Nitrogen assimilation in Lolium perenne colonized by the arbuscular mycorrhizal fungus Glomus fasciculatum

To investigate nitrogen assimilation in Lolium perenne L. colonized by the arbuscular mycorrhizal (AM) fungus Glomus fasciculatum (Thax. sensu Gerd.), nitrate uptake, key enzyme activities, and ¹⁵N incorporation into free amino acids were measured. After a 4-h labelling period with [¹⁵N]nitrate, ¹⁵N content was higher in roots and shoots of AM-plants than in those of control plants. Glutamine synthetase (GS) and nitrate reductase (NR) activities were increased in shoots of AM-plants, but not in roots. More label was incorporated into amino acids in shoots of AM plants. Glutamine, glutamate, alanine and γ-aminobutyric acid were the major sinks for ¹⁵N in roots and shoots of control and AM plants. Interactions between mycorrhizal colonization, phosphate and nitrate nutrition and NR activity were investigated in plants which received different amounts of phosphate or nitrate. In shoots of control plants, NR activity was not stimulated by high levels of phosphate nutrition but was stimulated by high levels of nitrate. At 4 m M nitrate in the nutrient solution, NR activity was similar in control and AM plants. We concluded that mycorrhizal effects on nitrate assimilation are not mediated via improved phosphate nutrition, but could be due to improved nitrogen uptake and translocation.     

Effect of infection by the endophytic fungus Acremonium lolii on growth and nitrogen uptake by perennial ryegrass (Lolium perenne) in flowing solution culture

Clonal tillers of a genotype of perennial ryegrass (Lolium perenne), either with or without the endophytic fungus Acremonium lolii, were grown under natural light in flowing nutrient solutions with mineral N maintained automatically at concentrations of 3 or 30μm NH₄NO₃ for 28 days. Uptake of N was monitored daily and dry matter production was assessed by sequential harvesting. The presence of endophyte had no significant effect on shoot or root biomass production at either N level, but shoot: root ratios were significantly increased by endophyte infection at both N levels at some harvests. All plants absorbed NH₄⁺ preferentially to NO₃^- and the ratio was not affected by endophyte infection. Also, infection did not affect total N content of plants, which was significantly more in plants at the higher N level than at the lower level. It is concluded that endophyte infection had only minor effects on growth and N economy of the plant, under the conditions imposed in this experiment.     

Detection of fungal infection in Lolium perenne by Fourier transform infrared spectroscopy

Aims The goal of the study was to apply Fourier transform infrared (FTIR) spectroscopy followed by chemometrical data treatment for the differentiation of fungi-infected perennial ryegrass (Lolium perenne) from uninfected grass.Methods FTIR was used to rapidly discriminate between leaves of perennial ryegrass (L. perenne) infected by a fungal endophyte (Epichlo?; asexual forms: Neotyphodium) and uninfected leaves. Besides drying and grinding of the sampled leaves, no other preparation steps were needed. FTIR measurements were performed in the attenuated total reflection (ATR) mode. Aliquots of powdered leaf samples were placed on a ZnSe crystal and the spectra were collected, followed by chemometrical analysis (multidimensional factor analysis, hierarchical cluster analysis).Important findings ATR-FTIR allowed a rapid detection of fungal infections in the plant material and proved to be a fast and reliable tool for the differentiation of plant biomass without the need of time-consuming sample preparation.     

Sink control of nitrogen uptake and assimilation during regrowth after-cutting of ryegrass (Lolium perenne L.)

Abstract. The ¹⁵N isotope was used to compare the uptake and the assimilation of NH₄⁺ and NO₃ nitrogen in ryegrass ( Lolium perenne L.) during regrowth after cutting. Uptake of nitrate-N, expressed per plant, was at all times greater than ammonium-N uptake and assimilation decreased in roots and stubble while its assimilation was maintained at a high level in leaves. It has been suggested that ammonium assimilation is directly related to the availability of carbohydrates in the sink organ (leaves) resulting from their remobilization from the source organs (roots and stubble). Nitrate reduction decreased in all organs, while the uptake of NO₃ was still high. After this first period of regrowth, nitrogen assimilation both from nitrate and ammonium increased in all the plants. Nitrate reduction capacity (expressed in μg NO₃-N reduced per g D.W. per d) is 7.5 and 22.5 times greater in leaves than in stubble and roots, respectively. Therefore, nitrogen assimilation in stubble and particularly in roots was mainly dependent on ammonium nitrogen.     

