| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2014PNAS..111.1237W |
| P356 | DOI | 10.1073/PNAS.1315980111 |
| P932 | PMC publication ID | 3910570 |
| P698 | PubMed publication ID | 24474743 |
| P5875 | ResearchGate publication ID | 259961214 |
| P50 | author | David C. Queller | Q5232048 |
| Joan E. Strassmann | Q6205020 | ||
| Erik Verbruggen | Q57070857 | ||
| Toby Kiers | Q78103998 | ||
| Gijsbert D A Werner | Q84734241 | ||
| Peter Hammerstein | Q96191828 | ||
| Nancy Collins Johnson | Q114736955 | ||
| Ronald Noë | Q42874345 | ||
| P2093 | author name string | Daniel J P Engelmoer | |
| Aniek B F Ivens | |||
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| Supply and demand determine the market value of food providers in wild vervet monkeys. | Q30488647 | ||
| Single-cell MALDI-MS as an analytical tool for studying intrapopulation metabolic heterogeneity of unicellular organisms | Q33657092 | ||
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| Spiteful Interactions in a natural population of the bacterium Xenorhabdus bovienii. | Q34094296 | ||
| The interplay of cognition and cooperation | Q34113598 | ||
| Variation and the response to variation as a basis for successful cooperation | Q34113609 | ||
| Mutualism meltdown in insects: bacteria constrain thermal adaptation | Q34180740 | ||
| Antagonistic interactions peak at intermediate genetic distance in clinical and laboratory strains of Pseudomonas aeruginosa. | Q34206819 | ||
| The rhizosphere microbiome and plant health. | Q34260528 | ||
| Metaproteomics of a gutless marine worm and its symbiotic microbial community reveal unusual pathways for carbon and energy use. | Q34269609 | ||
| Structured habitats and the evolution of anticompetitor toxins in bacteria | Q34276495 | ||
| Unicellular cyanobacterium symbiotic with a single-celled eukaryotic alga | Q34301002 | ||
| Ants farm subterranean aphids mostly in single clone groups--an example of prudent husbandry for carbohydrates and proteins? | Q34321993 | ||
| Natural selection for costly nutrient recycling in simulated microbial metacommunities. | Q34355434 | ||
| The evolution of mutualism in gut microbiota via host epithelial selection | Q34489494 | ||
| Leaf-cutting ant fungi produce cell wall degrading pectinase complexes reminiscent of phytopathogenic fungi. | Q34499596 | ||
| Phototrophic consortia: model systems for symbiotic interrelations between prokaryotes | Q34573133 | ||
| Supply and demand determine the market value of access to infants in the golden snub-nosed monkey (Rhinopithecus roxellana) | Q34776105 | ||
| Plant-animal mutualism in biological markets: evolutionary and ecological dynamics driven by non-heritable phenotypic variance | Q34780941 | ||
| Extent and limits of cooperation in animals | Q35092415 | ||
| Close Interspecies Interactions between Prokaryotes from Sulfureous Environments | Q35094588 | ||
| Defending against parasites: fungus-growing ants combine specialized behaviours and microbial symbionts to protect their fungus gardens | Q35101240 | ||
| Darwinian agriculture: when can humans find solutions beyond the reach of natural selection? | Q35161996 | ||
| Potential for direct interspecies electron transfer in methanogenic wastewater digester aggregates. | Q35169994 | ||
| Carbon availability triggers fungal nitrogen uptake and transport in arbuscular mycorrhizal symbiosis | Q35787136 | ||
| Evolutionary ecology of mycorrhizal functional diversity in agricultural systems | Q35961128 | ||
| Symbiotic bacteria on the cuticle of the leaf-cutting ant Acromyrmex subterraneus subterraneus protect workers from attack by entomopathogenic fungi | Q36009765 | ||
| Monkeys benefit from reciprocity without the cognitive burden | Q36280107 | ||
| Defined spatial structure stabilizes a synthetic multispecies bacterial community | Q36984976 | ||
| Self-structuring in spatial evolutionary ecology | Q37028295 | ||
| Individuality in bacteria | Q37225852 | ||
| Symbiotic diversity in marine animals: the art of harnessing chemosynthesis | Q37270477 | ||
| Resource stoichiometry elucidates the structure and function of arbuscular mycorrhizas across scales | Q37646919 | ||
| Dynamics in the mixed microbial concourse | Q37814778 | ||
| Kin discrimination and cooperation in microbes | Q37891078 | ||
| Root nodulation: a paradigm for how plant-microbe symbiosis influences host developmental pathways | Q37948274 | ||
