An attempt to determine the tissue contamination of Quercus robur L. and Pinus silvestris L. Foliage by particulates from zinc and lead smelters

Quantitative analyses of plant material from the surroundings of zinc and lead smelters demonstrate a distinct increase in the concentration of both elements. Concerning Pb, a similar phenomenon is known from around highways.The extent to which particulates from zinc and lead smelters are serious contaminants of Quercus robur and Pinus silvestris foliage was investigated. Chloroform and ultrasonic vibration was used to remove wax and particulates from the foliage surface. The X-ray fluorescence method was chosen to determine Fe, Zn, Pb, Se and Sr and the foliage surface was examined using a scanning electron microscope.The removal of wax and particulates led to a distinct decrease in all elements, sometimes to levels below those found in control samples.Although tissue contamination by particulates through stomata not protected by a wax layer (e.g. in Quercus robur) is possible, this seems to be of little importance. Fine wax crystals which cover the stomata (e.g. in Pinus silvestris) protect the tissue from contamination. This conclusion is perhaps valid for other plant species with similar types of stomata.     

Localization of Galactolipid Biosynthesis in Etioplasts Isolated from Dark-Grown Wheat (Triticum aestivum L.)

Etioplasts were isolated from leaves of dark-grown wheat (Triticum aestivum L. var Starke II). Galactolipid biosynthesis was assayed in an envelope-rich fraction and in the fraction containing the rest of the etioplast membranes by measuring incorporation of ¹⁴C from uridine-diphospho[¹⁴C]galactose into monogalactosyl diacylglycerol and digalactosyl diacylglycerol. More than half of the galactolipid biosynthetic capability was found in the fraction of inner etioplast membranes. This fraction was subfractioned into fractions enriched in prolamellar bodies and membrane vesicles (prothylakoids), respectively. All membrane fractions obtained from etioplasts were able to carry out galactolipid biosynthesis, although the activity was very low in prolamellar body-enriched fractions. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed markedly different polypeptide patterns between the different fractions. It is concluded that the capability of galactolipid biosynthesis of etioplasts probably is not restricted to the envelope, but is also present in the inner membranes of this plastid.     

Response of the antioxidant system of light-demanding and shade-bearing pine species to phytocenotic stress

The effect of stand density on the antioxidant system of Scots Pine (Pinus silvestris L.) and Siberian Pine (Pinus sibirica Du Tour) was studied. The dynamics of concentrations of chlorophyll, hydrogen peroxide, glutathione, ascorbic acid, and dehydroascorbic acid were investigated during the vegetation period. In addition, the activities of superoxide dismutase, catalase, peroxidase, glutathione reductase, and ascorbate peroxidase were observed in the 1-year needles of 26-year-old trees with an initial stand density of 0.5 and 128 thousand individuals ha^?1.     

Functional development of photosystems I and II in dark-grown pine seedlings

Green plastids prepared from seedlings of Pinus silvestris harvestedafter three weeks of growth in the dark, without exposure tolight, catalyzed photoreductions of methyl viologen and nicotinamide-adeninedinucleotide phosphate, and cyclic photophosphory-lation withN-methylphenazonium methosulfate, but could not catalyze thephotoreduction of 2,4-dichlorophenol indophenol in the absenceand presence of diphenylcarbazide. In dark-grown seedlings ofPinus silvestris, functional photosystem I developed with noexposure to light, but no photosystem II activity was abserved. (Received August 22, 1973; )     

Investigations on the Nature of the Auxin-Wave in the Cambial Region of Pine Stems : Validation of IAA as the Auxin Component by the Avena Coleoptile Curvature Assay and by Gas Chromatography-Mass Spectrometry-Selected Ion Monitoring

