中国农业科学2025,Vol.58Issue(7):1284-1295,12.DOI:10.3864/j.issn.0578-1752.2025.07.003
红色和黑色花生籽仁黄酮含量近红外模型的构建
Construction of Near Infrared Spectrometry Model for Flavonoids Content of Peanut with Red and Black Testa
摘要
Abstract
[Objective]Flavonoid content is one of the critical quality indicators for peanut seed.Near-infrared spectroscopy(NIR)is an effective method for rapid detection of flavonoid content in peanut.However,the differences of testa color may affect the accuracy of the detection results.Therefore,the construction of NIR prediction models for peanuts with red and black testa can provide a guarantee for efficient and rapid detection of flavonoid content in special peanut kernels.[Method]In this study,232 peanut germplasms with different testa colors were selected as materials,including 108 peanut with red testa and 124 peanut with black testa.The total flavonoid content was determined by aluminum chloride chromogenic method,with rutin serving as the standard(RT:rutin).Using the Swedish Broadcom DA7250 Diode Array Analyzer for spectral acquisition,within a scanning spectral range of 950-1 650 nm.Employing the Unscrambler X10.4 modeling software,various calibration models were established through both single and composite processing,utilizing diverse derivative and scattering spectral preprocessing methods,based on full-band partial least squares(PLS)modeling.By comparing the correlation coefficients and errors among different models,the optimal processing method was selected to establish a prediction model for flavonoid content in both red and black peanut kernels.For model external validation,materials were derived from a recombinant inbred line population derived from the parents of Silihong and Jinonghei 3,with 30 lines with red testa and 30 lines with black testa each undergoing external cross-validation.[Result]The results showed that flavonoid content of peanut with red testa was between 60.33-122.49 mg RT/100 g,with an average of 94.34 mg RT/100 g.The flavonoid content of peanut with black testa was between 64.98-121.55 mg RT/100 g,with an average of 95.59 mg RT/100 g.The best spectral pretreatment method of the peanut with red testa prediction model was"Derivative Savitzky-Golay+SNV+Detrend",yielding a correction correlation coefficient(Rc)of 0.9022,a root means square error of cross validation(RMSECV)of 1.9101,a prediction correlation coefficient(Rp)of 0.9021,and a root mean square error of prediction(RMSEP)of 1.9606 mg RT/100 g.The external validation correlation coefficient(R2)was 0.923,with a prediction model deviation range of-4.86-8.47 mg/100 g.The best spectral pre-treatment method for the peanut with black testa prediction model was"Derivative Savitzky-Golay+SNV+Deresolve",resulting in an Rc of 0.9521,an RMSECV of 1.6978,the correlation coefficient(Rp)of the peanut with black testa prediction model was 0.915,and RMSEP of 2.292 mg RT/100 g,the correlation coefficient R2 of external verification was 0.907,with a prediction model deviation range of-4.56-2.87 mg/100 g.Cross-validation was carried out with non-corresponding color models,and the correlation coefficient was between 0.0015-0.0975.[Conclusion]The testa color strongly affected the accuracy of detection,and the near-infrared prediction models constructed in this study are suitable for the detection of flavonoid content in peanuts with red and black testa,which provide an important selection method for breeding characteristic peanuts with high flavonoids.关键词
红色花生/黑色花生/黄酮含量/种皮颜色/近红外模型Key words
peanut with red testa/peanut with black testa/flavonoid content/testa color/near infrared model引用本文复制引用
李鑫瑜,侯名语,崔顺立,刘盈茹,李秀坤,刘立峰..红色和黑色花生籽仁黄酮含量近红外模型的构建[J].中国农业科学,2025,58(7):1284-1295,12.基金项目
财政部和农业农村部:国家现代农业产业技术体系资助(CARS-13)、河北省现代农业产业技术体系建设专项(HBCT2024040205)、河北省重点研发计划(21326316D2) (CARS-13)
