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Biomass partitioning and nitrogen use efficiency of 'Superior' potato following genetic transformation for resistance to colorado potato beetle
Francis Zvomuya,
Carl J. Rosen
Soil, Water, and Climate
Research output
:
Contribution to journal
›
Article
›
peer-review
19
Scopus citations
Overview
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Dive into the research topics of 'Biomass partitioning and nitrogen use efficiency of 'Superior' potato following genetic transformation for resistance to colorado potato beetle'. Together they form a unique fingerprint.
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Medicine & Life Sciences
Genetic Transformation
100%
Coleoptera
98%
Solanum tuberosum
85%
Biomass
78%
Nitrogen
63%
Clone Cells
51%
Inbreeding
13%
Fertilizers
7%
Soil
4%
Genotype
3%
Regression Analysis
3%
Weights and Measures
2%
Agriculture & Biology
Leptinotarsa decemlineata
81%
nutrient use efficiency
71%
genetic transformation
70%
potatoes
49%
clones
43%
biomass
39%
backcrossing
11%
nitrogen
7%
uptake mechanisms
6%
harvest index
4%
Solanum tuberosum
4%
vines
4%
nitrogen fertilizers
4%
field experimentation
4%
tubers
4%
biomass production
4%
regression analysis
3%
genetically modified organisms
3%
genotype
2%
metabolism
2%
soil
2%
methodology
1%