@ARTICLE{TreeBASE2Ref23440,
author = {Ryoko Oono and Francois Lutzoni and A. Elizabeth Arnold and Laurel Kaye and Jana M. U'Ren and Georgiana May and Ignazio Carbone},
title = {Genetic variation within horizontally transmitted fungal endophytes of pine needles reveals population structure in cryptic species},
year = {2014},
keywords = {diversity; foliar fungal endophyte; Lophodermium; Pinus; speciation},
doi = {},
url = {http://},
pmid = {},
journal = {American Journal of Botany},
volume = {},
number = {},
pages = {},
abstract = {Premise of the study: Fungal endophytes comprise one of the most ubiquitous groups of plant symbionts, inhabiting healthy leaves and stems of all major lineages of plants. Together they comprise immense species richness, but little is known about the fundamental processes that generate their diversity. Exploration of their population structure is needed, especially with regard to geographic distributions and host affiliations.
Methods: We take a multilocus approach to examine genetic variation within and among populations of Lophodermium australe, an endophytic fungus commonly associated with healthy foliage of pines in the southeastern USA. Sampling focused on two pine species ranging from montane to coastal regions of North Carolina and Virginia.
Key results: Our sampling revealed two genetically distinct groups within Lophodermium australe. Our analysis detected less than one migrant per generation between them, indicating that they are distinct species. The species comprising the majority of isolates (major species) demonstrated a panmictic structure whereas the species comprising the minority of isolates (cryptic species) demonstrated isolation-by-distance. Distantly related pine species hosted the same Lophodermium species, and host species did not influence genetic structure.
Conclusions: We present the first evidence for isolation-by-distance in a foliar fungal endophyte that is horizontally transmitted. Cryptic species may be common among microbial symbionts and are important to delimit when exploring their genetic structure and microevolutionary processes. The hyperdiversity of endophytic fungi may be explained in part by cryptic species without apparent ecological and morphological differences as well as genetic diversification within rare fungal species across large spatial scales.
}
}
Citation for Study 16106
Citation title:
"Genetic variation within horizontally transmitted fungal endophytes of pine needles reveals population structure in cryptic species".
Study name:
"Genetic variation within horizontally transmitted fungal endophytes of pine needles reveals population structure in cryptic species".
This study is part of submission 16106
(Status: Published).
Citation
Oono R., Lutzoni F., Arnold A., Kaye L., U'ren J.M., May G., & Carbone I. 2014. Genetic variation within horizontally transmitted fungal endophytes of pine needles reveals population structure in cryptic species. American Journal of Botany, .
Authors
-
Oono R.
(submitter)
8058935064
-
Lutzoni F.
-
Arnold A.
-
Kaye L.
-
U'ren J.M.
-
May G.
-
Carbone I.
Abstract
Premise of the study: Fungal endophytes comprise one of the most ubiquitous groups of plant symbionts, inhabiting healthy leaves and stems of all major lineages of plants. Together they comprise immense species richness, but little is known about the fundamental processes that generate their diversity. Exploration of their population structure is needed, especially with regard to geographic distributions and host affiliations.
Methods: We take a multilocus approach to examine genetic variation within and among populations of Lophodermium australe, an endophytic fungus commonly associated with healthy foliage of pines in the southeastern USA. Sampling focused on two pine species ranging from montane to coastal regions of North Carolina and Virginia.
Key results: Our sampling revealed two genetically distinct groups within Lophodermium australe. Our analysis detected less than one migrant per generation between them, indicating that they are distinct species. The species comprising the majority of isolates (major species) demonstrated a panmictic structure whereas the species comprising the minority of isolates (cryptic species) demonstrated isolation-by-distance. Distantly related pine species hosted the same Lophodermium species, and host species did not influence genetic structure.
Conclusions: We present the first evidence for isolation-by-distance in a foliar fungal endophyte that is horizontally transmitted. Cryptic species may be common among microbial symbionts and are important to delimit when exploring their genetic structure and microevolutionary processes. The hyperdiversity of endophytic fungi may be explained in part by cryptic species without apparent ecological and morphological differences as well as genetic diversification within rare fungal species across large spatial scales.
