Use of near infrared spectroscopy (NIRS) to estimate physical, anatomical and hydraulic properties of Eucalyptus wood

BAROTTO AJ; MARTINEZ-MEIER A; SEGURA V; MONTEOLIVA S; CHARPENTIER JP; GYENGE JE; SERGENT AS; ROZENBERG P; FERNÁNDEZ, MARÍA ELENA

TREE PHYSIOLOGY

OXFORD UNIV PRESS

Lugar: Oxford; Año: 2022

0829-318X

Tree breeding programs and wood industries require simple, time- and cost-effective techniques to process large volumes of samples. In recent decades, near infrared spectroscopy (NIRS) has been acknowledged as one of the most powerful techniques for wood analysis, making it the most used tool for high throughput-phenotyping. Previous studies have shown that a significant number of anatomical, physical, chemical and mechanical wood properties can be estimated through NIRS, both for angiosperm and gymnosperm species. However, the ability of this technique to predict functional traits related to drought resistance has been poorly explored, especially in angiosperm species. This is particularly relevant since determining xylem hydraulic properties by conventional techniques is complex and time-consuming, clearly limiting its use in studies and applications that demand large amounts of samples. In this study, we measured several wood anatomical and hydraulic traits and collected NIR spectra in branches of two Eucalyptus species. We developed NIRS calibration models and discussed their ability to accurately predict the studied traits. The models generated allowed us to adequately calibrate the reference traits, with high R2 (≥0.75) for traits such as P12, P88, the slope of the vulnerability curves to xylem embolism or the fibre wall fraction, and with lower R2 (0.39-0.52) for P50, maximum hydraulic conductivity or frequency of ray parenchyma. We found that certain wavenumbers improve models’ calibration, with those in the range of 4000-5500 cm-1 predicting the highest number of both anatomical and functional traits. We concluded that the use of NIRS allows calibrating models with potential predictive value not only for wood structural and chemical variables, but also for anatomical and functional traits related to drought resistance in wood-types with complex structure as eucalypts´. These results are promising in light of the needed knowledge about species and genotypes adaptability to global climatic change.