Add to ORKGAt harvest, fruit shows variation in maturity stage. With Time-resolved Reflectance Spectroscopy (TRS), the maturity of nectarines at harvest can be assessed by measuring the absorption coefficient at 670 nm (¿a), near the chlorophyll peak, in the fruit flesh. A kinetic model has been developed linking the absorption coefficient, expressed as the biological shift factor (¿t*), to firmness decrease during ripening. As the decrease in ¿a in nectarines is linked with softening, shelf life for individual fruit can be predicted. In order to verify the applicability of this methodology in the supply chain, about 1000 nectarines were measured at harvest by TRS, graded into six classes of usability based on the prediction of their individual soften...
Absorption and scattering of laser light pulse passing through the fruit determine among others, the...
The optimal harvest date of nectarines can no longer be based on the colour since newer cultivars ha...
Nectarine fruit after cold storage soften normally, but become dry instead of juicy and can develop ...
At harvest, fruit shows variation in maturity stage. With Time-resolved Reflectance Spectroscopy (TR...
Time-resolved reflectance spectroscopy (TRS), allows for the complete optical characterization (in t...
One of the non-destructive techniques which have been developed to estimate fruit quality is time-re...
The absorption coefficient of the fruit flesh at 670 nm (mu(a)), measured at harvest by time-resolve...
The maturity of nectarines at harvest can be assessed by measuring the absorption coefficient at 670...
The ripening of fruits like nectarines and peaches is characterised by the decrease in chlorophyll c...
The absorption coefficient µa measured at 670 nm in fruit pulp at harvest by time-resolved reflectan...
With Time-resolved Reflectance Spectroscopy (TRS) the maturity of nectarines at harvest can be asses...
Time-resolved reflectance spectroscopy, coupled to the modelling of firmness decrease, was used to p...
Nectarine fruit after cool storage soften normally, but become sometimes dry instead of juicy. An ex...
Absorption and scattering of laser light pulse passing through the fruit determine among others, the...
The optimal harvest date of nectarines can no longer be based on the colour since newer cultivars ha...
Nectarine fruit after cold storage soften normally, but become dry instead of juicy and can develop ...
At harvest, fruit shows variation in maturity stage. With Time-resolved Reflectance Spectroscopy (TR...
Time-resolved reflectance spectroscopy (TRS), allows for the complete optical characterization (in t...
One of the non-destructive techniques which have been developed to estimate fruit quality is time-re...
The absorption coefficient of the fruit flesh at 670 nm (mu(a)), measured at harvest by time-resolve...
The maturity of nectarines at harvest can be assessed by measuring the absorption coefficient at 670...
The ripening of fruits like nectarines and peaches is characterised by the decrease in chlorophyll c...
The absorption coefficient µa measured at 670 nm in fruit pulp at harvest by time-resolved reflectan...
With Time-resolved Reflectance Spectroscopy (TRS) the maturity of nectarines at harvest can be asses...
Time-resolved reflectance spectroscopy, coupled to the modelling of firmness decrease, was used to p...
Nectarine fruit after cool storage soften normally, but become sometimes dry instead of juicy. An ex...
Absorption and scattering of laser light pulse passing through the fruit determine among others, the...
The optimal harvest date of nectarines can no longer be based on the colour since newer cultivars ha...
Nectarine fruit after cold storage soften normally, but become dry instead of juicy and can develop ...