Sodium Absorption and Distribution in Forage Grasses of Different Potassium Status

The absorption and distribution of sodium were examined in threegrasses grown in flowing solution culture with different suppliesof potassium. There were marked differences between the speciesin the rate of absorption by their roots, timothy absorbingat a much slower rate than either ryegrass or cocksfoot. Inall species, the rate of Na absorption was greatest when therewas a maintained supply of K and/or when the K contents of theplants were high. Transport of Na from roots to shoots of timothywas restricted; it was less restricted in the other speciesand large proportions of the Na moved from roots to shoots whenK was not supplied to the plants. Sodium transported from theroots accumulated in old leaves and not in the younger leaves.When K was no longer supplied, the growth of ryegrass was maintainedin the plants previously grown with Na plus K; Na supplied insteadof K, however, did not maintain growth. Cocksfoot grown withNa grew less well than when grown without Na when plants wereno longer supplied with K; the growth of timothy was unaffectedby Na. Dactylis glomerata L., Lolium perenne L., Phleum pratense L., cocksfoot, ryegrass, timothy, absorption of ions, distribution of ions, potassium, sodium     

Salt Tolerance in the Halophyte Suaeda maritima L. Dum.: Intracellular Compartmentation of Ions

The time-course of exchange of sodium and potassium ions fromroot and leaf material of the halophyte Suaeda maritima hasbeen followed and the data analysed according to the phenomenologyof efflux, or compartmental, analysis. Sodium ions were exchangedmuch more slowly (c. 4 times) from the vacuoles of leaf cellsof plants grown in sodium chloride than were potassium ionsfrom the vacuoles of leaf cells of plants grown either in similarconcentrations of potassium chloride or in low concentrationsof potassium. In plants grown in sodium chloride, sodium ionswere exchanged 9 times more slowly from the vacuoles of leafcells than from the vacuoles of root cells. The concentration of sodium ions in the cytoplasm of leaf cellsof plants growing in 340 mol m^–3 sodium chloride was estimatedto be 165 mol m^–3 when the average concentration in theleaf tissue was about 600 mol m^–3. As measured by movement from mature to developing leaves inintact plants; there was less in vivo retranslocation of ²²Naand ³⁶CI in plants growing in sodium chloride than there wasof ⁸⁶Rb in plants growing either in potassium chloride or innon-saline conditions. The results are discussed in terms of the concept and energeticsof compartmentation of ions in the cells of halophytes.     

Avoidance of sodium accumulation by the stomatal guard cells of the halophyte Aster tripolium

X-ray microanalysis has revealed that the sodium content ofthe stomatal guard cells of Aster tripolium remains much lowerthan that of other leaf cells when the plants are grown at highsalinity. Large amounts of sodium did, in contrast, accumulatein epidermal and subsidiary cells, and particularly in the mesophylltissue, suggesting that a mechanism exists to limit the extentof its entry into guard cells. Even in plants grown at highsalinity, the content of potassium was much higher than thatof sodium in the guard cells, consistent with the view thatthis is a major ion involved in determining stomatal movementsin this halophyte. Determinations were also made for the nonhalophyte Commelinacommunis, and it was found that the guard cells accumulatedlarge amounts of sodium when it was presented to them as analternative to potassium. It is suggested that the acquisition by the guard cells of someability to restrict the intake of sodium ions may be an importantcomponent of sodium-driven regulation of transpiration, andhence of salinity tolerance, in A. tripolium. Key words: Salinity tolerance, sodium, potassium, stomata, Aster tripolium     

Salt Tolerance in the Halophyte Suaeda maritima L. Dum. Growth, Ion and Water Relations and Gas Exchange in Response to Altered Salinity

