Effect of lectins from <Emphasis Type="Italic">Azospirillum brasilense</Emphasis> to peroxidase and oxalate oxidase activity regulation in wheat roots

Lectins were extracted from the surface of nitrogen-fixing soil bacteria Azospirillum brasilense Sp7 and from its mutant A. brasilense Sp7.2.3 defective in lectin activity. The ability of lectins to stimulate the rapid formation of hydrogen peroxide related to increase of oxalate oxidase and peroxidase activity in the roots of wheat seedlings has been demonstrated. The most rapid induced pathway of hydrogen peroxide formation in the roots of wheat seedlings was the oxalic acid oxidation by oxalate oxidase which is the effect of lectin in under 10 min in a concentration of 10 μg/ml. The obtained results show that lectins from Azospirillum are capable of inducing the adaptation processes in the roots of wheat seedlings.     

Lethal bole rot disease of coconut in East Africa

A lethal bole, rot disease of coconut, caused by Marasmiellus cocophilus Pegler, sp. nov., reaches epidemic proportions in several areas along the coasts of Kenya and Tanzania. The first symptoms noticed on palms 8 or more years old are a frond wilt and a crown rot, but these follow a primary bole rot. Highest mortality is among seedlings and young palms up to 8 years old. Where the disease occurs sporophores are sometimes common on exposed roots, dead seedlings and the soil surface where diseased palms have been dug out. The fungus appears to be a persistent colonizer of coconut debris in the soil. Mycelial cultures from infected bole tissues and from sporophores were highly pathogenic to seedlings, and slowly invaded older tissue. M. cocophilus reaches the inner bole tissues only through the roots, and wounding of roots of their aerenchymatous protuberances is important in infection. Seedlings may become infected through roots damaged during transplanting from nurseries to the field; movement of seedlings from affected areas is one certain method of dispersal. Suggested control measures are: (1) selection of seedlings in nurseries and subsequent transplanting should be as early as possible; (2) seedlings should be transplanted very carefully, and damaged roots pruned and disinfected; (3) seedlings should never be taken from affected areas; (4) periodic soil sterilization of nurseries; and (5) no cultivation should be done between palms, especially where disease is present.     

Screen of safflower (Carthamus tinctorius L.) genotypes against Phytophthora drechsleri and Fusarium solani,the causal agents of root rot disease

Safflower (Carthamus tinctorius L.) plants were affected by a severe root rot disease caused by Phytophthora drechsleri and Fusarium solani in Isfahan province of Iran during 2005–2007. Disease incidence was more than 30% in severely infected fields. Twenty-one safflower genotypes, including six local cultivars and 15 internal pure lines were evaluated for their resistance to root rot disease in laboratory and greenhouse conditions. Safflower seedlings were evaluated for lesion length on infected roots in laboratory, as well percentage of live seedlings in greenhouse. The results indicated a high negative correlation between lesion length on roots and percentage of live seedlings. The most resistant and susceptible genotypes to P. drechsleri were identified as pure line Karaj row 12 (KW12) and cultivar Koseh with lesion lengths of 10.01 and 15.51?mm on roots and 45.60 and 18.00% live seedlings, respectively. The most resistant genotype to F. solani was identified as pure line KW11 with a lesion length of 9.31?mm on roots as well 62.80% live seedlings. The most susceptible genotypes were identified as cultivar Koseh and pure lines KW2 and KW3 with lesion lengths of 13.29, 12.72 and 12.13?mm on roots and 25.60, 28.40 and 28.40% live seedlings, respectively. The most resistant genotypes to both P. drechsleri and F. solani were identified as pure lines KW15 and KW9 with a 55.40% live seedlings. The most susceptible genotypes were cultivars Koseh, Goldasht and pure lines KW6, KW3 and KW2 with 35.40, 35.40, 35.40, 37.60 and 37.60% live seedlings in greenhouse, respectively.     

