A phenology-based vegetation index for improving ratoon rice mapping using harmonized Landsat and Sentinel-2 data

Ratoon rice,which refers to a second harvest of rice obtained from the regenerated tillers originating from the stubble of the first harvested crop,plays an important role in both food security and agroecology while requiring minimal agricultural inputs.However,accurately identifying ratoon rice crops is challenging due to the similarity of its spectral features with other rice cropping systems(e.g.,double rice).Moreover,images with a high spatiotemporal resolution are essential since ratoon rice is generally cultivated in fragmented croplands within regions that frequently exhibit cloudy and rainy weather.In this study,taking Qichun County in Hubei Province,China as an example,we developed a new phenology-based ratoon rice vegetation index(PRVI)for the purpose of ratoon rice mapping at a 30 m spatial resolution using a robust time series generated from Harmonized Landsat and Sentinel-2(HLS)images.The PRVI that incorporated the red,near-infrared,and shortwave infrared 1 bands was developed based on the analysis of spectro-phenological separability and feature selection.Based on actual field samples,the performance of the PRVI for ratoon rice mapping was carefully evaluated by comparing it to several vegetation indices,including normalized difference vegetation index(NDVI),enhanced vegetation index(EVI)and land surface water index(LSWI).The results suggested that the PRVI could sufficiently capture the specific characteristics of ratoon rice,leading to a favorable separability between ratoon rice and other land cover types.Furthermore,the PRVI showed the best performance for identifying ratoon rice in the phenological phases characterized by grain filling and harvesting to tillering of the ratoon crop(GHS-TS2),indicating that only several images are required to obtain an accurate ratoon rice map.Finally,the PRVI performed better than NDVI,EVI,LSWI and their combination at the GHS-TS2 stages,with producer's accuracy and user's accuracy of 92.22 and 89.30%,respectively.These results demonstrate that the proposed PRVI based on HLS data can effectively identify ratoon rice in fragmented croplands at crucial phenological stages,which is promising for identifying the earliest timing of ratoon rice planting and can provide a fundamental dataset for crop management activities.

基于Sentinel-1结合Sentinel-2和Landsat8影像的水体提取方法比较——以鲁班水库为例

基于sentinel-1数据结合sentinel-2数据和Landsat8数据,提取2017年—2021年鲁班水库五年间的水体年间变化,对所提取的水体面积进行分析,比较两种影像对鲁班水库水体提取的差异,经过水体指数的计算以及分析得到鲁班水库的水体面积。sentinel-2影像数据对水体提取的效果较好于Landsat8数据,sentinel-2影像总体分类精度达0.993,kappa系数为0.991,而Landsat8的总体精度为0.989,kappa系数为0.986。通过对鲁班水库这种大中型水体的水体提取选择使用sentinel-2数据较好。

Comparison of the precision of glacier flow rates derived from offset-tracking using Sentinel-2 and Landsat-8/9 imagery

Offset-tracking is an essential method for deriving glacier flow rates using optical imagery.Sentinel-2(S2)and Landsat-8/9(L8/9)are popular optical satellites or constellations for polar studies,offering high spatial resolution with relatively short revisit time,wide swath width,and free accessibility.To evaluate and compare the precision of offset-tracking results yielded with these two kinds of data,in this study S2 and L8/9 imagery observed in Petermann Glacier in Greenland,Karakoram in High-Mountains Asia,and Amery Ice Shelf in the Antarctic are analyzed.Outliers and various systematic error sources in the offset-tracking results including orbital and strip errors were analyzed and eliminated at the pre-process stage.Precision at the off-glacier(bare rock)region was evaluated by presuming that no deformation occurred;then for both glacierized and the off-glacier regions,precision of velocity time series was evaluated based on error propagation theory.The least squares method based on connected components was used to solve flow rates time series based on multi-pair images offset-tracking.The results indicated that S2 achieved slightly higher precision than L8/9 in terms of both single-pair derived displacements and least square solved daily flow rates time series.Generally,the RMSE of daily velocity is 26%lower for S2 than L8/9.Moreover,S2 provided higher temporal resolution for monitoring glacier flow rates.

