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1.
卫星遥感是南极研究的重要工具。2009年底和2010年初,我国南极长城、中山站的X/L双频段卫星遥感接收系统分别建成并投入使用,此系统可接收美国NASA的Terra和Aqua卫星的MODIS数据、NOAA系列卫星以及我国风云一号卫星的数据,实现了对南极地区天气、积雪、海冰以及南大洋海洋生态等的实时监测,并将在我国多个学科领域的南极研究中发挥重要作用。本文在说明了此卫星遥感接收系统的组成结构、运行方式和数据产品种类后,对此系统的使用情况做了一些介绍,对将使用此系统数据开展南极下降风、南极冰雪覆盖及反照率、南极大气和海洋数值模式等各领域的研究工作进行了初步探讨。 相似文献
2.
积雪覆盖度对沙尘暴的影响分析 总被引:8,自引:2,他引:6
采用遥感监测内蒙古中西部地区积雪覆盖度数据以及地面气象观测站1961—2005年沙尘天气观测资料,以沙尘暴、扬沙发生日数为定量指标,分析了内蒙古中西部地区积雪覆盖度与沙尘暴、扬沙发生日数的关系。研究结果表明,在内蒙古中西部地区,积雪覆盖度与沙尘天气的发生有负相关关系,但地表积雪覆盖对沙尘暴的抑制作用要小于对扬沙的抑制作用,这种负相关关系在1—3月较11—12月更为显著。积雪覆盖度决定了积雪的影响范围,而积雪日数则决定了这种影响持续的时间,综合考虑这两种因素,构建了积雪指数用以反映积雪的这种空间和时间的共同作用。积雪指数能较好地反映积雪日数与积雪覆盖度对沙尘天气的综合作用。 相似文献
3.
新疆天山和北疆地区是我国三大稳定积雪区之一,积雪反照率的变化显著地影响其地表吸收的太阳辐射能量。2018年1~3月,在新疆天山和北疆地区进行了积雪反照率观测,发现研究区的积雪反照率存在明显的时空差异。时间上,由于受到气温变化的影响,研究区的积雪反照率整体呈现下降的趋势,而且不同时期的下降幅度有差异,1月末~3月初反照率的降低相比1月初~1月末反照率降低更加明显。空间上,由于受到污化物的影响,各区域(阿勒泰地区、塔城地区、天山北坡和伊犁河谷)的积雪反照率之间存在差异,其中天山地区(天山北坡和伊犁河谷)的积雪反照率低于北疆地区(阿勒泰地区和塔城地区),天山北坡的反照率最低;在积雪稳定期及消融期,污化物对积雪反照率的影响最为明显。 相似文献
4.
HJ-1A、1B卫星具有较高的时间和空间分辨率,适合小流域尺度的积雪动态监测研究。本文基于HJ-1B数据,选取军塘湖流域,针对同时具有HJ-1B/CCD、IRS数据和只有HJ-1B/CCD数据两种情况展开雪盖提取方法研究。对于第一种情况,因研究区南端有大面积森林覆盖,会影响雪像元识别,选用[WTBX]NDSI[WTBZ]和[WTBX][STBX]S3[WTBZ][STBZ]两种雪盖指数,并利用[WTBX]NDVI[WTBZ]或TM影像反演的林区辅助判识积雪。结果表明:当有植被信息辅助分类时,两种雪盖指数均能较好提取出森林覆盖区的积雪,且提取结果基本一致,精度较高。对于第二种情况,因无法计算雪盖指数,采用光谱与纹理信息结合的SVM法提取雪盖,提取的面积和精度与上述方法相比略低,但很接近,说明在缺少[WTBX]IRS[WTBZ]数据的情况下,仅利用CCD仍可提取出较为准确的雪盖,满足实际应用需求。 相似文献
5.
