Defoliation alters the relative contributions of recent and non-recent assimilate to root exudation from Festuca rubra

The deposition of organic compounds from plant roots is a key determinant of rhizosphere microbial activity and community structure. Consequently, C-flow from roots to soil is an important process in coupling plant and microbial productivity, via impacts on microbial nutrient cycling in soil. Experimentally, isotopic tracers (¹³C or ¹⁴C) are used to track C inputs to soil and microbial communities. However, in many such studies the relationship between labelled C-flows and total C-flows are not established, limiting the interpretative value of the results. In this study, we applied steady-state near natural abundance ¹³CO₂ labelling to determine the impact of partial defoliation of Festuca rubra on root exudation. This approach in axenic culture facilitated determination of the contribution of pre- and post-defoliation assimilates both to root C-flow and plant tissues. The results demonstrated that total root exudation was increased in the two days following defoliation. This was concurrent with reduced net CO₂ assimilation and reduced allocation of post-defoliation assimilates below-ground and to active root meristems. Through determination of the δ¹³C of root exudates, it was established that the source of the increased root exudation was pre-defoliation assimilate. However, this response was transient, with reduced deposition of pre- and post-defoliation assimilates from roots during the period 2–4 d following defoliation. The results highlight the limitations of pulse-labelling approaches as a means of quantifying impacts of treatments on root exudation, particularly where the treatment is likely to affect plant C-partitioning or the balance between deposition to, and re-mobilization from, C-storage pools.     

用能值分析辅以生理指标测定研究狐毛草的耐盐性

狐毛草(Ｆｅｓｔｕｃａｒｕｂｒａ)系羊茅属,禾本科,广布于温带和寒带地区,我国以西南最盛,大部分供饲料用。有关植物对重金属毒害和抗性的研究[1]揭示,狐毛草能在很高浓度(500μｇ·ｇ-1)的铬溶液和较高浓度(100μｇ·ｇ-1)的铜溶液中存活,可见狐毛草在消除重金属毒害和有机废物的环境生态工程中有很好的应用前景。同时,根据南京大学生物技术研究所引种海滩耐盐经济植物的经验,狐毛草是继大米草和互花米草之后的又一优良的耐盐经济植物,因此,对其抗性生理的研究是十分必要的。本文运用能值分析方法对试验结果进行分析处理。能值分析理论和…     

Soluble polypeptides from meristematic and mature cells of Allium cepa L. roots

By using electrophoresis on SDS polyacrylamide gels we have studied the soluble protein fraction from a section of the meristem, where most cells are in the division last cycle, and from the mature region of Allium cepa L. roots. In order to estimate the apparent rate of synthesis of these polypeptides we labeled a series of roots with [¹⁴C]leucine and another with [³H]leucine. Coelectrophoresis was carried out by using polypeptides from both regions, their mol.wt. being between 20,000 and 100,000 daltons. The results show that most of the polypeptides in the soluble fraction are constantly present in a cell throughout its development. These constant polypeptides are synthesized at a high rate in the meristematic region. In the mature cells these polypeptides show only a low labeling rate, while a small number of specific polypeptides appear to have a very high rate of metabolism.     

Nucleolar vacuolation in soybean root meristematic cells during recovery after chilling

The nucleolar vacuole formation in soybean root meristematic cells from seedlings grown 3 d at temperature 25 °C (control), 3 d at temperature 25 °C and then transferred to 10 °C (chilling) for 4 d, and after recovery for 1.5, 3, 6, 12 and 24 h at 25 °C were observed on semi-thin sections. Simultaneously, autoradiographic studies with ³H-uridine on squashed preparations were carried out. During recovery of plants, the number of vacuolated nucleoli increased gradually from 24 % after 1.5 h up to 40 % after 24 h, while in the control there were 18 % of nucleoli with vacuoles and after 4-d chilling only 5 %. Labelling of cells during 20-min incubation in ³H-uridine and during 80-min post-incubation in non-radioactive medium was increased in recovered plants in comparison with the control and chilled plants. The conclusion has been drawn that nucleolar vacuoles in soybean plants are formed as a result of migration of granular component accumulated in nucleolus during 4-d chilling.     

