Castor is a crop with an evergreen habit so artificial induced ripening is an essential precondition for mechanical harvesting of new dwarf annual hybrids. Plants water content impose a determinant effect both on pre-harvest and post-harvest seed losses so frequent monitoring of crop ripening is crucial for identifying the optimum moisture for harvest. Remote sense information from Unmanned Aerial Systems (UASs) along with field measurements were utilized in the present study in order to evaluate three harvest aid chemicals, herbicides glyphosate (GLY) and diquat (DIQ) and the defoliant Spotlight® (DEF) for terminating the castor crop and identify opportunities of using remote sensing as a tool for monitoring crop ripening. The scope of the present work was to evaluate the effects of alternative harvest aids in terminating the castor crop through field measurements and UAS remote sensing and investigate the opportunities of using UAS remote sensing as a tool for monitoring crop ripening and scheduling mechanical harvest. The results showed that glyphosate required more than two weeks to dry out the crop while diquat and spotlight® presented a rapid action within two to four days. Nineteen vegetation indexes were extracted from a multispectral and an RGB camera mounted on two UAS and were plotted against field measurements. NDVI presented the higher accuracy (R2=0.67) for predicting the castor stems and leaves moisture content while OSAVI and SIPI2 where more powerful in predicting moisture of capsules (R2>0.76). High efficiency was also obtained with VAR(green) an index estimated from the common bands of a conventional RGB camera.

Monitoring Castor Beans Maturity Via Remote Sensing

Palmieri N;
2022-01-01

Abstract

Castor is a crop with an evergreen habit so artificial induced ripening is an essential precondition for mechanical harvesting of new dwarf annual hybrids. Plants water content impose a determinant effect both on pre-harvest and post-harvest seed losses so frequent monitoring of crop ripening is crucial for identifying the optimum moisture for harvest. Remote sense information from Unmanned Aerial Systems (UASs) along with field measurements were utilized in the present study in order to evaluate three harvest aid chemicals, herbicides glyphosate (GLY) and diquat (DIQ) and the defoliant Spotlight® (DEF) for terminating the castor crop and identify opportunities of using remote sensing as a tool for monitoring crop ripening. The scope of the present work was to evaluate the effects of alternative harvest aids in terminating the castor crop through field measurements and UAS remote sensing and investigate the opportunities of using UAS remote sensing as a tool for monitoring crop ripening and scheduling mechanical harvest. The results showed that glyphosate required more than two weeks to dry out the crop while diquat and spotlight® presented a rapid action within two to four days. Nineteen vegetation indexes were extracted from a multispectral and an RGB camera mounted on two UAS and were plotted against field measurements. NDVI presented the higher accuracy (R2=0.67) for predicting the castor stems and leaves moisture content while OSAVI and SIPI2 where more powerful in predicting moisture of capsules (R2>0.76). High efficiency was also obtained with VAR(green) an index estimated from the common bands of a conventional RGB camera.
2022
978-88-89407-22-6
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11367/128241
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