利用Terra卫星和Aqua卫星提供的2002年9月1日~2017年5月31日每日积雪覆盖产品MOD10C1和MYD10C1,提取蒙古高原积雪日数、积雪面积、积雪初日及积雪终日信息,得到蒙古高原积雪特征分布和变化趋势,同时,结合蒙古高原108个地面气象观测站的气温资料,分析研究区积雪变化特征和气温的关系。结果表明:(1)蒙古高原平均积雪日数在60~90 d之间,积雪初日主要分布在315~335 d之间,积雪终日大多集中在31~61 d之间,蒙古高原东部地区积雪初日有明显的提前趋势,西南地区积雪终日有明显的提前趋势。(2)积雪面积在积雪季内呈 “单峰型”,1月份为积雪面积最大月,年均积雪面积呈微弱的下降趋势。(3)最大积雪覆盖面积与温度具有明显的相关性,稳定积雪覆盖区的临界温度大概介于-11~-8 ℃之间。(4)温度是影响积雪特征变化的重要因素。 相似文献
6.
Shin Nagai Taro Nakai Taku M. Saitoh Robert C. Busey Hideki Kobayashi Rikie Suzuki Hiroyuki Muraoka Yongwon Kim 《Polar Science》2013,7(2):125-135
Evaluation of the carbon, water, and energy balances in evergreen coniferous forests requires accurate in situ and satellite data regarding their spatio-temporal dynamics. Daily digital camera images can be used to determine the relationships among phenology, gross primary productivity (GPP), and meteorological parameters, and to ground-truth satellite observations. In this study, we examine the relationship between seasonal variations in camera-based canopy surface indices and eddy-covariance-based GPP derived from field studies in an Alaskan open canopy black spruce forest and in a Japanese closed canopy cedar forest. The ratio of the green digital number to the total digital number, hue, and GPP showed a bell-shaped seasonal profile at both sites. Canopy surface images for the black spruce forest and cedar forest mainly detected seasonal changes in vegetation on the floor of the forest and in the tree canopy, respectively. In contrast, the seasonal cycles of the ratios of the red and blue digital numbers to the total digital numbers differed between the two sites, possibly due to differences in forest structure and leaf color. These results suggest that forest structural characteristics, such as canopy openness and seasonal forest-floor changes, should be considered during continuous observations of phenology in evergreen coniferous forests. 相似文献
7.
In order to analyze the differences between the two snow cover data, the snow cover data of 884 meteorological stations in China from 1951 to 2005 are counted. The data include days of visual snow observation, snow depth, and snow cover durations, which vary according to different definitions of snow cover days. Two series of data, as defined by "snow depth" and by "weather observation," are investigated here. Our results show that there is no apparent difference between them in east China and the Xinjiang region, but in northeast China and the Tibetan Plateau the "weather observation" data vary by more than 10 days and the "snow depth" data vary by 0.4 cm. Especially in the Tibetan Plateau, there are at least 15 more days of "weather observation" snow in most areas (sometimes more than 30 days). There is an obvious difference in the snow cover data due to bimodal snowfall data in the Tibetan Plateau, which has peak snowfalls from September to October and from April to May. At those times the temperature is too high for snow cover formation and only a few days have trace snow cover. Also, the characteristics and changing trends of snow cover are analyzed here based on the snow cover data of nine weather stations in the northeast region of the Tibetan Plateau, by the Mann-Kendall test. The results show significantly fewer days of snow cover and shorter snow durations as defined by "snow depth" compared to that as defined by "weather observation." Mann-Kendall tests of both series of snow cover durations show an abrupt change in 1987. 相似文献
8.
海南东寨港红树林景观变化与原因分析 总被引:2,自引:0,他引:2
以TM遥感卫星影像为数据源,借助GIS和RS技术获得海南东寨港红树林3个时期红树林分布图;进一步运用景观指数定量分析红树林在不同时期的变化特征。结果表明,近20年来,东寨港红树林各景观指数均有明显变化。其中,表征面积变化特征的景观相似性指数(LSI)和平均斑块面积(APA)有明显的下降趋势;而表征破碎化程度的单位周长斑块数(NPUP)和边界密度(PERD)呈上升趋势;形状指标(SI)也有下降趋势。说明东寨港的红树林在过去的20年,经历了衰减和破碎化过程;从不同角度,进一步分析了变化产生的主要驱动因子。 相似文献
9.
