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Intrinsic oxygen use kinetics of transformed plant root culture
Patrick T. Asplund
,
Wayne R. Curtis
Chemical Engineering
Research output
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Contribution to journal
›
Article
›
peer-review
34
Scopus citations
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Dive into the research topics of 'Intrinsic oxygen use kinetics of transformed plant root culture'. Together they form a unique fingerprint.
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Keyphrases
Root Culture
100%
Plant Roots
100%
Transformed Plants
100%
Extension Rate
100%
Tip Extension
60%
Respiration
40%
Root Tip
40%
Root Type
40%
Root Meristem
40%
Root Branching
40%
Fast-growing
20%
Bioreactor
20%
Potato
20%
Oxygen Transport
20%
Specific Growth Rate
20%
Ambient Conditions
20%
Oxygen Concentration
20%
Slow-growing
20%
Root Growth
20%
Oxygen Level
20%
Saturation Level
20%
Oxygen Pressure
20%
Branching Pattern
20%
Oxygen Conditions
20%
Branching Ratio
20%
Oxygen Uptake
20%
Oxygen Limitation
20%
Oxygen Dependence
20%
Solanum Tuberosum
20%
Biomass Accumulation
20%
Hydrodynamic Boundary Layer
20%
Mustard
20%
Brassica Juncea
20%
Mass Transfer Resistance
20%
Dissolved Oxygen Level
20%
Oxygen Uptake Rate
20%
Transformed Root Cultures
20%
Hyoscyamus muticus
20%
Agricultural and Biological Sciences
Root Tips
100%
Brassica Juncea
100%
Root Meristems
100%
Root Growth
50%
Bioreactor
50%
Solanum Tuberosum
50%
Specific Growth Rate
50%
Hyoscyamus muticus
50%
Medicine and Dentistry
Oxygen Consumption
100%
Plant Root
100%
Meristem
100%
Morphology
50%
Oxygen Transport
50%
Root Growth
50%
Uptake Rates
50%
Engineering
Boundary Layer
100%
Bioreactor
50%
Hydrodynamics
50%
Limitations
50%
Ambient Condition
50%
Branching Ratio
50%
Dissolved Oxygen Level
50%
Specific Growth Rate
50%
Earth and Planetary Sciences
Boundary Layer
100%
Plant Root
100%
Dissolved Oxygen
50%
Morphology
50%
Bioreactor
50%