Artificial selection shifts flowering phenology and other correlated traits in an autotetraploid herb

K. S. Burgess; J. R. Etterson; L. F. Galloway

doi:10.1038/sj.hdy.6801043

Artificial selection shifts flowering phenology and other correlated traits in an autotetraploid herb

K. S. Burgess, J. R. Etterson, L. F. Galloway

Biology (Duluth)

Research output: Contribution to journal › Article › peer-review

65 Scopus citations

Abstract

There is mounting evidence that plants are responding to anthropogenic climate change with shifts in flowering phenologies. We conducted a three-generation artificial selection experiment on flowering time in Campanulastrum americanum, an autotetraploid herb, to determine the potential for adaptive evolution of this trait as well as possible costs associated with enhanced or delayed flowering. Divergent selection for earlier and later flowering resulted in a 25-day difference in flowering time. Experiment-wide heritability was 0.31 and 0.23 for the initiation of flowering in early and late lines, respectively. Selection for earlier flowering resulted in significant correlated responses in other traits including smaller size, fewer branches, smaller floral displays, longer fruit maturation times, fewer seeds per fruit and slower seed germination. Results suggest that although flowering time shows the potential to adapt to a changing climate, phenological shifts may be associated with reduced plant fitness possibly hindering evolutionary change.

Original language	English (US)
Pages (from-to)	641-648
Number of pages	8
Journal	Heredity
Volume	99
Issue number	6
DOIs	https://doi.org/10.1038/sj.hdy.6801043
State	Published - Dec 2007

Bibliographical note

Funding Information:
We thank V Fuentes, L Guarinello, R Gittman, A Smith and H Truong for assistance in the greenhouse; W Crannage for plant care; M Geber for sharing a literature summary; NSF (DEB-9974126, DEB-0316298) and a UVA-FEST award to LFG for financial support.

Keywords

Artificial selection
Autopolyploid
Campanulastrum americanum
Correlated response
Flowering time
Realized heritability

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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title = "Artificial selection shifts flowering phenology and other correlated traits in an autotetraploid herb",

abstract = "There is mounting evidence that plants are responding to anthropogenic climate change with shifts in flowering phenologies. We conducted a three-generation artificial selection experiment on flowering time in Campanulastrum americanum, an autotetraploid herb, to determine the potential for adaptive evolution of this trait as well as possible costs associated with enhanced or delayed flowering. Divergent selection for earlier and later flowering resulted in a 25-day difference in flowering time. Experiment-wide heritability was 0.31 and 0.23 for the initiation of flowering in early and late lines, respectively. Selection for earlier flowering resulted in significant correlated responses in other traits including smaller size, fewer branches, smaller floral displays, longer fruit maturation times, fewer seeds per fruit and slower seed germination. Results suggest that although flowering time shows the potential to adapt to a changing climate, phenological shifts may be associated with reduced plant fitness possibly hindering evolutionary change.",

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author = "Burgess, {K. S.} and Etterson, {J. R.} and Galloway, {L. F.}",

note = "Funding Information: We thank V Fuentes, L Guarinello, R Gittman, A Smith and H Truong for assistance in the greenhouse; W Crannage for plant care; M Geber for sharing a literature summary; NSF (DEB-9974126, DEB-0316298) and a UVA-FEST award to LFG for financial support.",

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AB - There is mounting evidence that plants are responding to anthropogenic climate change with shifts in flowering phenologies. We conducted a three-generation artificial selection experiment on flowering time in Campanulastrum americanum, an autotetraploid herb, to determine the potential for adaptive evolution of this trait as well as possible costs associated with enhanced or delayed flowering. Divergent selection for earlier and later flowering resulted in a 25-day difference in flowering time. Experiment-wide heritability was 0.31 and 0.23 for the initiation of flowering in early and late lines, respectively. Selection for earlier flowering resulted in significant correlated responses in other traits including smaller size, fewer branches, smaller floral displays, longer fruit maturation times, fewer seeds per fruit and slower seed germination. Results suggest that although flowering time shows the potential to adapt to a changing climate, phenological shifts may be associated with reduced plant fitness possibly hindering evolutionary change.

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KW - Flowering time

KW - Realized heritability

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Artificial selection shifts flowering phenology and other correlated traits in an autotetraploid herb

Abstract

Bibliographical note

Keywords

UN SDGs

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