Add to ORKGEukaryotic hosts must exhibit control mechanisms to select against ineffective bacterial symbionts. Hosts can minimize infection by less-effective symbionts (partner choice) and can divest of uncooperative bacteria after infection (sanctions). Yet, such host-control traits are predicted to be context dependent, especially if they are costly for hosts to express or maintain. Legumes form symbiosis with rhizobia that vary in symbiotic effectiveness (nitrogen fixation) and can enforce partner choice aswell as sanctions. In nature, legumes acquire fixed nitrogen from both rhizobia and soils, and nitrogen deposition is rapidly enriching soils globally. If soil nitrogen is abundant, we predict host control to be downregulated, potentially allowin...
In legume-Rhizobium symbioses, specialised soil bacteria fix atmospheric nitrogen in return for carb...
Efficient host control predicts the extirpation of ineffective symbionts, but they are nonetheless w...
Biological nitrogen fixation is vital to nutrient cycling in the biosphere and is the major route by...
Eukaryotic hosts must exhibit control mechanisms to select against ineffective bacterial symbionts. ...
Legume-rhizobium symbiosis has become a model system for studying beneficial symbiosis between eukar...
Symbioses are modelled as evolutionarily and ecologically variable with fitness outcomes for hosts s...
Rhizobial bacteria are known for their capacity to fix nitrogen for legume hosts. However ineffectiv...
Leguminous plants host nitrogen-fixing bacteria, known as rhizobia, in specialised root nodules, pro...
Plants can gain substantial growth benefits from microbial symbionts, but these benefits are threate...
Microbes can dramatically alter the fitness of host organisms, ranging in effect from mutualistic to...
Legume crops are unique in their capacity to obtain nitrogen by associating with beneficial nitrogen...
When a single host plant is infected by more than one strain of rhizobia, they face a tragedy of the...
Microbial mutualists provide substantial benefits to hosts that feed back to enhance the fitness of ...
Efficient host control predicts the extirpation of ineffective symbionts, but they are nonetheless w...
In legume-Rhizobium symbioses, specialised soil bacteria fix atmospheric nitrogen in return for carb...
Efficient host control predicts the extirpation of ineffective symbionts, but they are nonetheless w...
Biological nitrogen fixation is vital to nutrient cycling in the biosphere and is the major route by...
Eukaryotic hosts must exhibit control mechanisms to select against ineffective bacterial symbionts. ...
Legume-rhizobium symbiosis has become a model system for studying beneficial symbiosis between eukar...
Symbioses are modelled as evolutionarily and ecologically variable with fitness outcomes for hosts s...
Rhizobial bacteria are known for their capacity to fix nitrogen for legume hosts. However ineffectiv...
Leguminous plants host nitrogen-fixing bacteria, known as rhizobia, in specialised root nodules, pro...
Plants can gain substantial growth benefits from microbial symbionts, but these benefits are threate...
Microbes can dramatically alter the fitness of host organisms, ranging in effect from mutualistic to...
Legume crops are unique in their capacity to obtain nitrogen by associating with beneficial nitrogen...
When a single host plant is infected by more than one strain of rhizobia, they face a tragedy of the...
Microbial mutualists provide substantial benefits to hosts that feed back to enhance the fitness of ...
Efficient host control predicts the extirpation of ineffective symbionts, but they are nonetheless w...
In legume-Rhizobium symbioses, specialised soil bacteria fix atmospheric nitrogen in return for carb...
Efficient host control predicts the extirpation of ineffective symbionts, but they are nonetheless w...
Biological nitrogen fixation is vital to nutrient cycling in the biosphere and is the major route by...