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21.
Nutrient transfer between the root zones of soybean and maize plants connected by a common mycorrhizal mycelium 总被引:8,自引:0,他引:8
Gabor J. Bethlenfalvay Maria G. Reyes-Solis Susan B. Camel Ronald Ferrera-Cerrato 《Physiologia plantarum》1991,82(3):423-432
The objective of the study was to determine whether nutrient fluxes mediated by hyphae of vesicular-arbuscular mycorrhizal (VAM) fungi between the root zones of grass and legume plants differ with the legume's mode of N nutrition. The plants, nodulating or nonnodulating isolines of soybean [ Glycine max (L.) Merr.], were grown in association with a dwarf maize ( Zea mays L.) cultivar in containers which interposed a 6-cm-wide root-free soil bridge between legume and grass container compartments. The bridge was delimited by screens (44 μm) which permitted the passage of hyphae, but not of roots and minimized non VAM interactions between the plants. All plants were colonized by the VAM fungus Glomus mosseae (Nicol. & Gerd.) Gerd. and Trappe. The effects of N input to N-sufficient soybean plants through N2 -fixation or N-fertilization on associated maize-plant growth and nutrition were compared to those of an N-deficient (nonnodulating, unfertilized) soybean control. Maize, when associated with the N-fertilized soybean, increased 19% in biomass, 67% in N content and 77% in leaf N concentration relative to the maize plants of the N-deficient association. When maize was grown with nodulated soybean, maize N content increased by 22%, biomass did not change, but P content declined by 16%. Spore production by the VAM fungus was greatest in the soils of both plants of the N-fertilized treatment. The patterns of N and P distribution, as well as those of the other essential elements, indicated that association with the N-fertilized soybean plants was more advantageous to maize than was association with the N2 -fixing ones. 相似文献
22.
J. Boonjawat P. Chaisiri J. Limpananont S. Soontaros P. Pongsawasdi S. Chaopongpang S. Pornpattkul B. Wongwaitayakul L. Sangduan 《Plant and Soil》1991,137(1):119-125
In non-legumes associative nitrogen-fixing system, several genera of rhizobacteria have been reported. The object of this paper is to summarize the current understanding of how rhizobacteria adhere to the root surface of non-legumes especially rice and other cereal crops. Evidence for involvement of rice lectin in adhesion will be reviewed. An emphasis will be placed on theKlebsiella R15 ammonium assimilation system in free-living state and in associative state with rice seedlings. Nitrogenase and glutamine synthetase (GS) activities of associativeKlebsiella increased significantly in the rhizosphere of rice comparing to the free-living state. In rice, the soluble form of GS specific activity appear to be slightly lower than in rice root in the absence of bacteria. These results suggest that nitrogen-fixing activity has been enhanced during association. The dinitrogen fixed should be changed to amino acids via GS-GOGAT pathway in bacteria. Transfer of fixed nitrogen and assimilation in the rice plant is the problem that needs to be solved in order to improve the efficiency of associative nitrogen fixation. 相似文献
23.
24.
25.
Summary Ammonium nitrate fertilizer, labelled with15N, was applied in spring to winter wheat growing in undisturbed monoliths of clay and sandy loam soil in lysimeters; the rates
of application were respectively 95 and 102 kg N ha−1 in the spring of 1976 and 1975. Crops of winter wheat, oilseed rape, peas and barley grown in the following 5 or 6 years
were treated with unlabelled nitrogen fertilizer at rates recommended for maximum yields. During each year of the experiments
the lysimeters were divided into treatments which were either freelydrained or subjected to periods of waterlogging. Another
labelled nitrogen application was made in 1980 to a separate group of lysimeters with a clay soil and a winter wheat crop
to study further the uptake of nitrogen fertilizer in relation to waterlogging.
In the first growing season, shoots of the winter wheat at harvest contained 46 and 58% of the fertilizer nitrogen applied
to the clay and sandy loam soils respectively. In the following year the crops contained a further 1–2% of the labelled fertilizer,
and after 5 and 6 years the total recoveries of labelled fertilizer in the crops were 49 and 62% on the clay and sandy loam
soils respectively.
In the first winter after the labelled fertilizer was applied, less than 1% of the fertilizer was lost in the drainage water,
and only about 2% of the total nitrogen (mainly nitrate) in the drainage water from both soils was derived from the fertilizer.
Maximum annual loss occurred the following year but the proportion of tracer nitrogen in drainage was nevertheless smaller.
Leaching losses over the 5 and 6 years from the clay and sandy loam soil were respectively 1.3 and 3.9% of the original application.
On both soils the percentage of labelled nitrogen to the total crop nitrogen content was greater after a period of winter
waterlogging than for freely-drained treatments. This was most marked on the clay soil; evidence points to winter waterlogging
promoting denitrification and the consequent loss of soil nitrogen making the crop more dependent on spring fertilizer applications. 相似文献
26.
Summary The formation of mineral nitrogen species and of organic nitrogen was studied in three different types of soils in relation
to the application of the nitrification inhibitor nitrapyrin. The results indicate that nitrification brings about a deficit
in total mineral nitrogen and a concomitant surplus in non biomass organic nitrogen. This phenomenon increases with increasing
levels of applied ammonium nitrogen and soil organic matter. The phenomenon is considered to be due to the reaction of the
transient nitrite formed with soil phenolic compounds and appears to be of significance in all soils in which nitrification
occurs, even neutral to alkaline and low carbon soils. 相似文献
27.
