内蒙古高原东南部森林-草原交错带的地形-气候-植被格局和植被恢复对策

探讨内蒙古高原东南缘森林-草原交错带地形-气候-植被格局,表明植被分布受气候和地形综合影响,在区域尺度上,随降水量减少阔叶林逐步由桦林向栎林、山杨林转变,针叶林更为接近森林旱极;在局地尺度上,阔叶林多分布在蒸发微弱、土壤容重较小的陡阴坡,草原分布在对应的阳坡上,非地带性榆树疏林分布在毛管作用微弱、蒸发小的沙地上。交错带植被建设应在降水量允许范围内优先考虑针叶树;其次要考虑坡向、坡位对土壤水分条件的影响,森林应尽量栽植在坡度10°~40°的阴坡;在区域和局地尺度上都应注意造林密度以及乔灌草结合,沙地不宜栽植密林。     

立地条件和积雪厚度对古尔班通古特沙漠梭梭造林的影响

为了辨认立地条件和积雪厚度对梭梭苗木成活的影响,于2009年4月,在新疆古尔班通古特沙漠南缘选取了沙丘阴坡、沙丘阳坡、丘间平地作为研究样地,在原有自然降雪的基础上,通过补水模拟不同年份的积雪厚度,进行了梭梭春季免灌造林研究,选择适宜实施梭梭免灌造林的立地环境和积雪条件。研究结果表明,不同立地条件之间梭梭免灌造林成活率差异显著,沙丘阴坡、丘间平地和沙丘阳坡梭梭免灌造林成活率分别为53.66%、14.42%和4.73%,这与3种立地条件的土壤水分状况吻合,说明水分是影响梭梭免灌造林的关键因子;在不同的立地条件下,积雪厚度对梭梭免灌造林成活率的影响程度不同,在年积雪厚度达到17 cm时,沙丘阴坡梭梭免灌造林成活率能达到54.95%,而在丘间平地与沙丘阳坡梭梭免灌造林成活率却很小,由于3种立地条件各种环境因子的差异,造成了不同立地条件下同一积雪厚度对梭梭免灌造林成活率存在差异。     

坡向和微地形对大型土壤动物空间分布格局的影响

尽管在景观和区域尺度上对土壤动物空间分布格局的研究已较多,但在小尺度上对局部微生境条件如何影响土壤动物多样性及其空间分布格局的研究还很少。以典型温带次生林为研究对象,采用样方法系统调查了林地阴坡和阳坡4个不同地形部位大型土壤动物群落的密度,并测定了不同地形部位的生境条件。采用三因子方差分析和对应分析等方法定量研究了坡向和地形部位对大型土壤动物群落密度的空间分布格局的影响。主要表现在：①在采集到的160个土壤样品中共检测到动物个体4 148个,分别隶属于26个不同的土壤动物类群;②坡向和地形部位对土壤动物的空间分布格局有显著的影响,但不同土壤动物类群对坡向和地形部位的响应模式存在一定的差异,这种差异的形成可能与不同土壤动物类群的生活习性和生物学特征密切相关。其结论是：在小尺度上,林地的坡向和微地形条件主要通过影响局部小生境的生物和非生物因子组合特征而对土壤动物的空间分布格局产生重要影响。     

黄土丘陵区坡面柠条(Caragana korshinskii)林地草本植物分布特征

人工植被恢复会显著影响林下草本的分布及多样性,而人工植被恢复耦合坡面微地形变化对草本群落分布及其多样性响应尚缺乏系统的认识。以位于半干旱黄土丘陵区的甘肃定西龙滩小流域为研究区,系统调查和监测了不同坡向上、中和下坡位人工柠条(Caragana korshinskii)林地草本群落组成、生物量与柠条生长状况、凋落物量及土壤水分含量,分析草本群落的分布特征及其影响因素。结果表明:(1)不同坡向草本群落组成明显不同,阴坡人工柠条林地草本物种丰富度、优势度和多样性指数显著高于半阳坡和阳坡,而均匀度指数各坡向间差异不显著;(2)不同坡向间草本地上生物量为阴坡>半阳坡>阳坡,但差异不显著;阴坡上、中坡位草本生物量显著高于下坡位,半阳坡和阳坡各坡位间草本生物量差异不显著;(3)pRDA分析结果表明,坡向影响了坡面水热条件,对草本分布的影响最大,解释了15.2%的草本群落变异;(4)柠条种植密度和坡向与草本物种丰富度呈显著负相关;阿尔泰狗娃花(Heteropappus altaicus)和长芒草(Stipa bungeana)与坡向呈显著正相关,主要分布在阴坡,茵陈蒿(Artemisia capillaris)和赖草(Leymus secalinus)等与坡向呈显著负相关,主要分布在阳坡。半干旱黄土丘陵区坡向通过影响水热条件从而影响了植被生长,坡面微地形调整可以在一定程度上削弱坡位对草本植物生长的影响,但坡向及人工植被种植密度决定了草本的分布格局。     