The major auxin of Scots pine (Pinus silvestris L.) which is transported basipetally into agar strips from the cambial region of the stem was quantified by the Went Avena coleoptile curvature assay before and after reversed phase C₁₈ high performance liquid chromatography (HPLC), and then identified by full spectrum gas chromatography-mass spectrometry (GC-MS) as indole-3-acetic acid (IAA). The IAA was subsequently quantified by GC-MS-selected ion monitoring (SIM) using an internal standard of [¹³C]-(C₆)-IAA. The amount of IAA collected into 22-millimeter long agar strips during 10 minutes of contact with the stem cambial region was estimated by GC-MS-SIM and the Went bioassay to be 2.3 and 2.1 nanograms per strip, respectively. The GC-MS technique thus confirmed the results obtained by the Went curvature assay. The Avena curvature assay revealed the presence of at least one other, more polar (based on HPLC retention time) auxin that diffused into the agar strips with the IAA. Its bioactivity was only 5% of the IAA fraction. Its HPLC retention time was earlier than IAA-glucoside, IAA-aspartate, or IAA-glycine, but the same as IAA-inositol. No significant amounts of inhibitors or synergists of IAA activity on the Avena assay were found in extracts corresponding to one or five strips of agar. Thus, the direct bioassay of the agar strips immediately after their removal from the cambial region of P. silvestris stem sections reflects the concentration of the native IAA. For both P. silvestris and lodgepole pine (Pinus contorta) a wavelike pattern of auxin stimulation of Avena curvature was found in agar strips exposed for only 10 minutes to the basal ends of an axial series of 6-millimeter long sections from the cambial region of the stem. This wavelike pattern was subsequently confirmed for P. contorta both by Avena curvature assay and by GC-MS-SIM of HPLC fractions at the retention time of [³H]IAA. The wavelike pattern of auxin diffusing from the cambial region of Pinus has thus been determined to consist primarily of IAA and this pattern has now been quantitated using both the Went Avena curvature assay and GC-MS-SIM with [¹³C]-C₆-IAA as an internal standard.     

Types of the daily course of transpiration rate in seedlings of forest trees

Types of the daily course of transpiration rate were studied in two-year old seedlings ofPinus silvestris L.,Picea excelsa L.,Larix decidua L.,Tilia cordata Mill., andAlnus glu-tinosa (L.) Gaertn. The curves illustrating the daily development of transpiration rate (Figs. 3 - 8) may be grouped in two types, showing a midday maximum (one-peak curves) and a midday depression (two-peak curves). Unlike herbaceous plants, the seedlings ofPinus silvestris L. were found to show, during the night-time, lower but not negligible values for the rate of transpiration (see Figs. 3 and 8). The following times are considered most suitable in determining the rate of transpiration for both herbs and woody species during the daylight: 09.0, 12.0, 14.0, and 17.0 hours. For the forest species seedlings further times are suitable for the night-time, as follows: 23.0, 01.0, and 06.0 hours. The rate of transpiration in the seedlings of Pinus silvestris attained very low levels at 3 and between 6 and 8 a.m. and between 6 and 8 p.m. (see Figs 3 and 8).     

Ent-kaurene synthesis in chloroplasts from higher plants

Lysed chloroplasts from several higher plants synthesized ent-kaurene from copalyl pyrophosphate but not from geranylgeranyl pyrophosphate. The copalyl pyrophosphate transforming activity (so-called B activity of kaurene synthetase) was relatively stable in plastid lysates from Pisum sativum but remarkably unstable in similar preparations of Hordeum vulgare. The bulk of the B activity of kaurene synthetase appeared to reside in the stroma of plastids from P. sativum but required the presence of plastid membranes for maximum activity.     

Nitrogen deficiency hinders etioplast development in stems of dark‐grown pea (Pisum sativum) shoot cultures

The effects of nitrogen (N) deprivation were studied in etiolated pea plants (Pisum sativum cv. Zsuzsi) grown in shoot cultures. The average shoot lengths decreased and the stems significantly altered considering their pigment contents, 77 K fluorescence spectra and ultrastructural properties. The protochlorophyllide (Pchlide) content and the relative contribution of the 654–655 nm emitting flash‐photoactive Pchlide form significantly decreased. The etioplast inner membrane structure characteristically changed: N deprivation correlated with a decrease in the size and number of prolamellar bodies (PLBs). These results show that N deficiency directly hinders the pigment production, as well as the synthesis of other etioplast inner membrane components in etiolated pea stems.     

A new fungus,Aureomyces mirabilis gen. et sp. nov., from pine-timber

Aureomyces gen. nov. with the type speciesAureomyces mirabilis sp. nov. isolated from a pine-timber,Pinus silvestris, in Finland is described and illustrated.

---

Zusammenfassung Aureomyces gen. nov. wurde mit dem ArttypeAureomyces mirabilis sp. nov. vom Kiefernholz,Pinus sylvestris, in Finnland isoliert. Der Pilz ist beschrieben und illustriert.