High resolution crop intensity mapping using harmonized Landsat-8 and Sentinel-2 data

An increase in crop intensity could improve crop yield but may also lead to a series of environmental problems, such as depletion of ground water and increased soil salinity. The generation of high resolution(30 m) crop intensity maps is an important method used to monitor these changes, but this is challenging because the temporal resolution of the 30-m image time series is low due to the long satellite revisit period and high cloud coverage. The recently launched Sentinel-2 satellite could provide optical images at 10–60 m resolution and thus improve the temporal resolution of the 30-m image time series. This study used harmonized Landsat Sentinel-2(HLS) data to identify crop intensity. The sixth polynomial function was used to fit the normalized difference vegetation index(NDVI) and enhanced vegetation index(EVI) curves. Then, 15-day NDVI and EVI time series were then generated from the fitted curves and used to generate the extent of croplands. Lastly, the first derivative of the fitted VI curves were used to calculate the VI peaks;spurious peaks were removed using artificially defined thresholds and crop intensity was generated by counting the number of remaining VI peaks. The proposed methods were tested in four study regions, with results showing that 15-day time series generated from the fitted curves could accurately identify cropland extent. Overall accuracy of cropland identification was higher than 95%. In addition, both the harmonized NDVI and EVI time series identified crop intensity accurately as the overall accuracies, producer’s accuracies and user’s accuracies of non-cropland, single crop cycle and double crop cycle were higher than 85%. NDVI outperformed EVI as identifying double crop cycle fields more accurately.

Sentinel-2 MSI和Landsat 8 OLI数据在玉米秸秆覆盖度遥感估算应用中的比较研究

秸秆覆盖度(Crop residue cover, CRC)的遥感估算可以在短时间内获取大范围耕地秸秆覆盖度数据,对于政府部门监测保护性耕作的实施情况有重要的现实意义。本研究基于Sentinel-2 MSI和Landsat 8 OLI数据,分别计算了多种光谱指数,并与野外实测的秸秆覆盖度数据进行相关性分析,挑选出极显著性相关的光谱指数。在此基础上,构建其与秸秆覆盖度之间的相关模型,并通过决定系数(R2)和均方根误差(RMSE)所表征模型的精度比较Sentinel-2 MSI和Landsat 8OLI数据由于光谱和空间尺度的差异对秸秆覆盖度反演模型的影响。结果表明:6种光谱指数与CRC的相关性系数均大于0.4,相关性较高的是Sentinel-2 MSI 20 m分辨率数据获取的NDTI和STI,相关系数分别为0.878、0.894,相关性最低的为Sentinel-2 MSI 10 m分辨率数据获取的NDSVI,相关系数为0.476;利用一元线性回归法构建模型时,Sentinel-2 MSI 20 m分辨率数据构建的光谱指数STI和NDTI,模型精度最高,R^(2)分别为0.810和0.800,RMSE分别为6.84%和7.01%,而30 m重采样数据的R^(2)分别为0.770和0.771,RMSE分别为7.52%和7.50%,随着空间分辨率的降低呈现出下降趋势;Sentinel-2MSI 30 m重采样数据获取的光谱指数构建的所有模型精度均略大于Landsat 8 OLI数据构建的模型。因此,Sentinel-2 MSI数据获取NDTI和STI这两个光谱指数更加适合本研究区域秸秆覆盖度的估算。

基于Sentinel-2和Landsat卫星时序数据的耕地撂荒识别

充足的粮食供应是当下经济发展和社会稳定的重要保障之一,撂荒作为耕地边际化的极端表现,对其开展监测对保障耕地数量和质量至关重要。本文以四川省南充市营山县为研究区域,通过GEE平台,使用Sentinel-2和Landsat 7、8数据构建时序数据集,计算NDVI、EVI、NDWI、BSI、MSI等指数,分别利用支持向量机和随机森林法提取耕地撂荒,总分类精度为73.76%,Kappa系数为0.68,针对耕地撂荒最佳提取效果,F_(1)得分为0.6911。本文方法对山地丘陵地区耕地撂荒监测有较大的借鉴意义。