低磷胁迫对雷公藤幼苗形态指标及生物量的影响

采用土培的方法,研究了磷(P)胁迫对雷公藤(Tripterygium wilfordii Hook.f.)1年生和3年生幼苗在一个生长季内形态指标及生物量的影响。结果表明:低P处理显著抑制了雷公藤幼苗地上部分的增长,而对地下部分的影响较小,导致根冠比的增加,在相同P水平处理下,3年生雷公藤的根冠比高于1年生的;低P胁迫显著影响了雷公藤的生物量积累及分配,雷公藤幼苗总生物量及1年生雷公藤细根生物量占根系生物量的比例下降,根系生物量在总生物量中的比例及3年生雷公藤细根生物量在根系生物量中的比例上升。这表明3年生雷公藤对P逆境有更好的适应机制,对低P林地套种雷公藤的苗龄选择有参考价值;雷公藤幼苗的株高、最长枝均与生物量呈显著的正相关,可作为耐低P雷公藤良种选育中优良性状的指标。中轻度的P胁迫不显著影响根系生物量的积累,维持较大比例的根系是雷公藤适应低P胁迫的主要策略。     

Comparative ecophysiology ofLarix kaempferi (Lamb.) Carr. andAbies veitchii Lindl. II. Mechanisms of higher drought resistance of seedlings ofL. kaempferi as compared withA. veitchii

The underlying mechanisms of drought resistance in seedlings ofLarix kaempferi as compared with those inAbies veitchii were investigated. First, seedlings of the two species were desiccated in air of differing water potential, and their survival rates were compared to detect any difference in desiccation tolerance between them. Contrary to differences in their drought resistance,A. veitchii showed higher survival. Next, the shoot heights and root depths of the two species were compared to detect any difference in desiccation avoidance. Although the shoot height differed little between the two species, the roots ofL. kaempferi seedlings were much deeper than those ofA. veitchii seedlings, and the death rate under progressing drought was well correlated with the root extensibility of each species. It was thus concluded thatL. kaempferi seedlings are able to avoid desiccation by extending their roots in deep soil faster thanA. veitchii seedlings, thereby resisting to drought. This paper is dedicated to Prof. Toshiro Saeki to mark his fruitful career in plant ecology.     

Effects of root residues on growth ofPinus radiata seedlings and a mycorrhizal fungus

The height of Pinus radiata Don seedlings grown on soils incorporating different proportions of root tissues (25 and 50%) was shown to be reduced by 20–80%. Seedlings watered with aqueous extracts from soil/root mixtures also showed a significant reduction in growth. This growth-retarding effect was partially overcome by the addition of nutrients or by soil sterilisation. It is postulated that growth retardation was caused not only by nutrient deficiency resulting from the addition of organic matter with a high C/N ratio, but also by phytotoxic substances present in the root tissue. The effect of water extracts of roots from old P. radiata trees on the growth of young P. radiata seedlings and on a mycorrhizal fungus (Rhizopogon sp.) under aseptic conditions was also studied. Extracts from the inner bark of roots caused complete growth inhibition of the mycorrhizal fungus as well as root necrosis and wilting of P. radiata seedlings. A water-soluble substance or substances, toxic both to the roots of P. radiata and to its mycorrhizal fungus, is postulated as the causal agent.     

Endophytic fungus Piriformospora indica induced systemic resistance against rice sheath blight via affecting hydrogen peroxide and antioxidants

In this study, the effect of endophytic fungus Piriformospora indica on Rhizoctonia solani AG1-IA, causal agent of sheath blight disease, was investigated. In addition, plant defence responses activated in P. indica-inoculated rice plants were analysed. Two-week-old seedlings were inoculated by dipping their roots in P. indica chlamydospore suspension and transferred to pots containing sterilized soil. After two weeks, the seedlings pre-inoculated with P. indica were inoculated with R. solani. Statistical analysis of biological indicators showed that application of P. indica increased both fresh and dry weight of rice shoots and roots, compared to those of uninoculated healthy controls and the samples only inoculated with R. solani. Accumulation of hydrogen peroxide (H₂O₂) and activity of antioxidants such as superoxide dismutase (SOD) and guaiacol peroxidase (GPX) in plants inoculated with P. indica, R. solani, and P. indica-R. solani were investigated. The obtained results revealed that P. indica not only increased the plant biomass, but also delayed the infection process of R. solani and decreased sheath blight severity. Decreased severity of the disease was associated with decreased levels of H₂O₂ and increased SOD activity. Considering the necessity of reducing fungicide application, using P. indica in seedling bed before transplantation to the field could be a novel and effective method to increase rice production and decrease sheath blight progress.     