     

Genetic Variation in Hawaiian Drosophila. IV. Allozymic Similarity between D. SILVESTRIS and D. HETERONEURA from the Island of Hawaii

The species are endemic to the newest island in the archipelago and are broadly sympatric. They are easily distinguished morphologically in both sexes. Using standard electrophoretic procedures, we have examined 25 loci encoding for structural proteins from 539 silvestris and 325 heteroneura collected at three widely-separated localities where the two species are sympatric. Pairwise comparisons within and between the species show the following coefficients of genetic identity (Nei''s I): within silvestris, 0.961 ± 0.01; within heteroneura, 0.949 ± 0.02; between silvestris and heteroneura, 0.939 ± 0.01. Neither the differences within nor between the species are significant. There are no fixed allelic differences either within or between the species. At the three areas of sympatry, the species show gene frequency differences (P < 0.05) at 9, 11 and 13 loci respectively. This is not much different from the variation within either one of the species across the three localities. The two species have similar heterozygosity ( H) levels (silvestris, 0.083; heteroneura, 0.089) and percent of polymorphic loci (both 0.37). It is suggested that despite their morphological divergence, these species are much more newly formed than classical sibling species. Significant allozymic differences may not have had time to accumulate.     

Indoleacetic Acid Levels in Phaseolus, Zea, and Pincus during Seed Germination

The content of indoleacetic acid (IAA) was determined in dry and germinating seeds of French bean (Phaseolus vulgaris), sugar maize (Zea mays), and Scots pine (Pinus silvestris). IAA was found in both the dry and the soaked seeds of the three species examined. The amount of IAA per gram fresh weight was extremely different in the three species whereas the variation between different harvests of the same species was small. Maize contained the highest level of IAA and bean the smallest. The time of imbibition was of decisive importance for the level of IAA. In all three species the content of IAA increased considerably during the initial 4 hours of swelling. The highest level of IAA was found in seeds that had swelled for 24 to 48 hours, during which period the radicles began to emerge from the seed coat. Later, during the period of rapid root growth, the content of IAA declined.     

A malic Acid permease in isolated vacuoles of a crassulacean Acid metabolism plant

Pine (Pinus silvestris L.) trees subjected to relatively low concentration of SO₂ in the field emit H₂S from the needles, as demonstrated by gas chromatographic analysis after preconcentration on a molecular sieve. H₂S is the only reduced sulfurous compound emitted from SO₂ fumigated leaves. The emission is light and SO₂ concentration dependent. Pine trees in the field and in laboratory experiments continue to emit H₂S several hours after the termination of prolonged SO₂ fumigation. The maximum emission rates observed from pine trees in the field and in laboratory experiments, 14 and 20 nanomoles per milligram chlorophyll per hour respectively, are about the activity expected for the sulfur assimilation pathway in the chloroplasts.     

Evidence that Envelope and Thylakoid Membranes from Pea Chloroplasts Lack Glycoproteins

Envelope and thylakoid membranes from pea (Pisum sativum var. Laxton's Progress No. 9) chloroplasts were analyzed for the presence of glycoproteins using two different approaches. First, the sugar composition of delipidated membrane polypeptides was measured directly using gas chromatographic analysis. The virtual absence of sugars suggests that plastid membranes lack glycoproteins. Second, membrane polypeptides separated by sodium dodecyl sulfate gel electrophoresis were tested for reactivity toward three different lectins: Concanavalin A, Ricinus communis agglutinin, and wheat germ agglutinin. In each case, there was no reactivity between any of the lectins and the plastid polypeptides. Microsomal membranes from pea tissues were used as a positive control. Glycoproteins were readily detectable in microsomal membranes using either of the two techniques. From these results it was concluded that pea chloroplast membranes do not contain glycosylated polypeptides.     

ON THE QUESTION OF OCCURRENCE OF INDOLE-3-ACETIC ACID IN PINUS SILVESTRIS

The inner bark of Pinus silvestris L. contains a natural acidic growth promoter which stimulates elongation of wheat coleoptile sections and oat mesocotyl sections, produces oat coleoptile curvature, and is not effective in an oat first-leaf increment test. It occupies the same or a closely related R_F to that of authentic IAA if rechromatographed with seven partition solvents. Pine auxin described by Fransson could not be detected by spraying with reagents known for developing the color reaction of IAA. Natural pine resin from wounds, when added to test solutions, affects several characteristic features of authentic IAA which are commonly used for its identification. These are: (a) position on chromatograms (R_F), especially if 70% ethanol is used as the partition solvent, (b) amount of growth promotion in bioassays, and (c) ability to develop specific color reactions with IAA on chromatograms with known reagents. Interaction with pine resin or other related substances which could not be separated from the extract by conventional partition methods may be responsible in previous studies for the difficulties in identifying the auxin of Pinus silvestris as an indole-3-acetic acid.     

Seasonal ionic fluctuations and annual growth rates in stands of Pinus silvestris L. and Picea abies Karst. (L.)

