Les flavonoides des tiges principales de Periploca graeca cultive en conditions uniformes

The level of flavonoids does not change significantly when the main stem of plants cultivated in a controlled environment change from the short upright type to the twining type, but the quantity of cafeic acids derivatives is greater. The flavonoid content changes with temperature and light, with no correlation between the variation in elongation rate and stem type. Nevertheless, stems maintained in the short upright stage at a temperature of 15° are richer in derivatives of esculetin, ferulic acid and p-coumaric acid. The flavonoid content of these short upright main stems resemble that of short upright lateral stems grown under natural conditions. In the controlled environment, the axillary buds of the main stem give rise to short upright lateral stems and twining lateral stems which possess the same flavonoids as lateral stems under natural conditions. There is no evidence of any relationship between the stem type and the flavonol content and this group of compounds are not responsible for circumnutation in Periploca graeca.     

EXPERIMENTAL CONTROL OF THE SHOOT SYSTEM IN SPORELINGS OF PTERIDIUM AQUILINUM

The shoot system of Pteridium develops from a simple, upright sporeling type through a rhizomatous leaf-bearing form, into a complex system with rapidly growing, leafless long shoots and slowly growing, leafy lateral branches or short shoots. Transitional stages axe available in sporeling material and ontogeny may be controlled by specific carbohydrate levels. At concentrations of sucrose below 2% a rhizomatous sporeling plant may be maintained indefinitely in the leaf-bearing state. At 2–8% sucrose, the short shoot habit becomes established, and at 4–8% it may be reliably stabilized. If concentrations up to 5 mg/liter of kinetin are added to cultures of intact plants or to excised short and long shoot apices of plants, the long shoots expand slowly into determined (no further growth possible even on transfer back to basal medium) club-shaped tips. The short shoot apices, by contrast, quickly proliferate into callus-like masses and will re-form organized meristems over the entire lobulate surface on transfer to medium lacking kinetin. The morphogenetic significance of these findings is discussed.     

Renouvellement des protéines et effet spécifique de la kinétine sur des cultures de cellules de Tabac

Determination and fractionation of proteins of tobacco cell suspensions requireing kinetin for cell division. — Cell suspensions either in stationary phase without kinetin in the medium or dividing in the presence of this factor have been compared. It was found a) that the specific rates of protein synthesis and protein degradation were not changed by the addition of kinetin during the early period of growth. A quantitative change ocurred only after the first generation period, b) Soluble proteins of these cells were mapped by polyacrylamide gel electrophoresis. The observed protein patterns were very similar as well as the patterns or radioactivity incorporated into the same proteins during the incubation period of the cells. However, a small number of specific discrepancies appeared in the pattern of cells growing in the presence of kinetin matched to the patterns of stationary cells. At least one specific difference in these patterns could be observed before the first cell division occurred.     

Biochemical and histological changes associated with <Emphasis Type="Italic">in vitro</Emphasis> responses in sunflower cotyledonary explants

In vitro shoot regeneration from sunflower cotyledonary explants can be obtained in the presence of kinetin and indole-3-acetic acid. In contrast, callus proliferation is obtained in the presence of 2,4-dichlorophenoxyacetic acid on culture medium. The purpose of this study was to investigate changes in protein profiles during callus and shoot development from cotyledonary explants and to correlate them with ontogenic stages during in vitro culture. Cotyledons cultured in the presence of 2,4-dichlorophenoxyacetic acid produced friable callus as a result of early division of parenchymatic cells associated with the vascular bundles of the explant. The callogenic ability was independent of the cotyledonary region used as starting explant. Direct shoot organogenesis was observed from the same type of cells growing in culture media supplemented with kinetin and indole-3-acetic acid. In this case, the regeneration potential varied among regions from which the explants were obtained. Protein profiles revealed differences associated with shoots or callus developmental programs. A 27-kDa polypeptide was uniquely detected in the explants undergoing shoot organogenesis. The amount of this polypeptide during the first 4 d of culture increased and was followed by the appearance of meristematic centers in histologically analyzed samples. This polypeptide could be used as a specific marker for in vitro shoot development in this species.     