| Ecological interactions drive evolutionary loss of traits | Q38022744 | ||
| Ant-aphid mutualisms: the impact of honeydew production and honeydew sugar composition on ant preferences | Q38900664 | ||
| Snowdrift game dynamics and facultative cheating in yeast | Q41200215 | ||
| Microbial individuality in the natural environment | Q41960256 | ||
| Spiteful interactions between sympatric natural isolates of Xenorhabdus bovienii benefit kin and reduce virulence. | Q42014666 | ||
| The origins of cooperative bacterial communities | Q42142483 | ||
| Bacterial persistence and bet hedging in Sinorhizobium meliloti | Q42713334 | ||
| Novel cooperation experimentally evolved between species | Q43184570 | ||
| Microbiology. Animal behavior and the microbiome | Q43557660 | ||
| Mutualistic fungi control crop diversity in fungus-growing ants. | Q43781624 | ||
| Negotiation, sanctions, and context dependency in the legume-Rhizobium mutualism | Q43839276 | ||
| Partner choice in nitrogen-fixation mutualisms of legumes and rhizobia. | Q46164516 | ||
| Reciprocal rewards stabilize cooperation in the mycorrhizal symbiosis | Q48056454 | ||
| Auto-/heterotrophic endosymbiosis evolves in a mature stage of ecosystem development in a microcosm composed of an alga, a bacterium and a ciliate. | Q50605488 | ||
| Ecological specialization and trade affect the outcome of negotiations in mutualism. | Q51169535 | ||
| The population genetics of phenotypic deterioration in experimental populations of Bacillus subtilis. | Q51189258 | ||
| Grooming reciprocity in female tibetan macaques macaca thibetana. | Q51343463 | ||
| Boreal feather mosses secrete chemical signals to gain nitrogen. | Q51526259 | ||
| Spatial structure and interspecific cooperation: theory and an empirical test using the mycorrhizal mutualism. | Q51565616 | ||
| Tit for tat? A mycorrhizal fungus accumulates phosphorus under low plant carbon availability. | Q51610224 | ||
| Individual-Level Bet Hedging in the Bacterium Sinorhizobium meliloti | Q51618847 | ||
| The economics of mutualisms: optimal utilization of mycorrhizal mutualistic partners by plants. | Q51727964 | ||
| Expanding comparative-advantage biological market models: contingency of mutualism on partners' resource requirements and acquisition trade-offs. | Q52014375 | ||
| Selection for protection in an ant-plant mutualism: host sanctions, host modularity, and the principal-agent game. | Q52665674 | ||
| Molecular mechanisms of bacteriocin evolution. | Q54106537 | ||
| Bacterial farming by the fungus Morchella crassipes. | Q54671742 | ||
| An empirical test of partner choice mechanisms in a wild legume-rhizobium interaction. | Q55210309 | ||
| Bacteriocins, spite and virulence. | Q55262783 | ||
| Partner choice in Medicago truncatula-Sinorhizobium symbiosis. | Q55395469 | ||
| Payment for sex in a macaque mating market | Q55891650 | ||
| Can altruism evolve in purely viscous populations? | Q56016624 | ||
| Our Current Understanding of Mutualism | Q56091353 | ||
| Biological markets: supply and demand determine the effect of partner choice in cooperation, mutualism and mating | Q56091358 | ||
| Ecology and Evolution of Aphid-Ant Interactions | Q56142675 | ||
| P433 | issue | 4 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 1237-1244 | |
| P577 | publication date | 2014-01-13 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | Evolution of microbial markets | |
| P478 | volume | 111 |
| Q55405260 | 1-Aminocyclopropane-1-carboxylate deaminase producers associated to maize and other Poaceae species. |
| Q46882480 | A biological market analysis of the plant-mycorrhizal symbiosis. |
| Q33595748 | A passive mutualistic interaction promotes the evolution of spatial structure within microbial populations |
| Q35723074 | An Economic Framework of Microbial Trade |
| Q57106128 | An empirical investigation of the possibility of adaptability of arbuscular mycorrhizal fungi to new hosts |
| Q40109338 | Antagonism or synergism between papaya ringspot virus and papaya mosaic virus in Carica papaya is determined by their order of infection. |
| Q40662630 | Ants are less attracted to the extrafloral nectar of plants with symbiotic, nitrogen-fixing rhizobia |
| Q58841407 | Bacterial diversity amplifies nutrient-based plant-soil feedbacks |
| Q42281811 | Bi-logistic model for disease dynamics caused by Mycobacterium tuberculosis in Russia |