Clipson, N. J. W. 1987. Salt tolerance in the halophyte Suaedamaritima L. Dum. Growth, ion and water relations and gas exchangein response to altered salinity.—J. exp. Bot. 38: 1996–2004. Shoot and root fresh and dry weights and shoot sodium, chlorideand potassium contents were measured and shoot relative growthrates calculated in seedlings of Suaeda maritima over a periodof 11 d following a raising of culture solution salinity from0 to 200 mol m₃– NaCl. Growth, growth rates and sodiumand chloride contents, as compared to plants growing in theabsence of salt were increased whilst potassium contents declined.Shoot sodium accumulation rate and the rate of transport ofsodium from root to shoot, osmotic potential, and rates of photosynthesisand transpiration were also measured for up to 72 h after transferof plants originally growing at 0 and 200 mol₃– NaCl to200 and 400 mol m₃– NaCl respectively. Ion uptake andtransport rates were maximal 6-12 h after transfer and thendeclined to new steady-state levels within 48 h; osmotic potentialswere lowered over a 72 h period on average by approximately1·0 MPa; and after 9 h photosynthetic and transpirationrates were reduced by about 20percnt; and 30% respectively.Results are discussed in terms of the ability of halophytesto adjust to fluctuating salinity and to salt tolerance mechanismsin general. Key words: Suaeda maritima, salinity, gas exchange, growth, ion and water relations     

Effect of Sodium, Potassium, Calcium, Magnesium and Tetraethylammonium on the Transient Voltage Response to a Galvanostatic Step and of the Temperature on the Steady Membrane Conductance of Chara corallina: a Further Evidence for the Involvement of Potassium Channels in the Fast Time Variant Conductance

Homble F. 1985. Effect of sodium, potassium, calcium, magnesiumand tetraethylammonium on the transient voltage response toa galvanostatic step and of the temperature on the steady membraneconductance of Chara corallina: A further evidence for the involvementof potassium in the fast time variant conductance.—J.exp. Bot. 36: 1603–1611. Potassium channels of Chara corallina have an activation energyof 36±1 kJ mol^–1 and 50±2 kJ mol^–1at temperatures higher and lower than 15°C respectively.The fast time variant conductance property of potassium channelsis insensitive to sodium and magnesium ions and is depressedby the presence of calcium, potassium and tetraethylammoniumions. It is suggested that in Chara two different kinds of potassiumchannels exist, each kind being distinguished by their kineticsand their response to calcium and magnesium ions. Key words: —Chara corallina, membrane conductance, potassium channels, temperature     

Senescence in Leaves of Acer pseudoplatanus L. and Parthenocissus tricuspidata Planch: II. Changes in Potassium and Sodium Content in Leaves and Leaf Discs of Acer

Changes in sodium and potassium content of the leaves of fiveAcer trees are recorded during two seasons. In general, sodiumcontents remained constant during leaf maturity and increasedduring senescence, whereas potassium contents increased duringleaf maturity and decreased during senescence. Short-term fluctuationsin sodium content during one season could be related to periodsof rainfall preceding some of the days of sampling. Experimentsin which excised leaves were washed in a spray of de-ionizedwater showed that the proportion of leaf potassium which couldbe removed increased as senescence progressed, and the quantityleached was approximately proportional to the area of the leafwhich had yellowed. With increasing leaf age, the amount of potassium which diffusedquickly out of discs cut from the leaves increased, whereasdiffusion of sodium became less. Discs cut from senescent leaveswere capable of absorbing sodium and it is suggested that thisability might account for the increase in sodium content ofAcer leaves during senescence.     

Reproductive Development of Higher Plants as Influenced by Brassinolide

The effect of brassinolide (BR) on the reproductive developmentof higher plants was investigated using three different experimentalsystem. Direct application of BR to the staminate inflorescenceof Luffa cylindrica induced bisexual and pistillate flowers,and eventually caused the inflorescence to develop into a shootthat was similar to the main shoot. However, the activity ofBR on this sex modification was inferior to that of N⁶-benzylaminopurine. BR slightly hastened the flowering of nonvernalized radish plants,Raphanus satiuus cv. Miyashige-sofuto, whereas no such effectwas observed in vernalized plants. GA₃ promoted flowering bothin nonvernalized and vernalized plants. BR had no activity to induce flowering in a short day plantPerilla frutescence under noninductive conditions. (Received July 9, 1985; Accepted November 18, 1985)     

Increase in the Formation and Nitrogen Fixation of Soybean Nodules by Vesicular-Arbuscular Mycorrhiza

Symbiotic interactions of the tripartite association of soybeanplant, vesiculararbuscular (VA) mycorrhizal fungus and Rhizobiumjaponicum were shown. Mycorrhizal plants absorbed more P, Ca and Mg and had higherP, Ca and Mg contents in their stems or leaves than non-mycorrhizalplants. Phosphorus concentration was also higher in the nodulesof mycorrhizal plants. VA mycorrhizae increased nodule number, nodule weight and acetylenereduction activity of nodules. Concomitantly seed productionand N content of leaves were enhanced. Both nodulating (A62-1) and non-nodulating (A62-2) cultivarsof soybean plants [Glycine max (L.) Merr.] were colonized byVA mycorrhizal fungi, identified as belonging to the genus Glomus. (Received August 12, 1985; Accepted January 14, 1986)     

