Plant Phenotype Characterization System
, 2005 This report is the final scientific report for the DOE Inventions and Innovations Project: Plant Phenotype Characterization System, DE-FG36-04GO14334. The period of performance was September 30, 2004 through July 15, 2005. The project objective is to demonstrate the viability of a new scientific instrument concept for the study of plant root systems ...
McDonald, Daniel W, Michaels, Ronald B
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Plant phenotyping for a sustainable future
Journal of Experimental Botany, 2022 Several complex and interconnected megatrends such as climate change, environmental degradation, and stagnating yields threaten crop production and world food security for a growing global population (Maggio et al., 2018). This poses the challenge to develop sustainable and resilient agroecosystems with increased productivity as a key objective for the
Janni M, Pieruschka R
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Molecular bases of circadian magnesium rhythms across eukaryotes
FEBS Letters, EarlyView.Circadian rhythms in intracellular [Mg2+] exist across eukaryotic kingdoms. Central roles for Mg2+ in metabolism suggest that Mg2+ rhythms could regulate daily cellular energy and metabolism. In this Perspective paper, we propose that ancestral prokaryotic transport proteins could be responsible for mediating Mg2+ rhythms and posit a feedback model ...
Helen K. Feord, Gerben van Ooijen
wiley +1 more source
Monitoring drought responses of barley genotypes with semi-robotic phenotyping platform and association analysis between recorded traits and allelic variants of some stress genes [PDF]
, 2013 Genetic improvement of complex traits such as drought adaptation can be advanced by the combination of genomic and phenomic approaches. Semi-robotic phenotyping platform was used for computer-controlled watering, digital and thermal imaging of barley ...
Cseri, András +5 more
core
3D Scanning System for Automatic High-Resolution Plant Phenotyping
, 2016 Thin leaves, fine stems, self-occlusion, non-rigid and slowly changing structures make plants difficult for three-dimensional (3D) scanning and reconstruction -- two critical steps in automated visual phenotyping.
Daily, Helen +6 more
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Editorial to: "A challenge for the analysis of environmental stress. The measurement of chlorophyll a fluorescence (ChlF) from plants to ecosystems" [PDF]
, 2016 n ...
Bussotti, Filippo +3 more
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Adaptive Transfer Learning for Plant Phenotyping
, 2022 Plant phenotyping (Guo et al. 2021; Pieruschka et al. 2019) focuses on studying the diverse traits of plants related to the plants' growth. To be more specific, by accurately measuring the plant's anatomical, ontogenetical, physiological and biochemical properties, it allows identifying the crucial factors of plants' growth in different environments ...
Wu, Jun +4 more
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Crosstalk between the ribosome quality control‐associated E3 ubiquitin ligases LTN1 and RNF10
FEBS Letters, EarlyView.Loss of the E3 ligase LTN1, the ubiquitin‐like modifier UFM1, or the deubiquitinating enzyme UFSP2 disrupts endoplasmic reticulum–ribosome quality control (ER‐RQC), a pathway that removes stalled ribosomes and faulty proteins. This disruption may trigger a compensatory response to ER‐RQC defects, including increased expression of the E3 ligase RNF10 ...
Yuxi Huang +8 more
wiley +1 more source
Application of RGB-Imaging techniques for high-throughput plant phenotyping- A Review
Turkish Journal of Agriculture: Food Science and TechnologyHigh-throughput plant phenotyping plays an important role in plant breeding, identifying superior genotypes in a fast and accurate manner. Consequently, researchers are seeking new image-based plant phenotyping strategies to enhance phenotyping ...
M.V.T Tharuka +2 more
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Low-Cost Automated Vectors and Modular Environmental Sensors for Plant Phenotyping
Sensors, 2020 High-throughput plant phenotyping in controlled environments (growth chambers and glasshouses) is often delivered via large, expensive installations, leading to limited access and the increased relevance of “affordable phenotyping” solutions.
Stuart A. Bagley +5 more
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