Seasonal variations in potassium, calcium, nitrogen, phosphorus, and magnesium contents of needles from two different stands of Pinus silvestris L. and Picea abies (L.) Karst. were determined monthly during a period of two years, and the growth rates once a year during five years. The stands were growing on sand or on clay. The supposed transport of potassium to the shoot during autumn could not be demonstrated. The nutrient status of pine and spruce growing on sand and clay was very similar, except for calcium and magnesium. There were only small differences in ion contents between pine and spruce, except for calcium. On soils with low water-holding capacity, the available water in dry years is the limiting factor affecting the growth rate of spruce but not of pine. It is concluded that the nutrient status of the leaves, the growth rates and the available water in the soil are factors that should have an important part in any discussion of fertilization of coniferous forests.     

Kinetics of Membrane Transport during Chloroplast Development

In the course of plastid development there are changes in the permeability of the envelope membranes. An investigation of the kinetics of transport with largely uncontaminated and intact etioplast/etiochloroplast preparations from greening Avena sativa laminae demonstrates: (a) that etioplasts already possess specific translocators for the transporation of orthophosphate, dihydroxyacetone phosphate, 3-phosphoglycerate (“phosphate translocator”), and dicarboxylic acids (“dicarboxylate translocator”); (b) that changes in the rates of uptake during development are mainly due to changes in velocity for specific transport and not due to changes in the affinity for transport (K_m) or nonspecific permeation. The very low competitive inhibition of transport of orthophosphate by dihydroxyacetone phosphate and 3-phosphoglycerate, observed for developmental stages corresponding to up to 3 hours of illumination of etiolated tissue, is discussed with respect to the possibility of an early phosphate transport mechanism that is different from the phosphate translocator of more developed plastids.     

Adenosine triphosphatase of bean plastids: its properties and site of formation

Extracts of bean (Phaseolus vulgaris L.) etioplasts and chloroplasts contain a dithiothreitol-activated Ca²⁺-dependent adenosine triphosphatase which is inhibited by Dio-9. The chloroplast and etioplast enzymes have identical R_F values upon disc gel electrophoresis. Optimum extraction of the enzyme from either plastid preparation is accomplished with 1 mm ethylenediamine tetraacetic acid. Photophosphorylation capacity can be partially restored to depleted chloroplast preparations by addition of either the chloroplast or etioplast extract. These results suggest that the adenosine triphosphatase from etioplasts and chloroplasts represents a modified coupling factor for photophosphorylation.     

Activity of Thylakoid-bound Ribosomes in Pea Chloroplasts

Pea (Pisum sativum) chloroplast thylakoid membranes were prepared by washing in hypotonic buffers. These membranes contained bound ribosomes which were active in protein synthesis when supplemented with soluble components from a strain of Escherichia coli low in ribonuclease. After dissolving the membranes by Triton and purification of the ribosomes, sucrose density gradient profiles indicated the presence of polysomal material as well as monomeric ribosomes. Most of the products of protein synthesis remained associated with the thylakoid membranes even after ribosomes were removed completely by high salt concentrations in the absence of Mg²⁺. Of the newly formed products, 50% could be digested by pronase, while the remainder were protected by their association with the thylakoid membranes. The products are likely to be a mixture of intrinsic and extrinsic membrane proteins, with only the former completely protected by the membranes from attack by proteases.     

Identification of the Ndh (NAD(P)H-plastoquinone-oxidoreductase) complex in etioplast membranes of barley: changes during photomorphogenesis of chloroplasts

In the last few years the presence in thylakoid membranes of chloroplasts of a NAD(P)H-plastoquinone oxidoreductase complex (Ndh complex) homologous to mitochondrial complex I has been well established. Herein, we report the identification of the Ndh complex in barley etioplast membranes. Two plastid DNA-encoded polypeptides of the Ndh complex (NDH-A and NDH-F) were relatively more abundant in etioplast membranes than in thylakoids from greening chloroplasts. Conversion of etioplast into chloroplast, after light exposure of barley seedlings grown in the dark, was accompanied by a decrease in the NADH dehydrogenase activity associated to plastid membranes. Using native-PAGE and immunolabelling techniques we have determined that a NADH specific dehydrogenase activity associated with plastid membranes, which was more active in etioplasts than in greening chloroplasts, contained the NDH-A and NDH-F polypeptides. These results complemented by those obtained through blue-native-PAGE indicated that NDH-A and NDH-F polypeptides are part of a 580 kDa NADH dependent dehydrogenase complex present in etioplast membranes. This finding proves that accumulation of the Ndh complex is independent of light. The decrease in the relative levels and specific activity of this complex during the transition from etioplast to chloroplasts was accompanied by a parallel decrease in the specific activity of peroxidase associated to plastid membranes. Based on the mentioned observations it is proposed that an electron transport chain from NADH to H2O2 could be active in barley etioplasts.