近50年青藏高原东部冬季积雪的时空变化特征 总被引:2,自引:0,他引:2
选取青藏高原东部地区1961-2010 年64 个测站的积雪数据,分析了冬季积雪日数的空间分布和年代际变化特征,结果表明:高原东部冬季积雪空间分布差异较大,巴颜喀拉山、唐古拉山和念青唐古拉山多雪且变率大,藏南谷地、川西干暖河谷地带及柴达木盆地少雪且变率小,这样的空间分布是由周边大气环流系统及复杂局地地形共同造成的;高原东部冬季积雪表现出“少—多—少”的年代际变化特征,分别在80 年代末和20 世纪末发生由少到多和由多到少的两次突变,尤其是20 世纪末的突变更为显著;降雪和气温的变化是影响积雪日数的重要因素,其中降雪的影响更为显著;80 年代末高原冬季降雪由少到多的突变是造成积雪日数发生相应变化的主要原因;20 世纪末高原冬季气温和降雪分别发生由低到高和由多到少突变,其影响叠加导致积雪日数发生了更为显著的突变。 相似文献
10.
风云三号D星(FY-3D)是我国新一代极轨气象卫星,中分辨率光谱成像仪Ⅱ(MERSI-Ⅱ)是其携带的核心传感器之一,MERSI-Ⅱ实现了云、气溶胶、水汽、陆地表面特性、海洋水色等大气、陆地、海洋参量的高精度定量反演。选取2018年7、8月无云时相的FY-3D/MERSI-Ⅱ数据对天山中段终年积雪进行归一化积雪指数(NDSI)的计算。结合高分辨率Landsat-8影像,利用混淆矩阵对FY-3D/MERSI-Ⅱ数据计算结果与同期MODIS日积雪产品数据MOD10A1进行精度对比分析。结果表明:FY-3D/MERSI-Ⅱ图像平均总体精度为0.855,MOD10A1图像平均总体精度为0.820,FY-3D/MERSI-Ⅱ积雪覆盖提取平均总体精度比MOD10A1积雪覆盖提取平均总体精度高0.035。FY-3D/MERSI-Ⅱ的Kappa系数平均值为0.659,MOD10A1的Kappa系数平均值为0.558,FY-3D/MERSI-Ⅱ的Kappa系数平均值大于MOD10A1的Kappa系数平均值。故FY-3D/MERSI-Ⅱ数据提取积雪覆盖面积精度更高,更接近高分辨率Landsat-8影像目视解译结果。 相似文献
11.
NOAA-AVHRR satellite data have been used for a multi-year analysis of the seasonal variation of snow cover on the peninsula of Jameson Land located from 70°30'N to 72°N on the eastern coast of Greenland. Monitoring programmes for muskoxen and geese populations in Jameson Land wert started in the early 1980s to assess the impact of oil exploration in the area. This study was conducted to provide snow cover data to the wildlife monitoring programmes because snow cover is an important factor which can affect the numbers and distribution of muskoxen and other wildlife in the area.
Snow cover mapping is based on the geometric correction and radiometric calibration of each satellite scene before the visual bands are corrected for the terrain-effects and high solar zenith angle by using a simple radiation model. The atmospheric effect on the thermal infrared bands is corrected by using the "split-window" method. An automatic filtering routine with empirically determined thresholds is used to determine cloud-and haze-covered areas before the snow cover is computed from a linear expression using albedos of bare ground and full snow cover. By combining the satellite information with ground measurements and a digital terrain model, both the spatial distribution of snow cover and the total snow cover depletion can be obtained.
