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91.
Seasonal and inter-annual variations of the primary types of the Arctic sea-ice drifting patterns 总被引:4,自引:0,他引:4
Abstract Monthly mean sea ice motion vectors and monthly mean sea level pressure (SLP) for the period of 1979-2006 are investigated to understand the spatial and temporal changes of Arctic sea-ice drift. According to the distinct differences in monthly mean ice velocity field as well as in the distribution of SLP, there are four primary types in the Arctic Ocean: Beaufort Gyre+Transpolar Drift, Anticyclonic Drift, Cyclonic Drift and Double Gyre Drift. These four types account for 81% of the total, and reveal distinct seasonal variations. The Cyclonic Drift with a large-scale anticlockwise ice motion pattern trends to prevail in summer while the Anticyclonic Drift with an opposite pattern trends to prevail in winter and spring. The prevailing seasons for the Beaufort Gyre+Transpolar Drift are spring and autumn, while the Double Gyre Drift trends to prevail in winter, especially in Feb- ruary. The annual occurring times of the Anticyclonic Drift and the Cyclonic Drift are closely correlated with the yearly mean Arc- tic Oscillation (AO) index, with a correlation coefficient of -0.54 and 0.54 (both significant with the confident level of 99%), re- spectively. When the AO index stays in a high positive (negative) condition, the sea-ice motion in the Arctic Ocean demonstrates a more anticlockwise (clockwise) drifting pattern as a whole. When the AO index stays in a neutral condition, the sea-ice motion becomes much more complicated and more transitional types trend to take place. 相似文献
92.
季节性冻融是干旱区土壤盐碱化形成的主要驱动因子,但冻融过程中土壤水盐耦合关系及热量调控机理仍不清楚。通过分析2009年11月~2010年5月新疆玛纳斯河流域典型盐荒地季节性冻融过程中土壤剖面160 cm以内的水分、盐分和温度动态变化,探讨了不同土层冻融过程中水热盐的耦合关系。结果表明:土壤最大冻结深度为150 cm左右,表土层(0~40 cm)温度与气温关系密切;土壤剖面水分呈现“C”型垂直分布,表土层和底土层(100~160 cm)含水量较大,而心土层(40~100 cm)含水量不足10%,土层平均含水率在冻融前期增加了12.91%,而在初蒸期减少了10.01%;土壤剖面盐分在冻结期和初蒸期表聚作用明显,心土层和底土层含盐量稳定,土壤剖面含盐量表现为“积盐-脱盐-再积盐”的变化过程。水热盐之间具有高度协同性,心土层和底土层表现为水盐相随、而表土层为水去盐留的耦合特征,热量传输是调控水盐运移的关键因素。 相似文献
93.
北京郊区乡村旅游季节性特征及其影响因素 总被引:6,自引:0,他引:6
京郊地区乡村旅游发展迅速,已成为北京居民重要的休闲旅游目的地。本研究以2008-2010 年京郊乡村地区的旅游统计数据为基础,采用月度指数、快速样本聚类法和基尼指数等指标及方法,分析并测定京郊地区乡村旅游的月度分布特征、旅游季节划分以及旅游季节性强度等季节性特征。基础数据分析结果显示:京郊乡村旅游的季节性特征明显,在全年范围内形成旺季、平季和淡季3 个旅游季节,其中4-5 月、7-8 月和10 月是3 个旅游旺季,11 月到来年1 月是旅游淡季,其余月份为平季。然后,从自然因素(地理条件、气候条件)和社会因素(公共假日、社会关系和节事活动)等2 个主要方面入手,阐释了京郊地区乡村旅游季节性特征的影响因素,指出相对静态(可调节性较弱)的公共假日和相对动态(可调节性较强)的节事活动是京郊地区乡村旅游季节性特征的主要成因。 相似文献
94.
季节性放牧对黄河源区高寒草甸植被耗水量及水分利用效率的影响 总被引:1,自引:0,他引:1
研究季节性放牧对植被耗水量、水分利用效率的影响,是探索如何提高高寒草甸水源涵养能力的重要内容之一。以青藏高原三江源高寒草甸季节性放牧样地与自然放牧样地为研究对象,分析了季节性放牧和自然放牧条件下高寒草甸植被耗水量、水分盈亏量、水分利用效率(WUE)的动态变化及其与环境因素的关系。结果表明:在植被生长季(5-9月),季节性放牧样地和自然放牧样地植被耗水量在5月开始增加, 7月达最高,分别为160.94 mm和145.96 mm,季节性放牧样地植被总耗水量(395.52 mm)比自然放牧样地(348.14 mm)高13.61%。生长季平均来看,季节性放牧样地和自然放牧样地5-9月水分正盈余,分别为13.58 mm和70.96 mm,但在植物生长旺季(8月)略有亏缺。季节性放牧样地和自然放牧样地植被耗水量均与降水量呈弱的正相关关系。季节性放牧样地植被地上净初级生产量(ANPP)、地下净初级生产量(BNPP)和总的净初级生产量(NPP)比自然放牧样地分别高32.54 g·m-2、5.96 g·m-2、38.50 g·m-2,季节性放牧样地ANPP的水分利用效率(WUE)比自然放牧样地高53.85%,而BNPP、NPP的WUE比自然放牧样地分别低13.06%和9.97%。这表明,季节性放牧可提高植被生产量和耗水量,但对高寒草甸WUE的影响因放牧方式不同导致地上、地下生物量分配格局不同而有所差异。 相似文献
95.