起伏地形下黄河流域太阳直接辐射分布式模拟

基于数字高程模型(DEM)数据和气象站观测资料建立了起伏地形下太阳直接辐射分布式计算模型,模型充分考虑了地形因子(坡向、坡度、地形相互遮蔽)对起伏地形下太阳直接辐射空间分布的影响;以1km×1km分辨率的DEM数据作为地形的综合反映,计算了起伏地形下黄河流域1km×1km分辨率太阳直接辐射的空间分布;深入分析了起伏地形下太阳直接辐射受地理、地形因子影响的变化规律。结果表明:受地形起伏和坡向、坡度等局地地形因子的影响,山区年太阳直接辐射量的空间差异比较明显,向阳山坡(偏南坡)的年直接辐射量明显高于背阴山坡(偏北坡)     

起伏地形下黄河流域太阳直接辐射分布式模拟

1 Introduction Directsolarradiation (DSR)isthe key com ponentofthe globalradiation reaching the Earth.For the influence of terrain factors,calculation of DSR quantity of rugged terrain is considerably com plex (Oliphantetal.,2003). The solarradiation quan…     

起伏地形下黄河流域太阳直接辐射分布式模式

基于数字高程模型(DEM)数据和气象站观测资料建立了起伏地形下太阳直接辐射分布式计算模型,模型充分考虑了地形因子(坡向、坡度、地形相互遮蔽)对起伏地形下太阳直接辐射空间分布的影响;以1km×1km分辨率的DEM数据作为地形的综合反映,计算了起伏地形下黄河流域1km×1km分辨率太阳直接辐射的空间分布;深入分析了起伏地形下太阳直接辐射受地理、地形因子影响的变化规律.结果表明受地形起伏和坡向、坡度等局地地形因子的影响,山区年太阳直接辐射量的空间差异比较明显,向阳山坡(偏南坡)的年直接辐射量明显高于背阴山坡(偏北坡).     

Soil moisture of different vegetation types on the Loess Plateau

Water stored in deep loess soil is one of the most important resources regulating vegetation growth in the semi-arid area of the Loess Plateau, but planted shrub and forest often disrupt the natural water cycle and in turn influence plant growth. The purpose of this study was to examine the effects of main vegetation types on soil moisture and its inter- annual change. Soil moisture in 0–10 m depth of six vegetation types, i.e., crop, grass, planted shrub of caragana, planted forests of arborvitae, pine and the mixture of pine and arborvitae were measured in 2001, 2005 and 2006. Soil moisture in about 0–3 m of cropland and about 0–2 m of other vegetation types varied inter-annually dependent on annual precipitation, but was stable inter-annually below these depths. In 0–2 m, soil moisture of cropland was significantly greater than those of all other vegetation types, and there were no significant differences among other vegetation types. In 2–10 m, there was no significant moisture difference between cropland and grassland, but the soil moistures under both of them were significantly higher than those of planted shrub and forests. The planted shrub and forests had depleted soil moisture below 2 m to or near permanent wilting point, and there were no significant moisture differences among forest types. The soil moisture of caragana shrub was significantly lower than those of forests, but the absolute difference was very small. The results of this study implicated that the planted shrub and forests had depleted deep soil moisture to the lowest limits to which they could extract and they lived mainly on present year precipitation for transpiration.     

