Potential of Hyperspectral and Thermal Proximal Sensing for Estimating Growth Performance and Yield of Soybean Exposed to Different Drip Irrigation Regimes Under Arid Conditions

• Published in: Sensors (Basel, Switzerland) Vol. 20; no. 22; p. 6569
• Main Authors: Elmetwalli, Adel H, El-Hendawy, Salah, Al-Suhaibani, Nasser, Alotaibi, Majed, Tahir, Muhammad Usman, Mubushar, Muhammad, Hassan, Wael M, Elsayed, Salah
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 17.11.2020; MDPI
• Subjects: 2-D correlograms CWSI; Agricultural Irrigation - methods; Agricultural production; Bands; Biomass; canopy water mass; Criteria; crop phenotyping; Crops; Drought; Efficiency; Evapotranspiration; Food security; Glycine max - growth & development; growth stages; High temperature; Irrigation; NRCT; Physiology; Plant growth; Rain; Sampling techniques; Seasons; Seeds; Soybeans; Spectral reflectance; Spectrum Analysis; Thermal imaging; visible/near-infrared spectroscopy; Water; Water masses; Water shortages; NRCT; canopy water mass; visible/near-infrared spectroscopy; 2-D correlograms CWSI; water stress; crop phenotyping; growth stages
• ISSN: 1424-8220; 1424-8220
• DOI: 10.3390/s20226569

Proximal hyperspectral sensing tools could complement and perhaps replace destructive traditional methods for accurate estimation and monitoring of various morpho-physiological plant indicators. In this study, we assessed the potential of thermal imaging (TI) criteria and spectral reflectance indices (SRIs) to monitor different vegetative growth traits (biomass fresh weight, biomass dry weight, and canopy water mass) and seed yield (SY) of soybean exposed to 100%, 75%, and 50% of estimated crop evapotranspiration (ETc). These different plant traits were evaluated and related to TI criteria and SRIs at the beginning bloom (R1) and full seed (R6) growth stages. Results showed that all plant traits, TI criteria, and SRIs presented significant variations ( < 0.05) among irrigation regimes at both growth stages. The performance of TI criteria and SRIs for assessment of vegetative growth traits and SY fluctuated when relationships were analyzed for each irrigation regime or growth stage separately or when the data of both conditions were combined together. TI criteria and SRIs exhibited a moderate to strong relationship with vegetative growth traits when data from different irrigation regimes were pooled together at each growth stage or vice versa. The R6 and R1 growth stages are suitable for assessing SY under full (100% ETc) and severe (50% ETc) irrigation regimes, respectively, using SRIs. The overall results indicate that the usefulness of the TI and SRIs for assessment of growth, yield, and water status of soybean under arid conditions is limited to the growth stage, the irrigation level, and the combination between them.