腾格里沙漠南部格状沙丘的形态演变及移动特征

沙丘的形态变化与移动蕴含区域风沙环境和地貌演化的关键信息,是风沙地貌研究的重要内容。以腾格里沙漠南缘的长格状和方格状沙丘为研究对象,利用风况资料和Google Earth卫星影像,监测2009—2020年两种格状沙丘的形态变化并分析其移动特征。结果表明：(1)腾格里沙漠西南缘和东南缘的主风向均为西北风,长格状沙丘分布区的次风向为东南风,方格状沙丘分布区次风向为东风和东南风,都属于低风能环境、中变率风况。西南部风能环境大于东南部,研究区近10年风动力呈衰减趋势。(2)格状沙丘的主副梁长度和间距在增加,其中,长格状沙丘高度增加,方格状沙丘高度在降低。沙丘主梁向东偏移,副梁向南偏移,形态整体保持稳定。(3)长格状沙丘平均移动速率为1.57～1.71 m·a^-1,方格状沙丘平均移动速率为1.63～2.01 m·a^-1,沙丘平均移动方向与合成输沙方向基本一致,沙丘的体积是造成移动速率差异的主因。     

基于改进的地表温度-植被覆盖特征空间估算地表蒸散

地表温度-植被指数特征空间被广泛应用与地表蒸散估算和土壤湿度监测,而利用散点图直接拟合干边会造成很大的不确定性。本研究采用改进的地表温度-植被覆盖特征空间进行地表通量的计算。该方法是基于能量平衡公式进行干边定位,从而减少干边确定过程中的不确定性。我们选取的17天的MODIS数据以及相应气象数据进行地表蒸散计算,并采用郑州的LAS观测站验证显热通量计算值,估算结果均方根误差（RMSE）、偏差（Bias）和相关系数平方（R^2）分别为44.06Wm^-2、36.99Wm^-2和0.71。总体来讲,通过能量平衡公式确定的理论干边相比通过散点图拟合的实测干边更合理。     

海岸沙丘形态对台风响应的初步观测

基于2014年第10号强台风“麦德姆”登陆前后福建平潭岛海岸前丘、爬坡沙丘、横向沙丘和沙席等海岸沙丘形态的高精度测量数据,分析了典型海岸沙丘在台风登陆前后的形态变化,初步总结了华南海岸风沙地貌形态的台风响应模式。结果表明：4类典型海岸沙丘在台风“麦德姆”登陆前后的形态变化较大且主要是以体积减小和沙丘高度降低为主,测点高程的平均变化值为0.22 m,样区海岸沙丘体积平均减小0.59%,测点高程变化的平均值为高度降低0.05 m,但不同类型海岸沙丘及其不同部位的响应变化并非一致且存在较大差异,此与台风“麦德姆”的强侵蚀力及不同海岸沙丘的形态及其下伏地形、表面植被分布等的差异有关。     

反向沙丘近地层气流变化及其对沙丘形态的影响

反向沙丘形态-动力学过程是风沙地貌的重要研究内容.选择腾格里沙漠东南缘推平沙地发育的反向沙丘为研究对象,采用二维超声风速仪对沙丘表面5个位置0.25 m和0.5 m高度的气流进行野外观测.结果表明:(1)气流方向影响近地层气流特征.以沙丘脊线垂线为轴,0.25 m高度处沙丘脊线的垂线两侧风向变化不完全对称.当丘顶气流方...     

台特玛湖干涸湖盆区植物风影沙丘的形态特征

对台特玛湖干涸湖盆区盐穗木、柽柳和碱蓬3种植物风影沙丘的形态参数进行野外了测定,应用统计学方法,分析对比了不同植物风影沙丘的形态特征及阻沙能力。结果表明：（1）风影沙丘处于由沙嘴向沙堆演化阶段,沙丘形态参数间相关性显著（P<0.01）,其中沙丘高度与水平尺度相关性较好,沙丘垂向发育速度快于水平扩展。（2）风影沙丘与植物形态参数间亦存在相关性,受植物生物特性的影响,不同植物的相关性差异较大,其中碱蓬呈高度正相关（R>0.85,沙丘背风坡坡度除外）,盐穗木次之,柽柳灌丛相关性微弱。（3）在相同的区域环境下,3种植物的单株阻沙能力呈柽柳 > 盐穗木 > 碱蓬,盐穗木、碱蓬积沙量受株高影响较大,两者呈二次函数关系;柽柳积沙量主要取决于灌丛迎风剖面的面积。     