Keywords
diversity; foliar fungal endophyte; Lophodermium; Pinus; speciation
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S16106
- Other versions:
Nexus
NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref23440,
author = {Ryoko Oono and Francois Lutzoni and A. Elizabeth Arnold and Laurel Kaye and Jana M. U'Ren and Georgiana May and Ignazio Carbone},
title = {Genetic variation within horizontally transmitted fungal endophytes of pine needles reveals population structure in cryptic species},
year = {2014},
keywords = {diversity; foliar fungal endophyte; Lophodermium; Pinus; speciation},
doi = {},
url = {http://},
pmid = {},
journal = {American Journal of Botany},
volume = {},
number = {},
pages = {},
abstract = {Premise of the study: Fungal endophytes comprise one of the most ubiquitous groups of plant symbionts, inhabiting healthy leaves and stems of all major lineages of plants. Together they comprise immense species richness, but little is known about the fundamental processes that generate their diversity. Exploration of their population structure is needed, especially with regard to geographic distributions and host affiliations.
Methods: We take a multilocus approach to examine genetic variation within and among populations of Lophodermium australe, an endophytic fungus commonly associated with healthy foliage of pines in the southeastern USA. Sampling focused on two pine species ranging from montane to coastal regions of North Carolina and Virginia.
Key results: Our sampling revealed two genetically distinct groups within Lophodermium australe. Our analysis detected less than one migrant per generation between them, indicating that they are distinct species. The species comprising the majority of isolates (major species) demonstrated a panmictic structure whereas the species comprising the minority of isolates (cryptic species) demonstrated isolation-by-distance. Distantly related pine species hosted the same Lophodermium species, and host species did not influence genetic structure.
Conclusions: We present the first evidence for isolation-by-distance in a foliar fungal endophyte that is horizontally transmitted. Cryptic species may be common among microbial symbionts and are important to delimit when exploring their genetic structure and microevolutionary processes. The hyperdiversity of endophytic fungi may be explained in part by cryptic species without apparent ecological and morphological differences as well as genetic diversification within rare fungal species across large spatial scales.
}
}
- Show RIS reference
TY - JOUR
ID - 23440
AU - Oono,Ryoko
AU - Lutzoni,Francois
AU - Arnold,A. Elizabeth
AU - Kaye,Laurel
AU - U'Ren,Jana M.
AU - May,Georgiana
AU - Carbone,Ignazio
T1 - Genetic variation within horizontally transmitted fungal endophytes of pine needles reveals population structure in cryptic species
PY - 2014
KW - diversity; foliar fungal endophyte; Lophodermium; Pinus; speciation
UR - http://dx.doi.org/
N2 - Premise of the study: Fungal endophytes comprise one of the most ubiquitous groups of plant symbionts, inhabiting healthy leaves and stems of all major lineages of plants. Together they comprise immense species richness, but little is known about the fundamental processes that generate their diversity. Exploration of their population structure is needed, especially with regard to geographic distributions and host affiliations.
Methods: We take a multilocus approach to examine genetic variation within and among populations of Lophodermium australe, an endophytic fungus commonly associated with healthy foliage of pines in the southeastern USA. Sampling focused on two pine species ranging from montane to coastal regions of North Carolina and Virginia.
Key results: Our sampling revealed two genetically distinct groups within Lophodermium australe. Our analysis detected less than one migrant per generation between them, indicating that they are distinct species. The species comprising the majority of isolates (major species) demonstrated a panmictic structure whereas the species comprising the minority of isolates (cryptic species) demonstrated isolation-by-distance. Distantly related pine species hosted the same Lophodermium species, and host species did not influence genetic structure.
Conclusions: We present the first evidence for isolation-by-distance in a foliar fungal endophyte that is horizontally transmitted. Cryptic species may be common among microbial symbionts and are important to delimit when exploring their genetic structure and microevolutionary processes. The hyperdiversity of endophytic fungi may be explained in part by cryptic species without apparent ecological and morphological differences as well as genetic diversification within rare fungal species across large spatial scales.
L3 -
JF - American Journal of Botany
VL -
IS -
ER -