基于Sentinel-2和Landsat8 OLI数据融合的土地利用分类研究

以山东省平邑县为研究区,在随机选取的子研究区中,利用3种不同的融合模型,以Sentinel-2影像的红、绿、蓝、近红外4个波段作为高分辨率融合参考影像,获得12组融合影像,结果表明,利用小波变换(ATWT)算法并以红波段为高分辨率融合影像时,融合效果最好.采用最优模型和波段,对整个研究区进行数据融合,并利用随机森林算法对原始Sentinel-2影像、融合获得影像和Landsat影像进行土地利用分类,其中Sentinel-2影像总体分类精度为89.6939%,Kappa系数为0.8860,融合影像的总体分类精度为88.7657%,Kappa系数为0.8690,略低于前者,结果表明,"红波段+ATWT"融合影像在土地利用分类中可以获得接近原始影像分类精度的结果,能较好地保留原始影像的光谱信息并应用于较大区域的土地利用精细提取.

基于Sentinel-2和Landsat 8数据的天祝县草地地上生物量遥感反演

为精确获取区域草地地上生物量(Above-ground biomass,AGB),本研究利用Sentinel-2和Landsat 8数据,计算5种植被指数,与野外实测AGB建立草地AGB遥感估算模型,并用均方根误差、决定系数和平均相对误差等指标综合比较不同估算模型的反演精度。结果表明:5种植被指数与草地AGB均显著相关;基于Sentinel-2数据建立的AGB估算模型总体上优于Landsat 8的估算结果;7月最优反演模型为基于差值植被指数(Difference vegetation index,DVI)的二次多项式模型,精度达86%;8月最优反演模型为基于绿色归一化植被指数(Green normalized difference vegetative index,GNDVI)的指数模型,精度达84%;天祝县草地AGB的空间差异明显,不同草地类型平均AGB顺序为:山地草甸>高寒草甸>温性草原>温性荒漠草原。以上研究结果可为研究区草地AGB合理估算和放牧管理提供科学依据。

Sentinel-2与Landsat 8数据组合下的多特征冬小麦面积提取

遥感卫星的波段设置、信噪比及传感器观测角度等因素都会影响作物提取精度。为充分挖掘与发挥Sentinel-2卫星多光谱成像仪(MSI)与Landsat 8陆地成像仪(OLI)在冬小麦信息提取方面的优势,本文以商河县为研究区,基于两数据源的光谱特征、纹理特征、植被指数特征组合数据,利用随机森林(RF)与支持向量机(SVM)对冬小麦进行提取。结果表明:基于单一影像的最优Kappa系数与最优OA分别为0.89和95.13%,基于组合数据源的最优Kappa系数为0.92,最优OA为95.28%,两数据源组合的精度优于单一数据源提取精度;数据组合效果与分类器的性能有关,RF的Kappa系数相对于SVM分别提升0.04、0.20和0.11,OA分别提升2.41%、11.31%和6%,RF对冬小麦提取精度优于SVM。本文研究结果对于构建中高分辨率影像组合的典型农作物分类提取体系具有重要意义。

基于同日过空的Sentinel-2和Landsat 8数据的NDISI指数改进与应用

以福建省福州市为研究区,以同日过空的Sentinel-2和Landsat 8影像为主要数据源,采用MHUTS算法将Landsat 8热红外波段TIRS 10降尺度反演生成10 m空间分辨率的地表温度(LST)影像,然后将其引入基于Sentinel-2的10 m空间分辨率多光谱波段的NDISI指数的构建,提出了一种新型的不透水面指数MNDISIS2-L8,并对改进前后的研究区不透水面提取结果进行了精度验证和比较分析.结果表明:经MHUTS算法空间降尺度后,LST影像的空间分辨率得到了明显的提高,细节得以清晰展示的同时也较好地保持了原始影像的热特征.改进前,研究区不透水面提取总精度和Kappa系数分别为88.60%和0.730;改进后,不透水面提取总精度达94.75%,Kappa系数为0.881.

