Bacterial mutualists generate major fitness benefits for eukaryotes, reshaping the host phenotype and its interactions with the environment. Yet microbial mutualist populations are predicted to generate mutants that defect from providing costly services to hosts while maintaining the capacity to exploit host resources. Here, we examined the mutualist service of symbiotic nitrogen fixation in a metapopulation of root-nodulating Bradyrhizobium spp. that associate with the native legume Acmispon strigosus. We quantified mutualism traits of 85 Bradyrhizobium isolates gathered from a 700km transect in California spanning ten sampled A. strigosus populations. We clonally inoculated each Bradyrhizobium isolate onto Acmispon strigosus hosts and qua...
Legumes can preferentially select beneficial rhizobial symbionts and sanction ineffective strains th...
Mutualists may play an important role in invasion success. The ability to take advantage of novel mu...
Human activities have altered the global nitrogen (N) cycle, and as a result, elevated N inputs are ...
Bacterial mutualists generate major fitness benefits for eukaryotes, reshaping the host phenotype an...
Microbial symbionts exhibit broad genotypic variation in their fitness effects on hosts, leaving hos...
Efficient host control predicts the extirpation of ineffective symbionts, but they are nonetheless w...
Microbial symbionts exhibit broad genotypic variation in their fitness effects on hosts, leaving hos...
Anthropogenic changes can influence mutualism evolution; however, the genomic regions underpinning m...
Root nodule forming rhizobia exhibit a bipartite lifestyle, replicating in soil and also within plan...
Understanding the drivers of variation in symbiont quality is a fundamental objective in the study o...
1.Mutualistic interactions, such as the relationship between legumes and rhizobia, can affect commun...
Plants can gain substantial growth benefits from microbial symbionts, but these benefits are threate...
Many models of mutualisms show that mutualisms are unstable if hosts lack mechanisms enabling prefer...
In mutualisms, variation at genes determining partner fitness provides the raw material upon which c...
Legumes can preferentially select beneficial rhizobial symbionts and sanction ineffective strains th...
Mutualists may play an important role in invasion success. The ability to take advantage of novel mu...
Human activities have altered the global nitrogen (N) cycle, and as a result, elevated N inputs are ...
Bacterial mutualists generate major fitness benefits for eukaryotes, reshaping the host phenotype an...
Microbial symbionts exhibit broad genotypic variation in their fitness effects on hosts, leaving hos...
Efficient host control predicts the extirpation of ineffective symbionts, but they are nonetheless w...
Microbial symbionts exhibit broad genotypic variation in their fitness effects on hosts, leaving hos...
Anthropogenic changes can influence mutualism evolution; however, the genomic regions underpinning m...
Root nodule forming rhizobia exhibit a bipartite lifestyle, replicating in soil and also within plan...
Understanding the drivers of variation in symbiont quality is a fundamental objective in the study o...
1.Mutualistic interactions, such as the relationship between legumes and rhizobia, can affect commun...
Plants can gain substantial growth benefits from microbial symbionts, but these benefits are threate...
Many models of mutualisms show that mutualisms are unstable if hosts lack mechanisms enabling prefer...
In mutualisms, variation at genes determining partner fitness provides the raw material upon which c...
Legumes can preferentially select beneficial rhizobial symbionts and sanction ineffective strains th...
Mutualists may play an important role in invasion success. The ability to take advantage of novel mu...
Human activities have altered the global nitrogen (N) cycle, and as a result, elevated N inputs are ...