The method makes it possible to analyse the variation in regional and seasonal snow cover in wildlife habitats. The variation in snow cover depletion has been analysed in five subareas in the muskox area, and the results indicate that the snow cover pattern is an important factor which influences muskox calf crop and regional distribution of the muskox population. The method has proved useful for monitoring the duration of snow cover, and its application ought to facilitate the future study of wildlife habitats in extensive alpine and arctic areas. 相似文献
Snow cover mapping is based on the geometric correction and radiometric calibration of each satellite scene before the visual bands are corrected for the terrain-effects and high solar zenith angle by using a simple radiation model. The atmospheric effect on the thermal infrared bands is corrected by using the "split-window" method. An automatic filtering routine with empirically determined thresholds is used to determine cloud-and haze-covered areas before the snow cover is computed from a linear expression using albedos of bare ground and full snow cover. By combining the satellite information with ground measurements and a digital terrain model, both the spatial distribution of snow cover and the total snow cover depletion can be obtained.
The method makes it possible to analyse the variation in regional and seasonal snow cover in wildlife habitats. The variation in snow cover depletion has been analysed in five subareas in the muskox area, and the results indicate that the snow cover pattern is an important factor which influences muskox calf crop and regional distribution of the muskox population. The method has proved useful for monitoring the duration of snow cover, and its application ought to facilitate the future study of wildlife habitats in extensive alpine and arctic areas. 相似文献
12.
RS与GIS支持下的草地雪灾监测试验研究 总被引:32,自引:0,他引:32
冬季降雪是影响我国北方草原牧区畜牧业发展的重要因子。在草地雪灾监测和危险性评价过程中,确定积雪区域和积雪深度与牧草高度之间的关系是关键步骤。通过在内蒙古锡林郭勒草原的试验研究,可以认为:应用NOAA/AVHRR气象卫星资料确定积雪分布范围、应用地面气象站观测的降雪量资料及由DEM生成的地形参数确定积雪深 是在较大范围内进行雪灾监测的有效方法。 相似文献
13.
冬春季积雪与沙尘天气发生日数关系的探讨——以内蒙古中部地区为例 总被引:9,自引:4,他引:5
利用地面气象观测数据,以日积雪深度≥1.0 cm日数和沙尘天气(包括浮尘、扬沙及沙尘暴)发生日数为指标,从不同的空间尺度,分析了内蒙古中部地区冬季与初春积雪日数与沙尘天气发生日数的关系。研究结果表明,在内蒙古中部地区,冬季与初春沙尘天气发生日数与积雪日数之间均呈现负的相关关系,这种相关关系在不同区域和不同季节有所差异,冬季积雪日数与沙尘天气发生日数之间的负相关较初春积雪日数与沙尘天气发生日数之间的负相关更为显著;在中温带温凉半干旱气候区初春积雪日数与沙尘天气发生日数间的负相关较其他两个气候区更为显著。 相似文献
14.
Intra-annual variability of satellite observed surface albedo associated with typical land cover types in China 总被引:2,自引:0,他引:2
Surface albedo is a primary causative variable associated with the process of surface energy exchange. Numerous studies have examined diurnal variation of surface albedo at a regional scale; however, few studies have analyzed the intra-annual variations of surface albedo in concurrence with different land cover types. In this study, we amalgamated surface albedo product data (MCD43) from 2001 to 2008, land-use data (in 2000 and 2008) and land cover data (in 2000); quantitative analyses of surface albedo variation pertaining to diverse land cover types and the effect of the presence/absence of ground snow were undertaken. Results indicate that intra-annual surface albedo values exhibit flat Gaussian or triangular distributions depending upon land cover types. During snow-free periods, satellite observed surface albedo associated with the non-growing season was lower than that associated with the growing season. Satellite observed surface albedo during the presence of ground snow period was 2-4 times higher than that observed during snow-free periods. Surface albedo reference values in typical land cover types have been calculated; notably, grassland, cropland and built-up land were associated with higher surface albedo reference values than barren while ground snow was present. Irrespective of land cover types, the lowest surface albedo reference values were associated with forested areas. Proposed reference values may prove extremely useful in diverse research areas, including ecological modeling, land surface process modeling and radiation energy balance applications. 相似文献
15.
