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81.
Kapoor Rupam Giri Bhoopander Mukerji Krishan G. 《World journal of microbiology & biotechnology》2002,18(5):459-463
The effects of application of two arbuscular mycorrhizal (AM) fungi Glomus macrocarpum and G. fasciculatum on shoot biomass and concentration of essential oil in Anethum graveolens L. and Trachyspermum ammi (Linn.) Sprague fruits were evaluated. Results revealed significant variation in effectiveness of the two AM fungal species. AM fungal inoculation in general improved the growth of the plants. On mycorrhization, the concentration of essential oil increased up to 90% in dill and 72% in carum over their respective controls. Glomus macrocarpum was more effective than G. fasciculatum in enhancing the oil concentration. The constituents of the essential oils were characterized by gas liquid chromatography. The levels of limonene and carvone were enhanced in essential oil obtained from G. macrocarpum-inoculated dill plants, while G. fasciculatum inoculation resulted in a higher level of thymol in carum. 相似文献
82.
在育苗和栽培基质中添加具有生物活性的微生物群体是改善无土栽培有机基质性状和提高应用效果的重要途径。该试验通过在辣椒育苗和栽培基质中添加丛枝菌根真菌制剂恩益碧(NEB-F),研究了AMF对辣椒生长、果实产量、光合特性以及根际微生物多样性和酶活性的影响。结果显示:(1)基质添加AMF显著促进了辣椒植株生长,并明显提高了产量。(2)AMF处理显著提高了辣椒植株叶片的净光合速率(Pn)、气孔导度(Gs)、蒸腾速率(Tr)、水分利用效率(WUE),而使胞间二氧化碳浓度(Ci)显著降低,同时对辣椒叶片最大光化学效率(Fv/Fm)的影响不大,而使实际光化学效率(ФPSⅡ)、光化学猝灭(qP)和表观光合电子传递效率(ETR)显著提高。(3)基质添加AMF显著增加基质中细菌、放线菌数量,而降低真菌数量,并明显提高了根际微生物多样性指数以及过氧化氢酶、碱性磷酸酶和尿酶活性;添加AMF基质中的细菌、真菌、放线菌数量均与其过氧化氢酶、脲酶、碱性磷酸酶之间呈显著或极显著正相关关系。研究表明,基质添加AMF不仅增大了辣椒叶片气孔导度,而且促进电子传递速率,提高CO2同化利用效率和净光合速率;同时促使辣椒根际微生物区系从低肥力的"真菌型"向高肥力的"细菌型"转化,提高根际微生物多样性和酶活性,有助于维持辣椒根际生态系统的稳定性与和谐性,从而促进辣椒幼苗生长,并提高产量。基质中添加AMF是提高有机基质应用效果的有效途径。 相似文献
83.
丛枝菌根共生体中碳、氮代谢及其相互关系 总被引:1,自引:1,他引:0
丛枝菌根共生体(arbuscular mycorrhiza, AM)是丛枝菌根真菌(arbuscular mycorrhizal fungi, AMF)与宿主植物之间形成的互惠共生形式.共生体中的碳、氮交换和代谢影响着宿主植物和共生真菌之间的营养平衡和资源重新分配,在物质和能量循环中发挥着重要作用.宿主植物光合固定的碳输送到真菌内,并且分解和释放真菌所需的生命物质和能量,包括促进孢子萌发、菌丝生长和提高氮等营养元素的吸收;而菌根真菌利用宿主植物提供的碳骨架和能量,发生氮的转化和运输,最终传递给宿主植物供其利用.本文综述了丛枝菌根共生体中碳、氮传输和代谢的主要模式,碳、氮的交互影响和调控机制,以促进丛枝菌根在可持续农业和生态系统中的应用. 相似文献
84.