Light from below matters: Quantifying the consequences of responses to far‐red light reflected upwards for plant performance in heterogeneous canopies

In vegetation stands, plants receive red to far‐red ratio (R:FR) signals of varying strength from all directions. However, plant responses to variations in R:FR reflected from below have been largely ignored despite their potential consequences for plant performance. Using a heterogeneous rose canopy, which consists of bent shoots down in the canopy and vertically growing upright shoots, we quantified upward far‐red reflection by bent shoots and its consequences for upright shoot architecture. With a three‐dimensional plant model, we assessed consequences of responses to R:FR from below for plant photosynthesis. Bent shoots reflected substantially more far‐red than red light, causing reduced R:FR in light reflected upwards. Leaf inclination angles increased in upright shoots which received low R:FR reflected from below. The increased leaf angle led to an increase in simulated plant photosynthesis only when this low R:FR was reflected off their own bent shoots and not when it reflected off neighbour bent shoots. We conclude that plant response to R:FR from below is an under‐explored phenomenon which may have contrasting consequences for plant performance depending on the type of vegetation or crop system. The responses are beneficial for performance only when R:FR is reflected by lower foliage of the same plants.     

花棒液流变化规律及其对环境因子的响应

在西北干旱沙区,采用茎流热平衡技术对花棒主茎、一级分枝和二级分枝液流进行研究.结果表明,在整个生长季内液流速率日变化曲线峰型表现各异,但在短时间段内其液流速率日变化有较强的规律性.主茎和一级分枝液流速率的曲线在生长季中期出现了剧烈动荡,在生长季末期到达最大值后同一数值维持较长时间;二级分枝的液流量在生长季初期出现了“昼低夜高”、生长季中期的液流量低于6、9月份液流量;主茎和一级分枝单日液流量的最大值出现在7月份,分别为5 781.6 g和3 180 g,二级分枝的最大值出现在9月份(480 g).日液流量大小依次为主茎>一级分枝>二级分枝,而液流通量在整个生长期内表现比较复杂.通过对同时观测的气象因子的分析,表明在整个生长季影响花棒液流速率的主导因子是土壤含水率,而在一个较短的时间段内,光照强度、气温和水汽压亏缺则是影响花棒液流速率的主导因子.     

An improved micropropagation of <Emphasis Type="Italic">Spilanthes acmella</Emphasis> L. through transverse thin cell layer culture

An efficient and improved in vitro propagation system for Spilanthes acmella L. using transverse thin cell layer (tTCL) culture system was established. The frequency of shoot regeneration from tTCL nodal segments was affected by concentrations of plant growth regulators and orientation of the explant. MS (Murashige and Skoog in Physiol Plant 15:473–497, 1962) medium with 5.0 mg dm⁻³ BAP was optimal for shoot regeneration. Upon this medium, the explant inoculated in the upright orientation exhibited a high frequency of shoot regeneration (about 97%), and the highest number of shoots (31.5) per explant. The intact node (1.0–1.5 cm) cultured on the same medium had significantly lower shoot multiplication ability with only 4.5 shoots per responsive explant. As compared to BAP alone, the combination of BAP and Kin or NAA did not have positive effects on shoot multiplication from tTCL nodal segments. Rooting of shoots was achieved on growth regulator free full-strength MS medium. Plantlets were transplanted into soil with 90–100% survival rate.     

Effects of carbon source and concentration on development of lingonberry (<Emphasis Type="Italic">Vaccinium vitis-idaea</Emphasis> L.) shoots cultivated <Emphasis Type="Italic">in vitro</Emphasis> from nodal explants

Summary Carbohydrate type and concentration and their interactive effects on in vitro shoot proliferation of three lingonberry (Vaccinium vitis-idaea ssp. vitis-idaea L.) cultivars (‘Regal’, ‘Splendor’, and ‘Erntedank’) and two V. vitis-idaea ssp. minus (Lodd) clones (‘NL1’ and ‘NL2’) were studied. Nodal explants were grown in vitro on medium with 2 μM zeatin and either glucose, sorbitol, or sucrose at a concentration of 0, 10, 20, or 30 gl⁻¹. The interactive effects of carbohydrate type and concentration and genotype were important for shoot proliferation. The best response was afforded by sucrose at 20 gl⁻¹ both in terms of explant response and shoot developing potential, although glucose supported shoot growth equally well, and in ‘NL1’ at 10 gl⁻¹ it resulted in better in vitro growth than sucrose. Carbohydrate concentration had little effect on shoot vigor. The genotypes differed in terms of shoots per explant, length, and vigor, leaves per shoot, and callus formation at the base of explants; this was manifested with various types and concentrations of carbohydrate. Changing the positioning of explants on the medium from vertically upright to horizontal increased the shoot and callus size, but decreased shoot height and leaves per shoot. Proliferated shoots were rooted on a peat:perlite (1∶1, v/v) medium and the plantlets were acclimatized and eventually established in the greenhouse.     