Absorption of photosynthetically active radiation (PAR) by vegetation was observed in two burned black spruce forests, one and seven years after wildfire, in interior Alaska along with several vegetation properties. This study considered PAR absorption by mosses by examining the relationship between PAR transmittance and fractional coverage of green vegetation. Our results suggest that mosses absorbed a considerable fraction of incoming PAR in the burned forests, which cannot be neglected in evaluating the fraction of absorbed PAR (FPAR). The relationships between FPAR and vegetation indices revealed that enhanced vegetation index (EVI) may be suitable for expressing the spatial and temporal variation of FPAR, regardless of stand age after wildfire. The comparison between the observed in situ FPAR and FPAR derived from Moderate Resolution Imaging Spectroradiometer (MODIS FPAR) clearly showed that MODIS FPAR was highly overestimated. The most likely reason for the overestimation was identified as misclassification of land cover type. The current regional estimation of photosynthesis in boreal region based on the light-use efficiency approach and MODIS FPAR is probably overestimated, and an accurate distribution of FPAR is desired for clarifying the regional carbon exchange in boreal forests. 相似文献
16.
基于积雪面积逐日无云遥感产品和气象观测资料,分析了2001—2020年三江源地区积雪日数的水平、垂直分布特征及变化规律,并对积雪日数与气温和降水量进行了相关分析。结果表明:(1) 2001—2020年三江源地区积雪日数呈西高东低,高海拔山脉大于盆地平原的分布格局,高海拔山脉地区积雪日数均值普遍大于200 d,85.48%的区域积雪日数呈波动增加趋势,显著增加区域占比为16.59%,平均增加速率为0.98 d·a-1。(2) 积雪日数及其变化趋势存在明显的海拔和坡向分异,积雪日数随海拔上升呈指数型增加,较低海拔(<3.0 km)区域积雪日数少、呈减少趋势且减少速率随海拔高度上升而加快;高海拔区域积雪日数较多且呈增多趋势,但海拔大于4.4 km后积雪日数增多速率随海拔上升而减缓,且5.5~6.0 km地区积雪日数呈减少趋势,高海拔地区积雪日数存在一定程度的“海拔依赖性”。积雪日数北坡大于南坡、西坡大于东坡,西北坡积雪日数最多,为78.30 d,不同坡向的积雪日数均呈增多趋势,其中西坡的增多速率最快,达1.04 d·a-1。(3) 近20 a三江源地区明显的“暖湿化”气候特征是影响积雪日数变化的主要原因,其中降水量是主要驱动因素,积雪日数增多与降水量增加密切相关,且高海拔地区积雪日数对降水量的依赖性更强。 相似文献
17.
西藏高原近40年积雪日数变化特征分析 总被引:7,自引:0,他引:7
利用近40 年(1971-2010 年) 西藏高原积雪日数资料, 分析了西藏高原积雪的时空分布特征。分析表明:藏东北部、南部边缘地区积雪较多, 年积雪日数在60 d 以上。近40 年来, 西部和东南部积雪日数呈显著减少的趋势, 除东南部各站、聂拉木和昌都积雪日数减少明显, 聂拉木减幅最大, 达到-9.2 d/10a, 其它各站地区积雪的变化趋势并不显著。西藏各区域积雪日数出现了准2 年、准4 年、准8 年、准14 年和准17~18 年的年代际周期, 南部边缘地区、东北部和西部地区积雪日数以10 年以下的周期为主。各区域积雪日数与冬季平均气温有明显的负相关, 但降水与积雪的相关在那曲中西部地区、沿江一线、东北部和南部边缘地区表现为明显的正相关。 相似文献
18.
