Quantification of roots and seeds in soil with real-time PCR
Date
2010
Authors
Riley, I.
Wiebkin, S.
Hartley, D.
McKay, A.
Editors
Advisors
Journal Title
Journal ISSN
Volume Title
Type:
Journal article
Citation
Plant and Soil: international journal on plant-soil relationships, 2010; 331(1-2):151-163
Statement of Responsibility
Ian T. Riley, Sue Wiebkin, Diana Hartley and Alan C. McKay
Conference Name
Abstract
Study of roots and associated organisms in soil particularly in mixed plant populations, such as pastures, is limited by difficulties in quantification of root growth and function. The research evaluated the potential of DNA quantification by real-time PCR to improve our capacity to study and understand roots in such contexts. Probes and primers were developed for two common pasture species, Trifolium subterraneum and Lolium perenne (and closely related Lolium spp.), and evaluated for specificity and sensitivity in TaqMan assays on DNA extracted from soil. Further experiments examined the ability to detect DNA in dead roots, the changes in root DNA levels of plants defoliated or treated with herbicide and the relationship between DNA and root dry weight for single and mixed plant species grown in pots. T. subterraneum DNA/PCR 200 fg/μl was detected at 17.5 cycles and L. perenne at 19.5 cycles. The assay for T. subterraneum was species specific but the L. perenne assay, as anticipated from the choice of probe, also detected some closely related species. The assays were sensitive and capable of detecting equivalent to <2 mg roots/kg of dry soil and able to quantify targets in mixed populations. DNA concentration varied with plant age and genotype and DNA in dead roots found to decay rapidly over a few days. DNA concentrations in roots were found to respond more rapidly to defoliation and herbicide treatments than root mass. This approach appears to offer a new way to study roots in soil and indicates that quantifying root DNA could provide insights into root function and responses not readily provided by other methods. © 2009 Springer Science+Business Media B.V.
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Dissertation Note
Provenance
Description
First published online in 2009
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© 2009 Springer. Part of Springer Science+Business Media