With advances in plant genomics, plant phenotyping has become a new bottleneck in plant breeding and the need for reliable high-throughput plant phenotyping techniques has emerged. In the face of future climatic challenges, it does not seem appropriate to continue to solely select for grain yield and a few agronomically important traits. Therefore, new sensor-based high-throughput phenotyping has been increasingly used in plant breeding research, with the potential to provide non-destructive, objective and continuous plant characterization that reveals the formation of the final grain yield and provides insights into the physiology of the plant during the growth phase. In this context, we present the comparison of two sensor systems, Red-Gr...
Remote sensing technology for monitoring plant trains has a huge potential to accelerate breeding pr...
Phenotyping in breeding trials is the basis for the selection of new varieties of food, feed, and fi...
Current strategies for phenotyping thousands of breeding lines under field conditions demand signifi...
Climate change is one of the primary culprits behind the restraint in the increase of cereal crop yi...
Climate change is one of the primary culprits behind the restraint in the increase of cereal crop yi...
Cereal plant density is a relevant agronomic trait in agriculture and high-throughput phenotyping of...
Miscanthus holds a great potential in the frame of the bioeconomy, and yield prediction can help imp...
Data collection with unmanned aerial vehicles (UAVs) fills a gap on the observational scale in re-mo...
Unmanned aerial vehicles-collected (UAVs) digital red–green–blue (RGB) images provided a cost-effect...
Emerging strategies and technologies in agriculture, such as precision farming and phenotyping depen...
Phenotyping in breeding trials is the basis for the selection of new varieties of food, feed and fib...
Agroforestry systems (AFS) can provide positive ecosystem services while at the same time stabilizin...
© 2020 International Society for Photogrammetry and Remote Sensing, Inc. (ISPRS) Rapid and accurate ...
Remote sensing (RS) of plant canopies permits non-intrusive, high-through put monitoring of plant ph...
High throughput phenotyping (HTP) for wheat (Triticum aestivum L.) stay green (SG) is expected in fi...
Remote sensing technology for monitoring plant trains has a huge potential to accelerate breeding pr...
Phenotyping in breeding trials is the basis for the selection of new varieties of food, feed, and fi...
Current strategies for phenotyping thousands of breeding lines under field conditions demand signifi...
Climate change is one of the primary culprits behind the restraint in the increase of cereal crop yi...
Climate change is one of the primary culprits behind the restraint in the increase of cereal crop yi...
Cereal plant density is a relevant agronomic trait in agriculture and high-throughput phenotyping of...
Miscanthus holds a great potential in the frame of the bioeconomy, and yield prediction can help imp...
Data collection with unmanned aerial vehicles (UAVs) fills a gap on the observational scale in re-mo...
Unmanned aerial vehicles-collected (UAVs) digital red–green–blue (RGB) images provided a cost-effect...
Emerging strategies and technologies in agriculture, such as precision farming and phenotyping depen...
Phenotyping in breeding trials is the basis for the selection of new varieties of food, feed and fib...
Agroforestry systems (AFS) can provide positive ecosystem services while at the same time stabilizin...
© 2020 International Society for Photogrammetry and Remote Sensing, Inc. (ISPRS) Rapid and accurate ...
Remote sensing (RS) of plant canopies permits non-intrusive, high-through put monitoring of plant ph...
High throughput phenotyping (HTP) for wheat (Triticum aestivum L.) stay green (SG) is expected in fi...
Remote sensing technology for monitoring plant trains has a huge potential to accelerate breeding pr...
Phenotyping in breeding trials is the basis for the selection of new varieties of food, feed, and fi...
Current strategies for phenotyping thousands of breeding lines under field conditions demand signifi...