| Q46855784 | Biocontrol potential of endophytes harbored in Radula marginata (liverwort) from the New Zealand ecosystem |
| Q26771214 | Biological trade and markets |
| Q44718300 | Black Queen markets: commensalism, dependency, and the evolution of cooperative specialization in human society |
| Q55397600 | Carbon allocation and competition maintain variation in plant root mutualisms. |
| Q48772010 | Comparative genomics of free-living Gammaproteobacteria: pathogenesis-related genes or interaction-related genes? |
| Q64904134 | Disentangling strictly self-serving mutations from win-win mutations in a mutualistic microbial community. |
| Q36089025 | Emergence of plant and rhizospheric microbiota as stable interactomes |
| Q92601422 | Engineered Interspecies Amino Acid Cross-Feeding Increases Population Evenness in a Synthetic Bacterial Consortium |
| Q35238586 | Enrichment experiment changes microbial interactions in an ultra-oligotrophic environment |
| Q92967701 | Even obligate symbioses show signs of ecological contingency: Impacts of symbiosis for an invasive stinkbug are mediated by host plant context |
| Q46250203 | Evolution on the bright side of life: microorganisms and the evolution of mutualism |
| Q35989753 | Evolutionary signals of symbiotic persistence in the legume-rhizobia mutualism. |
| Q34419861 | Forests trapped in nitrogen limitation--an ecological market perspective on ectomycorrhizal symbiosis |
| Q47409748 | Functional Interdependence Theory: An Evolutionary Account of Social Situations. |
| Q46323743 | Fungal Decision to Exploit or Explore Depends on Growth Rate |
| Q46899265 | Fungal nutrient allocation in common mycorrhizal networks is regulated by the carbon source strength of individual host plants |
| Q57567711 | Human Evolution beyond Biology and Culture |
| Q64235438 | Less Is More: Genome Reduction and the Emergence of Cooperation-Implications into the Coevolution of Microbial Communities |
| Q47673956 | Light spectrum modifies the utilization pattern of energy sources in Pseudomonas sp. DR 5-09. |
| Q26744853 | Lights Off for Arbuscular Mycorrhiza: On Its Symbiotic Functioning under Light Deprivation |
| Q37617920 | Market forces influence helping behaviour in cooperatively breeding paper wasps. |
| Q90571703 | Metabolically cohesive microbial consortia and ecosystem functioning |
| Q51286322 | Misconceptions on the application of biological market theory to the mycorrhizal symbiosis. |
| Q58403601 | Model-based analysis of environmental controls over ecosystem primary production in an alpine tundra dry meadow |
| Q64911812 | Mycorrhizal Fungi Respond to Resource Inequality by Moving Phosphorus from Rich to Poor Patches across Networks. |
| Q91275087 | Mycorrhizal Markets, Firms, and Co-ops |
| Q46612021 | Mycorrhizas across scales: a journey between genomics, global patterns of biodiversity and biogeochemistry |
| Q45186263 | Paradoxes in leaky microbial trade |
| Q27691433 | Partner selection in the mycorrhizal mutualism. |
| Q38662341 | Perspectives and Challenges in Microbial Communities Metabolic Modeling |
| Q38809833 | Principles for designing synthetic microbial communities |
| Q35236703 | Public health evolutionary biology of antimicrobial resistance: priorities for intervention |
| Q36944266 | Regulation of plants' phosphate uptake in common mycorrhizal networks: Role of intraradical fungal phosphate transporters |
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| Q89328861 | Reply to 'Misconceptions on the application of biological market theory to the mycorrhizal symbiosis' |
| Q26766227 | Sharing the sandbox: Evolutionary mechanisms that maintain bacterial cooperation |
| Q100316289 | Temporal tracking of quantum-dot apatite across in vitro mycorrhizal networks shows how host demand can influence fungal nutrient transfer strategies |
| Q89965877 | The Non-Legume Parasponia andersonii Mediates the Fitness of Nitrogen-Fixing Rhizobial Symbionts Under High Nitrogen Conditions |
| Q46877757 | The danger of mycorrhizal traps? |
| Q33359163 | The effect of ostracism and optional participation on the evolution of cooperation in the voluntary public goods game |
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| Q46255008 | Trade, Diplomacy, and Warfare: The Quest for Elite Rhizobia Inoculant Strains. |
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