A universal molecular method for identifying underground plant parts to species

@article{Linder2000AUM,
  title={A universal molecular method for identifying underground plant parts to species},
  author={C. Randal Linder and Lisa A. Moore and R. B. Jackson},
  journal={Molecular Ecology},
  year={2000},
  volume={9}
}
As part of a large project to determine rooting depth and resource uptake on the Edwards Plateau of central Texas, we developed a DNA‐based technique that allows the below‐ground parts of all plants to be identified to the level of genus and usually to species. Identification is achieved by comparing DNA sequences of the internal transcribed spacer (ITS) region of the 18S–26S nuclear ribosomal DNA repeat, derived from below‐ground plant material, with a reference ITS region database for plants… 
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A technique for identifying the roots of different species in mixed samples using nuclear ribosomal DNA
TLDR
This method is the first to identify the species composition of mixed root samples containing multiple species, and should be applicable to most plant species because the ITS region is flanked by universal primers and most species have unique ITS sequences.
A molecular method to identify species of fine roots and to predict the proportion of a species in mixed samples in subtropical forests
TLDR
The results indicated that the plastid trnL(UAA) intron spacer successfully distinguished tree species of fine roots in subtropical forests and the DNA-sequence-based approach could reliably estimate the relative proportion of each species in mixed fine root samples.
A molecular identification protocol for roots of boreal forest tree species1
TLDR
A PCR-based method previously used to identify roots of grassland species, modified for use in boreal forests is presented, validated for both grassland and boreal forest systems, and thus may also have applications in any plant community.
Identification of roots from grass swards using PCR-RFLP and FFLP of the plastid trnL (UAA) intron
TLDR
A molecular database for the identification of some common grassland species based on PCR-RFLP of the plastid transfer RNA leucine (trn L) UAA gene intron is developed to allow fine-scale studies of the rhizosphere, where root identification by morphology is unrealistic and high throughput is desirable.
Molecular identification of roots from a grassland community using size differences in fluorescently labelled PCR amplicons of three cpDNA regions
TLDR
This approach is efficient, cost‐ effective and broadly applicable to many ecosystems, but is sensitive to detecting species known to be absent (false positives) when using the authors' key of 95 species.
A PCR-based method for the identification of the roots of 10 co-occurring grassland species in mesocosm experiments
TLDR
A PCR-based method for root identification in mesocosms is more cost effective, and simpler to apply than previously described meth- ods, and evaluation of the sensitivity and accuracy of the system was evaluated.
Ribosomal DNA and Plastid Markers Used to Sample Fungal and Plant Communities from Wetland Soils Reveals Complementary Biotas
TLDR
It is suggested that future studies consider using multiple genetic markers, ideally generated from different primer sets, to detect a more taxonomically diverse suite of taxa compared with what can be detected by any single marker alone.
Spatial patterns of plant diversity below‐ground as revealed by DNA barcoding
TLDR
Insight is provided into the role of environmental filtering and competitive interactions in the organization of plant diversity below‐ground, and the utility of barcoding for the identification of plant roots is demonstrated.
Rapid Plant Identification Using Species- and Group-Specific Primers Targeting Chloroplast DNA
TLDR
PCR assays were developed to identify two plant families, the genera Trifolium and Plantago, and nine plant species, enabling the detection of small amounts of plant DNA, for example, in decaying plant material and in the intestine or faeces of herbivores.
Expanding and testing fluorescent amplified fragment length polymorphisms for identifying roots of boreal forest plant species
TLDR
FAFLPs are best suited to confirm rather than discover species occurring belowground, and Sequencing did not increase detection success compared to FAFLPs for a subset of 24 species across nine genera.
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