<Emphasis Type="Italic">In vitro</Emphasis> regeneration of medicinal plant <Emphasis Type="Italic">Centella asiatica</Emphasis>

This paper describes multiple shoot regeneration from leaf and nodal segments of a medicinally important herb Centella asiatica L. on Murashige and Skoog’s (MS) medium supplemented with a range of growth regulators. The highest number of multiple shoots was observed on MS augmented with 3.0 mg dm⁻³ N⁶-benzylaminopurine (BAP) and 0.05 mg dm⁻³ α-naphthaleneacetic acid (NAA). Leaf explant showed maximum percentage of cultures regenerating shoots (81.6 %), with the highest shoot number (8.3 shoots per explant) and the shoot length (2.1 cm) whereas, nodal explant showed less number of shoots with callus formation at the base cut end. Successive shoot cultures were established by repeatedly sub-culturing the original explant on a fresh medium. Rooting of in vitro raised shoots was best induced on half strength MS supplemented with 0.5 mg dm⁻³ indole-3-butyric acid (IBA) with highest percentage of shoot regenerating roots (76.8 %) with 3–4 roots per shoot. Plantlets were acclimated in Vermi-compost and eventually established in soil. Contents of chlorophyll, total sugars, reducing sugars and proteins were estimated in leaf tissue from both in vivo and in vitro raised plants. Chlorophyll content was higher in in vivo plants, whereas other three components were higher in in vitro plants.     

Organogenesis from shoot segments and via callus of endangered <Emphasis Type="Italic">Kosteletzkya pentacarpos</Emphasis> (L.) Ledeb.

Efficient plant regeneration systems both from shoot segments and via callus organogenesis were developed for Kosteletzkya pentacarpos (L.) Ledeb., a rare and endangered Eurasian species. In the experiments with existing meristems, factors affecting shoot proliferation, including explant type, i.e. decapitated and intact shoots, and plant growth regulators, indole-3-acetic acid or kinetin, were investigated. Shoot proliferation was significantly affected by the type of explant, the hormones and their interaction. The highest shoot multiplication rate was obtained from decapitated shoots. Increasing kinetin concentration promoted shoot elongation regardless of explant type. In intact shoots, shoot length was also affected by increasing auxin concentration, although this effect tends to decrease with higher concentration. Decapitated shoots were not responsive to the addition of auxin. Micropropagation through organogenesis from callus was also investigated. Calli were obtained from leaf, stem internode and root explants. Only the leaf-derived calli produced shoots and indole-3-acetic acid favoured increased numbers of shoots. A number of experiments were conducted for rooting of in vitro produced shoots. All of them induced high rooting frequency, the number and the length of roots being dependent on the strength of the basal medium. The use of 1–2 mg l⁻¹ indole-3-butyric acid resulted in refining the optimal concentration for root elongation. The regenerated plants (70%) survived and flowered in their first vegetative period.     

Testing a new hypothesis: plant vigor and phylloxera distribution on wild grape in Arizona