Ecotypic differentiation within Festuca rubra L. occurring in a heterogeneous coastal environment

In order to study the genetic differentiation between Festuca rubra L. individuals growing in a heterogeneous environment, indices of salt tolerance, mean relative growth rates and the numbers of tillers formed by plants grown in a Hoagland solution, were determined. It was found that plants from salt marsh sites have a high index of salt tolerance, a high mean relative growth rate and numerous tillers; plants from coastal sand dunes are less tolerant, grow slowly and form few tillers; plants from the inland polder sites are rather salt sensitive, fast growing and form a high number of tillers. The heritability of the mean relative growth rate and the tiller number appeared to differ from zero. Apparently, these characters have been under recent selection and thus give a picture of the adaptations of individual plants to the different environments encountered. An indication of gene flow has been found, although the effect of gene flow seems to be small in the face of the force of selection. It was concluded that the distinction of three ecotypes within the species F. rubra is insufficient to describe the differentiation found. Considering the differences observed, it seems more reasonable to speak of ecotypic variation.     

Influence of the excision shock on the protein metabolism ofVicia faba L. meristematic root cells

UsingVicia faba root meristems we have shown that protein synthesis was dramatically changed after excision. The amino-acid incorporation dropped to 13% of the level in the unexcised control. This downshift was a direct consequence of the breakdown of polysomes which are converted into monosomes. In order to perform an analysis of the protein pattern by two-dimensional gel electrophoresis, endogenous proteolytic activity, which is high in broad bean root, had to be inhibited. Therefore, several protease inhibitors were tested and a very efficient inhibitor pool was obtained which could be used during the preparation of meristematic cell extracts. Protein-pattern analysis showed important differences between the unexcised control and excised apices. The number of proteins synthesized after excision droped from 250 in the control to 80, as a consequence of polysome breakdown. Futhermore, we present evidence that new and apparently specific proteins are synthesized in response to this excision shock.Abbreviations NEM N-ethylmaleimide - PMSF phenylmethylsulfonyl fluoride - TLCK N-tosyl-L-lysin chloromethyl ketone - TPCK N-tosyl-L-phenylalanine chloromethyl ketone     

New Taxa of Festuca L. from China

Some new taxa of the genus Festuca (Gramineae) are described from China. They are Sect. Longiglumes S.L. Lu,Sect. Muticae S.L. Lu, Sect. Sinensis S.L. Lu, Sect, Nitidulae S.L. Lu, and Festuca pubiglumis S.L. Lu, F. longiglumis S. L. Lu, F.fascinata Keng, F. mutica S.L. Lu, F. sinensis Keng, F. subalpina Chang et Skvort. ex S.L. Lu, F. chelungkingnica Chang et Skvort. exS.L. Lu. In addition, one new name F. taiwanensis S.L. Lu is included.     

Heavy metal tolerance in Festuca ovina L. from contaminated sites in the Eifel Mountains,Germany

Extremely high degrees of lead tolerance, measured by comparing rates of root extension in culture solutions, are reported from populations of Festuca ovina growing at two lead-mining sites (Westschacht and Keldenich-II) near Mechernich in the Eifel Mountains, Germany. Other populations from nearby heavy metal-contaminated areas show a considerably smaller degree of lead tolerance. Samples of Festuca ovina collected in the field at Westschacht and Keldenich-II contain higher levels of lead in their aerial organs than do those from other lead-contaminated sites. The main soil factor determining the high degree of lead tolerance is the high Pb/Ca ratio. Populations from soils with a low Pb/Ca ratio display a very low degree of tolerance. It is therefore concluded that in Westschacht and Keldenich-II plants, a genuine intracellular tolerance mechanism is present, allowing the accumulation of lead in aerial organs.Leaf samples of zinc-tolerant Festuca contain higher levels of zinc than do samples of non-tolerant plants. Lead and zinc amounts in leaves are correlated with the soil ratios of Pb/Ca and Zn/Ca, respectively, rather than with the absolute soil-metal levels.In a slightly lead-tolerant, but highly zinc-tolerant clone of Festuca ovina from a site contaminated with large amounts of lead and zinc (Plombières), lead was found to be the major factor affecting the inhibition of root extension with combined treatments of lead and zinc in culture solutions. In the highly lead-tolerant, zinc-sensitive population from Westschacht, zinc governs the response of root growth to combinations of the two metals. The results are discussed in terms of discriminating distinct types of heavy-metal tolerance.     