基于Sentinel-2卫星数据的南陵—宣城矿集区矿化蚀变信息提取

文章以长江中下游成矿带的南陵—宣城矿集区为研究区,分析Sentinel-2卫星数据波段和研究区主要蚀变矿物光谱特征对应关系,在对植被、水体、建筑物等干扰信息去除的基础上,使用主成分分析(principal component analysis,PCA)法和波段比值法进行铁染异常、Al—OH异常、Mg—OH异常及碳酸盐异常信息提取,并通过与研究区已知矿点的叠加分析,与Landsat 8卫星遥感数据提取结果对比。结果表明:在植被覆盖度较高区域,Sentinel-2卫星数据具有更高的空间分辨率,受混合像元影响更小,对于高密度植被信息提取具有较大优势,在干扰信息去除的过程中保留的有效信息更多;从Sentinel-2、Landsat 8卫星数据提取的蚀变异常信息与已知矿点的相关比率分别为69.14%、47.43%,Sentinel-2卫星数据蚀变提取精度优于Landsat 8卫星数据。研究结果可为植被覆盖度较高区域矿产资源遥感调查提供参考,为南陵—宣城矿集区找矿预测提供依据。

Sentinel-2A与Landsat 8数据在植被覆盖度遥感估算中的比较

本文以芜湖市繁昌县为研究对象,基于Sentinel-2A数据与Landsat 8数据,利用像元二分法、线性光谱混合模型对研究区进行植被覆盖度估算,并对试验结果进行分析,探究两种数据在植被覆盖度反演方面的能力差异,比较了不同方法在研究区反演中的优劣性。试验结果表明,繁昌县植被覆盖状况较好;利用Landsat 8数据和Sentinel-2A数据分析得出的植被覆盖度具有较强的一致性,并且当利用线性光谱混合模型反演植被覆盖度时,Sentinel-2A数据总体精度比Landsat 8数据总体精度高3.84%;利用像元二分法反演植被覆盖度时,Sentinel-2A数据总体精度比Landsat 8数据总体精度高2.725%。总体而言,Sentinel-2A的植被覆盖度反演能力优于Landsat 8;像元二分法能较好地适用于研究区的植被覆盖度反演。

Sentinel-2和Landsat8影像的四种常用水体指数地表水体提取对比

利用卫星影像快速准确地提取湖泊等地表水体范围一直是一个重要的研究课题,其对洪涝灾害监测、水资源管理与利用等具有重要意义。Sentinel-2 MSI和Landsat8 OLI数据是目前主流的开放获取的中高空间分辨率遥感影像。以鄱阳湖区为研究对象,首先,分别使用归一化差异水体指数(normalized difference water index,NDWI)、改进的归一化差异水体指数(modified normalized difference water index,MNDWI)、自动水体提取指数(automated water extraction index,AWEI sh )和基于线性判别分析的水体指数(water index,WI 2015 )等4种常用的水体指数从2种影像中提取湖泊水体的分布信息;然后,分析了在同种水体指数之下2种影像提取结果的差异性和同一幅影像中4种水体指数提取结果的不同;最后,利用同期的高分一号影像目视解译的结果对水体提取结果进行了精度验证。结果表明,对于2种遥感影像,4种水体指数均能成功地提取出研究区的大部分水体;AWEI sh 和WI 2015 的提取精度最高,在Sentinel-2和Landsat8影像上分别达到了98%和94%以上,MNDWI次之,NDWI的提取精度最低;相对而言,Sentinel-2影像提取的水体细部信息更为明显,整体提取效果优于Landsat8影像。

2017-2021年景泰县耕地撂荒空间分布变化研究

本文基于GEE平台和景泰县2014-2016年的Landsat8 OLI影像数据、2017-2021年的Sentinel-2 MSI影像数据,计算NDVI、NDBI、MNDWI、海拔、坡度等指数特征,进行土地利用类型分类;根据撂荒地判别规则、研究区作物熟制及耕作规则对研究区近五年撂荒地进行提取,从而分析2017-2021年景泰县耕地撂荒空间分布变化特点。结果表明,(1)2014-2021年景泰县各年份土地利用类型分类结果的解译精度较稳定,总体分类精度均在0.91以上,Kappa系数均在0.89以上,表明分类结果与实际地类的一致程度较高,整体分类效果较好。(2)2017-2021年景泰县耕地的撂荒现象整体上呈波动下降的趋势。其中,2017年耕地撂荒最严重,即2017年(9560.92 hm^(2))>2021年(6849.39 hm^(2))>2019年(3120.17 hm^(2))>2018年(2970.64 hm^(2))>2020年(1222.61 hm^(2))。(3)研究区东部地区的撂荒现象相较于研究区内其他地区的撂荒现象较少,主要原因是景泰县地势西南高、东北低,且山峦丘陵占县域面积较大。

