Applications of multi-omics technologies for crop improvement
Y Yang, MA Saand, L Huang, WB Abdelaal… - Frontiers in Plant …, 2021 - frontiersin.org
Multiple “omics” approaches have emerged as successful technologies for plant systems
over the last few decades. Advances in next-generation sequencing (NGS) have paved a …
over the last few decades. Advances in next-generation sequencing (NGS) have paved a …
Innovation can accelerate the transition towards a sustainable food system
Future technologies and systemic innovation are critical for the profound transformation the
food system needs. These innovations range from food production, land use and emissions …
food system needs. These innovations range from food production, land use and emissions …
High-throughput phenotyping for crop improvement in the genomics era
Tremendous progress has been made with continually expanding genomics technologies to
unravel and understand crop genomes. However, the impact of genomics data on crop …
unravel and understand crop genomes. However, the impact of genomics data on crop …
Multi-omics pipeline and omics-integration approach to decipher plant's abiotic stress tolerance responses
The present day's ongoing global warming and climate change adversely affect plants
through imposing environmental (abiotic) stresses and disease pressure. The major abiotic …
through imposing environmental (abiotic) stresses and disease pressure. The major abiotic …
Stem–leaf segmentation and phenotypic trait extraction of individual maize using terrestrial LiDAR data
Accurate and high throughput extraction of crop phenotypic traits, as a crucial step of
molecular breeding, is of great importance for yield increasing. However, automatic stem …
molecular breeding, is of great importance for yield increasing. However, automatic stem …
Deep learning: individual maize segmentation from terrestrial lidar data using faster R-CNN and regional growth algorithms
The rapid development of light detection and ranging (Lidar) provides a promising way to
obtain three-dimensional (3D) phenotype traits with its high ability of recording accurate 3D …
obtain three-dimensional (3D) phenotype traits with its high ability of recording accurate 3D …
Vinobot and vinoculer: Two robotic platforms for high-throughput field phenotyping
A Shafiekhani, S Kadam, FB Fritschi, GN DeSouza - Sensors, 2017 - mdpi.com
In this paper, a new robotic architecture for plant phenotyping is being introduced. The
architecture consists of two robotic platforms: an autonomous ground vehicle (Vinobot) and …
architecture consists of two robotic platforms: an autonomous ground vehicle (Vinobot) and …
Phenotypic variability in bread wheat root systems at the early vegetative stage
Background Understanding root system morphology in bread wheat is critical for identifying
root traits to breed cultivars with improved resource uptake and better adaptation to adverse …
root traits to breed cultivars with improved resource uptake and better adaptation to adverse …
Dynamic physiological phenotyping of drought-stressed pepper plants treated with “productivity-enhancing” and “survivability-enhancing” biostimulants
A Dalal, R Bourstein, N Haish, I Shenhar… - Frontiers in Plant …, 2019 - frontiersin.org
The improvement of crop productivity under abiotic stress is one of the biggest challenges
faced by the agricultural scientific community. Despite extensive research, the research-to …
faced by the agricultural scientific community. Despite extensive research, the research-to …
Towards sustainable plant factories with artificial lighting (PFALs) for achieving SDGs
T Kozai - International Journal of Agricultural and Biological …, 2019 - abepublishing.org
The challenges and opportunities for developing sustainable plant factories with artificial
lighting (PFALs) are discussed. After examining the production cost and productivity of …
lighting (PFALs) are discussed. After examining the production cost and productivity of …