Evolutionary ecology contains the investigation of the associations in between life forms and their surroundings that impact their execution, regenerative achievement, and long-term persistence, where the larger objective is to distinguish the evolutionary mechanisms that add to genetically based morphological, behavioral, and physiological adjustments and diversity within and across taxa.
Environmental ecology studies plan to identify the procedures that elevate or oblige adoption to changing or to challenging ecological conditions, including natural selection, gene flow, hereditary relationships, stochastic natural conditions, and genotype and environment interactions. By observing and measuring these procedures and mechanisms in normal habitats or in controlled environments, evolutionary ecologists plan to clarify the ecological forces adding to an extensive variety of transformative and geographic variety in qualities that have solid impacts on a singular's wellness or on a populace's or taxon's long term persistence, including its life history, mating framework, methods of sexual fascination and conduct, sociality, physiological procedures, metabolic rates, illness resistance, body size and shape, and dispersal mechanisms
Recent applications of evolutionary ecology include intriguing studies designed to detect or to predict the evolutionary responses of plants and animals to climate change, to emerging infectious diseases, to new predators, to changes in community structure, and to the spread of invasive species.
Journals related to Evolutionary ecology, Evolutionary Ecology, Evolutionary Ecology research, Ecology and Evolution, Frontiers in Ecology and Evolution, Trends in Ecology & Evolution, Trends in Ecology & Evolution, Evolutionary Biology, Methods in Ecology and Evolution, ESA Journal, The Annual Review of Ecology, Evolution, and Systematics.