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1.
The fractional vegetation cover (FVC), crop residue cover (CRC), and bare soil (BS) are three important parameters in vegetation–soil ecosystems, and their correct and timely estimation can improve crop monitoring and environmental monitoring. The triangular space method uses one CRC index and one vegetation index to create a triangular space in which the three vertices represent pure vegetation, crop residue, and bare soil. Subsequently, the CRC, FVC, and BS of mixed remote sensing pixels can be distinguished by their spatial locations in the triangular space. However, soil moisture and crop-residue moisture (SM-CRM) significantly reduce the performance of broadband remote sensing CRC indices and can thus decrease the accuracy of the remote estimation and mapping of CRC, FVC, and BS. This study evaluated the use of broadband remote sensing, the triangular space method, and the random forest (RF) technique to estimate and map the FVC, CRC, and BS of cropland in which SM-CRM changes dramatically. A spectral dataset was obtained using: (1) from a field-based experiment with a field spectrometer; and (2) from a laboratory-based simulation that included four distinct soil types, three types of crop residue (winter-wheat, maize, and rice), one crop (winter wheat), and varying SM-CRM. We trained an RF model [designated the broadband crop-residue index from random forest (CRRF)] that can magnify spectral features of crop residue and soil by using the broadband remote sensing angle indices as input, and uses a moisture-resistant hyperspectral index as the target. The effects of moisture on crop residue and soil were minimized by using the broadband CRRF. Then, the CRRF-NDVI triangular space method was used to estimate and map CRC, FVC, and BS. Our method was validated by using both laboratory- and field-based experiments and Sentinel-2 broadband remote-sensing images. Our results indicate that the CRRF-NDVI triangular space method can reduce the effect of moisture on the broadband remote-sensing of CRC, and may also help to obtain laboratory and field CRC, FVC, and BS. Thus, the proposed method has great potential for application to croplands in which the SM-CRM content changes dramatically. 相似文献
2.
植被覆盖度是反映生态环境质量的评价指标,掌握植被覆盖度的变化有助于实现生态文明建设与区域农牧业规划及生态环境保护。基于2001—2020年归一化植被指数(Normalization difference vegetation index,NDVI),以耕地、林地、草地植被类型为研究对象,采用混合像元二分模型计算植被覆盖度,应用空间稳定性分析、Sen+Mann-Kendall空间趋势分析、线性回归等方法,分析塔什库尔干塔吉克自治县植被覆盖度的时空特征;同时,结合气温、降水量数据,利用Spearman相关分析、GIS空间分析等方法,分析气候因素对植被覆盖度的影响。结果表明:(1) 近20 a植被覆盖度以中植被覆盖区为主,植被覆盖度减小了4.79%。(2) 植被覆盖度的空间稳定性波动较小,以波动变化(37.3%)、中等波动变化(32.7%)为主;植被覆盖度呈显著减少和不显著减少面积分别占总面积的3.8%、54.5%。(3) 耕地、林地、草地植被状况均呈现不同程度的轻微退化,在植被覆盖度上分别减少了4.57%、6.32%、4.24%,在空间稳定性上,不显著减少分别为51.28%、54.48%、52.29%。(4) 2001—2020年耕地比林地、草地空间稳定性和退化程度更为稳定和缓慢,林地退化比耕地、草地严重。研究区植被覆盖度变化较小,呈微弱下降趋势,人类活动是影响植被生长的主要因素。 相似文献
3.
地表植被覆盖度遥感估算及其气候效应研究进展 总被引:1,自引:0,他引:1
赵健赟 《测绘与空间地理信息》2015,(8)
FVC是研究表植被覆盖的重要参数,其估算精度直接影响生态、环境变化研究结论的科学性。本文通过研究用于FVC计算的遥感数据,以及统计模型、混合像元分解、数据挖掘等估算方法和植被覆盖变化气候效应,指出大数据时代背景下融合海量、多平台、多时空、多尺度数据的FVC估算是必然趋势,其方法不仅具有高精度、高可靠性等特点,而且将向智能化、自动化的方向发展,植被覆盖变化气候效应研究将逐步定量化,地气作用过程和机理将成为其重要的研究方向。 相似文献
4.