The symbiotic effectiveness of Bradyrhizobium strains isolated from three species of Parasponia and from legumes were compared
on Parasponia grown in Leonard-jars. Effectiveness of each symbiotic association was estimated from dry weight and total nitrogen
of shoots and nodules of plants grown on medium free of combined nitrogen. Twenty strains isolated from three species of Parasponia
were found to vary in their effectiveness on P. andersonii, the least effective fixing one fifth of the nitrogen of the most effective strains. The outcome of the symbiosis was not
associated with the host source of the test strain. P. andersonii, P. rugosa and P. rigida responded differently to a selection of seven strains of Parasponia Bradyrhizobium; some strains were either ineffective
or fully effective on each host, while others varied in their symbiotic performance. P. andersonii fixed significantly (P < 0.001) larger quantities of nitrogen than either P. rugosa or P. rigida with p. rigida being the least effective. In contrast to Bradyrhizobium strains from Parasponia spp. which formed nodules rapidly (within 11–20 days), nine strains isolated from legumes required between 25 and 74 days
to form partially effective nodules. The thre Parasponia species formed relatively large quantities of nodule tissue relative to the amount of nitrogen fixed and shoot dry matter
produced. The Bradyrhizobium isolated from Parasponia plants growing in Papua New Guinea soils could be grouped together on
the basis of their infection characteristics on Parasponia and legumes. 相似文献
28.
The effect of emersion and handling on the nitrogen excretion rates of Clarias gariepinus 总被引:1,自引:0,他引:1
African catfish Clarias gariepinus (=119.9&30.6 g) were exposed to periods of emersion (5, 30, 60, 90 and 180 min) and the ammonia and nitrogen excretion rates measured following re-immersion. Immediately following re-immersion (0–30 min), the ammonia excretion and relative ammonia excretion was greatest for the 5-min emersion gro up. Exposure to extended periods of emersion resulted in a decrease in total nitrogen excretion, notably ammonia excretion, although no significant changes were observed in the non-ammonia component of C. gariepinus . 相似文献
29.
U. Sonnewald N. Westergaard †P. Jones †A. Taylor †H. S. Bachelard A. Schousboe 《Journal of neurochemistry》1996,67(6):2566-2572
Abstract: Metabolism of [U-13 C5 ]glutamine was studied in primary cultures of cerebral cortical astrocytes in the presence or absence of extracellular glutamate. Perchloric acid extracts of the cells as well as redissolved lyophilized media were subjected to nuclear magnetic resonance and mass spectrometry to identify 13 C-labeled metabolites. Label from glutamine was found in glutamate and to a lesser extent in lactate and alanine. In the presence of unlabeled glutamate, label was also observed in aspartate. It could be clearly demonstrated that some [U-13 C5 ]glutamine is metabolized through the tricarboxylic acid cycle, although to a much smaller extent than previously shown for [U-13 C5 ]glutamate. Lactate formation from tricarboxylic acid cycle intermediates has previously been demonstrated. It has, however, not been demonstrated that pyruvate, formed from glutamate or glutamine, may reenter the tricarboxylic acid cycle after conversion to acetyl-CoA. The present work demonstrates that this pathway is active, because [4,5-13 C2 ]glutamate was observed in astrocytes incubated with [U-13 C5 ]glutamine in the additional presence of unlabeled glutamate. Furthermore, using mass spectrometry, mono-labeled alanine, glutamate, and glutamine were detected. This isotopomer could be derived via the action of pyruvate carboxylase using 13 CO2 produced within the mitochondria or from labeled intermediates that had stayed in the tricarboxylic acid cycle for more than one turn. 相似文献
30.
Carlos García-Ferris Asuncin de los Ríos Carmen Ascaso Joaquín Moreno 《Journal of phycology》1996,32(6):953-963
Growth of Euglena gracilis Z Pringsheim under photoheterotrophic conditions in a nitrogen-deprived medium resulted in progressive loss of chloroplastic material until total bleaching of the cells occurred. Biochemical analysis and ultrastructural observation of the first stages of the starvation process demonstrated an early lag phase (from 0 to 9 h) in which cells increased in size, followed by a period of cell division, apparently supported by the mobilization of some chloroplastic proteins such as the photosynthetic CO2-fixing enzyme ribulose-1,5-bisphosphate carboxylase/oxygenase. The degradation of the enzyme started after 9 h of starvation and was preceded by a transient concentration of this protein in pyrenoidal structures. Protein nitrogen and photosynthetic pigments as well as number of chloroplasts per cell decreased during proliferation through mere distribution among daughter cells. However, after 24 h, when cell division had almost ceased, there was a slow but steady decline of photosynthetic pigments. This was paralleled by observable ultrastructural changes including progressive loss of chloroplast structure and accumulation of paramylon granules and lipid globules in the cytoplasm. These findings reinforce the role of chloroplastic materials as a nitrogen source during starvation of E. gracilis in a carbon-rich medium. The excess of ribulose-1,5-bisphosphate carboxylase/oxygenase acts as a first reservoir that, once exhausted, is superseded by the generalized disassembly of the photosynthetic structures, if the adverse environment persists more than 24 h. 相似文献