Exposing Arabidopsis seedlings to borneol and bornyl acetate affects root growth: Specificity due to the chemical and optical structures of the compounds

Abstract

Root growth of Arabidopsis seedlings on the surface of agar plates was measured after the seedlings were exposed to volatile organic compounds. Similar to the roots of unexposed seedlings, the roots of seedlings exposed to volatile methanol (control) grew straight down. On the other hand, seedlings exposed to volatile bornyl acetate produced wavy roots. Interestingly, the wavy roots from seedlings exposed to (+)-bornyl acetate were significantly longer than those from seedlings exposed to (?)-bornyl acetate. Exposure to either (+)- or (?)-borneol resulted in thick root tips and reduced root growth. The roots from seedlings treated with (+)-borneol were significantly longer than those from seedlings exposed to (?)-borneol. The interactions between root length and the concentrations of (+)- or (?)-borneol were significantly different, showing that the Arabidopsis seedlings specifically responded to the molecular configuration of the borneol.     

A greenhouse technique to screen pigeonpea for resistance to Heterodera cajani*

Heterodera cajani is an important nematode pest of pigeonpea in India and a simple and reliable greenhouse procedure has been developed to screen pigeonpea genotypes for resistance to it. In pot experiments, white cysts of H. cajani were counted on the roots of the susceptible genotype ICPL 87 at 15, 30 and 45 days after seedling emergence in soils infested with different levels of H. cajani. The seedlings were rated for the number of white cysts per root system on a one (highly resistant, no cysts) to nine (highly susceptible, more than 30 cysts) scale. White cysts were not easy to see on wet roots but were clearly visible on slightly dried roots. Cyst counts and ratings were more uniform when roots of 30 day old seedlings were evaluated than when 15 or 45 day old seedlings were examined. Effects of different H. cajani infestation levels on the ratings were not significant although the use of higher inoculum densities (16 to 27 eggs and juveniles/cm³ soil) was effective in reducing variability. This procedure was used to screen 60 pigeonpea genotypes and all of them were rated seven or nine. Ten accessions of Atylosia spp. and Rhynchosia spp. were rated three.     

Comparison of Morphological and Anatomical Characteristics of <i>Taxus chinensis</i> var. <i>mairei </i>Seedlings Root under Waterlogging Stress in Different Substrates

Four different ratios of river sand, ceramic pellets, vermiculite and perlite (1:1), and field soil were selected as the substrates in this experiment, and four gradient levels of root waterlogging, half waterlogging, full waterlogging and normal were set to investigate the effects of different gradients of waterlogging stress on the root morphology of Taxus chinensis var. mairei seedlings under different substrates. In this study, the root anatomical structure of Taxus chinensis var. mairei under different waterlogging stress was observed by the paraffin section method. The roots of T. chinensis var. mairei were diarch, with no pith and resin canals. There was a large number of tannins in the pericycle of the aerial adventitious roots of seedlings adapted to waterlogging. Also, the endodermis has obvious casparian strip thickening, and there were 4-5 layers of large parenchymatous cells in the close to the inner side of the pericycle in the vascular cylinder, which could increase the storage capacity, and transport capacity of the root. Under the treatment of root waterlogging stress, the development of plant roots in the mixed substrate of vermiculite and, perlite was the earliest. Under half waterlogging stress, T. chinensis var. mairei seedlings treated with various substrates all could better adapt to the environment of waterlogging stress. Under the stress of fully waterlogging, the roots of seedlings planted in river sand substrate developed secondary growth.     