喀斯特城市植被覆盖度时空变化对地表温度的影响

随着桂林喀斯特城市的快速扩展、地表植被覆盖度的变化,城市热岛现象越来越明显。以桂林1989-2006年5景TM/ETM遥感图像为数据源,利用遥感归一化植被指数反演植被覆盖度Pv,利用Qin单窗算法反演地表温度ts,分析Pv空间和时间变化对ts的影响。结果表明,在空间上ts随Pv的提高而降低,呈明显负相关关系。在时间上Pv<0.2面积比例逐年增加,1989年7.8%、1991年15.2%、2000年20.7%、2005年21.1%、2006年22.7%;而Pv≥0.7面积比例逐年减少,1989年49.2%、1991年27.4%、2000年27%、2005年16.5%、2006年11.1%。其导致地表温度高于茂密林地表面温度的比率z>20%的高温像元比例逐年上升;而z≤10%的低温像元比例逐年下降,1989年28.9%、1991年25.4%、2000年23.7%、2005年22.2%、2006年20.4%。植被覆盖的喀斯特山峰呈现显著的凉岛现象,从而调节喀斯特城市气候环境。     

海岸沙丘形态对台风响应的初步观测北大核心CSCDCSSCI

基于2014年第10号强台风"麦德姆"登陆前后福建平潭岛海岸前丘、爬坡沙丘、横向沙丘和沙席等海岸沙丘形态的高精度测量数据,分析了典型海岸沙丘在台风登陆前后的形态变化,初步总结了华南海岸风沙地貌形态的台风响应模式。结果表明:4类典型海岸沙丘在台风"麦德姆"登陆前后的形态变化较大且主要是以体积减小和沙丘高度降低为主,测点高程的平均变化值为0.22 m,样区海岸沙丘体积平均减小0.59%,测点高程变化的平均值为高度降低0.05 m,但不同类型海岸沙丘及其不同部位的响应变化并非一致且存在较大差异,此与台风"麦德姆"的强侵蚀力及不同海岸沙丘的形态及其下伏地形、表面植被分布等的差异有关。     

植被盖度对沙丘风沙流结构及风蚀量的影响

以科尔沁沙地不同植被盖度沙丘为研究对象,采用野外可移动风洞进行原位测试,开展了沙丘植被盖度对风沙流输沙率影响的研究,探讨了地表风蚀量与风速及植被盖度的关系。结果表明：空气动力学粗糙度随植被盖度增加先平缓后剧烈,与植被盖度相关关系呈三次函数增长。在各植被盖度下各层输沙率均随高度增加而递减,随风速增加而递增。同一植被盖度下风蚀量随风速增加而增大,符合幂函数或二次函数关系,但二次函数相关性更高。同一风速下风蚀量随植被盖度的增加呈阶梯式降低,在盖度小于27%时风蚀量平缓下降,盖度27%~43%时风蚀量急剧下降,盖度43%以上时风蚀量下降重新趋于平缓。相对截留率随风速增大而减小,随植被盖度增加而增大,沙丘草本植被盖度43%以上时具有较好的防风固沙效果,此时平均截留率达88.02%。     

新月形沙丘迎风坡形态及沉积物对表面气流的响应

对孤立新月形沙丘迎风坡风速的野外实测和计算表明,沙丘迎风坡表面风速廓线呈非对数关系,近地面剪切风速和输沙强度由坡脚至丘顶总体呈递增趋势,但同时随断面坡度的增减而发生相应的变化;沿断面输沙率的变化导致蚀积强度的改变,表现为沙丘迎风坡坡度变缓的部位沉积大于侵蚀,其它部位侵蚀大于沉积,其中丘顶输沙率和侵蚀强度最大。在沙丘形态上,表现为坡度减缓的部位沉积变凸、其它部位因侵蚀变凹以及坡脚和丘顶的前移。变凸和变凹部位反过来又制约着表面剪切风速的相应变化。粒度分析也表明,沙丘迎风坡表面粒度特征主要取决于表面蚀积状况,同断面形态表现出密切的相关性。     

海岸沙丘形态对季风/台风的协同响应研究现状与展望

海岸沙丘形态变化及其动力学过程是认识和研究海岸风沙地貌的基础.中国海岸沙丘受季风和台风共同驱动,但梳理总结海岸沙丘形态对季风/台风的响应研究、海岸沙丘形态-动力学过程研究及其技术和方法等发现,现有研究对中国海岸沙丘受季风/台风协同驱动的特点认识不足,对季风和台风的影响分别进行研究,与海岸沙丘形成与演化过程并不相符,季风...     