Stay-green compared with non-stay-green Lolium perenne in field swards with different cutting and nitrogen treatments

The purpose of this study was to investigate the effect of the stay‐green trait, originally introduced into perennial ryegrass (Lolium perenne) for amenity purposes, in field swards of stay‐green forage perennial ryegrass managed in different ways for agricultural use. The experimental treatments comprised all 18 combinations of two grass selections (stay‐green and non‐stay‐green), three intervals between cuts and three N treatments. The conclusions were that the introduction of the stay‐green trait (1) may not always confer greater greenness in the early life of a sward; (2) may confer greater greenness during leaf senescence more because carotenoids are unmasked to a lesser extent than because of a reduction in the length of leaf visibly senescing; (3) may reduce herbage yield, particularly when a long interval is allowed between defoliations; (4) may reduce the decline in the concentration of N in herbage during the latter part of a long period of regrowth; (5) may reduce the concentration of Na in herbage.     

黑麦草内生真菌感染状况的检测及定量分析

选取内生真菌特异性引物,成功建立了利用PCR技术对黑麦草中内生真菌感染状况的检测和定量分析方法。此检测方法的准确性高于常规乳酸-苯胺蓝染色法。利用实时荧光PCR定量分析的结果表明：不同植株之间内生真菌含量差异较大,而同株植物相同龄级分蘖之间内生真菌含量无显著差异。由此可见内生真菌的含量不仅与植物种以及品种有关,也与植物的基因型密切相关。     

重金属递进胁迫对黑麦草初期生长的影响

通过研究Cu²⁺、Zn²⁺、Cd²⁺与Pb²⁺胁迫对黑麦草初期生长的影响,结果表明：4种重金属对种子发芽率抑制效应相对较小,尤其Cu²⁺与Zn²⁺的抑制作用最小。高浓度Cu²⁺、Cd²⁺胁迫对株高、根系长度、地上生物量的抑制作用相对较大,尤其Cu²⁺对根系生长的抑制效应最大,在300 mg·L^-1下,与对照相比,根长最高下降了 85.48%。高浓度Cd²⁺胁迫显著降低了叶绿素含量,在300 mg·L^-1时比对照降低了45.51%;与对照相比,Cu²⁺与Zn²⁺所有处理都增加了叶绿素含量。从递进胁迫进程看,一些重金属对某一生长指标的影响往往表现在低浓度具有促进作用,而高浓度又存在明显的抑制效应。     

水分胁迫下内生真菌感染对黑麦草叶内游离脯氨酸和脱落酸含量的影响

以黑麦草为实验对象,研究了干旱胁迫条件下内生真菌感染对植株叶片含水量和叶内游离脯氨酸含量的影响,同时对渗透胁迫条件下植株叶内ABA含量的变化进行了分析。结果表明：①内生真菌的感染有助于使叶片保持较高的含水量;②在两种形式的水分胁迫下,。前期至中期高感染种群的叶片游离脯氨酸含量低于感染种群,而在末期则有高出低感染种群的趋势;③内生真菌感染对黑麦草叶内ABA累积的正效应只发生在轻度渗透胁迫下的较短时间范围内。     

丛枝菌根真菌在土壤氮素循环中的作用

作为植物需求量最大的营养元素,氮素是陆地生态系统初级生产力的主要限制因子。丛枝菌根真菌能与地球上80%以上的陆生植物形成菌根共生体,帮助宿主植物吸收土壤中的P、N等矿质养分。目前,丛枝菌根真菌与氮素循环相关研究侧重于真菌对氮素的吸收形态以及共生体中氮的传输代谢机制,却忽略了丛枝菌根真菌在固氮过程、矿化与吸收过程、硝化过程、反硝化过程以及氮素淋洗过程等土壤氮素循环过程中所起到的潜在作用,并且越来越多的证据也表明丛枝菌根真菌是影响土壤氮素循环过程的重要因子。总结了丛枝菌根真菌可利用的氮素形态及真菌的氮代谢转运相关基因的研究现状;重点分析了丛枝菌根真菌在调控土壤氮素循环过程中的潜在作用以及在生态系统中的重要生态学意义,同时提出了丛枝菌根真菌在土壤氮素循环过程中一些需要深入研究的问题。     

