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Invasive alien plants have long been recognized as a threat to low-elevation, disturbed environments, but the case of Linaria vulgaris Mill. in Yellowstone National Park and Gallatin National Forest shows that invasions can also spread to high-elevation natural reserves. Because invasions in protected areas are a product of complex processes occurring over a broad range of scales, we argue that a multi-scale research approach is needed to capture both patterns and potential mechanisms of the invasion process. Mapping L. vulgaris at the landscape scale, we found the species occupying a broad range of sites, apparently originating from just 2 historical sources, colonizing both human-caused and natural disturbances. Analyzed at the stand scale, patches tend to aggregate in newly invaded areas and disperse in heavily infested areas. The data suggest that patches grow in size by clonal growth and in number by creation of new satellite patches. Radial patch growth rates are related to site characteristics. Clonal patch scale analysis shows that ramet densities and Linaria 's effects on native plants are highest in patch centers. Both mean ramet height and reproductive vs. vegetative ramet height ratio are higher in patch cores. These results suggest that L. vulgaris may displace natural vegetation by maintaining vigor even in large and old clonal patches. Our results confirm that L. vulgaris is a significant threat to native biodiversity in open, human- or naturally disturbed environments in protected areas of the Rocky Mountains. A multi-scale method can allow managers to better understand patterns of invasion and prioritize management activities to control invasive alien plants, especially in heterogeneous protected area landscapes. 相似文献
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极其微小的机器人将引起制造业的革命。原则上 ,一个分子大小的组装器可以建造几乎所有的东西 ,包括复制它自己 相似文献
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(续上期 )在超高温度和密度下 ,物质存在新的状态吗 ?在极端能量条件下 ,物质要经历一系列的变化 ,原子会分裂成它们的最小组成单元。这些组成单元是被称为夸克和轻子的基本粒子。就我们所知 ,这些基本粒子不会再分裂成更小的部分了。夸克非常喜好群居 ,人们从未看到过单个的夸克。相反 ,它们会与其他夸克结合形成质子和中子 (每个质子由三个夸克组成 )。进一步 ,它们会与轻子 (比如电子 )结合形成整个原子。例如 ,氢原子就是由一个质子和一个绕着它运动的电子组成的。接下来 ,原子会与其他原子结合形成分子 ,比如H2 O (水分子 )。随着温… 相似文献
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William Wilson Anku Samuel Osei-Bonsu Oppong Sudheesh Kumar Shukl Eric Selorm Agorku Poomani Penny Govender 《自然科学进展(英文版)》2016,26(4):354-361
This paper reports the degradation of indigo carmine and eosin Y dyes in water, catalyzed by cobalt and multiwalled carbon nanotube modified zirconium oxide nanocomposite(Co-ZrO_2-MWCNTs) under simulated visible light. The bare ZrO_2,ZrO_2-MWCNTs, Co-ZrO_2 and Co-ZrO_2-MWCNTs with different percentage compositions of cobalt were synthesized by homogeneous co-precipitation method. Characterization of the prepared nanocomposites was carried out using X-Ray powder Diffraction(XRD), Fourier Transformer Infrared(FTIR) Spectroscopy, Transmission Electron Microscopy(TEM), Raman Spectroscopy,(UV–Vis)-Spectroscopy and Energy Dispersive Spectroscopy(EDS) for their structure, formation,morphology, size and elemental analysis. The experimental results indicated that all the cobalt and MWCNTs modified nanocomposites demonstrated higher photocatalytic activities compared to the bare ZrO_2. The most efficient catalyst(0.5% Co-ZrO_2-MWCNTs) with the band gap and Ka values of 5.21 e V and 16.86*10~(-3) min~(-1) respectively exhibited 98% degradation efficiency toward indigo carmine and 87% toward eosin Y in 180 min. 相似文献
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根治与遗传有关的疾病是人类基因组计划的主要目标之一。在本文中,美国科普作家埃里克·S·肝格雷斯向您介绍什么是基因疗法以及基因疗法的发展方向。人类基因组计划是一项规模宏大的计划,其目的是要给人类DNA中100,000多个基因绘制图道并对它们进行序列测定。这是一项极其艰巨的任务,自1986以来,已有数百名科学家在世界各地的实验室里为之而奋斗着。最早得以鉴定的人类基因是那些眼疾病──如囊性纤维变性──有关的基因,那是早在对年代的事情了。对整个基因组(即存在于一套完整的染色体中的全部基因)进行序列测定是出于这样的愿… 相似文献