黄土高原植被覆盖度变化的地形分异及土地利用/覆被变化的影响

基于16 d合成MODIS NDVI数据提取的时间序列植被覆盖度数据,采用一元线性回归趋势分析,对黄土高原2000-2008年植被覆盖度的时空变化及其地形分异、土地利用/覆被变化的影响进行了定量分析。结果表明：（1）研究时段黄土高原植被覆盖度整体呈快速上升趋势,局部下降;（2）黄土高原植被覆盖度变化存在明显的地形分异,陡坡等植被恢复、重建和保育的主要区域植被覆盖度增速显著;（3）土地利用/覆被变化对植被覆盖度的增加影响突出,土地利用/覆被类型变更区植被覆盖度增速显著高于未变化区域,退耕还林还草区增速尤其突出;（4）土地利用/覆被类型未变化区域植被覆盖度总体上也呈增加趋势,但因植被覆盖度水平相对较高,增速明显低于土地利用/覆被类型变化区。上述结果表明,黄土高原植被保育、植被恢复和重建在植被覆盖度提升方面取得了明显成效。     

陕甘宁地区植被恢复对气候变化和人类活动的响应(英文)

The "Grain for Green Project" initiated by the governments since 1999 were the dominant contributors to the vegetation restoration in the agro-pastoral transitional zone of northern China. Climate change and human activities are responsible for the improvement and degradation to a certain degree. In order to monitor the vegetation variations and clarify the causes of rehabilitation in the Shaanxi-Gansu-Ningxia Region, this paper, based on the MODIS-NDVI and climate data during the period of 2000-2009, analyzes the main charac-teristics, spatial-temporal distribution and reasons of vegetation restoration, using methods of linear regression, the Hurst Exponent, standard deviation and other methods. Results are shown as follows. (1) From 2000 to 2009, the NDVI of the study area was improved progres-sively, with a linear tendency being 0.032/10a, faster than the growth of the Three-North Shelter Forest Program (0.007/10a) from 1982 to 2006. (2) The vegetation restoration is characterized by two fast-growing periods, with an "S-shaped" increasing curve. (3) The largest proportion of the contribution to vegetation restoration was observed in the slightly improved area, followed by the moderate and the significantly improved area; the degraded area is distributed sporadically over southern part of Ningxia Hui Autonomous Region as well as eastern Dingbian of Shaanxi province, Huanxian and Zhengyuan of Gansu province. (4) Climate change and human activities are two driving forces in vegetation restoration; more-over anthropogenic factors such as "Grain for Green Project" were the main causes leading to an increasing trend of NDVI on local scale. However, its influencing mechanism remains to be further investigated. (5) The Hurst Exponent of NDVI time series shows that the vegetation restoration was sustainable. It is expected that improvement in vegetation cover will expand to the most parts of the region.     

乌兰布和沙漠西南部风况对穹状沙丘形成的影响

风是塑造沙丘形态的主要动力,目前对穹状沙丘的形成动力学过程尚不清楚.为探讨风况对穹状沙丘形成和演化的影响,以乌兰布和沙漠西南部穹状沙丘为例,利用吉兰泰气象站风速风向数据和Google Earth影像测量沙丘形态参数,分析风况对穹状沙丘形成的影响.结果表明:(1)乌兰布和沙漠西南部主风向为西北风,次风向为西南风和东北风,...     

2000—2015年伊犁河谷植被覆盖时空变化特征

利用2000—2015年的EOS/MODIS数据,采用趋势分析、Hurst指数、变异系数法对伊犁河谷植被时空变化及未来趋势进行分析,结果显示:空间分布上,伊犁河谷植被覆盖度呈北部、南部、东部偏高,西部、中部偏低的分布特征;时间变化上,2000—2015年,伊犁河谷植被覆盖度波动减小,减速为6.25%·(10 a)^-1;区域分布上,伊犁河谷植被表现为低波动变化,波动程度中等以及下占73.16%,波动程度高的区域占26.84%。未来预测表明,伊犁河谷植被覆盖呈退化趋势,其中,持续退化的面积占57.55%,持续改善的面积占13.51%。     

基于遥感的民勤绿洲植被覆盖变化定量监测

基于混合像元条件下的TM影像植被覆盖度遥感反演,定量研究了甘肃省民勤绿洲1987年至2001年植被覆盖时空变化的规律与特点。结果表明,15年中,民勤绿洲的植被覆盖发生了很大的变化,农田植被(耕地)面积增加了53.11%,而中、高盖度植被的面积却减少了25.21%,这对民勤绿洲的长久生态安全构成了严重的威胁。民勤绿洲植被覆盖变化的空间转化过程复杂,但总体属于开垦—植被退化型。15年中因开垦和植被退化而损失的中、高盖度植被达42204.81hm2,占原面积的81.73%,而且损失的主要是绿洲边缘的防风固沙植被,其中因开垦损失的面积为18776.08hm2,占损失面积的44.5%。超采地下水引起的地下水位快速下降是导致绿洲边缘天然和人工灌丛植被退化的主要原因。控制开垦并培育相对稳定的灌丛型植被,应该是研究区生态环境建设的重点。     

Response of vegetation restoration to climate change and human activities in Shaanxi-Gansu- Ningxia Region

