Wind as an Ecological Agent at Treelines in North America,the Alps,and the European Subarctic   总被引：2，自引：1，他引：1  

《自然地理学》2013,34(3):203-233

The altitudinal treeline ecotone is a windy environment where wind velocities and directions are controlled by local mountain topography and also by the distribution pattern and structures of tree stands. Wind may override the role of heat deficiency in determining treeline position, spatial pattern, ecological conditions, and tree growth. Regular strong permanent winds restrict tree height and usually cause asymmetric and suppressed growth forms that are common in the treeline ecotone. Apart from direct physiological and mechanical effects on trees and ground vegetation, wind also disperses seeds, relocates snow, and locally erodes soils in the treeline ecotone. Wind effects must be considered an important factor that may delay or even preclude establishment of seedling trees on wind-swept terrain. Discussions of a potential climatically driven upward shift of the treeline at the landscape and smaller scales should give greater attention to the varying wind effects because warming cannot compensate for these other factors. The relative importance of microsite facilitation providing shelter from the wind will increase in parallel with the upslope migration of the tree limit into a much windier environment.  相似文献   

Visualization and damage assessment for flooded area     

Su Guozhong  Yan Li  Liu Nan  Liu Renyi 《地球空间信息科学学报》2013,16(3):180-186

A practical method for visualizing flood area and evaluating damage is presented, which consists of two technical approaches: self-programming and adapting commercial GIS platforms. The low-cost and easy-to-use GIS-Based model developed by self-programming can meet current requirements of most local authorities, especially in developing countries. In this model, two cases, non-source flood and source flood, are distinguished and the Seed-spread algorithm suitable for source-flood is discussed; The flood damage is assessed by overlaying the flood area range with thematic maps and other related social and economic data. and all thematic maps are converted to raster format before overlay analysis. Two measures are taken to improve the operation efficiency of speed seed-spreed algorithm. The accuracy of the model mainly depends on the resolution and precision of the DEM data, and the accuracy of registering all raster layers and the quality of attribute data.  相似文献   

水稻籽实及其根系土壤中镉含量的相关性研究——以几个金土地工程土地整理区为例     

喻凤莲  周成明  邓锐 《四川地质学报》2012,(4):468-471

通过对水稻籽实（大米）及其根系土壤中镉含量的相关性研究表明：酸性水稻土壤区域,根系土中的镉与水稻籽实中的镉相关系数为0．971,说明大米中镉积累与土壤环境中镉含量密切相关。碱性水稻土壤区域,水稻根系土中的镉与水稻籽实中的镉相关系数为0．265,大米中镉含量较低,碱性土壤中镉不易活化而原地淀积,则根系土壤中镉对大米中镉的富集贡献小。水稻根系土壤中有机质（Org）与镉相关系数为0．59,也较为显著。土壤中有机质对重金属元素镉具正吸附作用,有机质含量越高,重金属元素镉呈难吝硫化物而原地淀积。  相似文献   

