巴丹吉林沙漠典型湖冰冻结-消融的空间模式差异     

庄立超  王乃昂  张洵赫  赵力强  苏贤保 《中国沙漠》2021,41(3):214-223

利用多源遥感数据解译、野外考察、原位观测等方法,分析了巴丹吉林沙漠腹地湖泊群湖冰冻结-消融空间模式及其差异的主要影响因素。结果表明：该沙漠存在4种冻结-消融空间模式,湖冰自湖岸蔓延至湖心、冻结早的区域融化晚;湖冰自湖岸蔓延至湖心、冻结早的区域融化早;湖冰自湖泊一岸扩展至另一岸、冻结早的区域融化晚;湖冰自湖泊一岸扩展至另一岸、冻结早的区域融化早。大部分面积较小湖泊的冻结-消融空间模式为从湖岸冻结至湖心,冻结早的区域消融晚。不同冻结-消融空间模式之间的差异反映了泉水与地下水对湖泊的补给作用,同一盆地内部或同一沙山两侧孪生湖泊湖冰物候特征的差异主要受湖泊形态特征、湖泊溶解性固体总量（TDS）、局地气候条件的影响,有泉水或地下水出露、TDS越低、水位越浅、风力越小的区域冻结越早。泉水、地下水与湖水混合后使湖水TDS降低,更易于冻结,这是巴丹吉林沙漠大部分湖泊冰的最初生成形式,表明巴丹吉林沙漠湖冰物候在一定意义上是湖泊群接受区域深层地下水补给的直接反映。  相似文献   

Isolating type-specific phenologies through spectral unmixing of satellite time series     

Jyoteshwar R. Nagol  Joseph O. Sexton  Anupam Anand  Ritvik Sahajpal  Thomas C. Edwards 《International Journal of Digital Earth》2018,11(3):233-245

Vegetation phenology is commonly studied using time series of multi-spectral vegetation indices derived from satellite imagery. Differences in reflectance among land-cover and/or plant functional types are obscured by sub-pixel mixing, and so phenological analyses have typically sought to maximize the compositional purity of input satellite data by increasing spatial resolution. We present an alternative method to mitigate this ‘mixed-pixel problem’ and extract the phenological behavior of individual land-cover types inferentially, by inverting the linear mixture model traditionally used for sub-pixel land-cover mapping. Parameterized using genetic algorithms, the method takes advantage of the discriminating capacity of calibrated surface reflectance measurements in red, near infrared, and short-wave infrared wavelengths, as well as the Normalized Difference Vegetation Index (NDVI) and the Normalized Difference Water Index. In simulation, the unmixing procedure reproduced the reflectances and phenological signals of grass, crop, and deciduous forests with high fidelity (RMSE?相似文献   

Local variability in the timing and intensity of tropical dry forest deciduousness is explained by differences in forest stand age     

Nicholas Cuba  Deborah Lawrence  John Rogan  Christopher A. Williams 《地理信息系统科学与遥感》2018,55(3):437-456

Tropical Dry Forest deciduousness is a behavioral response to climate conditions that determines ecosystem-level carbon uptake, energy flux, and habitat conditions. It is regulated by factors related to stand age, and landscape scale variability in deciduous phenology may affect ecosystem functioning in forests throughout the tropics. This study determines whether observed phenological differences are explainable by forest age in the southern Yucatán Peninsula in Mexico, where forest clearing for shifting cultivation has created a mosaic of forest stands of varying age. Matched-pair statistical tests compare neighboring forest pixels of different age class (12–22 years versus 22+ years) and detect significant differences in Moderate Resolution Imaging Spectroradiometer (MODIS) Enhanced Vegetation Index (EVI)-derived metrics related to the timing and intensity of deciduousness during three dry seasons (2008–2011). In all seasons, young forests exhibit significantly more intense deciduousness, measured as total seasonal change of EVI normalized by annual maximum EVI (p < 0.001), and larger normalized EVI change during successive dry season months relative to start-of-dry-season EVI (p < 0.001), than neighboring older forests subject to similar environmental conditions.  相似文献   

基于NPP-VIIRS数据的喜马拉雅山北坡典型湖泊湖冰提取分析     

孙皓  李传华  姚晓军 《冰川冻土》2021,43(1):70-79

现阶段使用遥感数据监测湖冰物候特征已成为主要的技术手段。NPP-VIIRS是一个较新的卫星数据,它具有空间分辨率较高、波段数多、重访周期短等优点,使用该数据提取湖冰信息是对该领域的一个有益补充。基于NPP-VIIRS数据利用阈值法对拉昂错、玛旁雍错、佩枯错、普莫雍错等典型湖泊进行湖冰提取。获得四个湖泊逐日的冻结百分比,并分析了四个湖泊的冻融特征。结果表明：使用NPP-VIIRS能较好的提取湖冰信息;该地区湖泊冻融过程有风向蔓延和水流向加风向蔓延两种。气温（年负积温）是影响该地区湖冰面积最主要的因素,冻融过程主要受到风向、注入径流影响,地热资源也是影响因素之一。  相似文献   

