Pine microsatellite markers allow roots and ectomycorrhizas to be linked to individual trees

S. K. Saari; Colin D. Campbell; J. Russell; Ian J. Alexander; Ian C. Anderson

Pine microsatellite markers allow roots and ectomycorrhizas to be linked to individual trees

S. K. Saari, Colin D. Campbell, J. Russell, Ian J. Alexander, Ian C. Anderson

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49 Citations (Scopus)

Abstract

Linking roots and ectomycorrhizas (EcM) to individual host trees in the field is required to test whether individual trees support different ectomycorrhizal communities. Here we describe a method that identifies the source of EcM roots by PCR of polymorphic pine nuclear microsatellite loci using fluorescently labelled primers and high-throughput fragment analysis. ITS-PCR can also be performed on the same EcM DNA extract for fungal identification. The method was tested on five neighbouring Scots pine (Pinus sylvestris var scotica) trees in native woodland. Successful host tree identification from DNA extracts of EcM root tips was achieved for 93% of all root fragments recovered from soil cores. It was estimated that each individual mature pine sampled was colonised by between 15 and 19 EcM fungi. The most abundant fungal species were found on all five trees, and within the constraints of the sampling scheme, no differences between trees in EcM fungal community structure or composition were detected.

Original language	English
Number of pages	10
Journal	New Phytologist
Publication status	Published - 2005

Keywords

Scots pine
ectomycorrhizas
host genotype
microsatellite fingerprinting
root ecology
soil microbiology

Cite this

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title = "Pine microsatellite markers allow roots and ectomycorrhizas to be linked to individual trees",

abstract = "Linking roots and ectomycorrhizas (EcM) to individual host trees in the field is required to test whether individual trees support different ectomycorrhizal communities. Here we describe a method that identifies the source of EcM roots by PCR of polymorphic pine nuclear microsatellite loci using fluorescently labelled primers and high-throughput fragment analysis. ITS-PCR can also be performed on the same EcM DNA extract for fungal identification. The method was tested on five neighbouring Scots pine (Pinus sylvestris var scotica) trees in native woodland. Successful host tree identification from DNA extracts of EcM root tips was achieved for 93% of all root fragments recovered from soil cores. It was estimated that each individual mature pine sampled was colonised by between 15 and 19 EcM fungi. The most abundant fungal species were found on all five trees, and within the constraints of the sampling scheme, no differences between trees in EcM fungal community structure or composition were detected.",

keywords = "Scots pine, ectomycorrhizas, host genotype, microsatellite fingerprinting, root ecology, soil microbiology",

author = "Saari, {S. K.} and Campbell, {Colin D.} and J. Russell and Alexander, {Ian J.} and Anderson, {Ian C.}",

year = "2005",

language = "English",

journal = "New Phytologist",

issn = "0028-646X",

publisher = "Wiley-Blackwell Publishing",

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TY - JOUR

T1 - Pine microsatellite markers allow roots and ectomycorrhizas to be linked to individual trees

AU - Saari, S. K.

AU - Campbell, Colin D.

AU - Russell, J.

AU - Alexander, Ian J.

AU - Anderson, Ian C.

PY - 2005

Y1 - 2005

N2 - Linking roots and ectomycorrhizas (EcM) to individual host trees in the field is required to test whether individual trees support different ectomycorrhizal communities. Here we describe a method that identifies the source of EcM roots by PCR of polymorphic pine nuclear microsatellite loci using fluorescently labelled primers and high-throughput fragment analysis. ITS-PCR can also be performed on the same EcM DNA extract for fungal identification. The method was tested on five neighbouring Scots pine (Pinus sylvestris var scotica) trees in native woodland. Successful host tree identification from DNA extracts of EcM root tips was achieved for 93% of all root fragments recovered from soil cores. It was estimated that each individual mature pine sampled was colonised by between 15 and 19 EcM fungi. The most abundant fungal species were found on all five trees, and within the constraints of the sampling scheme, no differences between trees in EcM fungal community structure or composition were detected.

AB - Linking roots and ectomycorrhizas (EcM) to individual host trees in the field is required to test whether individual trees support different ectomycorrhizal communities. Here we describe a method that identifies the source of EcM roots by PCR of polymorphic pine nuclear microsatellite loci using fluorescently labelled primers and high-throughput fragment analysis. ITS-PCR can also be performed on the same EcM DNA extract for fungal identification. The method was tested on five neighbouring Scots pine (Pinus sylvestris var scotica) trees in native woodland. Successful host tree identification from DNA extracts of EcM root tips was achieved for 93% of all root fragments recovered from soil cores. It was estimated that each individual mature pine sampled was colonised by between 15 and 19 EcM fungi. The most abundant fungal species were found on all five trees, and within the constraints of the sampling scheme, no differences between trees in EcM fungal community structure or composition were detected.

KW - Scots pine

KW - ectomycorrhizas

KW - host genotype

KW - microsatellite fingerprinting

KW - root ecology

KW - soil microbiology

UR - http://handle.uws.edu.au:8081/1959.7/510498

M3 - Article

SN - 0028-646X

JO - New Phytologist

JF - New Phytologist

ER -

Pine microsatellite markers allow roots and ectomycorrhizas to be linked to individual trees

Abstract

Keywords

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