北京野鸭湖湿地不同植被退化区的土壤种子库特征     

史国鹏  洪剑明  谭月臣  马腾宇  杨琪 《湿地科学》2011,9(2):163-172

2010年5月,在北京野鸭湖湿地自然保护区选择废弃鱼塘、耕作苜蓿(Medicago)地、撂荒苜蓿地、天然退化湿地和天然湿地作为实验地,其中,天然湿地作为对照。通过土壤种子库萌发实验,对实验地土壤种子库的基本特征以及与地上植被的关系进行了对比研究。结果表明,5种实验地的土壤种子库共有60种植物,隶属于23科46属。其中,萌发物种最多的是菊科(Compositae)、禾本科(Poaceae)和莎草科(Cyperaceae),分别为11种、10种和8种。废弃鱼塘、耕作苜蓿地、撂荒苜蓿地和天然退化湿地种子平均密度为6 885粒/m~2,天然湿地种子的平均密度为16 083粒/m~2,5种实验地的种子库密度差异极显著(n=300,F=4.828,p=0.001<0.05);各实验地的种子库垂直分布有一致的规律性,各实验地0～6 cm土层的种子库密度明显高于6～12 cm土层;各实验地的土壤种子库与地上植被的相似性系数都不高,土壤种子库物种组成的稳定性要高于地上植被。通过研究发现,退化湿地的土壤种子库中有大量的植物种子储藏和湿地植物的种子,这为野鸭湖退化湿地恢复提供了重要的保障,这些潜在的植物种子在野鸭湖退化湿地生态输水过程中会起到应有的恢复作用。建议野鸭湖湿地自然保护区管理部门继续加强退化湿地区域的土壤种子库保护工作,必须重视水环境的恢复、各种人为干扰的消除以及系统保护的加强。  相似文献   

云南省元阳县传统水稻梯田的农业土壤评价     

Gilles COLINET  Keiko KOULOS  吴伯志  李永梅  Daniel LACROIX  苏友波  Jean CHAPELLE  Michael A. FULLEN  Trevor HOCKING  Laurent BOCK 《资源与生态学报(英文版)》2011,(4):353-361

作为元阳水稻梯田农业生态系统可持续性评价的一部分,本文调查了箐口流域梯地的自然生物环境,评价了农业土壤的土壤肥力,采用地质—地貌—土壤信息相结合的方法建立了土壤—景观之间的组合模式。研究确定了人为、气候、地形因素为影响土壤形成的主要因素,评价了土壤潜在生产力以及相关的限制因子,并根据FAO体系,确定并划分了主要的土壤类型。研究结果表明：土壤肥力的空间分布相当均一;土壤属酸性,阳离子代换量和养分储量总体较低;农业生态系统在较大程度上受哈尼群众人为活动的影响,成功维持了相对活跃的养分循环系统。目前的研究集中在：（1） 本研究区域在整个哈尼梯田系统中的代表性评价;（2） 田间水平上的养分循环研究;（3） 土壤特性对作物产量的影响;（4） 将田间水平的研究结果应用于更大的空间单元。  相似文献   

安徽水稻土中镉元素生态安全评价标准探讨     

贾十军 《安徽地质》2013,(2):132-136

土壤中镉元素稳定的残渣态所占比例在重金属中为最低,其赋存形态以离子态为主,易被植物吸收的活性态较高,生态危害较大。稻米镉元素与土壤镉元素具有显著的正相关性。根据区域土壤镉元素与稻米镉元素含量及稻米镉超标率关系,将水稻种植土壤分为生态安全土壤、具生态安全风险土壤及生态安全高风险土壤,提出了土壤镉元素生态安全定量分级标准。  相似文献   

气候变化背景下广东早稻气象灾害变化     

王华  陈新光  黄珍珠 《热带气象学报》2011,27(6):937-941

利用1961-2008年广东省86个气象站的资料,结合农业气象观测报表中早稻各个发育期的出现时间,从程度和频率两个方面对比分析1961-1996年与1997-2008年两个时段早稻生长季的主要气象灾害变化特征.结果表明,1997年以来,(1)低温阴雨危害明显减轻；(2) “五月寒”无明显变化趋势,但年际波动较大,主要危害北部地区；(3) “龙舟水”危害略有加重,降水集中期后推至6月中旬；(4)≥35℃高温热害加重.揭示了气候变化背景下广东早稻主要气象灾害的变化特征,为早稻应对气候变化调整生产布局、培育优质品种提供科学依据.  相似文献   