利用Sentinel-2A多光谱成像仪与Landsat 8陆地成像仪影像进行普陀山岛植被分类效果比较

卫星遥感技术可用于海岛资源调查。Sentinel-2A与Landsat 8两颗卫星都可免费提供空间分辨率较高的多光谱遥感影像,在海岛调查中的应用潜力较大。本文以浙江舟山普陀山岛为例开展了针对这两种影像在海岛植被分类中的应用效果的研究,分别利用Sentinel-2A多光谱成像仪(MSI)和Landsat 8陆地成像仪(OLI)影像基于最大似然法分类获得了该岛阔叶林、针阔混交林、针叶林、灌丛、草丛等植被及其他地物的分布情况,并进行了精度检验,结果表明MSI的总体分类精度略高于OLI。

Machine learning-based estimates of aboveground biomass of subalpine forests using Landsat 8 OLI and Sentinel-2B images in the Jiuzhaigou National Nature Reserve,Eastern Tibet Plateau

Accurate estimates of forest aboveground biomass(AGB)are critical for supporting strategies of ecosystem conservation and climate change mitigation.The Jiuzhaigou National Nature Reserve,located in Eastern Tibet Plateau,has rich forest resources on steep slopes and is very sensitive to climate change but plays an important role in the regulation of regional carbon cycles.However,an estimation of AGB of subalpine forests in the Nature Reserve has not been carried out and whether a global biomass model is available has not been determined.To provide this information,Landsat 8 OLI and Sentinel-2B data were combined to estimate subalpine forest AGB using linear regression,and two machine learning approaches–random forest and extreme gradient boosting,with 54 inventory plots.Regardless of forest type,Observed AGB of the Reserve varied from 61.7 to 475.1 Mg hawith an average of 180.6 Mg ha.Results indicate that integrating the Landsat 8 OLI and Sentinel-2B imagery significantly improved model efficiency regardless of modelling approaches.The results highlight a potential way to improve the prediction of forest AGB in mountainous regions.Modelled AGB indicated a strong spatial variability.However,the modelled biomass varied greatly with global biomass products,indicating that global biomass products should be evaluated in regional AGB estimates and more field observations are required,particularly for areas with complex terrain to improve model accuracy.

基于Landsat 8和Sentinel-2数据的砒砂岩区生物量估算的差异性

[目的]分析基于不同空间分辨率遥感影像估算的地上生物量(above ground biomass,AGB)差异,为遥感估算荒漠生态系统AGB的研究中不同空间分辨率影像的选择提供依据。[方法]在地面AGB调查的基础上,结合Landsat 8与Sentinel-2影像建立AGB-MSAVI统计模型,对砒砂岩区AGB进行了遥感估算,并分析不同植被覆盖区(高、中、低)AGB估算的差异性。[结果]Landsat 8与Sentinel-2影像均能较好地实现AGB估算,AGB估算结果在空间分布上具有相似性。基于Landsat 8和Sentinel-2数据估算AGB模型平均相对误差分别为13.41%和11.42%,基于Sentinel-2数据的AGB估算精度较高。[结论]不同植被覆盖区Sentinel-2与Landsat 8数据估算的AGB存在一定的差异,低植被覆盖和高植被覆盖区,两种遥感数据估算的AGB差异相对较小;中植被覆盖区,遥感数据受到空间分辨率的制约,空间异质性影响相对显著,两种遥感数据估算的AGB差异较大。高空间分辨率遥感影像对AGB估算精度的提高具有一定效果。

Sentinel-2 MSI Radiometric Characterization and Cross-Calibration with Landsat-8 OLI

