| human | Q5 |
| P6178 | Dimensions author ID | 0600356040.08 |
| P269 | IdRef ID | 149089228 |
| P496 | ORCID iD | 0000-0003-2624-7856 |
| P214 | VIAF ID | 172943763 |
| P185 | doctoral student | Florence Débarre | Q41047903 |
| François Blanquart | Q88203110 | ||
| P108 | employer | Délégation Languedoc Roussillon | Q30255680 |
| Institute of Human Genetics | Q30261412 | ||
| P734 | family name | Gandon | Q23838105 |
| Gandon | Q23838105 | ||
| Gandon | Q23838105 | ||
| P735 | given name | Sylvain | Q16281827 |
| Sylvain | Q16281827 | ||
| P6104 | maintained by WikiProject | WikiProject Invasion Biology | Q56241615 |
| P106 | occupation | researcher | Q1650915 |
| P21 | sex or gender | male | Q6581097 |
| Q42357412 | "French Phage Network"-Second Meeting Report |
| Q55170549 | "French Phage Network"-Third Meeting Report. |
| Q89929899 | A century of research on bacteriophages |
| Q38121163 | A practical guide to measuring local adaptation |
| Q37601728 | A virus-shaping reproductive strategy in a Drosophila parasitoid. |
| Q30401530 | Adaptation of avian influenza virus to a swine host |
| Q100499602 | Adaptive immunity selects against malaria infection blocking mutations |
| Q57277855 | An Inherited Virus Manipulating the Behavior of its Parasitoid Host |
| Q57932754 | Anti-CRISPR Phages Cooperate to Overcome CRISPR-Cas Immunity |
| Q89929882 | Antibacterial applications of bacteriophages |
| Q57277875 | Antitoxin vaccines and pathogen virulence |
| Q51906282 | Applying population-genetic models in theoretical evolutionary epidemiology. |
| Q64088220 | Avian malaria alters the dynamics of blood feeding in Culex pipiens mosquitoes |
| Q35926892 | Avian malaria: a new lease of life for an old experimental model to study the evolutionary ecology of Plasmodium |
| Q36905742 | Both infected and uninfected mosquitoes are attracted toward malaria infected birds |
| Q57277851 | COEVOLUTION BETWEEN MATERNAL TRANSFER OF IMMUNITY AND OTHER RESISTANCE STRATEGIES AGAINST PATHOGENS |
| Q81791556 | Coevolution between parasite virulence and host life-history traits |
| Q52676491 | Complete avian malaria parasite genomes reveal features associated with lineage-specific evolution in birds and mammals. |
| Q50987327 | Costs of CRISPR-Cas-mediated resistance in Streptococcus thermophilus. |
| Q34665835 | Dynamics of prevalence and diversity of avian malaria infections in wild Culex pipiens mosquitoes: the effects of Wolbachia, filarial nematodes and insecticide resistance |
| Q57277872 | EVOLUTION OF MULTIHOST PARASITES |
| Q57277843 | Ebola evolution during the 2013-2016 outbreak |
| Q59652733 | Evidence of cross-transfer of maternal antibodies through allosuckling in a mammal: Potential importance for behavioral ecology |
| Q37261506 | Evidences of parasite evolution after vaccination |
| Q89089636 | Evolution and Manipulation of Vector Host Choice |
| Q51624918 | Evolution and manipulation of parasitoid egg load. |
| Q28828205 | Evolution and manipulation of vector host choice |
| Q60586702 | Evolution in Heterogeneous Environments: Between Soft and Hard Selection |
| Q92162660 | Evolution of Specialization in Heterogeneous Environments: Equilibrium Between Selection, Mutation and Migration |
| Q57277862 | Evolution of Virulence: Intuitions and Models |
| Q34317576 | Evolution of multihost parasites |
| Q34166449 | Evolution of plastic transmission strategies in avian malaria |
| Q38273506 | Evolution of spatially structured host-parasite interactions. |
| Q48536845 | Evolution of suicide as a defence strategy against pathogens in a spatially structured environment |
| Q36818474 | Evolution of the temporal persistence of immune protection |
| Q34629148 | Evolution of virulence in emerging epidemics |
| Q56354199 | Evolutionary Ecology of Avian Malaria: Past to Present |
| Q89884864 | Evolutionary consequences of feedbacks between within-host competition and disease control |
| Q58699986 | Evolutionary emergence of infectious diseases in heterogeneous host populations |
| Q51670388 | Evolutionary epidemiology and the dynamics of adaptation. |
| Q28475118 | Evolutionary epidemiology of drug-resistance in space |
| Q92414648 | Exploitation of the Cooperative Behaviors of Anti-CRISPR Phages |
| Q92818878 | Farming plant cooperation in crops |
| Q30248269 | Forecasting Epidemiological and Evolutionary Dynamics of Infectious Diseases |
| Q125686723 | Gene regulation of the avian malaria parasite Plasmodium relictum, during the different stages within the mosquito vector |
| Q57277867 | HOST LIFE HISTORY AND THE EVOLUTION OF PARASITE VIRULENCE |
| Q55110020 | Imperfect vaccination: some epidemiological and evolutionary consequences. |
| Q42874232 | Inclusive fitness theory and eusociality |
| Q42083954 | Inhibition of superinfection and the evolution of viral latency |
| Q33654058 | Insecticide control of vector-borne diseases: when is insecticide resistance a problem? |
| Q35855057 | Insecticide resistance and malaria transmission: infection rate and oocyst burden in Culex pipiens mosquitoes infected with Plasmodium relictum |