以辽宁省为例,采用统计分析方法,根据辽宁省61个气象站1951-2013年0~320 cm地温资料,分析了季节性冻土区地温场结构和变化特征。结果表明:地温最冷月出现时间随着深度增加而推后,辽宁各地浅层地温最冷月基本均为1月,深层地温最冷月为1-5月,深度越深温度越高。地温最热月出现时间也随深度增加而推后,浅层地温最热月为7、8月,深层地温最热月为8-10月,深度越深温度越低。越深层地温受地表影响越小,320 cm深度与地表的月平均最大温差达到19℃左右,40 cm深度与地表的月平均最大温差仅在8℃左右。随着深度增加,地温的季节变化减小,沈阳320 cm深度地温年内温差不足8℃。5~80 cm深度3-8月为储能期,160 cm深度5-9月为储能期,320 cm深度6-10月为储能期。越接近地表,地温日变化越显著,40 cm以下深度基本可以忽略日变化。沈阳地温升高程度大于气温,以向大气输送热量为主。地表最冷月变暖率明显大于最热月,但随着土层加深各土层最冷月、最热月变暖的程度无明显规律。深层地温的年际变化有时会受到更深层热源的非气候扰动。地温变化对气候、冻土区域工程等的影响不容忽视。 相似文献
96.
97.
Chemical characteristics and environmental significance of fresh snow deposition on Urumqi Glacier No. 1 of Tianshan Mountains, China 总被引:2,自引:0,他引:2
Ice and snow chemistry of alpine glaciers is crucial for the research of regional atmospheric environment change. Fresh snow samples were weekly collected from Urumqi Glacier No.1 in the Tianshan Mountains, Xin- jiang, China, and the chemical characteristics and seasonal variations of major ions, mineral dust, δ18O and trace metals were measured. Results show that the concentrations of major ions in the snow are Ca2+ SO42- NH4+ NO3- Cl- Na+ Mg2+ K+, in which Ca2+ is the dominant cation, and SO42-is the dominant anion. All major ions have close positive correlations with each other except NO3-. δ18O shows positive correlation with air temperature change during the study period. Mineral dust particle and major ionic concentrations in fresh snow have obvious seasonal change, with high concentration in spring but low concentration in summer and autumn, which indicates that the chemical mass input from Asian dust activity to snow is very significant. Temporal changes of trace metals in fresh snow, e.g., Cd, Pb, Zn, Al, Fe, have shown that human-induced pollution of central Asian region also has large contribution to the snow chemistry on alpine glaciers of the Tianshan Mountains. 相似文献
98.
99.
中国南方调整水稻种植格局——一种水稻生产预先适应气候变化的选择(英文) 总被引:1,自引:0,他引:1
Rice planted in southern China accounts for 94% of the total in sown acreage and 88% of the total in production, which matters a lot to Chinese food security. However, due to the prolonged conflict between water availability and rice growth in spatial/temporal distribu-tion, rice production suffers from seasonal drought at acreage of 16%-22%, which compro-mises food production capacity and food security. Focusing on the spatial distribution of seasonal drought with rice and the practices to adapt to it, and based on an analysis of bal-anced water supply for and demand by rice at a growing season scale during 1981-2030, this paper assesses the changing seasonal drought in the process of rice production under the changing climate in the future, and identifies general rice re-cultivation options for climate change adaptation. Some conclusions can be drawn as follows. (1) Rice suggests a decline in seasonal drought, with early season rice (early rice hereafter) by 12,500 km2, middle season rice (middle rice) by 80,000 km2, and in particular late season rice (late rice) by 25,000 km2, which accounts for almost 20% of its cultivated acreage. It is indicated that due to climate change, seasonal drought in major rice producing areas tends to alleviate in general, late season rice in particular. (2) Future climate change brings about a significant impact on the spatial/temporal distribution of water resources in rice producing areas in China. Based on ’pre-designed’ adaptation actions for rice-re-cultivation, the rice cultivation pattern undergoes a significant alteration between 1981-2000 and 2001-2030. In eastern Guizhou and western Hunan, the pattern of single early plus single dry farming is changed into double cropping. In eastern Hunan, the pattern of dry cropping is changed into single early plus single dry farming. In northern Anhui, the pattern of dry farming cropping is changed into middle rice. All this is aimed at a potential adequate availability of water for rice production in the future. (3) Rice re-cultivation patterns developed in this paper help re-balance water demand and supply for rice growth using the spatial analysis tool to adapt rice growth to the changing water avail-ability from spatial perspective, and come up with rice producer-friendly re-cultivation options in response to climate change. 相似文献
100.