Effects of a stay-green mutation on plant nitrogen relations in Lolium perenne during N starvation and after defoliation

The stay-green mutation of the nuclear gene sid results in inhibition of chlorophyll degradation during leaf senescence in grasses, reducing N remobilization from senescing leaves. Effects on growth of Lolium perenne L. were investigated during N starvation (over 18 d) and after severe defoliation, when leaf growth depends on the remobilization of internal N. Rates of dry mater production, partitioning between shoots and roots, and re-partitioning of N from shoots to roots were very similar in stay-green and normal plants under N starvation. Km and Vmax for net uptake of NH4+ were also similar for both genotypes, and Vmax increased with the duration of N deprivation. The mutation had little effect on recovery of leaf growth following severe defoliation, but stay-green plants recommenced NO3- and K+ uptake 1 d later than normal plants. Import of remobilized N into new leaves was generally similar in both lines. However, stay-green plants remobilized less N from stubble compared with normal plants. It was concluded that the sid locus stay-green mutation has no significant adverse effect on the growth of L perenne during N starvation, or recovery from severe defoliation when plants are grown under an optimal regime of NO3- supply both before and after defoliation. The absence of any effect on leaf dry matter production implies that the difference in foliar N availability attributable to this mutation has little bearing on productivity, at least in the short to medium term.     

多年生黑麦草种子萌发及植株再生的研究

对不同预处理条件下多年生黑麦草种子萌发、愈伤组织诱导以及植株再生进行了研究。结果表明,35℃恒温干燥处理3 h、浸泡16 h后,室温晾48 h的干湿交替及强度为1 000 GS磁场处理30 min均能使种子的发芽率得到显著提高。最适诱导培养基为MS+2,4-D 6 mg·L^-1,有机添加物对于愈伤组织的生长影响并不显著,但可以改善其状态;较为适宜的分化培养基为MS+2 mg·L^-1 6-BA或KT;生根培养基为附加0.5 mg·L^-1 NAA的MS培养基。     

Absorption of nitrate and ammonium ions by Lolium perenne from flowing solution cultures at low root temperatures

Lolium perenne L. cv. 23 (perennial ryegrass) plants were grown in flowing solution culture and acclimatized over 49 d to low root temperature (5°C) prior to treatment at root temperatures of 3, 5, 7 and 9°C for 41 d with common air temperature of 20/15°C day/night and solution pH 5·0. The effects of root temperature on growth, uptake and assimilation of N were compared with N supplied as either NH₄ or NO3 at 10 mmol m^?3. At any given temperature, the relative growth rate (RGR) of roots exceeded that of shoots, thus the root fraction (Rf) increased with time. These effects were found in plants grown with the two N sources. Plants grown at 3 and 5°C had very high dry matter contents as reflected by the fresh weight: freeze-dried weight ratio. This ratio increased sharply, especially in roots at 7 and 9°C. Expressed on a fresh weight basis, there was no major effect of root temperature on the [N] of plants receiving NHJ but at any given temperature, the [N] in plants grown with NHJ was significantly greater than in those grown with NO₃. The specific absorption rate (SAR) of NH⁺₄ was greater at all temperatures than SAR-NO₃. In plants grown with NH⁺, 3–5% of the total N was recovered as NH⁺₄, whereas in those grown with NO^?₃ the unassimilated NO^?₃ rose sharply between 7 and 9°C to become 14 and 28% of the total N in shoots and roots, respectively. The greater assimilation of NH⁺₄ lead to concentrations of insoluble reduced N (= protein) which were 125 and 20% greater, in roots and shoots, respectively, than in NO^?₃-grown plants. Plants grown with NH⁺₄ had very much greater glutamine and asparagine concentrations in both roots and shoots, although other amino acids were more similar in Concentration to those in NO^?₃ grown plants. It is concluded that slow growth at low root temperature is not caused by restriction of the absorption or assimilation of either NH⁺₄ or NO^?₃. The additional residual N (protein) in NH⁺₄ grown plants may serve as a labile store of N which could support growth when external N supply becomes deficient.     

