisin P-deficient plants where phloem loading was not impaired,chlorosis was absent and root growth was maintained at a highlevel. Key words: Bean, carbon partitioning, magnesium nutrition, phloem transport, phosphorus nutrition, potassium nutrition