Spatio-temporal analysis of flowering using LiDAR topography     

Samantha Hart  Elena Mikhailova  Christopher Post  Patrick McMillan  Julia Sharp  William Bridges 《地理学报(英文版)》2017,27(1):62-78

Spatio-temporal patterns of flowering in forest ecosystems are hard to quantify and monitor. The objectives of this study were to investigate spatio-temporal patterns(e.g. soilssimple slope classesslope aspectand flow accumulation) of flowering around Lake IssaqueenaSouth Carolina(SCUSA) using plant-flowering database collected with GPS- enabled camera(stored in Picasa 3 web albums and project website) on a monthly basis in 2012 and Li DAR-based topography. Pacolet fine sandy loam had the most flowering plantsfollowed by Madison sandy loamboth dominant soil types around the lake. Most flowering plants were on moderately steep(17%–30%) and gently sloping(4%–8%) slopes. Most flowering plants were on west(247.5°–292.5°)southwest(202.5°–247.5°)and northwest(292.5°–337.5°) aspects. Most flowering plants were associated with minimum and maximum flows within the landscape. Chi-square tests indicated differences in the distributions of the proportions of flowering plants were significant by soil typeslopeaspectand flow accumulation for each month(February-November)for all months(overall)and across months. The Chi-square test on area-normalized data indicated significant differences for all months and individual differences by each month with some months not statistically significant. Cluster analysis on flowering counts for nine plant families with the most flowering counts indicated no unique separation by clusterbut implied that the majority of these families were flowering on strongly sloping(9%–16%) slopeson southwest(202.5°–247.5°) aspectsand low flow accumulation(0–200). Presented methodology can serve as a template for future efforts to quantify spatio-temporal patterns of flowering and other phenological events.  相似文献   

Declining Precipitation Enhances the Effect of Warming on Phenological Variation in a Semiarid Tibetan Meadow Steppe     

ZHAO Guangshuai  SHI Peili  ZONG Ning  HE Yongtao  ZHANG Xianzhou  HE Honglin  ZHANG Jing 《资源与生态学报(英文版)》2017,8(1):50-56

Vegetation phenology is a sensitive indicator of global warming, especially on the Tibetan Plateau. However, whether climate warming has enhanced the advance of grassland phenology since 2000 remains debated and little is known about the warming effect on semiarid grassland phenology and interactions with early growing season precipitation. In this study, we extracted phenological changes from average NDVI in the growing season (GNDVI) to analyze the relationship between changes in NDVI, phenology and climate in the Northern Tibetan Damxung grassland from 2000 to 2014. The GNDVI of the grassland declined. Interannual variation of GNDVI was mainly affected by mean temperature from late May to July and precipitation from April to August. The length of the growing season was significantly shortened due to a delay in the beginning of the growing season and no advancement of the end of the growing season, largely caused by climate warming and enhanced by decreasing precipitation in spring. Water availability was the major determinant of grass growth in the study area. Warming increased demand for water when the growth limitation of temperature to grass was exceeded in the growing season. Decreased precipitation likely further exacerbated the effect of warming on vegetation phenology in recent decades due to increasing evapotranspiration and water limitations. The comprehensive effects of global warming and decreasing precipitation may delay the phenological responses of semiarid alpine grasslands.  相似文献   

Influences of agricultural phenology dynamic on land surface biophysical process and climate feedback   总被引：1，自引：1，他引：0  

Fengshan Liu  Ying Chen  Wenjiao Shi  Shuai Zhang  Fulu Tao  Quansheng Ge 《地理学报(英文版)》2017,27(9):1085-1099

Response and feedback of land surface process to climate change is one of the research priorities in the field of geoscience. The current study paid more attention to the impacts of global change on land surface process, but the feedback of land surface process to climate change has been poorly understood. It is becoming more and more meaningful under the framework of Earth system science to understand systematically the relationships between agricultural phenology dynamic and biophysical process, as well as the feedback on climate. In this paper, we summarized the research progress in this field, including the fact of agricultural phenology change, parameterization of phenology dynamic in land surface progress model, the influence of agricultural phenology dynamic on biophysical process, as well as its feedback on climate. The results showed that the agriculture phenophase, represented by the key phenological phases such as sowing, flowering and maturity, had shifted significantly due to the impacts of climate change and agronomic management. The digital expressions of land surface dynamic process, as well as the biophysical process and atmospheric process, were improved by coupling phenology dynamic in land surface model. The agricultural phenology dynamic had influenced net radiation, latent heat, sensible heat, albedo, temperature, precipitation, circulation, playing an important role in the surface energy partitioning and climate feedback. Considering the importance of agricultural phenology dynamic in land surface biophysical process and climate feedback, the following research priorities should be stressed: (1) the interactions between climate change and land surface phenology dynamic; (2) the relations between agricultural phenology dynamic and land surface reflectivity at different spectrums; (3) the contributions of crop physiology characteristic changes to land surface biophysical process; (4) the regional differences of climate feedbacks from phenology dynamic in different climate zones. This review is helpful to accelerate understanding of the role of agricultural phenology dynamic in land surface process and climate feedback.  相似文献   