利用cm级空间分辨率的无人机高光谱图像研究了NDVI、PRI等14种植被指数随空间尺度升高的变化规律,并分析了不同植被覆盖度(FVC)下植被指数的空间尺度效应,比较了各植被指数空间尺度效应的强弱。得到的结论如下:(1)随着空间尺度升高,不同植被指数的变化趋势和幅度并不一致;(2)cm级的空间分辨率下,由于植被类内光谱差异和冠层阴影的影响,植被指数在植被覆盖度大于等于0.5的中高植被覆盖下受空间尺度效应的影响更大;(3)由相对简单的比值形式构成的植被指数如NDVI、SR等,具有抵抗空间尺度效应的能力,增加计算公式的复杂性会降低这种能力;(4)对色素和冠层水分敏感的窄波段容易受到空间尺度效应的影响,进而使得由这些窄波段构成的植被指数对空间尺度变化更为敏感。 相似文献
5.
采用像元二分模型,以1974-2014年间的10期Landsat 5/8影像和DEM数据,对抚仙湖流域植被覆盖动态变化进行监测,并结合基础地理信息数据、行政区划界资料、行业部门专题资料等,分析流域植被覆盖时空分异及其与坡度的关系.结果表明:(1)1974-2014年,抚仙湖流域裸地(Ⅰ级)面积波动极小,低植被覆盖(Ⅱ级)、中低植被覆盖(Ⅲ级)、中高植被覆盖(Ⅳ级)面积变化波动大,变化趋势线数次出现谷值和峰值,高植被覆盖(Ⅴ级)面积则呈增加趋势.(2)坡度较小、地势较平缓的区域(0°~15°)以裸地和低植被覆盖为主;中低植被覆盖度、中高植被覆盖和高植被覆盖度主要分布在地势比较陡峭的区域(>15°).(3)抚仙湖流域各年份植被覆盖度Ⅰ级面积最大,1974,1977,1989,1996年Ⅱ,Ⅲ级面积较大,而Ⅳ,Ⅴ级面积较小;2000年后的Ⅱ,Ⅲ,Ⅳ级面积变化较小;2006,2009,2012,2014年Ⅳ,Ⅴ级的面积较大,Ⅱ,Ⅲ级的面积较小. 相似文献
6.
Gap probability theory provides a theoretical equation to calculate fractional vegetation cover (FVC). However, the main algorithms used in present FVC products generation are still the linear mixture model and machine learning methods. The reason to limit the gap probability theory applied in the product algorithm is the availability and accuracy of leaf area index (LAI) and clumping index (CI) products. With the improvement of the LAI and CI products, it is necessary to assess whether the algorithm based on gap probability theory using the present products can improve the accuracy of FVC products. In this study, we generated the FVC estimates based on the gap probability theory (FVCgap) with a resolution of 500 m every 8 days for Europe. FVCgap estimates were validated with field FVC measurements of ImagineS from 2013 to 2015 for crop types. Two existing FVC products, Geoland2 Version1 (GEOV1) and Multisource data Synergized Quantitative remote sensing production system (MuSyQ), were used to inter-compare with the FVCgap estimates. FVCgap estimates showed a better agreement with field FVC measurements, with lowest root mean square error (RMSE) (0.1211) and bias (0.0224), than GEOV1 and MuSyQ FVC products. The inter-annual and seasonal variations of FVCgap estimates were also showed the most consistent with field measurements. 相似文献
7.
为了快速准确获取小区域高精度、大比例尺岩溶石漠化的演变趋势,为小区域岩溶石漠化的定量评价和精准治理提供科学依据和基础数据,本文选择岩溶石漠化典型地区——蒙自东山生态治理研究区为例,基于2006年11月SPOT5和2015年1月Pleiades两期高分辨率遥感影像,通过研究区归一化植被指数(NDVI)与植被覆盖度(FVC)进行岩溶石漠化遥感信息提取,得到生态治理区2006年与2015年岩溶石漠化空间分布特征,并对两期FVC数据进行叠加,分析生态治理区石漠化的演变趋势。遥感调查表明,研究区内石漠化十分严重,重度石漠化面积占比73.55%,中度石漠化5.36%,轻度石漠化0.53%,无石漠化14.86%,阴影及水域面积5.71%。不同等级石漠化面积的变化情况显示,2006-2015年,重度石漠化和无石漠化面积比例增加,重度石漠化由72.37%增加到73.55%,无石漠化从6.06%增加到14.86%,而中度、轻度石漠化面积比例减少,中度石漠化面积从11.58%减小到5.36%,轻度石漠化面积从4.35%减小到0.53%。轻度、中度和无石漠化区变幅明显。研究区石漠化发生率从88.27%降低到79.43%,总体呈降低趋势。 相似文献
8.
