From genes to ecosystems: a synthesis of the effects of plant genetic factors across levels of organization
- 12 June 2009
- journal article
- Published by The Royal Society in Philosophical Transactions Of The Royal Society B-Biological Sciences
- Vol. 364 (1523), 1607-1616
- https://doi.org/10.1098/rstb.2008.0336
Abstract
Using two genetic approaches and seven different plant systems, we present findings from a meta-analysis examining the strength of the effects of plant genetic introgression and genotypic diversity across individual, community and ecosystem levels with the goal of synthesizing the patterns to date. We found that (i) the strength of plant genetic effects can be quite high; however, the overall strength of genetic effects on most response variables declined as the levels of organization increased. (ii) Plant genetic effects varied such that introgression had a greater impact on individual phenotypes than extended effects on arthropods or microbes/fungi. By contrast, the greatest effects of genotypic diversity were on arthropods. (iii) Plant genetic effects were greater on above-ground versus below-ground processes, but there was no difference between terrestrial and aquatic environments. (iv) The strength of the effects of intraspecific genotypic diversity tended to be weaker than interspecific genetic introgression. (v) Although genetic effects generally decline across levels of organization, in some cases they do not, suggesting that specific organisms and/or processes may respond more than others to underlying genetic variation. Because patterns in the overall impacts of introgression and genotypic diversity were generally consistent across diverse study systems and consistent with theoretical expectations, these results provide generality for understanding the extended consequences of plant genetic variation across levels of organization, with evolutionary implications.Keywords
This publication has 53 references indexed in Scilit:
- Experimental evaluation of evolution and coevolution as agents of ecosystem change in Trinidadian streamsPhilosophical Transactions Of The Royal Society B-Biological Sciences, 2009
- Non-random distribution of individual genetic diversity along an environmental gradientPhilosophical Transactions Of The Royal Society B-Biological Sciences, 2009
- Eco-evolutionary dynamics: disentangling phenotypic, environmental and population fluctuationsPhilosophical Transactions Of The Royal Society B-Biological Sciences, 2009
- Rapid contemporary evolution and clonal food web dynamicsPhilosophical Transactions Of The Royal Society B-Biological Sciences, 2009
- Evolution in plant populations as a driver of ecological changes in arthropod communitiesPhilosophical Transactions Of The Royal Society B-Biological Sciences, 2009
- From Genes to Ecosystems: The Genetic Basis of Condensed Tannins and Their Role in Nutrient Regulation in a Populus Model SystemEcosystems, 2008
- Rapid shifts in the chemical composition of aspen forests: an introduced herbivore as an agent of natural selectionBiological Invasions, 2006
- From genes to geography: a genetic similarity rule for arthropod community structure at multiple geographic scalesMolecular Ecology, 2006
- A genetic similarity rule determines arthropod community structureMolecular Ecology, 2005
- Rapid evolution drives ecological dynamics in a predator–prey systemNature, 2003