1985-2012年哈尔滨自然历主要物候期变动特征及对气温变化的响应     

徐韵佳  戴君虎  王焕炯  刘亚辰 《地理研究》2015,34(9):1662-1674

利用中国物候观测网观测数据,新编制了哈尔滨地区1985-2012年的自然历。通过与原自然历（1963-1984年）比较,揭示了近30年以来哈尔滨地区21个植物99个物候期的变化特征,并通过物候期与气温的相关分析探讨了物候变化原因。结果表明：自1985年以来,哈尔滨的春季、夏季、秋季的物候期开始日期提前,冬季开始日期推迟。其中春季（以白榆叶芽膨大期为代表）、夏季（以暴马丁香开花始期为代表）、秋季（以金银忍冬果实成熟期为代表）分别提前了7天、6天和19天,冬季（以胡桃楸落叶末期为代表）推迟了2天。各物候期在春季、夏季、秋季的平均日期相较于原自然历提前了3~11天,在冬季推迟了3天。四季各物候期最早日期均以提前为主,夏冬季物候期最晚日期有所推迟。另外,各季节内部分物候期出现的先后次序发生了变化。近30年该地区气温的升高是物候季节开始日期提前的首要原因。且不同植物和物候期对气温变化的响应敏感性不同可解释物候季节内物候期先后次序的变化。  相似文献   

亚热带福建省森林生长季与气温、降水相关性的遥感分析     

徐凯健  曾宏达  张仲德  谢锦升  杨玉盛 《地球信息科学学报》2015,17(10):1249-1259

植物生长季的变化反映了全球气候变化对生态环境的影响。本研究以2000-2006年间MODIS-NDVI影像数据集,使用TIMESAT软件从归一化植被指数（NDVI）时间序列中,分别提取福建省不同森林植被的生长季开始日期（Start of Season,SOS）、生长季结束日期（End of Season,EOS）和生长季长度（Length of season,LOS）等物候参数,并与全省尺度的气温与降水量进行相关分析。结果表明：不同森林类型NDVI与当月月均气温之间具有较显著的相关性（R²为0.72-0.79,p<0.01）,同期温度变化对植被生长的影响相对于降水量更重要;而植被生长对降水量的响应存在大约2个月的时滞效应（R²为0.54-0.75,p<0.01）,说明前期的降水累积对于后续植被生长有较显著影响。福建省森林植被生长季持续时间约213~223 d,开始于每年4月初到4月中旬（第98~103 d）,结束于11月中旬前后（第316~321 d）。其中,南亚热带森林生长季长于中亚热带森林,相同气候条件下的阔叶林生长季时间略长于针叶林。另外,春季（2-4月）气温变化是导致福建省内2个气候带森林生长季开始时间、生长季结束时间及生长季长度变化的关键因素,而伴随春季温度升高,植被生长季开始时间提前（R²为0.83,p<0.01）,同时生长季长度延长（R²为0.80,p<0.01）。7 a间,生长季持续时间呈现微弱延长趋势,总体延长幅度为2.4~3.1 d。  相似文献   

毛乌素沙地植被物候时空变化特征及其影响因素   总被引：3，自引：0，他引：3  

王静璞  刘连友  贾凯  田丽慧 《中国沙漠》2015,35(3):624-631

利用MODIS归一化植被指数(NDVI)对2001-2013年毛乌素沙地植被物候的时空变化进行了研究,并分析了物候与海拔、气候的关系。结果显示:(1)毛乌素沙地植被生长开始期(SOG)集中在第90～156天,生长结束期(EOG)在第245～323天,生长季长度(LOG)118～200 d;从东到西,SOG逐渐推迟,LOG逐渐缩短;随着海拔的升高,SOG显著推迟,EOG提前,LOG显著缩短。(2)2001-2013年,毛乌素沙地植被SOG明显提前,变化幅度为9 d/10a(R=-0.46,p=0.06),EOG和LOG分别呈提前和延长趋势,但变化都不显著。(3)研究区植被物候与温度的相关性不明显,但较多受降水量的影响,SOG与春季降水量的相关系数为-0.58(p=0.02);EOG与秋季降水量的相关系数为0.42(p=0.07);LOG与秋季降水量的相关系数为0.48(p=0.05)。  相似文献