Control of Mn status and infection rate by genotype of both host and pathogen in the wheat take-all interaction

Take-all is a world-wide root-rotting disease of cereals. The causal organism of take-all of wheat is the soil-borne fungus Gaeumannomyces graminis var tritici (Ggt). No resistance to take-all, worthy of inclusion in a plant breeding programme, has been discovered in wheat but the severity of take-all is increased in host plants whose tissues are deficient for manganese (Mn). Take-all of wheat will be decreased by all techniques which lift Mn concentrations in shoots and roots of Mn-deficient hosts to adequate levels. Wheat seedlings were grown in a Mn-deficient calcareous sand in small pots and inoculated with four field isolates of Ggt. Infection by three virulent isolates was increased under conditions which were Mn deficient for the wheat host but infection by a weakly virulent isolate, already low, was further decreased. Only the three virulent isolates caused visible oxidation of Mn in vitro. The sensitivity of Ggt isolates to manganous ions in vitro did not explain the extent of infection they caused on wheat hosts. In a similar experiment four Australian wheat genotypes were grown in the same Mn-deficient calcareous sand and inoculated with one virulent isolate of Ggt. Two genotypes were inefficient at taking up manganese and were very susceptible to take-all, one was very efficient at taking up manganese and was resistant to take-all, and the fourth genotype was intermediate for both characters. All genotypes were equally resistant under Mn-adequate conditions.     

Endophytic actinomycetes from Pinus thunbergii and their antifungal activity against Cylindrocladium sp.

The inside of Pinus thunbergii could be a reliable screening source for a useful agent in controlling plant disease. Isolation of endophytic actinomycetes from P. thunbergii and their potential as biocontrol agents against the plant pathogen Cylindrocladium sp. were investigated. Two endophytic actinomycetes, Streptomyces sp. and Microbispora sp., were isolated from surface-sterilised root tissues of P. thunbergii seedlings. The recovery test of these two endophytic actinomycetes from pine seedling showed that Streptomyces sp. was isolated from only roots, but Microbispora sp. was isolated from both roots and leaves. Thus, Microbispora sp. is able to move to leaves from roots. Moreover, we evaluated the potential of both strains as biocontrol agents against Cylindrocladium sp. Two weeks after inoculation of Cylindrocladium sp. alone, pine seedlings showed a 50% mortality rate. Co-inoculation of Cylindrocladium sp. and Microbispora sp. did not affect seedling mortality rate. However, inoculation with both Cylindrocladium sp. and Streptomyces sp. reduced seedling mortality to 12%. Streptomyces sp. could be a useful agent in controlling pine disease caused by Cylindrocladium sp. Thus, it seems that Streptomyces sp. may induce a local host defence reaction and Microbispora sp. systemically spreads to aerial parts through the transpiration stream.     

Bacterial antagonists of Sunflower (Helianthus annuus L.) fungal pathogens

Bacteria isolated on nutrient agar and King's medium B from sunflower leaves, crown and roots inhibited in vitro growth of the leaf spot and wilt pathogens Alternaria helianthi, and Sclerotium rolfsii, respectively, and also the root rot pathogensRhizoctonia solani and Macrophomina phaseolina. Antagonistic bacteria from leaves were mainly actinomycetes and pigmented Gram-positive bacteria, while those from roots and crowns were identified asPseudomonas fluorescens-putida, P. maltophilia, P. cepacia, Flavobacterium odoratum andBacillus sp. In soil bioassays, when used as seed inoculum in the presence ofS. rolfsii, P. cepacia strain N24 increased significantly the percentage of seedling emergence. Bacterial strains which exhibited broad spectrum in vitro antagonistic activity were tested for colonisation of sunflower roots, when used as a seed inoculum. Good colonisers (10⁴ to 10⁶ bacteria/g root) were consistent in their ability to reduce disease and fungal wilt. A seedling having a primary root length < 5 cm with fewer lateral roots, necrosed cotyledons or crown and a wilted shoot indicated its diseased status. On an average, only 30% of seedlings were diseased when treated with the antagonistic strains, in the presence of the pathogen, while 60% of the seedlings were diseased in the presence of the pathogen alone. In microplots treated with strain N24, only 1 to 3% of the seedlings were wilted, while 14% of the seedlings were wilted in the presence of the pathogen alone. The results obtained show that bacterial antagonists of sclerotial fungi can be used as seed inocula to improve plant growth through disease suppression     

Do cluster roots of Hakea actities (Proteaceae) acquire complex organic nitrogen?

