Hyperspectral Estimation of SPAD Value of Cotton Leaves under Verticillium Wilt Stress Based on GWO–ELM

IF 3.3 2区农林科学 Q1 AGRONOMY

Agriculture-Basel Pub Date : 2023-09-07 DOI:10.3390/agriculture13091779

Xin-Ya Yuan, Xiao Zhang, Nannan Zhang, Rui Ma, Daidi He, Hao Bao, Wujun Sun

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Abstract

Rapid and non-destructive estimation of the chlorophyll content in cotton leaves is of great significance for the real-time monitoring of cotton growth under verticillium wilt (VW) stress. The spectral reflectance of healthy and VW cotton leaves was determined using hyperspectral technology, and the original spectra were processed using Savitzky–Golay (SG) smoothing, and on its basis through mean centering, standard normal variate (SG-SNV), multiplicative scatter correction (SG-MSC), reciprocal second-order differentiation, and logarithmic second-order differentiation ([lg(SG)]″) preprocessing operations. The characteristic bands were selected based on the correlation coefficient, vegetation index, successive projection algorithm (SPA), and competitive adaptive reweighted sampling (CARS). The single-factor model, back propagation neural network of particle swarm optimization algorithm, and extreme learning machine (ELM) of a grey wolf optimizer (GWO) algorithm were constructed to compare and explore the ability of each model to estimate the soil plant analysis development (SPAD) value of cotton under VW stress. The results showed that spectral pretreatment could improve the correlation between characteristic bands and SPAD values. SG-MSC and SG-SNV showed better changes in the five pretreatments, and the maximum correlation coefficients of healthy and VW cotton leaves were higher than 0.74. Compared with SPA, the accuracy of model estimation based on CARS-extracted characteristic bands was higher, and the estimation accuracy of the multi-factor model was better than that of the single-factor model under each pretreatment. For healthy cotton leaves, [lg(SG)]″–CARS–GWO–ELM was the optimal model, with a modeling and validation set R2 of 0.956 and 0.887, respectively. For VW cotton leaves, SG-MSC–CARS–GWO–ELM was the optimal model, with a modeling and validation set R2 of 0.832 and 0.824, respectively. Therefore, the GWO–ELM model constructed under different pretreatments combined with characteristic extraction methods can be used for the estimation of leaf SPAD values under VW stress to dynamically monitor VW stress in cotton and provide a theoretical reference for precision agriculture.

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基于GWO-ELM的黄萎病胁迫下棉花叶片SPAD值高光谱估算

快速、无损地测定棉花叶片叶绿素含量，对棉花在黄萎病胁迫下的生长状况进行实时监测具有重要意义。采用高光谱技术测定健康棉和大众棉叶片的光谱反射率，对原始光谱进行Savitzky-Golay (SG)平滑处理，并在此基础上进行均值定心、标准正态变量(SG- snv)、乘法散点校正(SG- msc)、倒数二阶微分和对数二阶微分([lg(SG)]″)预处理。基于相关系数、植被指数、逐次投影算法(SPA)和竞争自适应重加权采样(CARS)选择特征波段。通过构建单因素模型、粒子群优化算法的反向传播神经网络和灰狼优化算法的极限学习机(ELM)，比较并探讨了各模型对VW胁迫下棉花土壤植物分析发育(SPAD)值的估计能力。结果表明，光谱预处理可以改善特征波段与SPAD值之间的相关性。SG-MSC和SG-SNV在5个处理中变化较好，健康棉和大众棉叶片的最大相关系数均大于0.74。与SPA相比，基于cars提取特征波段的模型估计精度更高，且各预处理下多因素模型的估计精度均优于单因素模型。对于健康棉花叶片，[lg(SG)]″-CARS-GWO-ELM为最优模型，其建模和验证集R2分别为0.956和0.887。对于VW棉花叶片，SG-MSC-CARS-GWO-ELM为最优模型，其建模和验证集R2分别为0.832和0.824。因此，结合特征提取方法，构建不同预处理条件下的GWO-ELM模型可用于估算VW胁迫下棉花叶片SPAD值，从而动态监测棉花VW胁迫，为精准农业提供理论参考。

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来源期刊

Agriculture-Basel Agricultural and Biological Sciences-Food Science

CiteScore

4.90

自引率

13.90%

发文量

1793

审稿时长

11 weeks

期刊介绍： Agriculture (ISSN 2077-0472) is an international and cross-disciplinary scholarly and scientific open access journal on the science of cultivating the soil, growing, harvesting crops, and raising livestock. We will aim to look at production, processing, marketing and use of foods, fibers, plants and animals. The journal Agriculturewill publish reviews, regular research papers, communications and short notes, and there is no restriction on the length of the papers. Our aim is to encourage scientists to publish their experimental and theoretical research in as much detail as possible. Full experimental and/or methodical details must be provided for research articles.