共查询到20条相似文献,搜索用时 46 毫秒
1.
海平面上升趋势数据的诊断及中国沿海海平面的上升趋势 总被引:2,自引:0,他引:2
列出不同作者发作的海平面升降趋势的统计结果,指出不同作者所得结果之间的分散性以及造成这种分散性的原因,提出了我国海平面绝对上升率的推荐值。 相似文献
2.
采用文献分析法对ISI Web of Science (institute for scientific information, ISI)核心合集数据库中关于海平面上升文献综合探究,得出结论:(1)海平面上升的发文量从1993—2016年整体呈上升趋势,尤其在2010年后产量大增。(2)发表越久的文献被引次数越高。文献作者数量逐年增多,引用参考文献数量也逐年增加,文献之间联系越来越紧密。(3)美国主导海平面上升研究。对于发文量较多的国家,该国独立发文量和其与他国合作文献量基本持平;对于发文量较少的国家,大部分文献为与他国合作完成。(4)不同机构之间合作是为常态,机构间合作明显多于国家间的合作。(5)关于海平面上升文献发文量最高的期刊刊登文献数占本研究总文献的近6%;期刊研究领域所属学科种类均与geology和environmental sciencesecology以及physical geography等相关。(6)通过关键词研究发现,除气候变化外,盐沼、风暴潮等是近期海平面上升的研究主流。希望通过对目前已出版文献的梳理为后续的研究提供指引及借鉴的依据,并通过对文献分析法的运用,能够使研究者更有针对性地将该方法运用到相关学术领域。 相似文献
3.
4.
海平面上升的风险评估研究进展与展望 总被引:3,自引:0,他引:3
海岸带是海陆交互作用的集中区域,人类活动密集,面对未来海平面上升带来的影响具有敏感性和脆弱性。评估未来海平面上升对海岸带的风险,具有理论与实际意义。根据海平面上升风险评估研究框架,总结了海平面上升、海岸侵蚀、风暴潮淹没、海水入侵、湿地丧失等方面的研究现状,在此基础上,分析了目前研究存在的不足,并提出了海平面上升风险评估未来研究的关键问题。 相似文献
5.
6.
7.
8.
9.
中国沿岸现代相对海平面上升加剧 总被引:5,自引:0,他引:5
本文用线性回归方法,分两个时段分析了中国沿岸25个验潮站相对海平面的年变化速度,计算了相应时段的平均海面,结果表明,中国沿岸现代相对海平面上升加剧。另外,本文还对海平面变化原因进行了讨论。 相似文献
10.
红树林潮滩沉积速率及海平面上升对我国红树林的影响 总被引:9,自引:0,他引:9
我国红树林潮滩沉积速率介于4.1~57mm/a之间,本文通过红树林潮滩沉积速率与当地相对海平面上升速率的比较,认为海平面上升对我国大部分地区红树林不会构成严重威胁,但对当地泥沙来源少,红树林潮滩沉积速率较低的地区会造成严重影响,此外,还对影响红树村潮滩沉积速率的因素进行了探讨。 相似文献
11.
12.
13.
引用国际相关趋势论述我国深海地微生物学的研究状况和研究进展,包括介绍国际间相关研究的历史状况、动态,我国研究的主要课题、内容和成果。展望了我国本领域的前景。 相似文献
14.
蓝藻是一类最原始、最简单的原核藻类生物,是海洋中的主要初级生产者之一。感染蓝藻的病毒称为噬藻体。噬藻体是水生微生物群落的重要组成部分,在控制蓝藻种群动力学及调节生物生产量等方面具有重要的生态学意义。研究噬藻体的遗传多样性有助于完善噬藻体的分类,为进一步探讨噬藻体之间的进化关系、噬藻体与蓝藻之间的相互关系提供理论依据,同时为探索环境变化对噬藻体进化的影响提供新的视点。本文综述噬藻体的分类、影响噬藻体遗传多样性的因素及噬藻体遗传多样性研究常用的靶基因等方面的研究进展。 相似文献
15.
16.
日本海、鄂霍次克海和白令海的古海洋学研究进展 总被引:2,自引:0,他引:2
边缘海的存在使大陆和大洋之间的物质和能量交换变得相当复杂。在构造运动和海平面升降的控制下,边缘海和大洋之间时而连通时而隔绝,各种古气候变化信号都在一定程度上被放大。基于近期有关西北太平洋边缘海的古海洋学研究成果,简要概述了日本海、鄂霍次克海、白令海以及北太平洋地区自中新世以来的古气候和古海洋环境演化特征,并认为它们与全球其它地区一样也受控于因地球轨道参数变化引起的太阳辐射率的变化,大尺度的气候变化具有与地球轨道偏心率周期相对应的100ka周期,而41ka的小尺度周期则受地球自转轴斜率变化的控制。一些突发性的气候变化则是由气候不稳定性、海峡的关闭与开启和其它一些地球气候系统的非线性活动所驱动。但同时作为中高纬度边缘海,它们的古海平面、古海水温度、古洋流等古海洋环境因子的变化特征还受到冰盖扩张和退缩、构造运动、冰川性地壳均衡补偿、东亚季风等因素的影响,具有一定的区域特点。 相似文献
17.
Sea level in the vicinity of Miami, Florida, is from three separate time series: Miami Beach (1932–1980), Haulover Pier (1982–1992), and Virginia Key (1994-present). In order to calculate the ensemble trend in Miami mean sea level (MSL), the three records must be merged with respect to the North American Vertical Datum of 1988. Because NAVD88 minus accepted MSL varies for the stations, the differences are treated as datum shifts, and are corrected accordingly. Thus adjusted, Merged Miami Sea Level (1932–2013) has a linear trend of 23.4 ± 1.3 cm/century, and along with logarithmic and polynomial least-squares fits, all three having a variance explained (r2 × 100) of 82.4%. 相似文献
18.
This paper attempts to assess the use of Global Navigation Satellite System (GNSS) as an accurate, reliable, and easy tool for sea level measurement. The GNSS technique was incorporated into a float based tide gauge system. A prototype of such an instrument was developed based on principles of conventional tide gauges, where high frequency noise is reduced mechanically. The ability of the GNSS based tide gauge (GTG) to monitor sea levels was tested in several experiments. The performance of the GTG was compared to that of a traditional tide gauge. The method of data analysis and data comparison between the GPS measurements and the tide gauge data is presented. The results show that the GTG is equal in performance to the traditional float operated tide gauge. It seems that the GTG is capable of delivering the same level of accuracy (1 cm), and its results are as reliable as its competitor, the traditional float tide gauge. The suggested instrument can be easily integrated into the array of permanent GNSS stations and assist in absolute measurements of sea level changes, caused by global warming and the greenhouse effect, for example. 相似文献
19.
This paper attempts to assess the use of Global Navigation Satellite System (GNSS) as an accurate, reliable, and easy tool for sea level measurement. The GNSS technique was incorporated into a float based tide gauge system. A prototype of such an instrument was developed based on principles of conventional tide gauges, where high frequency noise is reduced mechanically. The ability of the GNSS based tide gauge (GTG) to monitor sea levels was tested in several experiments. The performance of the GTG was compared to that of a traditional tide gauge. The method of data analysis and data comparison between the GPS measurements and the tide gauge data is presented. The results show that the GTG is equal in performance to the traditional float operated tide gauge. It seems that the GTG is capable of delivering the same level of accuracy (1 cm), and its results are as reliable as its competitor, the traditional float tide gauge. The suggested instrument can be easily integrated into the array of permanent GNSS stations and assist in absolute measurements of sea level changes, caused by global warming and the greenhouse effect, for example. 相似文献