Although there has been speculation that cluster roots play a role in plant nitrogen (N) acquisition there have been few experimental studies, demonstrating this. We grew the subtropical wet heathland plant Hakea actities in sand and in axenic vermiculite-sand cultures to investigate its use of different N sources. Seedlings produced greater quantities of cluster roots when grown with NO₃ ^–, glutathione or protein as N sources than with NH₄ ⁺, glutamine or without N addition, suggesting that N source influences cluster root initiation and development. Axenically grown seedlings acquired more N when grown with 4.5 mM than with 0.5 mM glutathione or protein as N sources suggesting that seedlings are able to assimilate complex organic N. However, control seedlings that did not receive N other than seed storage N (approximately 0.2 mg N) acquired 2 mg N from an unknown source, so that data are not unequivocal. Peptidase activity in extracts derived from non-axenic cluster root tissue changed with age of cluster roots. Developing and mature cluster roots had higher peptidase activity than young and senescing cluster roots. To determine whether peptidases are associated with the outer surface of cluster roots, entire cluster roots were gently centrifuged and the resulting solution analysed for peptidase activity using gelatine-containing PAGE. Different peptidases were active at different times of cluster root development, suggesting that plant or microbially derived peptidases could play a role in organic N acquisition by cluster roots. Roots and cluster roots expressed a putative amino acid transporter (HaAAT4-1) and peptide transporter (HaPepT1) as determined by northern blot analysis. Expression of HaPepT1 in cluster roots increased throughout cluster root development although further studies need to confirm this.     

Graviresponsiveness and abscisic-acid content of roots of carotenoid-deficient mutants of Zea mays L.

The abscisic-acid (ABA) content of roots of the carotenoid-deficient w-3, vp-5, and vp-7 mutants of Z. mays was analyzed using gas chromatography-mass spectrometry with an analysis sensitivity of 6 ng ABA g^–1 fresh weight (FW). Roots of normal seedlings of the same lines were characterized by the following amounts of ABA (as ng ABA g^–1 FW,±standard deviation): w-3, 279±43; vp-5, 237±26; vp-7, 338±61. We did not detect any ABA in roots of any of the mutants. Thus, the lack of carotenoids in these mutants correlated positively with the apparent absence of ABA. Primary roots of normal and mutant seedlings were positively gravitropic, with no significant differences in the curvatures of roots of normal as compared with mutant seedlings. These results indicate that ABA 1) is synthesized in maize roots via the carotenoid pathway, and 2) is not necesary for positive gravitropism by primary roots of Z. mays.Abbreviation ABA abscisic acid     

Rapid germination and development of <Emphasis Type="Italic">Taxus baccata</Emphasis> L. by <Emphasis Type="Italic">in vitro</Emphasis> embryo culture and hydroponic growth of seedlings

A highly promising procedure to obtain seedlings of Taxus baccata L. has been developed, which involves a combination of in vitro embryo culture and growth under hydroponic conditions. Embryos isolated from freshly collected seeds were 100% sterile, even though the seeds were not treated with acid or soaked in water prior to culturing. The embryo germination level of non-leached seeds was slightly lower (85%) than those leached in running water for 7 d (100%). The leached embryos germinated with extended roots while the non-leached embryos had abnormal shapes. The embryos cultured on media supplemented with an absorbent (PVP or activated charcoal) had extended roots and shoots and were a larger size without any browning, as compared to those grown without the supplement; activated charcoal gave better results. There were no significant differences in germination rates of T. baccata embryos between the media with differing strengths of macronutrients; however, for further development of the shoot, it was necessary to sub-culture the seedlings in MS in the light. To obtain seedlings with longer roots, they had to be maintained in one-half strength MS in darkness. Approximately 90% of the plants survived when grown hydroponically for 2 mo. The surviving plants showed well-extended roots and were a good starting material for genomic, proteomic, and conservational studies as well as Taxol permeabilization investigations.     

Early defence reactions in Norway spruce seedlings inoculated with the mycorrhizal fungus <Emphasis Type="Italic">Pisolithus tinctorius</Emphasis> (Persoon) Coker &; Couch and the pathogen <Emphasis Type="Italic">Heterobasidion annosum</Emphasis> (Fr.) Bref.