Areas of locally intense and frequent grazing, or ‘hotspots’, are pervasive features in tropical grasslands and savannas. In some ecosystems, hotspot presence is clearly associated with edaphic factors (e.g., high clay content and elevated soil fertility), such as those that develop in abandoned cattle bomas. Studies in a range of other savanna ecosystems, however, have failed to find intrinsic soil differences between hotspots and the surrounding matrix. Also, it remains unclear to what extent hotspots are associated with specific assemblages of nutrient‐rich plant species, as opposed to being a manifestation of intraspecific variation in nutritive quality. We conducted simultaneous studies in Kruger (South Africa) and Serengeti (Tanzania) National Parks to re‐evaluate the role of edaphic correlates of hotspot occurrence and to test whether intraspecific variation in plant quality occurs across hotspot‐matrix boundaries. We sampled soils and plants in paired hotspot and matrix plots at multiple sites within each ecosystem to test our a priori hypothesis that hotspots would be associated with distinct species assemblages and differences in soil fertility. We found clear hotspot‐matrix differences in foliar N, particularly within species, despite finding no differences in any soil or plant–soil variables, including N mineralization potential and mycorrhizal inoculation levels. We found only weak differences in community composition across the boundary, suggesting that intraspecific variation in foliar N rather than species turnover is mainly responsible for the enhanced nutritive value of hotspot vegetation. We propose that grazer–plant interactions may be stronger drivers of hotspot maintenance in these systems than plant–soil interactions. 相似文献
85.
Michael Bitterlich Undine Krügel Katja Boldt-Burisch Philipp Franken Christina Kühn 《Plant signaling & behavior》2014,9(10)
Transgenic tomato plants with reduced expression of the sucrose transporter SlSUT2 showed higher efficiency of mycorrhization suggesting a sucrose retrieval function of SlSUT2 from the peri-arbuscular space back into the cell cytoplasm plant cytoplasm thereby limiting mycorrhiza fungal development. Sucrose uptake in colonized root cells requires efficient plasma membrane-targeting of SlSUT2 which is often retained intracellularly in vacuolar vesicles. Protein-protein interaction studies suggested a link between SISUT2 function and components of brassinosteroid biosynthesis and signaling. Indeed, the tomato DWARF mutant dx defective in BR synthesis1 showed significantly reduced mycorrhization parameters.2 The question has been raised whether the impact of brassinosteroids on mycorrhization is a general phenomenon. Here, we include a rice mutant defective in DIM1/DWARF1 involved in BR biosynthesis to investigate the effects on mycorrhization. A model is presented where brassinolides are able to impact mycorrhization by activating SUT2 internalization and inhibiting its role in sucrose retrieval. 相似文献
86.
Caroline Angelard Colby J Tanner Pierre Fontanillas Hélène Niculita-Hirzel Frédéric Masclaux Ian R Sanders 《The ISME journal》2014,8(2):284-294
Arbuscular mycorrhizal fungi (AMF) are among the most abundant symbionts of plants,
improving plant productivity and diversity. They are thought to mostly grow vegetatively,
a trait assumed to limit adaptability. However, AMF can also harbor genetically different
nuclei (nucleotypes). It has been shown that one AMF can produce genotypically novel
offspring with proportions of different nucleotypes. We hypothesized that (1) AMF respond
rapidly to a change of environment (plant host) through changes in the frequency of
nucleotypes; (2) genotypically novel offspring exhibit different genetic responses to
environmental change than the parent; and (3) genotypically novel offspring exhibit a wide
range of phenotypic plasticity to a change of environment. We subjected AMF parents and
offspring to a host shift. We observed rapid and large genotypic changes in all AMF lines
that were not random. Genotypic and phenotypic responses were different among offspring
and their parents. Even though growing vegetatively, AMF offspring display a broad range
of genotypic and phenotypic changes in response to host shift. We conclude that AMF have
the ability to rapidly produce variable progeny, increasing their probability to produce
offspring with different fitness than their parents and, consequently, their potential
adaptability to new environmental conditions. Such genotypic and phenotypic flexibility
could be a fast alternative to sexual reproduction and is likely to be a key to the
ecological success of AMF. 相似文献
87.
