Using a fine root extraction device to quantify small diameter corn roots (≥0.025 mm) in field soils

@article{Pallant1993UsingAF,
  title={Using a fine root extraction device to quantify small diameter corn roots (≥0.025 mm) in field soils},
  author={Eric Pallant and Richard A. Holmgren and George E. Schuler and Kimberly L. Mccracken and Barbara Drbal},
  journal={Plant and Soil},
  year={1993},
  volume={153},
  pages={273-279},
  url={https://api.semanticscholar.org/CorpusID:12241117}
}
The study of fine roots growing under field conditions is limited by the techniques currently available for separating these roots from soil. This study had two objectives: to measure the total root length of field grown corn (Zea mays L.) by root diameter class, and to develop an inexpensive and efficient root washing device that would effectively capture all of the roots in a field soil sample. An inexpensive Fine Root Extraction Device (FRED) was constructed from readily available materials… 
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37 Citations
Highly Influential Citations
5
Background Citations
12
Methods Citations
6

37 Citations

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Genotype and Planting Density Effects on Rooting Traits and Yield in Cotton (Gossypium hirsutum L.)

It was concluded that the hybrid had a strong advantage in root maintenance preventing premature senescence of roots, and good associations were found between yield and RAI in different stages.

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Drought tolerant inbred lines showed distinct root system than sensitive, by presenting larger root length, surface area, volume, and greater contribution of roots with diameter less than 0.5 mm to total root length in plants grown under low phosphorus availability conditions.

Sampling Damage to Tree Fine Roots: Comparing Air Excavation and Hydropneumatic Elutriation

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12 References

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Nutrient competition is most likely for the more mobile nutrients and mechanistic modelling can be used to select tree and crop species with superior rooting and physiological characteristics for interplantings to better manage below-ground competition.

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