基于PLSR的典型沼泽湿地植物叶片性状与光谱模型构建——以三江国家级自然保护区为例     

姚允龙  王欣  谭霄鹏  单元琪 《地理科学》2022,42(9):1638-1645

通过植物光学特性测量叶片性状是一种非破坏性的、长期的湿地动态监测方法。选择三江国家级自然保护区多种典型湿地植物为研究对象,探究植物性状与叶片光谱之间的联系。研究表明：叶片氮含量与光谱的模型构建效果最好,模型R²为0.61,均方根误差（RMSE）为2.3862;叶片含水量、叶片磷、可溶性糖、纤维素和木质素含量之和的模型一般,R²在0.38~0.55范围内,RMSE在0.0004~10.7019范围内;淀粉含量拟合效果较差, R²为0.29,RMSE为0.0106。光谱预测重要性的结果表明,可见光与近红外边缘范围内的光谱信息对于叶片含水量、叶片氮含量、叶片磷含量、单位叶面积质量、纤维素和木质素之和、可溶性糖和淀粉的预测具有最高的重要性。  相似文献   

Towards decadal soil salinity mapping using Landsat time series data     

《International Journal of Applied Earth Observation and Geoinformation》2016

Salinization is one of the major soil problems around the world. However, decadal variation in soil salinization has not yet been extensively reported. This study exploited thirty years (1985–2015) of Landsat sensor data, including Landsat-4/5 TM (Thematic Mapper), Landsat-7 ETM+ (Enhanced Thematic Mapper Plus) and Landsat-8 OLI (Operational Land Imager), for monitoring soil salinity of the Yellow River Delta, China. The data were initially corrected for atmospheric effects, and then matched the spectral bands of EO-1 (Earth Observing One) ALI (Advanced Land Imager). Subsequently, soil salinity maps were derived with a previously developed PLSR (Partial Least Square Regression) model. On intra-annual scale, the retrievals showed that soil salinity increased in February, stabilized in March, and decreased in April. On inter-annual scale, soil salinity decreased within 1985–2000 (−0.74 g kg⁻¹/10a, p < 0.001), and increased within 2000–2015 (0.79 g kg⁻¹/10a, p < 0.001). Our study presents a new perspective for use of multiple Landsat data in soil salinity retrieval, and further the understanding of soil salinization development over the Yellow River Delta.  相似文献   

Comparative analysis of different uni- and multi-variate methods for estimation of vegetation water content using hyper-spectral measurements     

《International Journal of Applied Earth Observation and Geoinformation》2014

Assessment of vegetation water content is critical for monitoring vegetation condition, detecting plant water stress, assessing the risk of forest fires and evaluating water status for irrigation. The main objective of this study was to investigate the performance of various mono- and multi-variate statistical methods for estimating vegetation water content (VWC) from hyper-spectral data. Hyper-spectral data is influenced by multi-collinearity because of a large number of (independent) spectral bands being modeled by a small number of (dependent) biophysical variables. Therefore, some full spectrum methods that are known to be suitable for analyzing multi-collinear data set were chosen. Canopy spectral reflectance was obtained with a GER 3700 spectro-radiometer (400–2400 nm) in a laboratory setting and VWC was measured by calculating wet/dry weight difference per unit of ground area (g/m²) of each plant canopy (n = 95). Three multivariate statistical methods were applied to estimate VWC: (1) partial least square regression, (2) artificial neural network and (3) principal component regression. They were selected to minimize the problem related to multi-collinearity. For comparison, uni-variate techniques including narrow band ratio water index (RWI), normalized difference water index (NDWI), second soil adjusted vegetation index (SAVI2) and transferred soil adjusted vegetation index (TSAVI) were applied. For each type of vegetation index, all two-band combinations were evaluated to determine the best band combination. Validation of the methods was based on the cross validation procedure and using three statistical indicators: R², RMSE and relative RMSE. The cross-validated results identified PLSR as the regression model providing the most accurate estimates of VWC among the various methods. The result revealed that this model is highly recommended for use with multi-collinear datasets ($R_{\text{CV}}^2=0.94$, RRMSE_CV = 0.23). Principal component regression exhibited the lowest accuracy among the multivariate models ($R_{\text{CV}}^2=0.78$, RRMSE_CV = 0.41).  相似文献   