黄土高原半干旱草地降水前后土壤的温、湿度及热力特征

本文利用兰州大学半干旱气候与环境观测站(简称SACOL站）陆面过程综合观测资料,分析了强降水前后榆中黄土高原半干旱草地土壤温、湿特征的差异,讨论了水分状况对土壤热力参数及地表能量分配的影响。结果表明:水分胁迫条件下,黄土高原半干旱草地土壤在10 cm深度存在一个湿层;强降水过程可使土壤湿度受影响范围接近40 cm深度。水分胁迫条件下,感热通量是黄土高原半干旱草地生态系统能量分配过程中净辐射的最大消耗项;无水分胁迫条件下,潜热通量是能量平衡系统中净辐射分量的最大消耗项。降水改变了土壤湿度并使得土壤热传导率发生变化,土壤热传导系数和土壤热容量随土壤湿度增加而增大。     

晴空下山区太阳辐射模拟

由于太阳辐射在山区的空间分布情况较为复杂,在Arcgis,Envi和C++基础上,提出了一个晴空条件下估算山区太阳辐射分布的模型。在借鉴国内外太阳辐射研究成果基础上充分考虑了地形因素和大气状况,利用Modtran大气辐射传输模型、DEM和Modis反照率数据建立了山区太阳辐射计算模型。以黑河上游山区为试验区,利用该模型模拟得到了黑河上游山区的太阳辐射,分析了坡度、坡向、海拔对太阳辐射空间分布的影响,并利用实测值对模型进行了验证,结果表明：该模型可较好地反映研究区内山区太阳总辐射的分布,可用于山区太阳辐射的估算。     

河北丰宁坝上沙漠化土地造林立地类型的划分──以大滩沙漠化土地整治示范区为例

通过对土壤、植被、林木生长量的野外调查，依据科学性、实用性原则，将河北坝上大滩示范区的造林立地类型划分为１２个立地类型：山地阴坡中下部厚土立地类型、山地阴坡上部薄土立地类型、山地阳坡中下部厚土立地类型、山地顶部岩石裸露立地类型、二阴滩地立地类型、下湿滩地立地类型、低缓小丘阴坡立地类型、低缓小丘阳坡立地类型、平缓砾质化或沙质耕地立地类型、平缓壤质耕地立地类型、缓起伏固定、半固定沙地立地类型     

不同植被类型的土壤水分对黄土高原的影响

Water stored in deep loess soil is one of the most important resources regulating vegetation growth in the semi-arid area of the Loess Plateau, but planted shrub and forest often disrupt the natural water cycle and in turn influence plant growth. The purpose of this study was to examine the effects of main vegetation types on soil moisture and its inter-annual change. Soil moisture in 0–10 m depth of six vegetation types, i.e., crop, grass, planted shrub of caragana, planted forests of arborvitae, pine and the mixture of pine and arborvitae were measured in 2001, 2005 and 2006. Soil moisture in about 0–3 m of cropland and about 0–2 m of other vegetation types varied inter-annually dependent on annual precipitation, but was stable inter-annually below these depths. In 0–2 m, soil moisture of cropland was significantly greater than those of all other vegetation types, and there were no significant differences among other vegetation types. In 2–10 m, there was no significant moisture difference between cropland and grassland, but the soil moistures under both of them were significantly higher than those of planted shrub and forests. The planted shrub and forests had depleted soil moisture below 2 m to or near permanent wilting point, and there were no significant moisture differences among forest types. The soil moisture of caragana shrub was significantly lower than those of forests, but the absolute difference was very small. The results of this study implicated that the planted shrub and forests had depleted deep soil moisture to the lowest limits to which they could extract and they lived mainly on present year precipitation for transpiration.     

复杂地形下长江流域太阳总辐射的分布式模拟

利用长江流域气象站1960-2005年的观测资料(包括常规气象站点资料和辐射站点资料)、NOAA-AVHRR遥感数据(反演地表反照率),以1km×1km的数字高程模型(DEM)反映地形状况的主要数据,通过基于DEM数据的起伏地形下天文辐射模型和地形开阔度模型,分别建立了长江流域太阳直接辐射、散射辐射和地形反射辐射分布式模型,实现了长江流域太阳总辐射模拟,并对总辐射模拟结果进行了时空分布规律分析和对其受季节、纬度、地形因子(高度、坡度和坡向等)影响的局部规律分析,以及模拟结果的误差分析和站点验证分析。结果显示:太阳总辐射在季节上受影响的程度依次是春季>冬季>夏季>秋季;随着高度、坡度、纬度的增加,太阳总辐射受坡向影响的程度呈增强趋势,从坡向上看,向阳山坡(偏南坡)对太阳总辐射量明显高于背阴坡(偏北坡)。模拟的平均绝对误差为13.04177MJm^-2,相对误差平均值3.655%,用站点验证方法显示:模拟绝对误差为22.667MJm^-2,相对误差为4.867%。     