The Effect of Ions on Growth and Leaf Succulence of Atriplex hortensis var. cupreata

When plants of Atriplex hortensis var. cupreata were grown insolutions containing at least 100 mmoll^–1 of various saltsit was found that sodium was the ion most effective in stimulatingleaf succulence, irrespective of whether the anion was chloride,bromide or sulphate. Potassium was the next most effective ion.Magnesium and calcium were without effect. Dry weight productioncould be greatly reduced by sodium and potassium but stimulatedby magnesium. The results are compared with those previouslyreported for C₄ species of Atriplex.     

Shoot-Dependent Regulation of Sodium and Potassium Fluxes in Roots of Whole Barley Seedlings

Unidirectional fluxes and the cytoplasmic and vacuolar contentsof potassium and sodium in root cells of intact barley seedlings(Hordeum vulgare L., cv. Villa) were determined by use of compartmentalanalysis. In addition, the net vacuolar accumulation J_cv andthe xylem transport ø_cx of K⁺ and Na⁺ were measured.Both of these data were needed for the evaluation of the effluxdata. Fluxes and compartmental contents of K⁺ and Na⁺ were comparableto data obtained with excised roots. The effect of the shoot-to-rootratio—as varied by partial excision of the seedlings seminalroots—on the fluxes and contents was investigated. Highershoot-to-root ratios induced an increase in xylem transport,in plasmalemma influx, and also in the cytoplasmic content ofK⁺ and Na⁺. With potassium the plasmalemma efflux was almostunaltered while the tonoplast fluxes and vacuolar content weredecreased (in presence of Na⁺). With sodium, on the other hand,the plasmalemma efflux and the tonoplast fluxes were also increasedin the plants having one root and a high shoot-to-root ratio.These changes occurred even under conditions of low humidity,when transpiration was low and guttation occurred. The latterwas also increased at the high shoot-to-root ratio. The observedchanges could be due to a relieved feedback control of ion fluxesby the shoot and mediated in part by a relatively higher supplyof photosynthates in the plants having one root In addition,hormonal signals were suggested to participate. In particulara possibly decreased level of cytokinins in the plants havingonly one root could contribute to the signal. The observed changesappear to be responses of the plant to an alteration that canoccur under natural conditions when the root system is damaged.     

Silica and Ash in Tissues of Some Coastal Plants

Ash and silica contents and their depositional patterns in differenttissues of 44 Mississippi coastal plants were determined. Silicacontent of dried plants varied from no more than a trace inChenopodium album L. leaves to 7.37 per cent in Zizanopsis miliacea(Michx) Doell & Aschers leaves. Ash content varied from2.50 per cent in Lythrum lineare L. stems to 28.24 per centin Borrichia frutescens (L.) DC leaves. Plants in the same familytend to be alike in their ability to absorb or not absorb silica.Poaceae and Cyperaceae had consistently high concentrationsof silica. In contrast, the Asteraceae studied had very lowsilica contents but often had high contents of other minerals.Dicotyledonous plants studied had consistently lower silicacontents than the monocotyledons. Plants growing in salt watercontained considerable sodium chloride. Spectra were obtainedfor major elements in four different plants. Energy-dispersiveX-ray analysis shows that distribution of the element siliconis clearly related to certain epidermal structures such as guardcells, ridges, dumb-bells and balls that appear in electronmicrographs. Silica was deposited differently in each type ofplant studied. In many of the plants silica was deposited inrows of irregular-shaped particles running lengthwise of theleaf and in guard cells. In others, like Zizanopsis miliacea(Michx) Doell & Aschers, the deposit was sheet-like. Zizaniaaquatica L. not only had a sheet-like deposit, but the depositwas ridged and there were rows of dumb-bell-shaped silica cells.Related plants had similar structures. Euchlaena mexicana Schrad.,Tripsacum dactyloides (L.) L and Manisuris rugosa (Nutt.) Kuntzeall had irregular phytoliths similar to those in Zea mays L. coastal plants, marsh plants, ash content, silica deposition, scanning electron microscopy, energy-dispersive X-ray analysis, silicon distribution, X-ray diffraction patterns, spectra of elements in plants     

