Crop lodging reduces yield quantity and grain quality of cereal crops. Understanding seasonal variation in crop lodging susceptibility enables lodging risk assessments and predictions of associated crop yield losses. We demonstrate a novel remote sensing-based approach, using sparse field observations and widely available synthetic aperture radar (SAR) satellite imagery, to map a safety factor against root lodging (SF) in wheat. SF quantifies the ability of the rooting system to support the self-weight moment of the whole plant and can be used as an indicator of in-season root lodging susceptibility. SAR satellite images, from Sentinel-1 and RADARSAT-2, were acquired synchronously with field measurements in Jolanda di Savoia, Ferrara, Italy during the 2018 winter wheat growing season. The field data included measurements from non-lodged (healthy) wheat such as plant height, height at the centre of gravity, self-weight moment of the whole plant, soil anchorage strength, SF and those from lodged wheat such as crop angle of inclination, lodged area and the point of plant failure (stem or root). Field measurements confirmed that SF decreased progressively through the season and was consistent with the observed lodging. Strong and significant correlations through the season were observed between SF and SAR satellite image metrics. The validated regression models showed a strong relationship between field-measured SF and the metrics from RADARSAT-2 (R = 0.84, RMSE = 0.54) and Sentinel-1 data (R = 0.73, RMSE = 0.59). However, it is possible that the relationship between SF and SAR parameters is confounded by the variations in crop biomass, which is highly correlated with SF (r = -0.71, p < 0.0001). Our study, for the first time, demonstrates the use of remote sensing SAR data for lodging susceptibility assessment. Current and planned satellite platforms have the potential for large scale, operational assessment of lodging susceptibility in cereal crops.
Mapping of wheat lodging susceptibility with synthetic aperture radar data
Boschetti Mirco;
2021
Abstract
Crop lodging reduces yield quantity and grain quality of cereal crops. Understanding seasonal variation in crop lodging susceptibility enables lodging risk assessments and predictions of associated crop yield losses. We demonstrate a novel remote sensing-based approach, using sparse field observations and widely available synthetic aperture radar (SAR) satellite imagery, to map a safety factor against root lodging (SF) in wheat. SF quantifies the ability of the rooting system to support the self-weight moment of the whole plant and can be used as an indicator of in-season root lodging susceptibility. SAR satellite images, from Sentinel-1 and RADARSAT-2, were acquired synchronously with field measurements in Jolanda di Savoia, Ferrara, Italy during the 2018 winter wheat growing season. The field data included measurements from non-lodged (healthy) wheat such as plant height, height at the centre of gravity, self-weight moment of the whole plant, soil anchorage strength, SF and those from lodged wheat such as crop angle of inclination, lodged area and the point of plant failure (stem or root). Field measurements confirmed that SF decreased progressively through the season and was consistent with the observed lodging. Strong and significant correlations through the season were observed between SF and SAR satellite image metrics. The validated regression models showed a strong relationship between field-measured SF and the metrics from RADARSAT-2 (R = 0.84, RMSE = 0.54) and Sentinel-1 data (R = 0.73, RMSE = 0.59). However, it is possible that the relationship between SF and SAR parameters is confounded by the variations in crop biomass, which is highly correlated with SF (r = -0.71, p < 0.0001). Our study, for the first time, demonstrates the use of remote sensing SAR data for lodging susceptibility assessment. Current and planned satellite platforms have the potential for large scale, operational assessment of lodging susceptibility in cereal crops.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
