Alexander Bucksch
dirt.iplantcollaborative.org
0000-0002-1071-5355
University of Georgia
100 papers found
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Effects of Suboptimal Nitrogen, Phosphorus and Potassium on Root Hair Development of Rice, Maize, and Soybean
Training Computational Plant Scientists: Experiences of student training at the interface
Plant IT: An open web platform for advanced plant phenotyping from imaging data
3D root phenotyping for improved carbon sequestration
Frontiers in root phenotyping under field conditions: Physical and mathematical limits in the light of ongoing developments
A system to measure adaptation of root hairs to phosphorus and nitrogen deficiencies in common bean (P. vulgaris)
Extracting traits from 3D models of maize root system architecture
Replicating field grown root architecture types in the greenhouse
Pyramiding SA-based disease resistance, abiotic stress tolerance and growth protection in Arabidopsis
Effects of suboptimal nitrogen, phosphorus and potassium on root hairs development of rice, maize and bean
Optical Approaches to Capture Plant Dynamics in Time, Space, and Across Scales
Root Traits Translation from Laboratory to Field and Their Associations with Drought Tolerance in Maize
Automatic detection and quantification of individual root hairs in complex arrangements
DEEPER: An integrative platform for deeper roots
Editorial: Optical Approaches to Capture Plant Dynamics in Time, Space, and Across Scales
The shape of plants to come: Unleashing geometry and topology within the plant sciences
Put the carbon back into the soil: 3D root phenotyping for improved carbon sequestration
Automated phenotyping of root hair traits from microscopy images
Unleashing geometry and topology for forestry and agriculture
The shape of plants to come: in situ computation and field math
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