Impact of elevated carbon dioxide on the rhizosphere communities of Carex arenaria and Festuca rubra

The increase in atmospheric carbon dioxide (CO₂) levels is predicted to stimulate plant carbon (C) fixation, potentially influencing the size, structure and function of micro- and mesofaunal communities inhabiting the rhizosphere. To assess the effects of increased atmospheric CO₂ on bacterial, fungal and nematode communities in the rhizosphere, Carex arenaria (a nonmycorrhizal plant species) and Festuca rubra (a mycorrhizal plant species) were grown in three dune soils under controlled soil temperature and moisture conditions, while subjecting the aboveground compartment to defined atmospheric conditions differing in CO₂ concentrations (350 and 700 μL L⁻¹). Real-time polymerase chain reaction (PCR) and PCR-denaturing gradient gel electrophoresis methods were used to examine effects on the size and structure of rhizosphere communities. Multivariate analysis of community profiles showed that bacteria were most affected by elevated CO₂, and fungi and nematodes to a lesser extent. The influence of elevated CO₂ was plant dependent, with the mycorrhizal plant ( F. rubra ) exerting a greater influence on bacterial and fungal communities. Biomarker data indicated that arbuscular mycorrhizal fungi (AMF) may play an important role in the observed soil community responses. Effects of elevated CO₂ were also soil dependent, with greater influence observed in the more organic-rich soils, which also supported higher levels of AMF colonization. These results indicate that responses of soil-borne communities to elevated CO₂ are different for bacteria, fungi and nematodes and dependent on the plant type and soil nutrient availability.     

SHORT-ROOT regulates vascular patterning,but not apical meristematic activity in the Arabidopsis root through cytokinin homeostasis

SHORT-ROOT (SHR) is a key regulator of radial patterning and stem-cell renewal in the Arabidopsis root. Although SHR is expressed in the stele, its function in the vascular tissue was not recognized until recently. In shr, the protoxylem is missing due to the loss of expression of microRNA165A (miR165A) and microRNA166B (miR165B). shr is also defective in lateral root formation, but the mechanism remains unclear. To dissect the SHR developmental pathway, we recently have identified its direct targets at the genome scale by chromatin immunoprecipitation followed by microarray analysis (ChIP-chip). In further studies, we have shown that SHR regulates cytokinin homeostasis through cytokinin oxidase 3 and that this role of SHR is critical to vascular patterning in the root. In this communication we report that SHR also regulates miR165A and miR166B indirectly through its effect on cytokinin homeostasis. Although cytokinin is inhibitory to root growth, the root-apical-meristem defect in shr was not alleviated by reduction of endogenous cytokinin. These results together suggest that SHR regulates vascular patterning, but not root apical meristematic activity, through cytokinin homeostasis.     

The production and release of living root cap border cells is a function of root apical meristem type in dicotyledonous angiosperm plants

BACKGROUND AND AIMS: The root apical meristems (RAM) of flowering plant roots are organized into recognizable pattern types. At present, there are no known ecological or physiological benefits to having one RAM organization type over another. Although there are phylogenetic distribution patterns in plant groups, the possible evolutionary advantages of different RAM organization patterns are not understood. Root caps of many flowering plant roots are known to release living border cells into the rhizosphere, where the cells are believed to have the capacity to alter conditions in the soil and to interact with soil micro-organisms. Consequently, high rates of border cell production may have the potential to benefit plant growth and development greatly, and to provide a selective advantage in certain soil environments. This study reports the use of several approaches to elucidate the anatomical and developmental relationships between RAM organization and border cell production. METHODS: RAM types from many species were compared with numbers of border cells released in those species. In addition, other species were grown, fixed and sectioned to verify their organization type and capacity to produce border cells. Root tips were examined microscopically to characterize their pattern and some were stained to determine the viability of root cap cells. KEY RESULTS: The first report of a correlation between RAM organization type and the production and release of border cells is provided: species exhibiting open RAM organization produce significantly more border cells than species exhibiting closed apical organization. Roots with closed apical organization release peripheral root cap cells in sheets or large groups of dead cells, whereas root caps with open organization release individual living border cells. CONCLUSIONS: This study, the first to document a relationship between RAM organization, root cap behaviour and a possible ecological benefit to the plant, may yield a framework to examine the evolutionary causes for the diversification of RAM organization types across taxa.     