Modeling rock permeability from NMR relaxation data by PLS regression   总被引：1，自引：0，他引：1  

Edmilson Helton Rios  Paulo Frederico de Oliveira RamosVinicius de França Machado  Giovanni Chaves StaelRodrigo Bagueira de Vasconcellos Azeredo 《Journal of Applied Geophysics》2011,75(4):631-637

This study explores the application of the partial least squares regression (PLSR) technique to rock permeability prediction from nuclear magnetic resonance (NMR) relaxation data. A total of 68 Brazilian sandstone cores selected from reservoirs and outcrop analogs were fully saturated and analyzed by NMR. The permeability of the cores ranged from 0.007 to 9,800 mD. From their ¹H transverse relaxation times (T₂) measured at 2 MHz, two PLSR models were developed for the relaxation spectra and the raw relaxation curves. Both models led to more uniform and accurate predictions (RMSE = 0.47 and 0.50 log mD, respectively) compared with the classical Kenyon model (RMSE = 0.78 log mD).  相似文献   

基于偏最小二乘法的土壤汞含量高光谱反演   总被引：1，自引：0，他引：1  

宋玉  塔西甫拉提·特依拜  李崇博  侯艳军  陶兰花  张飞 《地理与地理信息科学》2015,31(3):44-47,53

采集新疆准东煤田典型土壤样品44个,在实验室测定风干后的土样汞含量和光谱反射率,经预处理后分析两者的相关性,运用偏最小二乘法(PLSR)建立土壤汞含量高光谱估算模型,由均方根误差RMSE和决定系数R2检验模型的预测能力和稳定性,并比较不同预处理方法的适用性。结果表明:反射率一阶微分光谱是估算土壤汞含量较好的指标,估算R2为0.77、RMSE为0.032。通过各种光谱预处理方法可提高土壤汞含量的估算精度,为研究区生态环境的恢复和评价提供依据。  相似文献   

变换光谱数据对土壤氮素PLSR模型的影响研究     

乔星星  冯美臣  杨武德  孙慧  郭小丽  史超超 《地球信息科学学报》2016,18(8):1123-1132

光谱数据变换对消除背景、噪音影响以及提取光谱特征有重要的作用,是光谱数据分析过程中的必要步骤。为了研究光谱变换处理对土壤氮素PLSR模型的影响精度,并选择最佳光谱变换处理方法,本文对原始光谱数据进行了15种典型光谱变换,通过比较不同变换光谱与土壤氮素的相关性,实现土壤氮素的PLSR精确诊断,并综合评定最佳光谱数据变换方法。结果表明,涉及微分处理后的光谱变换,尤其是先进行开方（T₈、T₁₁）、对数（T₆、T₁₂）等变换后再进行微分处理,可提高其与土壤氮素的相关性。在引入较少因子变量个数的条件下,该方法使因变量解释量达到了98%。综合考虑模型的校正、验证效果及模型复杂度（模型最佳因子变量个数）,可得出光谱平方根的一阶微分变换处理（T₈）为最佳的土壤光谱变换算法。该条件下的土壤氮素的校正模型表现为R²=0.985、RMSE_C=0.000132、F_n=6,验证模型的表现为R²=0.9853、RMSE_V=0.000162,结果表明基于T₈的光谱数据变换可实现本试验条件下土壤氮素的光谱估算。另外,可以考虑将原始光谱的一阶微分（T₉）、对数和对数倒数的一阶微分（T₆、T₇）以及平方根和对数的二阶微分（T₁₁、T₁₂）作为光谱数据变换方法。本文研究结果可为土壤氮素估算和光谱数据预处理提供技术参考。  相似文献   