Summary Longer, meaning more vigorous, shoots of a wild grape clone (Vitis arizonica) were more susceptible to attack by second and third generations of leaf-galling grape phylloxera,Daktulopsphaira vitifoliae, as the growing season progressed. Although there was no significant difference in mean shoot length between attacked and unattacked shoots within a clone at the beginning of shoot elongation, attacked shoots were significantly longer than unattacked shoots when elongation had ceased (P<0.01). Also, long attacked shoots had a significantly greater population of phylloxera galls than short attacked shoots (P<0.01) as the season progressed. The phylloxera population on long shoots increased rapidly while the population on short shoots remained the same. Longer shoots also produced significantly more axillary shoots than shorter shoots as the season progressed (P<0.001), and the number of axillary shoots accounted for 66 percent of the variance in number of attacked leaves on a shoot. Experimental evidence showed that there was a significantly greater percentage of available leaves attacked on long shoots than on short shoots (P<0.05) and the leaves on long shoots generally had a greater number of galls per leaf. The relationship between shoot length and probability of attack was also tested by comparing shoots lengths of 10 attacked clones and 10 unattacked clones at a second location. Mean shoot lengths of attacked clones were significantly longer than mean shoot lengths of unattacked clones (P<0.05), and mean shoot lengths of attacked shoots within a clone were significantly longer than unattacked shoots (P<0.001). Longer shoot length accounted for 81 percent of the variance in probability of attack. The reason for this pattern of attack was that long shoots produced newly expanding leaves over a longer time during the growing season and multivoltine phylloxera require undifferentiated tissue to initiate gall formation. Patterns of attack within a shoot were characterized by an uneven distribution of galls among leaves. This was due to development time between generations and the current availability of undifferentiated tissue at times of colonization. This study supports the hypothesis that some herbivore species are favored more by vigorous plants than by stressed plants.     

<Emphasis Type="Italic">In vitro</Emphasis> regeneration of the tennessee coneflower (<Emphasis Type="Italic">Echinacea tennesseensis</Emphasis>)

Summary Tennessee coneflower [Echinacea tennesseensis (Beadle) Small] was regenerated from flower stalks, leaf sections from flowering plants, and hypocotyls and cotyledons from seedlings. Murashige and Skoog medium (MS) supplemented with naphthaleneacetic acid (NAA) at 0.54 μM and thidiazuron (TDZ) at 22.7 μM yielded the most shoots per leaf explant. NAA and 6-benzylaminopurine concentrations for optimal shoot regeneration from leaf, flower stalk, cotyledon and hypocotyl explants in MS media were 0.54 and 24.6μM, respectively. All explant types generated shoots; however, those derived from leaves and flower stalks produced the highest number of shoots per explant and highest percentage of explants with shoots. Explants cultured on media containing high levels of NAA (5.4–27 μM) formed calluses but no adventitious shoot. Leaf explants responded to a wider range of NAA concentrations than the other explant types but shoots generated from flower stalks grew the fastest. While all cytokinins tested increased the number of shoots per explant, the number of shoots in media containing TDZ was increased by nearly threefold. Regenerated shoots from all explant types cultured on MS medium supplemented with 0.25 μM indole-3-butyric acid initiated roots within 4 wk; NAA was not effective for root induction. All vernalized plantlets developed into plants that were morphologically identical to the source material.     

The role of auxin efflux carriers in the reversible loss of polar auxin transport in the pea (Pisum sativum L.) stem

Correlatively inhibited pea shoots (Pisum sativum L.) did not transport apically applied ¹⁴C-labelled indol-3yl-acetic acid ([¹⁴C]IAA), and polar IAA transport did not occur in internodal segments cut from these shoots. Polar transport in shoots and segments recovered within 24 h of removing the dominant shoot apex. Decapitation of growing shoots also resulted in the loss of polar transport in segments from internodes subtending the apex. This loss was prevented by apical applications of unlabelled IAA, or by low temperatures (approx. 2° C) after decapitation. Rates of net uptake of [¹⁴C]IAA by 2-mm segments cut from subordinate or decapitated shoots were the same as those in segments cut from dominant or growing shoots. In both cases net uptake was stimulated to the same extent by competing unlabelled IAA and by N-1-naphthylphthalamic acid. Uptake of the pH probe [¹⁴C]-5,5-dimethyloxazolidine-2,4-dione from unbuffered solutions was the same in segments from both types of shoot. Patterns of [¹⁴C]IAA metabolism in shoots in which polar transport had ceased were the same as those in shoots capable of polar transport. The reversible loss of polar IAA transport in these systems, therefore, was not the result of loss or inactivation of specific IAA efflux carriers, loss of ability of cells to maintain transmembrane pH gradients, or the result of a change in IAA metabolism. Furthermore, in tissues incapable of polar transport, no evidence was found for the occurrence of inhibitors of IAA uptake or efflux. Evidence is cited to support the possibility that the reversible loss of polar auxin transport is the result of a gradual randomization of effluxcarrier distribution in the plasma membrane following withdrawal of an apical auxin supply and that the recovery of polar transport involves reestablishment of effluxcarrier asymmetry under the influence of vectorial gradients in auxin concentration.Abbreviations DMO 5,5-dimethyloxazolidine-2,4-dione - IAA indol-3yl-acetic acid - NPA N-1-naphthylphthalamic acid - TIBA 2,3,5-triiodobenzoic acid This work was supported by grant no. GR/D/08760 from the U.K. Science and Engineering Research Council. We thank Mrs. R.P. Bell for technical assistance.     

