Data from: Ecological genomics of mutualism decline in nitrogen-fixing bacteria
Klinger, Christie R.; Lau, Jennifer A.; Heath, Katy D. (2016), Data from: Ecological genomics of mutualism decline in nitrogen-fixing bacteria, Dryad, Dataset, https://doi.org/10.5061/dryad.9gn28
Anthropogenic changes can influence mutualism evolution; however, the genomic regions underpinning mutualism that are most affected by environmental change are generally unknown, even in well-studied model mutualisms like the interaction between legumes and their nitrogen (N)-fixing rhizobia. Such genomic information can shed light on the agents and targets of selection maintaining cooperation in nature. We recently demonstrated that N-fertilization has caused an evolutionary decline in mutualistic partner quality in the rhizobia that form symbiosis with clover. Here population genomic analyses of N-fertilized versus control rhizobium populations indicate that evolutionary differentiation at a key symbiosis gene region on the symbiotic plasmid (pSym) contributes to partner quality decline. Moreover patterns of genetic variation at selected loci were consistent with recent positive selection within N-fertilized environments, suggesting that N-rich environments might select for less-beneficial rhizobia. By studying the molecular population genomics of a natural bacterial population within a long-term ecological field experiment, we find that: 1) the N environment is indeed a potent selective force mediating mutualism evolution in this symbiosis, 2) natural variation in rhizobium partner quality is mediated in part by key symbiosis genes on the symbiotic plasmid, and 3) differentiation at selected genes occurred in the context of otherwise recombining genomes, resembling eukaryotic models of adaptation.
Kellogg Biological Station Long-Term Ecological Research site (KBS LTER)