| Q57277870 | Insights from Price’s equation into evolutionary epidemiology |
| Q54483141 | Interactions between genetic drift, gene flow, and selection mosaics drive parasite local adaptation. |
| Q54101289 | LOCAL MALADAPTATION IN THE ANTHER-SMUT FUNGUS MICROBOTRYUM VIOLACEUM TO ITS HOST PLANT SILENE LATIFOLIA: EVIDENCE FROM A CROSS-INOCULATION EXPERIMENT. |
| Q33901841 | Length of intervals between epidemics: evaluating the influence of maternal transfer of immunity |
| Q40863246 | Lethal mutagenesis and evolutionary epidemiology |
| Q33522025 | Life history, habitat saturation and the evolution of fecundity and survival altruism |
| Q56656585 | Local Maladaptation in the Anther-Smut Fungus Microbotryum violaceum to Its Host Plant Silene latifolia: Evidence from a Cross-Inoculation Experiment |
| Q57277878 | Local adaptation and host–parasite interactions |
| Q115431413 | Local adaptation and the geometry of host-parasite coevolution |
| Q44167092 | Malaria infection increases bird attractiveness to uninfected mosquitoes |
| Q57277874 | Microbial evolution (Communication arising): Antitoxin vaccines and pathogen virulence |
| Q36110195 | Mosquito age and avian malaria infection |
| Q57277865 | Moving beyond Common‐Garden and Transplant Designs: Insight into the Causes of Local Adaptation in Species Interactions |
| Q51689956 | Moving beyond common-garden and transplant designs: insight into the causes of local adaptation in species interactions. |
| Q57277849 | ON THE EVOLUTION OF MIGRATION IN HETEROGENEOUS ENVIRONMENTS |
| Q98200163 | On the evolutionary epidemiology of SARS-CoV-2 |
| Q43434148 | Parasitic manipulation: a theoretical framework may help |
| Q126914321 | Pathogen evolution during vaccination campaigns |
| Q57038872 | Pathogen evolution in finite populations: slow and steady spreads the best |
| Q37285606 | Patterns of phenoloxidase activity in insecticide resistant and susceptible mosquitoes differ between laboratory-selected and wild-caught individuals |
| Q100431720 | Phage gene expression and host responses lead to infection-dependent costs of CRISPR immunity |
| Q129350465 | Phage–host coevolution in natural populations |
| Q89984013 | Publisher Correction: Targeting of temperate phages drives loss of type I CRISPR-Cas systems |
| Q36388602 | Refugia and the evolutionary epidemiology of drug resistance |
| Q51805438 | Spatial evolutionary epidemiology of spreading epidemics. |
| Q35610811 | Spatial structure, transmission modes and the evolution of viral exploitation strategies. |
| Q44529664 | Superparasitism evolution: adaptation or manipulation? |
| Q58274638 | Système génétique, polymorphisme neutre et sélectionné: implications en biologie de la conservation |
| Q58493825 | THE EVOLUTION OF SPECIFICITY IN EVOLVING AND COEVOLVING ANTAGONISTIC INTERACTIONS BETWEEN A BACTERIA AND ITS PHAGE |
| Q92860977 | Targeting of temperate phages drives loss of type I CRISPR-Cas systems |
| Q57277880 | Temporal variability and local adaptation |
| Q58341588 | The Evolution of Pathogen Virulence in Response to Animal and Public Health Interventions |
| Q90135639 | The Price equation and evolutionary epidemiology |
| Q50021304 | The distribution of mutational fitness effects of phage φX174 on different hosts |
| Q34046660 | The diversity-generating benefits of a prokaryotic adaptive immune system |
| Q64056399 | The ecology and evolution of microbial CRISPR-Cas adaptive immune systems |
| Q53614683 | The effect of migration on local adaptation in a coevolving host-parasite system. |
| Q81791485 | The evolution of parasite virulence, superinfection, and host resistance |
| Q35757735 | The evolution of sex and recombination in response to abiotic or coevolutionary fluctuations in epistasis |
| Q45344370 | The evolutionary epidemiology of multilocus drug resistance |
| Q36671958 | The evolutionary epidemiology of vaccination |
| Q36904957 | The impact of insecticide resistance on Culex pipiens immunity |
| Q86888446 | The joint evolution of dispersal and dormancy in a metapopulation with local extinctions and kin competition |
| Q92025290 | The social coevolution hypothesis for the origin of enzymatic cooperation |
| Q44052146 | Time-shift experiments and patterns of adaptation across time and space |
| Q57143456 | Timing malaria transmission with mosquito fluctuations |
| Q64903618 | To block or not to block: The adaptive manipulation of plague transmission. |
| Q57277873 | Understanding and managing pathogen evolution: a way forward |
| Q57277871 | VACCINATION, WITHIN-HOST DYNAMICS, AND VIRULENCE EVOLUTION |
| Q57663754 | VACCINATION, WITHIN-HOST DYNAMICS, AND VIRULENCE EVOLUTION |
| Q92577957 | Variability in the durability of CRISPR-Cas immunity |
| Q40976659 | Virulence evolution at the front line of spreading epidemics |
| Q51190848 | When should a trophically and vertically transmitted parasite manipulate its intermediate host? The case of Toxoplasma gondii. |
| Q38762375 | Why Be Temperate: Lessons from Bacteriophage λ. |
| Q97092992 | Winter is coming: Pathogen emergence in seasonal environments |
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