以海拔依赖型变暖为理论基础,研究山地积雪对气候变暖的响应机制,是当前气候变化研究的热点问题。基于2000—2019年MODIS积雪物候数据,对秦岭南北积雪日数时空变化进行分析,探讨了秋冬两季厄尔尼诺指数(NINO)、青藏高原气压对积雪异常的影响。结果表明:(1) 2013年后秦岭南北气候由“变暖停滞”转为“增温回升”,积雪日数随之呈现转折下降,积雪日数≥10 d栅格占比由前期的35.1%下降为8.6%。(2)在垂直地带规律上,秦岭山地以1950~2000 m为临界点,大巴山区以1600~1650 m为临界点,低海拔地区积雪日数随海拔增加速率要低于高海拔地区。2100~3150 m海拔带是积雪日数的垂直变化的关键带;(3)在影响因素上,NINO C区、NINO Z区秋冬海温和青藏高原冬季高压,是秦岭山地、汉江谷地和大巴山区积雪异常的有效指示信号。当赤道太平洋中部秋冬海温偏低,且青藏高原冬季高压偏低时,上述3个子区积雪日数异常偏多。(4)在环流机制方面,相对于积雪日数偏少年,秦岭南北积雪日数偏多年1—2月0℃等温线位置偏南,低温环境为增加冰雪物质积累、延缓冰雪消融提供了气温条件;1月区域存... 相似文献
19.
At the end of March 2006, the Czech Republic (CZ) witnessed a fast thawing of an unusually thick snow cover in conjunction with massive rainfall. Most watercourses suffered floods, and more than 90 shallow landslides occurred in the Moravian region of Eastern CZ, primarily in non-forested areas. This region, geologically part of the Outer Western Carpathians, is prone to landslides because the bedrock is highly erodible Mesozoic and Tertiary flysch.The available meteorological data (depth of snow, water equivalent of the snow, cumulative rainfall, air and soil temperatures) from five local weather stations were used to construct indices quantitatively describing the snow thaw. Among these, the Total Cumulative Precipitation (TCP) combines the amount of water from both thawing snow and rainfall. This concurrence of rain and runoff from snow melt was the decisive factor in triggering the landslides in the spring.The TCP index was applied to data of snow thaw periods for the last 20 years, when no landslides were recorded. This was to establish the safe threshold of TCP without landslides. The calculated safe threshold value for the region is ca. 100 mm of water delivered to the soil during the spring thaw (corresponding to ca. 11 mm day− 1). In 2006, 10% of the landslides occurred under or at 100 mm of TCP. The upper value of 155 mm covered all of the landslides. 相似文献
20.
基于MODIS积雪产品的高亚洲融雪末期雪线高度遥感监测 总被引:4,自引:0,他引:4
以2001—2016年逐日MODIS积雪产品为主要数据源,在高亚洲区域发展了大尺度融雪末期雪线高度的遥感提取方法,并对其2001—2016年的时空变化特征进行了分析。提取方法首先对逐日的MODIS积雪覆盖率产品进行去云处理,获得积雪覆盖日数(SCD)数据集;并用冰川年物质平衡观测数据、融雪末期Landsat数据对提取终年积雪的MODIS SCD阈值进行率定;最后以MODIS SCD提取的终年积雪面积结合地形“面积—高程”曲线实现大尺度融雪末期雪线高度信息的提取。结果表明:① 高亚洲融雪末期雪线高度的空间异质性较强,总体上呈南高北低的纬度地带性分布规律;并因受山体效应的影响,雪线高度由高海拔地区向四周呈环形逐渐降低的特点。② 高亚洲2001—2016年融雪末期雪线高度总体上表现为明显的增加趋势。在744个30 km的监测格网中,24.2%的格网雪线高度呈显著增加,而仅0.9%的格网呈显著下降。除兴都库什、西喜马拉雅外,其他地区雪线高度均表现为升高趋势,显著上升的地区主要分布在天山、喜马拉雅中东部和念青唐古拉山等,其中以东喜马拉雅升高最为显著(8.52 m yr -1)。③ 夏季气温是影响高亚洲融雪末期雪线高度变化的主要因素,两者具有显著的正相关关系(R = 0.64,P < 0.01)。 相似文献