0000000000200075

AUTHOR

Ilkka Hanski

showing 3 related works from this author

Spatiotemporal Structure of Host‐Pathogen Interactions in a Metapopulation

2009

International audience; The ecological and evolutionary dynamics of species are influenced by spatiotemporal variation in population size. Unfortunately, we are usually limited in our ability to investigate the numerical dynamics of natural populations across large spatial scales and over long periods of time. Here we combine mechanistic and statistical approaches to reconstruct continuous-time infection dynamics of an obligate fungal pathogen on the basis of discrete-time occurrence data. The pathogen, Podosphaera plantaginis, infects its host plant, Plantago lanceolata, in a metapopulation setting where the presence of the pathogen has been recorded annually for 6 years in similar to 4,00…

0106 biological sciencesPODOSPHAERA PLANTAGINISMetapopulationRELATION PLANTE-PATHOGENEBiologyENCOUNTER RATE010603 evolutionary biology01 natural sciences03 medical and health sciencesAscomycotaHOST-PARASITE INTERACTIONAnimals[INFO]Computer Science [cs]MECHANISTIC-STATISTICAL MODEL[MATH]Mathematics [math]Evolutionary dynamicsPlantagoFinlandEcology Evolution Behavior and SystematicsOverwinteringCoevolutionPlant Diseases030304 developmental biologyLocal adaptation0303 health sciencesObligateHost (biology)EcologyCOEVOLUTIONPopulation sizeBiological EvolutionSURVIVAL PROBABILITYTEMPORAL STABILITYPLANTAGO LANCELOLATAHost-Pathogen InteractionsSeasonsAlgorithmsThe American Naturalist
researchProduct

Niche relations among dung-inhabiting beetles.

1976

The whole dung-inhabiting (adult) beetle community living in southern Finland was studied with reference to the seasonal (6 summer months), macrohabitat (open field, half-open pine forest and closed spruce forest) and successional (30 days) gradients. The material comprised 50 coprophagous and 129 carnivorous species, represented by 26,650 and 35,850 individuals, respectively. The most important characteristics of each species are given in an Appendix.In the coprophages the species-abundance relations fitted the lognormal distribution well, but in the carnivores the distribution was strikingly less even. A great number of other differences (see below) apparent between the two trophic groups…

0106 biological sciencesEcology010604 marine biology & hydrobiologyNicheDetritivoreEcological succession15. Life on landBiologyGeneralist and specialist species010603 evolutionary biology01 natural sciencesAbundance (ecology)GuildDominance (ecology)Ecology Evolution Behavior and SystematicsTrophic levelOecologia
researchProduct

Climate change and cyclic predator-prey population dynamics in the high Arctic.

2009

The high Arctic has the world's simplest terrestrial vertebrate predator–prey community, with the collared lemming being the single main prey of four predators, the snowy owl, the Arctic fox, the long-tailed skua, and the stoat. Using a 20-year-long time series of population densities for the five species and a dynamic model that has been previously parameterized for northeast Greenland, we analyzed the population and community level consequences of the ongoing and predicted climate change. Species' responses to climate change are complex, because in addition to the direct effects of climate change, which vary depending on species' life histories, species are also affected indirectly due to…

GreenlandMustela erminea[SDV.EE.IEO] Life Sciences [q-bio]/Ecology environment/SymbiosisAlopex lagopuspredator–prey interaction[SDE.BE] Environmental Sciences/Biodiversity and Ecology[SDE.MCG] Environmental Sciences/Global Changesclimate changeDicrostonyx groenlandicusArctic communityStercorarius longicauduscyclic dynamics[SDV.EE.ECO] Life Sciences [q-bio]/Ecology environment/EcosystemsNyctea scandiaca
researchProduct