灌溉排水学报2025,Vol.44Issue(3):1-11,11.DOI:10.13522/j.cnki.ggps.2024186
基于波段优化光谱指数的马铃薯叶水势估测
Estimating leaf water potential of potato using band-optimized spectral indices
摘要
Abstract
[Objective]Leaf water potential(LWP)is a key physiological trait reflecting plant responses to environmental conditions.However,large-scale field measurements remain challenging.This study explores the feasibility of using spectral imaging for indirect LWP estimation.[Method]A field experiment with a soil water gradient was conducted in a potato field in Wuchuan County and Chahar Right Front Banner,Inner Mongolia.Leaf spectral reflectance and water potential were measured at different growth stages.Moisture-sensitive spectral bands were analyzed,and the optimal combination of difference,ratio,and normalized difference spectral indices was identified within the 350-2 500 nm wavelength range.[Result]The selection of optimal sensitive bands varied across growth stages and significantly impacted estimation accuracy.For individual growth stages,the most sensitive bands were primarily located in the red-edge and near-infrared regions,while for combined growth stages,the most effective bands were predominantly in the near-infrared region.A strong linear correlation was observed between the optimized spectral index and LWP.The Optimized Normalized Difference Spectral Index(NDSI)was the most effective index for estimating potato LWP at a single growth stage.As growth progressed,the correlation between spectral indices and LWP improved,with the highest estimation accuracy and robustness observed during the starch accumulation stage.At this stage,the coefficient of determination(R2)for training data reached 0.90,with an RMSE of 0.07 MPa and an MRE of 6.70%,while for validation data,R2 was 0.87,RMSE was 0.08 MPa,and MRE was 7.41%.When multiple growth stages were combined,the optimized spectral index enhanced LWP estimation accuracy during the tuber formation and expansion stage.For these stages,the R2 values for training and validation data were 0.64 and 0.53,respectively,with RMSE values of 0.14 MPa and 0.16 MPa,and MRE values of 10.39%and 12.40%.Compared to existing moisture-sensitive spectral indices,the optimized spectral index significantly improved accuracy and stability across combined growth stages.[Conclusion]The newly developed spectral index,based on band optimization,enhances sensitivity and reduces data dispersion compared to existing spectral indices.It significantly improves the stability of the potato LWP estimation model,offering valuable insights for optimizing spectral indices in potato water status monitoring and precision irrigation management.关键词
马铃薯/叶水势/水分指数/波段优化/高光谱/生育时期Key words
potato/leaf water potential/water index/band optimization/hyperspectral/growth stages分类
农业科技引用本文复制引用
高凯,杨海波,尹航,王伟,孙宇,赵亮,李斐..基于波段优化光谱指数的马铃薯叶水势估测[J].灌溉排水学报,2025,44(3):1-11,11.基金项目
国家自然科学基金项目(32160757) (32160757)
内蒙古自治区自然科学基金项目(2024QN03012) (2024QN03012)
内蒙古自治区农牧业青年创新基金项目(2021QNJJN09) (2021QNJJN09)