Stem cells in the root and the problem of stem cells in plants

Plant cells are capable of reversible transition from the proliferating to the stem state. This transition is determined by a system of cell-cell interactions and interelationships between plant parts. Stem cells defined as the cells preserving the capacity to divisions and differentiation for a long time arise repeatedly during development of the root and shoot primordial, rather than are clones of a population of stem cells laid down at a certain stage of embryogenesis. The quiescent center cells, rather than the surrounding actively dividing cells, best correspond to the characteristics of stem cells according to Loeffler and Potten. The factors that determine the quiescent center formation and maintenance in the root have been analyzed. The available data suggest that among these factors, indoleacetic acid transport and cap influence are of paramount significance. The cap formation precedes the quiescent center formation both during the root development and in the course of meristem regeneration after the root decapitation. The capacity of stem cell formation by the meristem suggests that not only meristem arises from the stem cells, but also that stem cells are formed from actively dividing cells. Repeated formation of stem cells allows long-term preservation of the capacity of plants for open morphogenesis and vegetative propagation.     

Localization of intracellular calcium in root meristematic cells and root cap cells of maize

The localization of Ca²⁺ in cells of the periblem and dermatogen in the root meristem and the columella and peripheral cells of the root cap of maize was examined by the precipitation method of potassium pyroantimonate and EGTA-treatment. In periblem and dermatogen cells, Ca²⁺ was found to be localized in the nucleoplasm and granular zone of the nucleolus. Ca²⁺ was also found in most cell organelles: in the matrix in mitochondria, on the thylakoid membrane in proplastids, in the vacuoles and on the plasma membranes. Ca²⁺ was also distributed throughout the cytoplasmic ground matrix. Much Ca²⁺ was present in the cell wall soon after its formation during the cell division. Ca²⁺ was also conspicuous in the vesicles of Golgi in the dermatogen cells. In columella and peripheral cells, there was less Ca²⁺ in the organelles and cytoplasmic ground matrix, but Ca²⁺ was present in Golgi vesicles in the peripheral cells. Electron microscopic and X-ray microanalysis showed that Ca²⁺ was also present in the mucilaginous layer, the outermost cell wall of the peripheral cells.     

Characterization of phytosiderophore secretion under Fe deficiency stress in Festuca rubra

In the present study we investigated the response to iron (Fe) deficiency in two cultivars of Festuca rubra L. (Rubina and Barnica) used in correction of chlorosis of fruit trees cultivated on calcareous soils. We found that a Fe-chelating compound, identified as 2-deoxymugineic acid (DMA), was secreted from the roots in response to Fe-deficiency in both cultivars. The amount of DMA secreted into solution increased with the development of Fe-deficiency. The secretion showed a distinct diurnal rhythm characterized by a secretion peak at between 2 and 5 hours after sunrise at 20°C. However, this secretion peak was delayed by 3 hour at low temperature (<10°C) and occurred 3 h earlier at high temperature (30°C). When water used for the collection of root exudates was pre-warmed (25°C) or pre-cooled (10°C), this led to an earlier or a delayed secretion compared to control (15°C) under the same air temperature, respectively. Short-term shading treatment did not affect the secretion pattern of DMA. These results demonstrate that the secretion time of DMA from the roots is, at least partly controlled by the temperature in the root environment. Overall, these findings suggest that the ability of Festuca rubra to prevent Fe chlorosis symptoms (`re-greening effect') of associated fruit trees is partially related to the secretion of DMA which increase Fe availability in calcareous soils.     

A simple protocol to purify fresh nuclei from milligram amounts of meristematic pea root tissue for biochemical and flow cytometry applications

A simple protocol to purify fresh nuclei from very small amounts (mg) of Pisum sativum (cv. Lincoln) root tissue is presented. The protocol is reliable and has been repeated many times; it can be performed within a few hours and needs only a simple modification of common glassware for tissue homogenization. Similar yields of purified nuclei are obtained both with meristematic and adult root tissues using a detergent-free glyeerol buffer. Purified nuclei can be stored at –20°C for several weeks without any appreciable loss of integrity. The high yield of purified nuclei enables us to use our preparations for biochemical and cytometric investigations.