The activities of the enzymes responsible for cell-wall strengthening and salicylic acid (SA) content in Norway spruce seedlings were investigated after inoculation with the ectomycorrhizal fungus Pisolithus tinctorius or the pathogen Heterobasidion annosum, and after treatment with elicitors from both of these fungi. Inoculation with both fungi increased guaiacol peroxidase (POD) activity in the roots of the pathogen-inoculated seedlings during the earliest phases of colonisation, and induced the activities of several POD isoforms. Two of these were only seen in pathogen-inoculated seedlings and corresponded with increased POD activity against ferulic acid. Colonisation with H. annosum triggered an increase in phenylalanine ammonia lyase (PAL) activity in the roots of the spruce seedlings, which was followed by an accumulation of free SA. One month after inoculation levels of free SA were increased also in the shoots of H. annosum-inoculated seedlings. In contrast increase in free SA content in the roots of P. tinctorius-inoculated seedlings was only transient. Similarly to inoculation, treatment with elicitors of H. annosum increased the PAL and POD activity, as well as SA content in the roots of spruce seedlings. A positive correlation between PAL activity and SA content in the H. annosum-inoculated seedlings and accumulation of SA precursors in the phenylpropanoid pathway indicate that the plant defence mechanisms, during which SA is synthesised through the PAL pathway, are exploited by H. annosum for facilitation of colonisation.     

Osmotic solute responses of mycorrhizal citrus (<Emphasis Type="Italic">Poncirus trifoliata</Emphasis>) seedlings to drought stress

This study investigated the accumulation of osmotic solutes in citrus (Poncirus trifoliata) seedlings colonized by Glomus versiforme subjected to drought stress or kept well watered. Development of mycorrhizae was higher under well watered than under drought-stressed conditions. Arbuscular mycorrhizal (AM) seedlings accumulated more soluble sugars, soluble starch and total non-structural carbohydrates in leaves and roots than corresponding non-AM seedlings regardless of soil-water status. Glucose and sucrose contents of well-watered and drought-stressed roots, fructose contents of well-watered roots and sucrose contents of drought-stressed leaves were notably higher in AM than in non-AM seedlings. K⁺ and Ca²⁺ levels in AM leaves and roots were greater than those in non-AM leaves and roots, while AM symbiosis did not affect the Mg²⁺ level. AM seedlings accumulated less proline than non-AM seedlings. AM symbiosis altered both the allocation of carbohydrate to roots and the net osmotic solute accumulations in response to drought stress. It is concluded that AM colonization enhances osmotic solute accumulation of trifoliate orange seedlings, thus providing better osmotic adjustment in AM seedlings, which did not correlate with proline but with K⁺, Ca²⁺, Mg²⁺, glucose, fructose and sucrose accumulation.     

CALCIUM MOVEMENT,GRAVIRESPONSIVENESS, AND THE STRUCTURE OF COLUMELLA CELLS IN PRIMARY ROOTS OF AMYLOMAIZE MUTANTS OF ZEA MAYS

Primary roots of Zea mays cv. Amylomaize were less graviresponsive than primary roots of the wild-type Calumet cultivar. There were no significant differences in: 1) the partitioning of volume to organelles in columella cells, 2) the size or density of amyloplasts, or 3) rates and overall patterns of organelle redistribution in horizontally-oriented roots of the two cultivars. Amyloplasts and nuclei were the only organelles whose movement correlated positively with the onset of root gravicurvature. However, the onset of gravicurvature was not directly proportional to the average sedimentation rate of amyloplasts, since amyloplasts sedimented at equal rates in columella cells of both cultivars despite their differences in root gravicurvature. The more graviresponsive roots of Calumet seedlings were characterized by a more strongly polar movement of ⁴⁵Ca²⁺ from the upper to lower sides of their root tips than the less graviresponsive roots of Amylomaize seedlings. These results suggest that the decreased graviresponsiveness of horizontally-oriented roots of Amylomaize seedlings may be due to a delay in or decreased ability for polar transport of calcium rather than to smaller, more slowly sedimenting amyloplasts as has been suggested for their less graviresponsive coleoptiles.