土壤干旱条件下保水剂对多年生黑麦草光合特性的影响

以多年生黑麦草（Lolium perenne Linn．）为研究对象,对土壤干旱条件下（土壤含水量12．6％、10．5％、8．4％和6．3％）使用保水剂后叶片光合特性的动态变化进行了分析。结果显示：随土壤含水量的降低和胁迫时间（12d）的延长,多年生黑麦草叶片的净光合速率（Pn）、气孔导度（Gs）、蒸腾速率（Tr）和光能利用效率（LUE）呈逐渐下降的趋势;随土壤含水量的降低,胞间CO2浓度（Ci）逐渐升高、瞬时水分利用效率（WUE）逐渐降低,但随胁迫时间的延长Ci和WUE则呈现不同的变化趋势;总体上,在土壤含水量不同的条件下及不同的胁迫时间各指标均有显著差异（P〈0．05）。与未添加保水剂的各处理组相比,添加质量分数2％保水剂后多年生黑麦草叶片的Pn、Gs、WUE和LUE值均增大,而Ci和Tr值则降低,差异达显著水平（P〈0．05）。研究结果表明：合理使用保水剂能提高多年生黑麦草叶片的光合能力以及土壤的保水能力,增强多年生黑麦草对干旱环境的适应性。     

Effects of endophytic fungi on the phenotypic plasticity of Lolium perenne (Poaceae)

The effects of high vs. low levels of endophytic fungi on the phenotypic plasticity of cloned genotypes were examined in perennial ryegrass (Lolium perenne L.). The objectives were to determine whether endophytic fungi influence plastic responses of host genotypes to variable soil nutrients and whether or not endophyte infection and host genotype interact to determine the extent of this plasticity. Twelve infected genotypes were cloned into ramets: half the ramets were treated with the systemic fungicide Benomyl to reduce or eliminate the endophyte, while the other half were untreated. Ramets of each genotype were subjected to high, medium, or low levels of nutrients in the greenhouse for 11 wk. Tiller number, leaf area, and leaf mass were determined after 11 and 25 wk. The fungicide significantly reduced the level of endophyte infection. Responses to nutrient conditions in relation to fungicide treatment were genotype specific: for some genotypes, high levels of endophytic fungi appeared to reduce plasticity, while for other genotypes the endophyte had no effect. The potential for microscopic symbionts to affect phenotypic plasticity in genetically variable populations has not often been recognized. However, the clandestine effects of symbionts on the plasticity of host genotypes could impact microevolutionary processes occurring within plant populations that occupy heterogeneous environments.     

Effects of sheath tube length on leaf development in perennial ryegrass (Lolium perenne L.)

Position in and contribution of leaf laminae to the canopy of forage grasses are important both in determining herbage growth rates and intake rate by grazing animals. These canopy characteristics are controlled by the way dry matter is apportioned between sheath and lamina in growing leaves. The objective of this work was to determine how the development of individual leaves is affected by altering the effective length of the psuedostem tube, on the assumption that the light environment within the tube varied. The development of a leaf from initiation at the apex to maturity was followed by successive destructive dissections of tillers. Vertical incisions were made in the pseudostem of each tiller to three different depths. The three treatments imposed were — no incision (control), moderate and severe incision of the sheath length. Destructive harvests of tillers followed 3, 6, 12 and 24 days after imposition of treatments. Incision resulted in the length of the monitored leaf being reduced significantly at all harvests, and differentiation of the sheath beginning earlier. The length reduction reflected a reduction in both cell size and cell number and the effects were evident at the earliest harvest. The data support the theory that leaf size and timing of onset of sheath development are influenced by the environment of the developing leaf. The present results indicate that sheath tube length affects leaf development and suggests that the effects are substantially explained by a direct light effect on the location and depth of the elongation zone.