High-frequency shoot regeneration through transverse thin cell layer culture in <Emphasis Type="Italic">Dendrobium Candidum</Emphasis> Wall Ex Lindl.

An efficient in vitro propagation protocol for Dendrobium candidum Wall ex Lindl. using transverse thin cell layer (tTCL) culture system was established. The frequency of shoot regeneration and the number of adventitious buds produced from the regenerated shoots significantly relied on the concentration of plant growth regulators, and the position and orientation of the explant. Murashige and Skoog (MS) medium with half-strength macronutrients and 2% sucrose, supplemented with 1.2 mg l⁻¹ naphthaleneacetic acid (NAA) and 1.2 mg l⁻¹ 6-benzyladenine (6-BA), was optimal for shoot regeneration. Upon this medium, the youngest explant inoculated in the upright orientation exhibited a high frequency of shoot regeneration (92%), and the highest number of adventitious buds (an average of 24.5) per explant. Rooting of shoots and adventitious buds was achieved on MS medium with half-strength macronutrients and 2% sucrose with 1.0 mg l⁻¹ NAA and 1.0 mg l⁻¹ indole-3-acetic acid (IAA). Plantlets were transplanted into vermiculite with a 95% survival rate in a greenhouse. Ontogenetic studies revealed that the shoots originated from the stem vascular bundles.     

Micropropagation of chinese redbud (<Emphasis Type="Italic">Cercis yunnanensis</Emphasis>) through axillary bud breaking and induction of adventitious shoots from leaf pieces

Summary Factors affecting in vitro shoot production and regeneration of Cercis yunnanensis Hu et Cheng were investigated by comparing various growth regulators and explant types. For optimum shoot production from axillary buds, Murashige and Skoog (MS) media containing 6-benzyladenine, either alone or in combination with a low concentration of thidiazuron, resulted in the greatest number of shoots formed per explant (>3). Explants (2 mm long) containing one axillary bud placed in directcontact with the medium yielded the most shoots per bud (1.6) when grown on growth regulator-free medium. Root formation on 70–80% of shoot explants was accomplished using either indole-3-butyric acid or α-naphthaleneacetic acid in the medium, with significantly more roots formed on explants possessing and apical bud than those without the bud. Direct shoot organogenesis from leaf explants occurred on MS medium containing 10–30 μM thidiazuron, with up to 42% of leaf explants producing shoots.     

Shoot growth components and flowering phenology in grafted<Emphasis Type="Italic"> Pinus halepensis</Emphasis> Mill.

Shoot elongation and flowering were assessed for a season (January–November) in 25 grafts from five clones of Pinus halepensis growing in a seed orchard. A co-dominant shoot from the upper crown and a dominated, low shoot were measured from each ramet. Upper shoots elongated continuously from a variable onset date between January and March and followed a logistic function against Julian day and a Gompertz function against heat sum above 0°C. Three to seven (averaging five) successive cycles were formed through the growing season; usually, two of them were preformed in the terminal bud (spring cycles) and one to four were neo-formed, summer cycles. The number of summer cycles and their contribution to the annual shoot growth were the only variables with a significant clonal influence. Ovulate strobili appeared from February to April and in October. Some ramets showing two female flowering cycles in the same shoot were observed. Lower shoots, bearing pollinate strobili always displayed a single spring cycle preformed in the winter bud.     

High frequency <Emphasis Type="Italic">in vitro</Emphasis> regeneration of <Emphasis Type="Italic">Lathyrus sativus</Emphasis> L.

A simple and efficient protocol for high frequency plant regeneration of a grain legume grasspea (Lathyrus sativus L.) is described. Of different explant types tested epicotyl segments were most responsive. Murashige and Skoog’s (1962) medium augmented with 17.76 µM 6-benzyladenine + 10.74 µM α-naphthaleneacetic acid showed the highest percentage of direct shoot regeneration. Among cultivars IC-120487 showed the highest regeneration frequency (80 %) with maximum shoot numbers (8.2 shoots per explant) and maximum average shoot length (4.1 cm). About 78 % of the regenerated shoots were rooted in half-strength MS medium containing 2.85 µM indole-3-acetic acid. After primary hardening the plantlets were established in soil with a survival rate of 75 %.     

