@ARTICLE{TreeBASE2Ref31641,
author = {Kurtuluş ?zgişi and Atila Ocak and Burcu Tarıkahya Hacıoğlu},
title = {Species delimitation in Noccaea densiflora species complex (Brassicaceae) based on morphological and molecular data},
year = {2021},
keywords = {Noccaea densiflora species complex, Noccaea, Coluteocarpeae, Brassicaceae, species delimitation},
doi = {},
url = {http://},
pmid = {},
journal = {Canadian Journal of Botany},
volume = {},
number = {},
pages = {},
abstract = {The accurate identification of an organism is the basis of all biological disciplines. Although there have been many different species concepts and methods proposed, researchers generally choose the most appropriate concept according to their interests. However, each species concept has both advantages and disadvantages. In such cases, an integrated concept based on evidence obtained from different species concepts and methods is suitable for the accurate delimitation of a species. The biggest dilemma of integrated species delimitation methods is the inconsistency between species concepts and methods. Herein, the concurrency of the different concepts and methods was tested to reveal the relationship of the Noccaea densiflora species complex. Nuclear ribosomal internal transcribed spacer (ITS), chloroplast trnL-F, and trnQ-5'rps16 regions were used in the BPP species delimitation program under 3 different scenarios. ITS and trnL-F regions were used for both the STACEY and TCS haplotype network analyses. In addition to morphological measurements from different populations and vouchers, specific bioclimatic data values were also used for the principal component analysis. Based on all of the analyses, it was determined that only 1 population of N. densiflora and N. microstyla was clearly different, whereas rest of the specimens remain taxonomically uncertain. }
}
Citation for Study 27550
Citation title:
"Species delimitation in Noccaea densiflora species complex (Brassicaceae) based on morphological and molecular data".
Study name:
"Species delimitation in Noccaea densiflora species complex (Brassicaceae) based on morphological and molecular data".
This study is part of submission 27550
(Status: Published).
Citation
?zgişi K., Ocak A., & Tarıkahya hacıoğlu B. 2021. Species delimitation in Noccaea densiflora species complex (Brassicaceae) based on morphological and molecular data. Canadian Journal of Botany, .
Authors
-
?zgişi K.
-
Ocak A.
-
Tarıkahya hacıoğlu B.
Abstract
The accurate identification of an organism is the basis of all biological disciplines. Although there have been many different species concepts and methods proposed, researchers generally choose the most appropriate concept according to their interests. However, each species concept has both advantages and disadvantages. In such cases, an integrated concept based on evidence obtained from different species concepts and methods is suitable for the accurate delimitation of a species. The biggest dilemma of integrated species delimitation methods is the inconsistency between species concepts and methods. Herein, the concurrency of the different concepts and methods was tested to reveal the relationship of the Noccaea densiflora species complex. Nuclear ribosomal internal transcribed spacer (ITS), chloroplast trnL-F, and trnQ-5'rps16 regions were used in the BPP species delimitation program under 3 different scenarios. ITS and trnL-F regions were used for both the STACEY and TCS haplotype network analyses. In addition to morphological measurements from different populations and vouchers, specific bioclimatic data values were also used for the principal component analysis. Based on all of the analyses, it was determined that only 1 population of N. densiflora and N. microstyla was clearly different, whereas rest of the specimens remain taxonomically uncertain.
Keywords
Noccaea densiflora species complex, Noccaea, Coluteocarpeae, Brassicaceae, species delimitation
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S27550
- Other versions:
Nexus
NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref31641,
author = {Kurtuluş ?zgişi and Atila Ocak and Burcu Tarıkahya Hacıoğlu},
title = {Species delimitation in Noccaea densiflora species complex (Brassicaceae) based on morphological and molecular data},
year = {2021},
keywords = {Noccaea densiflora species complex, Noccaea, Coluteocarpeae, Brassicaceae, species delimitation},
doi = {},
url = {http://},
pmid = {},
journal = {Canadian Journal of Botany},
volume = {},
number = {},
pages = {},
abstract = {The accurate identification of an organism is the basis of all biological disciplines. Although there have been many different species concepts and methods proposed, researchers generally choose the most appropriate concept according to their interests. However, each species concept has both advantages and disadvantages. In such cases, an integrated concept based on evidence obtained from different species concepts and methods is suitable for the accurate delimitation of a species. The biggest dilemma of integrated species delimitation methods is the inconsistency between species concepts and methods. Herein, the concurrency of the different concepts and methods was tested to reveal the relationship of the Noccaea densiflora species complex. Nuclear ribosomal internal transcribed spacer (ITS), chloroplast trnL-F, and trnQ-5'rps16 regions were used in the BPP species delimitation program under 3 different scenarios. ITS and trnL-F regions were used for both the STACEY and TCS haplotype network analyses. In addition to morphological measurements from different populations and vouchers, specific bioclimatic data values were also used for the principal component analysis. Based on all of the analyses, it was determined that only 1 population of N. densiflora and N. microstyla was clearly different, whereas rest of the specimens remain taxonomically uncertain. }
}
- Show RIS reference
TY - JOUR
ID - 31641
AU - ?zgişi,Kurtuluş
AU - Ocak,Atila
AU - Tarıkahya Hacıoğlu,Burcu
T1 - Species delimitation in Noccaea densiflora species complex (Brassicaceae) based on morphological and molecular data
PY - 2021
KW - Noccaea densiflora species complex
KW - Noccaea
KW - Coluteocarpeae
KW - Brassicaceae
KW - species delimitation
UR - http://dx.doi.org/
N2 - The accurate identification of an organism is the basis of all biological disciplines. Although there have been many different species concepts and methods proposed, researchers generally choose the most appropriate concept according to their interests. However, each species concept has both advantages and disadvantages. In such cases, an integrated concept based on evidence obtained from different species concepts and methods is suitable for the accurate delimitation of a species. The biggest dilemma of integrated species delimitation methods is the inconsistency between species concepts and methods. Herein, the concurrency of the different concepts and methods was tested to reveal the relationship of the Noccaea densiflora species complex. Nuclear ribosomal internal transcribed spacer (ITS), chloroplast trnL-F, and trnQ-5'rps16 regions were used in the BPP species delimitation program under 3 different scenarios. ITS and trnL-F regions were used for both the STACEY and TCS haplotype network analyses. In addition to morphological measurements from different populations and vouchers, specific bioclimatic data values were also used for the principal component analysis. Based on all of the analyses, it was determined that only 1 population of N. densiflora and N. microstyla was clearly different, whereas rest of the specimens remain taxonomically uncertain.
L3 -
JF - Canadian Journal of Botany
VL -
IS -
ER -
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