Normalized difference vegetation index (NDVI) of highly dense vegetation (NDVIv) and bare soil (NDVIs), identified as the key parameters for Fractional Vegetation Cover (FVC) estimation, are usually obtained with empirical statistical methods However, it is often difficult to obtain reasonable values of NDVIv and NDVIs at a coarse resolution (e.g., 1 km), or in arid, semiarid, and evergreen areas. The uncertainty of estimated NDVIs and NDVIv can cause substantial errors in FVC estimations when a simple linear mixture model is used. To address this problem, this paper proposes a physically based method. The leaf area index (LAI) and directional NDVI are introduced in a gap fraction model and a linear mixture model for FVC estimation to calculate NDVIv and NDVIs. The model incorporates the Moderate Resolution Imaging Spectroradiometer (MODIS) Bidirectional Reflectance Distribution Function (BRDF) model parameters product (MCD43B1) and LAI product, which are convenient to acquire. Two types of evaluation experiments are designed 1) with data simulated by a canopy radiative transfer model and 2) with satellite observations. The root-mean-square deviation (RMSD) for simulated data is less than 0.117, depending on the type of noise added on the data. In the real data experiment, the RMSD for cropland is 0.127, for grassland is 0.075, and for forest is 0.107. The experimental areas respectively lack fully vegetated and non-vegetated pixels at 1 km resolution. Consequently, a relatively large uncertainty is found while using the statistical methods and the RMSD ranges from 0.110 to 0.363 based on the real data. The proposed method is convenient to produce NDVIv and NDVIs maps for FVC estimation on regional and global scales. 相似文献
9.
福建省地表温度与植被覆盖度的相关性分析 总被引:1,自引:0,他引:1
地表温度(Land surface Tenperature, LST)和植被覆盖度(Fractional Vegetation Coverage, FVC)是生态环境变化的重要指标因子,研究两者的时空变化及相互关系对评价区域生态环境建设、改善区域生态环境具有重要意义。本文以福建省为研究区域,利用2001-2015年MODIS 11A2 LST和13Q1 NDVI数据,在时序数据重构的基础上对福建省LST时空变化及LST与FVC的相互关系进行分析。结果表明:①2001-2015年福建省LST总体呈轻微下降趋势,尤其是2010年之后其LST明显降低。LST与FVC的空间分布具有较好的负相关一致性:在FVC较高的区域,LST值较低;在FVC较低的区域,LST较高。② LST与FVC、DEM和纬度均成负相关关系,且负相关性在一年之中随着月份的变化而呈规律性增加或降低。夏季FVC对LST的负相关性最大为0.7,冬季FVC对LST的负相关性降低为0.4。③LST随着FVC增加而降低的趋势呈现分段线性关系,存在“FVC拐点”。“FVC拐点”前后随着FVC增加LST的降低速率在夏季 “先慢后快”,而在冬季则“先快后慢”。春秋两季,LST随着FVC增加而降低的速率在“FVC拐点”前后差异变小。在夏季,当FVC大于0.4时,FVC每增加0.1可降低LST约0.77 °C,降温效果大约是FVC小于0.4时的2倍。因此如果要有效地降低夏季地表高温,要使地表植被覆盖大于40%,才能较好的发挥植被的降温的作用。④在1-8月份,FVC对LST的负相关作用存在滞后性,FVC变化对滞后一个月的LST时空分布影响更大。研究成果对福建省生态环境建设与评估具有一定的意义,对于发挥植被对区域高温抑制作用提供了重要的参考依据。 相似文献
10.
指纹方向场真实地反映了指纹图像中本质的纹理特征,包括指纹的基本形状、结构和走势。方向场图像在局部区域表现相对一致,而在全局范围则表现出较大的差异。基于方向场对指纹图像进行分区,可以提供一种有用的辅助性全局特征。本文提出了一种指纹图像快速分区方法,并结合一种基于局部描述子的指纹图像匹配算法给出了其应用实例。在FVC2004DB1数据集上设计了实验,结果表明,这种分区方法能有效地提高识别率,同时缩短处理时间。 相似文献