公路隧道洞口景观构景元素分析

为了明确景观在隧道工程领域的研究和应用现状,对洞口景观构景元素进行了系统梳理,分析了构景元素的具体表现形式并提出了相应的设计建议。结果表明:隧道洞门类型决定了洞口景观设计的整体风格,借助洞门装饰、肌理、颜色、亮度、线型等元素的整体表现发挥洞门外观的构景效果;经过暗化和柔化处理的洞门墙面,可以减少对光线的反射,降低洞口亮度,减缓洞门压迫感;洞口绿化通过生态防护和栽植绿化达到生态修复和美化环境的目的,借助植物自身的吸光能力和低反射率对洞口进行减光处理,营造舒适的行车环境,是目前公路隧道景观设计的主流;洞口铭牌、小品建筑、彩色路面等诱导系统具有信息导向作用,通过造型、色彩、位置及风格的合理设置能够正确发挥视线诱导功能,提高驾驶人注意力;考虑地域文化以及与周围环境协调性的洞口景观设计可以缓解驾驶人心理紧张感,提高安全性和舒适性。

高校校园社区人居环境中心区景观构景元素设计

高校校园社区人居环境景观乃至整个高校校园人居环境文化气质的形成是一个渐进的历史形成过程。高校校园社区人居环境景观整体设计中应当契合所在区域的具体环境,明晰学生公共活动的具体要求与特定地域的社会文化情形,并加强该区域的文化性格与人文色彩,保障区域环境的自明性、永恒特性与场所历史文化特质,从而形成丰富多元的艺术形态。文中通过高校校园社区人居环境中心区景观的概念内涵、文化内涵、构景元素设计的总结与分析,希望对高校人居环境建设的研究有所启示与引导。

古村落景观构景及其旅游功能研究

简要介绍了古村落景观的概念及其表现特征,以构景要素的存在形式为依据,归纳总结了古村落景观的构景要素,并阐述了古村落景观的旅游吸引功能,对今后古村落旅游开发具有一定指导意义。

古典园林里的窗景与愿景

园林是人们对向往生活的一种描绘。有人说,天上的天堂不过如此,但凡地上有一个最美丽的园子,那就是园林了。在中国古典园林的构景元素中,园林花窗构建了园林内外空间的联系,窗在实用功能之外也寄托了美好的愿望。中国古典园林是精彩纷呈的空间。文人雅士希望身居闹市,又能长期享受大自然的山林野趣,所谓“大隐隐于市”,于是,私家园林应运而生。佛教的流行,又助长了超脱尘俗、寄情山水思想的传播,使文学、绘画多倾向于自然山水园林艺术,向寻求自然情趣方向发展。

中国古典园林意境美初探

意境是中国古典园林景观的灵魂,意境的灵魂是通过四大造景基本元素——建筑、山石、水和植物体现出来的。无论是皇家园林还是私家园林,都利用四大构景元素进行组景,从自然中来,到创造理想的自然,即"本于自然,高于自然"。

Geochemical characteristics and geological significance of Cretaceous phonotephrite from the Mid-Pacific Mountains

Systematic analyses were conducted including the petrographic features, major and trace elements, Sr and Nd isotopic compositions, and mineral structure and compositions of whole rocks. Mid-Pacific Mountain volcanic rocks are mainly phonotephrite with a porphyritic texture. Phenocrysts are mainly composed of Ca-rich plagioclase, clinopyroxene and nepheline.These volcanic rocks are significantly rich in large-ion lithophile and light rare earth elements, without obvious Eu anomalies(δEu=0.99–1.03), and with relatively enriched^(87) Sr/^(86) Sr(0.703829–0.704313) and^(143) Nd/^(144) Nd isotopic ratios(0.512857–0.512871), suggesting that they have similar but more enriched features than the OIB magmatic source. These volcanic rocks may originate from relatively deep magma source with the existence of spinel-garnet Iherzolites, and have undergone partial melting at a low degree of 1–3%. In addition, The residual Nb-Ta minerals(such as sphene, rutile, perovskite) may remain in the mantle source, and the magma components have undergone metasomatism by carbonate melt/fluid or alkali-rich fluid, causing high contents of incompatible elements and significant loss of Nb, Ta and Ti in these volcanic rocks. There are many similarities between the phonotephrites in the Mid-Pacific Mountain and the volcanic rocks in the Line Islands based on the tectonic settings and the geochemical characteristics. We thus speculate that Site 313 volcanic rocks in the Mid-Pacific Mountain is most likely to be a continuation of the Line Islands.