Plant perfomance across latitude: the role of plasticity and local adaltation in aquatic plant

Geographic variation can lead to the evolution of different local varieties within a given species, therefore influencing its distribution and genetic structure. We investigated the contribution of plasticity and local adaptation to the performance of a common aquatic plant (Potamogeton pectinatus)...

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Bibliographic Details
Published in:Ecology
Main Authors: Santamaría, Luis, Figuerola, Jordi, Pilon, J., Mjelde, M., Green, Andy J., De Boer, T., King, R.A., Gornall, R.J.
Format: Article in Journal/Newspaper
Language:English
Published: Ecological Society of America 2003
Subjects:
Climate
clonal reproduction
distribution
Latitude
local adaptation
plasticity
Potamogeton pectinatus
reciprocal transplant
Arctic
Online Access:http://hdl.handle.net/10261/43042
https://doi.org/10.1890/02-0431
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Summary:Geographic variation can lead to the evolution of different local varieties within a given species, therefore influencing its distribution and genetic structure. We investigated the contribution of plasticity and local adaptation to the performance of a common aquatic plant (Potamogeton pectinatus) in contrasting climates, using reciprocal transplants at three experimental sites across a latitudinal cline in Europe. Plants from 54 genets, originally collected from 14 populations situated within four climatic regions (sub- arctic, cold temperate, mild temperate, and mediterranean) were grown in three different localities within three of these regions (cold temperate, Nor way; mild temperate, The Netherlands; mediterranean, Spain). Tuber production was highest for the mild-temperate genets, irrespective of locality where the genets were grown. Selection coefficients indicated that populations at the European center of the species distribution perform better than all other populations, at all sites. However, marginal populations showed changes in life-histor y traits, such as compressed life cycles in the north and true perenniality in the south, that may allow them to perform better locally, at the limits of their distribution range. Our results thus suggest that local adaptation may overlap spatially with center–peripher y gra- dients in performance caused by genetic factors (such as genetic drift and inbreeding in range-marginal populations). Peer reviewed

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