建立基于土地利用的交通发生量模型的研究     

张利  戚浩平 《火山地质与矿产》2009,(4):285-290

针对出行生成预测中变量众多以及多重相关性问题,以常州调查数据为样本,分别采用逐步回归分析方法和偏最小二乘回归（PLSR）方法,建立基于土地利用形态的交通发生量模型。并对两者建模方法进行分析比较．结果表明PLSR能有效地解决变量多重相关性问题,模型意义清晰,效果显著。  相似文献   

基于Aster数据的新疆渭-库绿洲及其周边地区土壤盐分的定量反演   总被引：1，自引：0，他引：1  

戚浩平  ;翁永玲  ;周少红 《江苏测绘》2014,(3):15-18

以新疆渭干河-库车河地区为研究区域,在野外调查采样的基础上,对土样进行实验室光谱测量并重采样与Aster波段相匹配,利用偏最小二乘回归建模方法建立了土壤盐渍化定量反演模型,其精度满足大区域的土壤盐渍化监测要求,表明该建模方法具有较好的普适性和稳定性。用10景Aster图像数据实现了该区域的土壤盐渍化定量反演与制图,反演的盐分分布与实地调查较为一致,为大面积区域性土壤盐渍化的遥感定量调查与监测提供了较为有效的技术方法。  相似文献   

Spectral behavior of Persian oak under compound stress of water deficit and dust storm     

《International Journal of Applied Earth Observation and Geoinformation》2020

Persian oak (Quercus Brantii Lindl.) which is the most widely distributed tree in the Zagros Mountain forests is affected by western dust storms, mostly originating in Iraq, and harsh water stress as well. The objective of this research is to analyze the spectral behavior of Persian oak under water and dust stress scenarios, aiming to pave the way for modeling the stresses of drought and dust storms on oak trees using remote sensing images. Experiments were carried out on 54 two-year old oak tree seedlings, using a portable wind tunnel in greenhouse conditions. Water stress was induced on seedlings by means of changes in irrigation practices, i.e. well-watered (100 % field capacity), medium water deficit condition (40 % field capacity), and severe water deficit condition (20 % field capacity) treatments. Dust stress is also investigated by using three different dust particle concentrations, i.e. 350, 750 and 1500 (μg/m³). The spectrometry experiments were carried out at leaf and canopy levels in dark room by Fieldspec-3-ASD spectrometer. Spectral analysis was conducted using four procedures: (i) narrow-band spectral indices analysis, (ii) geometric indicators extraction from absorption features, (iii) Partial Least Squares Regression (PLSR), and SVM classifier. Results show that water stress could be modeled much better using PLSR statistic (R² = 0.87, RMSE = 0.12), narrow-band indices analysis (R²_cv = 0.75, RMSE_cv = 0.17), and continuum removal (R² = 0.71, RMSE = 0.20), respectively. For dust stress, PLSR (R² = 0.83, RMSE = 0.14) and narrow-band indices (R² _cv = 0.7, RMSE _cv = 0.30) showed the best results, respectively. SVM could successfully separate stressed and not-stressed samples and also the stress types at both leaf and canopy levels, but it could not distinguish the different levels of stresses.  相似文献   

Prediction of the presence of topsoil nitrogen from spaceborne hyperspectral data     

Binny Gopal  Amba Shetty  B.J. Ramya 《国际地球制图》2015,30(1):82-92

Conventional methods of soil nitrogen extraction are time consuming, expensive and tedious. Remote sensing and Geographical Information System technologies can be used for the rapid and efficient prediction of the presence of soil nitrogen. However, studies are limited by and large to fields of larger and homogeneous units. This research concentrates on the prediction of topsoil nitrogen from harvested, scattered and small-sized agricultural fields of India using hyperspectral data. Spaceborne hyperspectral Hyperion data are used for the prediction of the presence of nitrogen. Multivariate partial least square regression method was used to predict the presence of nitrogen from reflectance. Reflectance data were pretreated using moving average and Savitzky–Golay filters which resulted in moderate prediction of R² 0.65 and 0.63 for calibration and validation, respectively. It can be inferred that Hyperion data can be effectively used for the prediction of the presence of soil nitrogen with a moderate level of accuracy even in case of scattered fields and fields of sizes approximately equal to the spatial resolution of the satellite.  相似文献