The “Grain for Green Project” initiated by the governments since 1999 were the dominant contributors to the vegetation restoration in the agro-pastoral transitional zone of northern China. Climate change and human activities are responsible for the improvement and degradation to a certain degree. In order to monitor the vegetation variations and clarify the causes of rehabilitation in the Shaanxi-Gansu-Ningxia Region, this paper, based on the MODIS-NDVI and climate data during the period of 2000-2009, analyzes the main characteristics, spatial-temporal distribution and reasons of vegetation restoration, using methods of linear regression, the Hurst Exponent, standard deviation and other methods. Results are shown as follows. (1) From 2000 to 2009, the NDVI of the study area was improved progressively, with a linear tendency being 0.032/10a, faster than the growth of the Three-North Shelter Forest Program (0.007/10a) from 1982 to 2006. (2) The vegetation restoration is characterized by two fast-growing periods, with an “S-shaped” increasing curve. (3) The largest proportion of the contribution to vegetation restoration was observed in the slightly improved area, followed by the moderate and the significantly improved area; the degraded area is distributed sporadically over southern part of Ningxia Hui Autonomous Region as well as eastern Dingbian of Shaanxi province, Huanxian and Zhengyuan of Gansu province. (4) Climate change and human activities are two driving forces in vegetation restoration; moreover anthropogenic factors such as “Grain for Green Project” were the main causes leading to an increasing trend of NDVI on local scale. However, its influencing mechanism remains to be further investigated. (5) The Hurst Exponent of NDVI time series shows that the vegetation restoration was sustainable. It is expected that improvement in vegetation cover will expand to the most parts of the region.     

Dynamic change of net primary productivity and fractional vegetation cover in the Yellow River Basin using multi-temporal AVHRR NDVI Data

An exponential relationship between net primary productivity (NPP) and integrated NDVI has been found in this paper. Based on the relationship and using multi-temporal 8 km resolution NOAA AVHRR-NDVI data, the spatial distribution and dynamic change of NPP and fractional vegetation cover in the Yellow River Basin from 1982 to 1999 are analyzed. Finally, the effect of rainfall on NDVI is examined. Results show that mean NPP and fractional vegetation cover have an inclining trend for the whole basin, and rainfall in flood season influences vegetation cover most.     

Dynamic change of net primary productivity and fractional vegetation cover in the yellow river Basin using multi-temporal AVHRR NDVI Data

An exponential relationship between net primary productivity (NPP) and integrated NDVI has been found in this paper. Based on the relationship and using multi-temporal 8 km resolution NOAA AVHRR-NDVI data, the spatial distribution and dynamic change of NPP and fractional vegetation cover in the Yellow River Basin from 1982 to 1999 are analyzed. Finally, the effect of rainfall on NDVI is examined. Results show that mean NPP and fractional vegetation cover have an inclining trend for the whole basin, and rainfall in flood season influences vegetation cover most.     

Soil erosion and its response to the changes of precipitation and vegetation cover on the Loess Plateau

Soil erosion is a major threat to our terrestrial ecosystems and an important global environmental problem. The Loess Plateau in China is one of the regions that suffered more severe soil erosion and undergoing climate warming and drying in the past decades. The vegetation restoration named Grain-to-Green Program has now been operating for more than 10 years. It is necessary to assess the variation of soil erosion and the response of precipita- tion and vegetation restoration to soil erosion on the Loess Plateau. In the study, the Revised Universal Soil Loss Equation （RUSLE） was applied to evaluate annual soil loss caused by water erosion. The results showed as follows. The soil erosion on the Loess Plateau between 2000 and 2010 averaged for 15.2 t hm-2 a 1 and was characterized as light for the value less than 25 t hm-2 a-1. The severe soil erosion higher than 25 t hm-2 a-~ was mainly distributed in the gully and hilly regions in the central, southwestern, and some scattered areas of earth-rocky mountainous areas on the Loess Plateau. The soil erosion on the Loess Plateau showed a deceasing trend in recent decade and reduced more at rates more than 1 t hm 2 a 1 in the areas suffering severe soil loss. Benefited from the improved vegetation cover and ecological construction, the soil erosion on the Loess Plateau was significantly declined, es- pecially in the east of Yulin, most parts of Yah＇an prefectures in Shaanxi Province, and the west of Luliang and Linfen prefectures in Shanxi Province in the hilly and gully regions. The variation of vegetation cover responding to soil erosion in these areas showed the relatively higher contribution than the precipitation. However, most areas in Qingyang and Dingxi pre- fectures in Gansu Province and Guyuan in Ningxia Hui Autonomous Region were predomi- nantly related to precipitation.     

Effects of dune stabilization on vegetation characteristics and soil properties at multiple scales in Horqin Sandy Land, Northern China

Ecological patterns and processes in dune ecosystems have been a research focus in recent years, however information on how dune stabilization influences vegetation and soil at different spatial scales...