甘肃河西山地土壤有机碳储量及分布特征

山地土壤具有强异质性和较高的碳密度，研究山地土壤有机碳的储量、空间分布特征和影响因素，对理解未来气候变化情景下该区土壤碳-大气反馈具有重要意义。河西山地地形复杂，水热梯度明显，是研究土壤有机碳空间格局的理想区域。利用河西山地126个土壤剖面数据，分析了0~100 cm土壤有机碳的储量、空间分布特征及其与环境因素的关系。结果表明：河西山地0~100 cm土壤有机碳密度均值15.04±7.24 kg·m^-2，区域土壤有机碳储量1.37±0.66 Pg，其中50%储存在高寒草甸和亚高山灌丛草甸。研究区土壤有机碳密度从高到低依次为亚高山灌丛草甸（41.15±18.47 kg·m^-2）、山地草甸草原（40.26±9.59 kg·m^-2）、山地森林（34.57±14.52 kg·m^-2）、高寒草甸（29.19±14.58 kg·m^-2）、山地草原（19.28±11.33 kg·m^-2）、荒漠草原（9.83±4.14 kg·m^-2）、高寒草原（8.59±2.47 kg·m^-2）、高寒荒漠（5.89±3.18 kg·m^-2）、草原化荒漠（5.16±3.06 kg·m^-2）、温带荒漠（5.00±3.35 kg·m^-2）。土壤有机碳的空间分布与地形和气候因子显著相关。土壤有机碳密度随着海拔的升高呈现出先增加后减少的趋势，阴坡土壤有机碳密度显著高于阳坡和半阴坡。土壤有机碳密度随年平均降水量增多而增多，随年平均温度的升高呈现出先增加后减少的趋势。     

咸阳市三原县新庄不同植被土层含水量研究

通过测定咸阳市三原县新庄2005和2006年降雨正常年份人工林地土壤含水量得知,从地表向下土层含水量呈由高到低再到高的变化;2005年草地和玉米地土层含水量由上向下呈逐渐增高趋势,比同年12龄杨树林地和13龄中国梧桐林地平均含水量高约7%。2003年降水量达880 mm丰水年后,人工林土壤干层中水分完全恢复,人工林出现持续近4年茂盛生长期,预计2007年该区将会再次出现发育弱的土壤干层。     

陇中黄土高原土壤水分变化特征及其机理分析

基于兰州大学半干旱气候与环境观测站（SACOL）2010年全年的观测资料,对陇中黄土高原半干旱区土壤水分的年变化和日变化特征进行了研究,并通过计算水汽通量与蒸散量,探讨了土壤-地表-大气间水分的交换和运移机理。结果表明：土壤湿度的季节变化主要受降水影响,各季节的平均土壤湿度均呈现出表层和深层低、中间层高的特点,最高值出现在地下10 cm附近;在无降水的情况下,土壤5~20 cm处的含水量呈现出夜间逐渐降低、白天逐渐上升的波形变化,这种变化与土壤水汽通量具有很好的一致性,而水汽通量的方向则受温度梯度的影响;在白天,地表温度高于气温与较深层地温,水汽在向空气蒸散的同时也由地表流向土壤深部,夜晚地表温度则低于较深层地温,水汽由土壤深部流向地表。因此土壤内部的水分蒸发主要出现在夜晚,且主要发生在地表40 cm以内的土壤孔隙中,而白天地表的实际蒸发主要存在土壤浅层0~5 cm,5 cm以下土壤水分的蒸发十分微弱。本研究结果对于改进半干旱区陆面计算模式以及当地的生态环境建设具有一定的参考价值。     