Oviposition and mining by Phytobia betulae (Diptera: Agromyzidae) in genotypes of European white birch (Betula pendula)

Abstract 1 The colonization success of herbivorous insects depends partly on the ability of females to choose suitable host plants. Phytobia betulae Kangas (Diptera: Agromyzidae), a miner of differentiating xylem, infests birch (Betula pendula Roth and Betula pubescens Ehrh.) trees. 2 In a field experiment we measured successful ovipositions in the long shoots of eight 5‐year‐old‐birch genotypes. Later in the growing season, in the same experiment, we counted the number of larvae from the same birch genotypes (different replicates). 3 We attempted to determine where Phytobia females lay their eggs in the birch canopy, what kind of shoots Phytobia utilize, whether birch genotypes differ in their susceptibility to Phytobia, and which tree characteristics correlate with successful utilization of birch for oviposition and larval development. 4 The ovipositions were concentrated in fast growing shoots and only 5% of the available shoots were utilized. Usually a shoot contained only one oviposition (80% of the cases). However, oviposition pattern resulted in significant aggregations (two to four ovipositions per shoot): 11% of shoots selected for oviposition contained more than one Phytobia and 22% of larvae shared their shoot with at least one other larva. Although birch shoots were much more abundant than Phytobia, there may be intraspecific competition for host resources among Phytobia. 5 Birch genotypes differed in the number of ovipositions but not in the number of larvae, although in general the number of larvae was correlated positively with the number of ovipositions. There were more ovipositions in the faster growing genotypes.     

MORPHOLOGICAL SPECIALIZATION AND ATTACHMENT SUCCESS IN TWO TWINING LIANAS

The success rates of attachment of two twining lianas, Ipomoea phillomega (Vell.) House (Convolvulaceae) and Marsdenia laxiflora Donn. Sm. (Asclepiadaceae), were compared. Ipomoea phillomega, a liana with relatively unspecialized shoot architecture, was found to have a lower success rate than M. laxiflora, a liana with specialized photosynthetic and twining shoots. The relatively lower success rate of I. phillomega is due to its reduced ability to remain attached to very thin supports (<7 mm in diameter).     

Variation in shoot mortality within crowns of severely defoliated <Emphasis Type="Italic">Betula maximowicziana</Emphasis> trees in Hokkaido,northern Japan

To clarify mortality patterns of current-year shoots within the crown of Betula maximowicziana Regel after severe insect herbivory in central Hokkaido, northern Japan, we investigated the degree of defoliation, pattern of shoot development, shoot mortality, and leaf tissue-water relations. One hundred current-year long shoots growing in a B. maximowicziana plantation were observed for defoliation and mortality in June 2002. An outbreak of herbivorous insects (Caligula japonica and Lymantria dispar praeterea) occurred in the stand in mid-to-late June, and the monitored shoots were defoliated to various degrees. Within 1 month of defoliation, some of the severely defoliated shoots had produced new leaves on short shoots that had emerged from axillary buds. Stepwise logistic regression revealed that the probability that current-year long shoots would put out axillary short shoots with leaves is closely related to the degree of defoliation. To evaluate the water relations of the leaves, we determined pressure–volume curves for the leaves that survived the herbivorous insect outbreak and the new leaves that emerged after defoliation. The water potential at turgor loss (Ψ_l,tlp) and the osmotic potential at full turgidity (Ψ_π,sat) were higher for the new leaves than for the surviving leaves, indicating a lower ability to maintain leaf cell turgor against leaf dehydration in the new leaves. Of the 100 shoots, 13 died after the emergence of new leaves. Stepwise logistic regression revealed that the probability that the long shoots would die generally increased with the emergence of new leaves, with increasing shoot height. This result suggests that the combined effect of the vulnerability of newly emerged leaves and low water availability, associated with higher shoot positions within the crown, caused shoot mortality. Based on our results, some possible mechanisms for mortality in severely defoliated B. maximowicziana are discussed.