Alessandro Desirò Alessandra Salvioli Eddy L Ngonkeu Stephen J Mondo Sara Epis Antonella Faccio Andres Kaech Teresa E Pawlowska Paola Bonfante 《The ISME journal》2014,8(2):257-270
Arbuscular mycorrhizal fungi (AMF) are important members of the plant microbiome. They are obligate biotrophs that colonize the roots of most land plants and enhance host nutrient acquisition. Many AMF themselves harbor endobacteria in their hyphae and spores. Two types of endobacteria are known in Glomeromycota: rod-shaped Gram-negative Candidatus Glomeribacter gigasporarum, CaGg, limited in distribution to members of the Gigasporaceae family, and coccoid Mollicutes-related endobacteria, Mre, widely distributed across different lineages of AMF. The goal of the present study is to investigate the patterns of distribution and coexistence of the two endosymbionts, CaGg and Mre, in spore samples of several strains of Gigaspora margarita. Based on previous observations, we hypothesized that some AMF could host populations of both endobacteria. To test this hypothesis, we performed an extensive investigation of both endosymbionts in G. margarita spores sampled from Cameroonian soils as well as in the Japanese G. margarita MAFF520054 isolate using different approaches (molecular phylotyping, electron microscopy, fluorescence in situ hybridization and quantitative real-time PCR). We found that a single AMF host can harbour both types of endobacteria, with Mre population being more abundant, variable and prone to recombination than the CaGg one. Both endosymbionts seem to retain their genetic and lifestyle peculiarities regardless of whether they colonize the host alone or together. These findings show for the first time that fungi support an intracellular bacterial microbiome, in which distinct types of endobacteria coexist in a single cell. 相似文献
88.
89.
Differences in above- and below-ground responses to ozone between two populations of a perennial grass 总被引:5,自引:0,他引:5
Our study examined the influence of elevated ozone levels on the growth and mycorrhizal colonization of two populations of Elymus glaucus L. (blue wildrye). We hypothesized that ozone would reduce carbon availability to the plants, particularly below ground, and would affect mycorrhizal colonization. Because of the wide geographic range of E. glaucus, two populations of plants were selected from areas of contrasting ozone histories to examine intraspecies variation in response to ozone. Two populations of E. glaucus (southern California versus northern California) exposed in a factorial experiment involving ozone, mycorrhizal inoculation with Glomus intraradices Schenck and Smith, and plant source population. Ozone had a subtle effect on leaf area and number of tillers but did not affect overall root:shoot ratio in either population. The impact of ozone on above-ground growth characteristics was most pronounced in the southern population that came from a high-ozone environment, while below-ground responses such as reduced arbuscular colonization was most pronounced in the northern population which originated in a low-ozone environment. Further analysis of soil characteristics from the northern population of plants revealed a significant reduction in active soil bacterial biomass and an increase in total fungi per gram dry weight soil, suggesting a possible role for ozone in altering soil processes. Whether or not population differences in response to ozone were due to genetic shifts resulting from prior ozone remains to be determined. However, these subtle but important differences in population response to ozone above- and below-ground have significant implications in any attempt to generalize plant response, even within a species. Future research efforts need to include better characterization of intraspecific variation in response to ozone as well as possible adaptive strategies that may result from chronic ozone exposure. 相似文献
90.
菌根及其在荒漠化土地恢复中的应用 总被引:30,自引:2,他引:28
对菌根的作用及其荒漠化对其影响,以及菌根在荒漠化土地恢复中的应用进行了探讨,指出菌根不仅能够促进植物个体养分的吸收,提高植物光合作用,增强植物抗旱、抗盐性,而且能够调节群落内植物间的关系、群落的演替轨道及其生物多样性、耕作、灌溉、过度放牧和开矿等诱发土地荒漠化过程的人类活动直接影响菌根的建立和生存,采用外来菌引入及原来残存菌培育,在恢复区建立丛状菌根植物,菌木化菌根造林及开矿土地管理中表土的存贮等方式都会有力地促进恢复地菌根的建立,并可缩短恢复周期。 相似文献