贡嘎山东坡亚高山不同林地土壤水分特性与生态环境效应

森林土壤水分特性，包括水分的渗透与蒸发、保持与贮存等对森林生态环境都有重要意义。本文研究了长江上游贡嘎山亚高山不同森林类型土壤的水分特征及其生态环境作用，结果表明：成熟林、过熟林土壤在储水、渗透、容水、蒸发和持水特性等多数方面利于保持和改善生态环境，次生或林分单一森林类型次之，林木皆伐后最差。研究区以成熟林和过熟林为主，生态环境保护较好。尽管该区与长江上游其它地区一样同具自然地理条件差、生态环境脆弱的特征，但由于该区森林植被和环境得到了有效保护，土壤水分特性好，促进了森林生态系统的良性循环，生态环境问题得到进一步改善。     

Influence of complex topography on global solar radiation in the Yangtze River Basin

Global solar radiation（GSR） is the most direct source and form of global energy, and calculation of its quantity is highly complex due to influences of local topography and terrain inter-shielding. Digital elevation model（DEM） data as a representation of the complex terrain and multiplicity condition produces a series of topographic factors（e.g. slope, aspect, etc.）. Based on 1 km resolution DEM data, meteorological observations and NOAA-AVHRR remote sensing data, a distributed model for the calculation of GSR over rugged terrain within the Yangtze River Basin has been developed. The overarching model permits calculation of astronomical solar radiation for rugged topography and comprises a distributed direct solar radiation model, a distributed diffuse radiation model and a distributed terrain reflectance radiation model. Using the developed model, a quantitative simulation of the GSR space distribution and visualization has been undertaken, with results subsequently analyzed with respect to locality and terrain. Analyses suggest that GSR magnitude is seasonally affected, while the degree of influence was found to increase in concurrence with increasing altitude. Moreover, GSR magnitude exhibited clear spatial variation with respect to the dominant local aspect; GSR values associated with the sunny southern slopes were significantly greater than those associated with shaded slopes. Error analysis indicates a mean absolute error of 12.983 MJm-2 and a mean relative error of 3.608%, while the results based on a site authentication procedure display an absolute error of 22.621 MJm-2 and a relative error of 4.626%.     

环境气候条件下土壤冻融过程中湿热耦合作用模型研究

基于Harlan模型和Darcy定律,综合考虑环境气候因素和水热特征参数对湿热迁移影响,建立了环境气候条件下季节性冻土区土壤冻融过程中湿热耦合作用模型.根据地表能量交换平衡原理推导出边界条件.依据实测数据回归分析出土壤湿热特征参数表达式.采用全隐式有限差分格式和TDMA迭代法对内蒙古锡林浩特地区冻结期间土壤湿热迁移规律进行了数值模拟.温度计算值和实测值比较一致,最大误差不超过2.5℃,说明该模型具有较高的准确性.利用该模型仅通过气象资料和湿热特征参数就可预测季冻区土壤冻胀和田间湿热分布状况并能够用来指导农田工程建设和农业生产.     

复杂地形对长江流域太阳总辐射的影响(英文)

Global solar radiation(GSR) is the most direct source and form of global energy, and calculation of its quantity is highly complex due to influences of local topography and terrain inter-shielding. Digital elevation model(DEM) data as a representation of the complex terrain and multiplicity condition produces a series of topographic factors(e.g. slope, aspect, etc.). Based on 1 km resolution DEM data, meteorological observations and NOAA-AVHRR remote sensing data, a distributed model for the calculation of GSR over rugged terrain within the Yangtze River Basin has been developed. The overarching model permits calculation of astronomical solar radiation for rugged topography and comprises a distributed direct solar radiation model, a distributed diffuse radiation model and a distributed terrain reflectance radiation model. Using the developed model, a quantitative simulation of the GSR space distribution and visualization has been undertaken, with results subsequently analyzed with respect to locality and terrain. Analyses suggest that GSR magnitude is seasonally affected, while the degree of influence was found to increase in concurrence with increasing altitude. Moreover, GSR magnitude exhibited clear spatial variation with respect to the dominant local aspect; GSR values associated with the sunny southern slopes were significantly greater than those associated with shaded slopes. Error analysis indicates a mean absolute error of 12.983 MJm-2 and a mean relative error of 3.608%, while the results based on a site authentication procedure display an absolute error of 22.621 MJm-2 and a relative error of 4.626%.