Ion Compartmentation in the Marine Fungus Dendryphiella salina in Response to Salinity: X-ray Microanalysis

X-ray microanalysis was performed on hyphae of the filamentousmarine fungus Dendryphiella salina growing at different salinitiesto give sodium, potassium and chloride concentrations in thecytoplasm, vacuole and cell wall. Sodium and chloride concentrationsincreased with salinity in all compartments. Cytoplasmic andvacuolar sodium and chloride concentration were broadly similar,and vacuolar contents represented, at most, 19% of the totalprotoplasmic content of an individual ion species. Potassiumconcentrations decreased to some extent with salinity, althoughconcentrations were not severely affected by competition withsodium uptake. Results are discussed with regard to the roleof ions in the overall osmotic adjustment in this species. Key words: Dendryphiella salina, marine fungus, salt-tolerance, x-ray microanalysis     

Nutrient Relations of Groundsel (Senecio vulgaris) Infected by Rust (Puccinia lagenophorae) at a Range of Nutrient Concentrations I. Concentrations, Contents and Distribution of N, P and K

Groundsel (Senecio vulgaris L.), healthy or infected with therust fungus Puccinia lagenophorae was grown in sand and fedwith a complete nutrient medium diluted to give a range of concentrations.Analysis of bulked, dried tissues of the plant showed that undernutrient-rich conditions rust infection resulted in increasedconcentrations of total (Kjeldahl) nitrogen and potassium buthad little effect on phosphorus concentration. Thus, despitereduced dry weight growth, total plant nitrogen contents wereno less in rusted than control plants. Although total contentsof phosphorus and potassium were reduced by rust, effects wereprobably related to loss of these nutrients in fungal spores. Interactions between rust infection and nutrient supply weresignificant but differed between nutrients: rust caused increasednitrogen concentrations only under nutrient-rich conditionsbut increased phosphorus concentrations only when nutrient supplywas limited. Increased concentrations were not confined to infectedtissues. Mechanisms underlying rust-nutrient interactions appearto be complex and to depend inter alia on the partitioning andrecycling of the particular nutrient within the plant. Rust-inducedincreases in potassium concentration occurred under both highand low nutrient conditions but were confined to infected tissues.Potassium accumulation in nutrient deficient conditions wasprobably due to increased transpirational flux into infectedtissues, but under nutrient-rich conditions reduced potassiumexport appeared to assume greater significance. The possible implications of the changed nutrient relationsfor the wider interactions of rust-infected plants in naturalvegetation are discussed. Senecio vulgaris, Puccinia lagenophorae, rust infection, nutrient deficiency, nutrient content, nutrient concentration, nutrient distribution     

The Effect of Salinity on Growth of Phaseolus vulgaris L.: II. Effect on Internal Solute Concentration

This paper reports the changes which occurred in the concentrationof ions, organic acids, sugars and polyhydric alcohols whenplants of Phaseolus vulgaris were grown in culture solutioncontaining 48 m mol l^–1 sodium chloride. Attention wasfocused particularly on the changes in the primary and firsttrifoliate leaves. In the latter leaves of salt-treated plantsthere were initially very high concentrations of sodium andmuch higher concentrations of glucose and inositol than in controlleaves. Subsequently concentrations of these solutes declined,the decline of sodium being due to retranslocation out of theleaf. There were no striking differences between the concentrationof organic solutes of the primary leaves of salt-treated plantsand those of control plants. There were greater concentrationsof ions in the salt-treated primary leaves, particularly a greaterconcentration of potassium (though that in the medium was thesame in both treatments). While the calcium concentrations inboth sets of primary leaves were very similar, it appeared thatin the leaves of salt-treated plants much of the ion is solublewithin the cells while in the leaves of the control plants,most of the ion is thought to be associated with the cell wall.There was a greater concentration of organic acids in the leavesof the control plants but in both treatments, primary and trifoliateleaves each had a similar composition of acids. Sodium ionswere restrained from entering the leaves by selection againstthe ion in favour of potassium in the root and possibly by retentionof sodium in the stem. The data on solute concentrations togetherwith calculated values of cellular osmotic potentials are discussedin relation to the development of the first trifoliate leaves.     