塔里木河下游退化荒漠河岸林地上植被与土壤种子库关系初探   总被引：4，自引：2，他引：2  

徐海量  李吉玫  张占江  叶茂  王增如 《中国沙漠》2008,28(4):657-664

以塔里木河下游为研究区,选择退化程度不同的4个典型断面19个样地,利用种子萌发法进行了两年的种子库土壤萌发实验,试图就生态严重退化区的土壤种子库与地上植被的关系以及退化程度的差异对种子库特征的影响开展针对性的研究。结果显示: ①塔里木河下游土壤种子库的基本特征是:种子库密度小、物种种类组成较单一、物种的多样性低和地上植被与种子库的相似性较低;②随退化程度的加剧,土壤种子库密度明显下降、表层种子库比例升高、一年生草本占优势逐渐向多年生草本和灌木转变、地上植被与土壤种子库物种组成上差异显著;③退化过程中种子库多样性的变化比地上植被变化要迟缓,但是在植被退化演替的末期,土壤种子库的物种多样性指数衰减的幅度又明显快于地上植被的衰减幅度;④受干旱环境和严重退化的双重影响塔里木河下游土壤种子库与地上植被的关系表现出退化演替末期共有物种数的减少和相似性明显递减的特点。  相似文献   

控制水稻分蘖角度对群体生态特性的影响   总被引：1，自引：0，他引：1       下载免费PDF全文

于亚辉  刘郁  陈广红  王绍林  夏明  阕补超  郑英杰  徐正进 《气象与环境学报》2008,24(5):67-71

控制分蘖角度对群体温度、群体相对湿度、群体CO2浓度和光合有效辐射均会产生一定影响。选用2006年水稻有关研究数据,分析水稻分蘖角度对群体生态特征的影响。结果表明：各生育时期群体温度在07:00－19:00处理大于CK。分蘖高峰期到孕穗期CK白天群体相对湿度大于处理,齐穗期到灌浆期处理群体相对湿度大于CK。群体CO2浓度在拔节期和孕穗期均为处理大于CK,其他生育期差异不显著。光合有效辐射垂直分布是处理前期和后期上层截获的光能均小于CK,群体内消光系数小。控制分蘖角度形成了有较高温度、较低湿度、高CO2浓度和适宜光分布的群体,可为获得高产奠定基础。  相似文献   

Control of sediment dynamics by vegetation as a key function driving biogeomorphic succession within fluvial corridors   总被引：1，自引：0，他引：1  

Dov Corenblit  Johannes Steiger  Angela M. Gurnell  Eric Tabacchi  Lydie Roques 《地球表面变化过程与地形》2009,34(13):1790-1810

Riparian vegetation responds to hydrogeomorphic disturbances and environmental changes and also controls these changes. Here, we propose that the control of sediment erosion and deposition by riparian vegetation is a key geomorphological and ecological (i.e. biogeomorphic) function within fluvial corridors. In a 3 year study, we investigated the correlations between riparian vegetation and hydrogeomorphic dynamics along a transverse gradient from the main channel to the floodplain of the River Tech, France. Sediment erosion and deposition rates varied significantly along the transverse gradient as a function of the vegetation biovolume intercepting water flow. These effects, combined with the extremely strong mechanical resistance of pioneer woody structures and strong resilience of pioneer labile herbaceous communities, Populus nigra and Salix spp., explain the propensity of biogeomorphic succession (i.e. the synergy between vegetation succession and landform construction) to progress between destructive floods. This geomorphological function newly identified as an ‘ecosystem function’ per se encompasses the coupling of habitat and landform creation, maintenance and change with fundamental ecosystem structural changes in space and in time. Three different biogeomorphic functions, all related to the concept of ecosystem engineering, were identified: (i) the function of pioneer herbaceous communities to retain fine sediment and diaspores in the exposed zones of the active tract near the water resource, facilitating recruitment of further herbaceous and Salicacea species; (ii) the function of woody vegetation to drive the construction of forested islands and floodplains; and (iii) the function of stabilised riparian forests to act as ‘diversity reservoirs’ which can support regeneration after destructive floods. Overall, this study based on empirical data points to the fundamental importance of sediment flow control by pioneer riparian vegetation in defining fluvial ecosystem and landform organisation in time and in space. Copyright © 2009 John Wiley & Sons, Ltd.  相似文献