Near-nadir observations by the Multispectral Instrument (MSI) onboard the Sentinel-2 and the Operational Land Imager (OLI) onboard Landsat 8 were collected during two Simultaneous Nadir Overpasses (SNO). Multispectral images with 10, 20, and 30 m resolution from a spatially uniform area in the Saharan desert were acquired for direct comparison of MSI and OLI Top- Of-Atmosphere (TOA) reflectances. This paper presents an initial radiometric cross-calibration of the 8 corresponding spectral bands of the Sentinel-2 MSI and Landsat 8 OLI sensors. With the well-calibrated Landsat 8 OLI as a reference, the comparison indicates that 6 MSI bands are consistent with OLI within 3% in terms of spectral band adjustment factors Bi . The Near-Infra-Red (NIR) and cirrus bands are exceptions. They yield radiometric differences on the order of 8% and 15% respectively. Cross-calibration results show that the radiometric difference of the 7 corresponding bands are consistent to OLI within 1% or better, except on cirrus band. A pixel-by-pixel match between the MSI and OLI observations for different land covers showed that. This initial study suggests that the red-edge band B8A of MSI can be used to replace the NIR band B08 when conducting vegetation monitoring.

基于Landsat 8 OLI和Sentinel-2A的南京市各城区绿化差异分析

遥感作为多时空技术在全面调查城市绿化现状方面具有优势,遥感在城市绿地调查中的应用也随着遥感技术的发展和遥感影像质量及精度的提高越来越广泛。该研究基于Sentinel-2A和Landsat 8影像将南京市区域地块分类为绿地、建筑地、农业用地(包括耕种期的农田和非耕种期的裸地)和水体,并针对南京市不同的分区计算人均绿地和绿化率,及其与城市发展之间的关系。结果显示,南京各区绿地率分别为:江宁区22%,溧水区27%,浦口区35%,六合区28%,栖霞区24%,雨花台区33%,建邺区20%,玄武区42%,鼓楼区17%,秦淮区18%,高淳区20%;各区人均绿化面积为:江宁区377 m2/人,溧水区716 m2/人,浦口区606 m2/人,六合区697 m2/人,栖霞区222 m2/人,雨花台区173 m2/人,建邺区67 m2/人,玄武区63 m2/人,鼓楼区9 m2/人,秦淮区13 m2/人,高淳区362 m2/人。数据反映了绿地率与人均绿化面积可能与不同行政区的规划以及城市化程度有联系。

Water Resource Monitoring Exploiting Sentinel-2 Satellite and Sentinel-2 Satellite Like Time Series;Application in Yangtze River Water Bodies

As part of the Dragon 4 project,the water extents of Wuchang and Shengjin lakes have been extracted from Sentinel-2 time series,using all exploitable images since the beginning of the acquisitions in 2015.The aim of the study is to assess the capability of the Sentinel-2 constellation and Landsat 8 over the Anhui region,especially the high temporal resolution.A total of 32 dates have been used and 10 Landsat 8 images(Libra)have been added to try to reduce the temporal gaps in the Sentinel-2 acquisitions caused by cloudy conditions.Extractions were done using a SERTIT-ICube automatized routine based on a supervised Maximum Likelihood Classification.These extractions allow to recreate the dynamic of the two lakes and show the drought and wet periods.During the 3 years interval,the surface peaks in July 2016 for both lakes.The lowest level appears at two different dates for each lake;in January 2018 for Wuchang,in February 2017 for Shengjin.Wuchang Lake surface area appears to be more variable than Shengjin Lake,with many local maximum and minimum between the end of 2017 and April 2018.In the case of Wuchang Lake,floating vegetation is a problem for automatic water surface area extraction.The lake is covered by vegetation during long periods of time and the water below can’t be detected by automatic radiometric means.Nevertheless,Sentinel-2 stays a pertinent and powerful tool for hydrological monitoring of lakes confirming the expectation from the remote sensing wetland community before launch.The presence of NIR and SWIR bands induces a strong discrimination between water and other classes,and the systematic acquisitions create dense time series,making analysis more consistent.It makes possible to sensor events occurring over short periods of time.Thanks to this a link can be done between endangered bird species,such as the Siberian Crane and the Lesser White-Fronted Goose and periodically flooded areas.These midterm results illustrated the pertinence and powerful of multi-source optical satellite data for environmental analysis.