Isolation and Identification of Nicotinic Acid as a Flower-Inducing Factor in Lemna

Extracts of flowering plants of the long-day plant Lemna gibbaG3 and the short-day plants Lemna paucicostata 151 and 381 weretested on L. paucicostata 151 for flower-inducing activity.Crude extracts failed to show any activity but after severalpurification steps three fractions with flower-inducing activitywere obtained. One fraction obtained from all three plants wasshown to contain nicotinic acid by mass spectroscopic and NMRspectroscopic analyses. These results raise the possibilitythat nicotinic acid may act to influence the flowering processin Lemna. (Received August 28, 1985; Accepted October 29, 1985)     

Magnesium-sodium interactions effecting the uptake and distribution of potassium and calcium by cotton

Summary Significant Mg — Na interactions were found to govern the uptake and distribution of potassium and calcium by cotton. Contrary to the generally accepted views of cation antagonisms, it was found that under certain conditions sodium increased the potassium and calcium contents of plants. The effect of sodium was even more pronounced when magnesium was limiting.     

Effect of Potassium Deficiency on C3 and C4 Cereals

C₄ cereals (Zea maya L. and Sorghum bicolor L. Moench) and C₃cereals (Triticum aestivum L. and Hordeum vulgare L) were grownin nutrient solutions with constant, interrupted, or absentpotassium supply. The lack of potassium retarded shoot growthand depressed the chlorophyll accumulation in all species ina similar way. After the renewal of potassium, the differencesin the compensation for growth retardation were not correlatedwith the photosynthetic system, but with the recovery of chlorophyllaccumulation in younger leaves. As important for the compensationof shoot growth retardation was a slower senescence of old leavescompared to plants with a constant potassium supply. This wasshown by the chlorophyll content and PEP carboxylase activity.In contrast to C₃ cereals, the C₄ cereals did not react withhigher chlorophyll contents to the same extent after the renewalof the postassium supply. The PEP carboxylase activity, however,was immediately raised higher than in control leaves. Chlorophylland PEP carboxylase activity increased simultaneously only inless aged leaves.     

Salt-tolerant reed plants contain lower Na<Superscript>+</Superscript> and higher K<Superscript>+</Superscript> than salt-sensitive reed plants

Reed plants (Phragmites australis Trinius) grow not only in fresh and brackish water areas but also in arid and high salinity regions. Reed plants obtained from a riverside (Utsunomiya) were damaged by 257 mM NaCl, whereas desert plants (Nanpi) were not. When the plants were grown under salt stress, the shoots of the Utsunomiya plants contained high levels of sodium and low levels of potassium, whereas the upper part of the Nanpi plants contained low levels of sodium and high levels of potassium. One month salt stress did not affect potassium contents in either Utsunomiya or Nanpi plants, but it did dramatically increase sodium contents only in the Utsunomiya plants. The ratio of K⁺ to Na⁺ was maintained at a high level in the upper parts of the Nanpi plants, whereas the ratio markedly decreased in the Utsunomiya plants in the presence of NaCl. Accumulation of Na⁺ in the roots and Na⁺ efflux from the roots were greater in the Nanpi plants than in the Utsunomiya plants. These results suggest that the salt tolerance mechanisms of Nanpi reed plants include an improved ability to take up K⁺ to prevent an influx of Na⁺ and an improved ability to exclude Na⁺ from the roots.     

Salt Secretion in Aeluropus litoralis (Willd.) Parl.

The effect of ion composition and concentration in the rootmedium on salt secretion by Aeluropus litoralis was investigated.The presence of a high ionic concentration in the medium stimulatedthe secretion process. The sodium concentration in the secretedfluid was found to be always higher than its concentration inthe medium. A positive correlation was found between the outersodium chloride concentration and the amount of sodium secretedand/or leaf contents. Sodium secretion exhibited a high efficiencyin excluding excess sodium from leaftissues. Sodium retentionin the leaves occurred in relatively low rates. The secretion mechanisms were found to be highly selective tosodium, opposing potassium and calcium. In contrast, potassiumand calcium were retained in the leaves to a greater degreethan sodium. Antagonistic relationships between sodium and potassiumand sodium and calcium were observed in secretion. The secreted fluid contains also various organic substances.Several interpretations to the results in connection with theproposed hypotheses to the mechanism of salt secretion werediscussed.