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21.
南岭亚高山泥炭湿地在维持华南亚热地区生态系统和区域水平衡中起关键作用,但在这一区域的古环境定量重建工作还未有系统展开.有壳变形虫是古环境定量重建的有效代用指标.本文以南岭西部的湖南大坪泥炭为例,选取23个样品点,初步开展了该地区现代有壳变形虫的种类组成变化鉴定工作,通过多元统计分析发现,水位埋深(water-table depth, WTD)是影响本地区有壳变形虫种类组成变化的最主要环境因子,这一结果与国外其他地区的研究结果相一致.据此,利用国际上广泛使用的生物-环境因子转换函数模型,初步构建了本研究区域现代泥炭湿地有壳变形虫-水位埋深转换函数关系.研究结果表明,所有转换函数预测的水位埋深与实测水位埋深都呈一定的相关性,但受制于本次采样面积小、鉴定样本量较少和水位环境梯度较窄的条件下,转换函数的预测性能还比较差.此次工作可为将来系统开展华南亚热带地区高山泥炭湿地的古水文定量重建工作奠定宝贵的基础数据. 相似文献
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Masroor Ahmad Bhat Rayees A. Zargar Anchit Modi Manju Aror N.K. Gaur 《自然科学进展(英文版)》2016,26(6):579-583
Silver ions substituted samarium strontium manganite (Sm0.55Sr0.30Ag0.15MnO3) pervoskite was synthesized by using respective oxides in stoichiometric ratio through solid state reaction. The as-prepared sample was characterized by various analytical techniques to confirm its formation and understand the effect of monovalent silver ions in pervoskite lattice. X-ray diffraction pattern confirms the single phase formation while grain morphology in SEM image indicates good connectivity among the grains. The enhancement in metal to insulator transition temperature shows quenched disorder and magnetoresistance phenomena. The magnetoresistance (MR) and temperature coefficient of resistance (TCR) emerge from grain growth factor and homogeneity induced by Ag+ ions in the lattice. The reduction in hysteresis loss resulted from antiferromagnetic - ferromagnetic (TN) and ferromagnetic - paramagnetic (Tc) transitions reveals the removal of disorder in perovskite lattice by Ag+ ions substitution. This increases the magnetic moment across distinct ions on the applying magnetic field. The rise in MR% (~99%) with silver doping emerging from smooth spin tunneling of the grains across the boundary and suppression of the disordered magnetic fluctuations with increase in magnetic field has been reported. The present compound exhibits the first order nature of magnetism and observed first time the highest value of TCR ~ 95%. 相似文献
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Bode M Heide M von Bergmann K Ferriani P Heinze S Bihlmayer G Kubetzka A Pietzsch O Blügel S Wiesendanger R 《Nature》2007,447(7141):190-193
Chirality is a fascinating phenomenon that can manifest itself in subtle ways, for example in biochemistry (in the observed single-handedness of biomolecules) and in particle physics (in the charge-parity violation of electroweak interactions). In condensed matter, magnetic materials can also display single-handed, or homochiral, spin structures. This may be caused by the Dzyaloshinskii-Moriya interaction, which arises from spin-orbit scattering of electrons in an inversion-asymmetric crystal field. This effect is typically irrelevant in bulk metals as their crystals are inversion symmetric. However, low-dimensional systems lack structural inversion symmetry, so that homochiral spin structures may occur. Here we report the observation of magnetic order of a specific chirality in a single atomic layer of manganese on a tungsten (110) substrate. Spin-polarized scanning tunnelling microscopy reveals that adjacent spins are not perfectly antiferromagnetic but slightly canted, resulting in a spin spiral structure with a period of about 12 nm. We show by quantitative theory that this chiral order is caused by the Dzyaloshinskii-Moriya interaction and leads to a left-rotating spin cycloid. Our findings confirm the significance of this interaction for magnets in reduced dimensions. Chirality in nanoscale magnets may play a crucial role in spintronic devices, where the spin rather than the charge of an electron is used for data transmission and manipulation. For instance, a spin-polarized current flowing through chiral magnetic structures will exert a spin-torque on the magnetic structure, causing a variety of excitations or manipulations of the magnetization and giving rise to microwave emission, magnetization switching, or magnetic motors. 相似文献
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Because proteins are central to cellular function, researchers have sought to uncover the secrets of how these complex macromolecules execute such a fascinating variety of functions. Although static structures are known for many proteins, the functions of proteins are governed ultimately by their dynamic character (or 'personality'). The dream is to 'watch' proteins in action in real time at atomic resolution. This requires addition of a fourth dimension, time, to structural biology so that the positions in space and time of all atoms in a protein can be described in detail. 相似文献
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Sato T Mushiake S Kato Y Sato K Sato M Takeda N Ozono K Miki K Kubo Y Tsuji A Harada R Harada A 《Nature》2007,448(7151):366-369
A number of proteins are known to be involved in apical/basolateral transport of proteins in polarized epithelial cells. The small GTP-binding protein Rab8 was thought to regulate basolateral transport in polarized kidney epithelial cells through the AP1B-complex-mediated pathway. However, the role of Rab8 (Rab8A) in cell polarity in vivo remains unknown. Here we show that Rab8 is responsible for the localization of apical proteins in intestinal epithelial cells. We found that apical peptidases and transporters localized to lysosomes in the small intestine of Rab8-deficient mice. Their mislocalization and degradation in lysosomes led to a marked reduction in the absorption rate of nutrients in the small intestine, and ultimately to death. Ultrastructurally, a shortening of apical microvilli, an increased number of enlarged lysosomes, and microvillus inclusions in the enterocytes were also observed. One microvillus inclusion disease patient who shows an identical phenotype to Rab8-deficient mice expresses a reduced amount of RAB8 (RAB8A; NM_005370). Our results demonstrate that Rab8 is necessary for the proper localization of apical proteins and the absorption and digestion of various nutrients in the small intestine. 相似文献
30.
DAI (DLM-1/ZBP1) is a cytosolic DNA sensor and an activator of innate immune response 总被引:4,自引:0,他引:4