A collaborative study involving scientists from 12 UK research institutions, universities and conservation organizations suggests that the trend towards earlier UK springs and summers has been accelerating. The study, published recently in Global Change Biology, is the most comprehensive and rigorous assessment so far of long-term changes in the seasonal timing (phenology) of biological events across marine, freshwater and terrestrial environments in the UK, the authors say.Researchers gathered more than 25,000 long-term phenology trends for 726 species of plants and animals. More than 80% of trends between 1976 and 2005 indicated earlier seasonal events. The study considered a diverse array of organisms including plankton, plants, insects, amphibians, fish, birds and mammals. On average, the seasonal timing of reproduction and population growth has become earlier by more than 11 days over the whole period, but change has accelerated in recent decades.Large differences were detected between species in the rate at which seasonal events have shifted, according to the study. Changes have been most rapid for many organisms at the bottom of food chains, such as plants and the animals that feed upon them. Predators have shown slower overall changes in the seasonal timing of their life cycle events.However, the seasonal timing of reproduction is often matched to the time of year when food supply increases, so that offspring receive enough food to survive. A key question is whether animals higher up the food chain will react to the faster rates of change in the plants and animals they feed upon, or whether they will fail to do so and become less successful at rearing their offspring."This is the first time that data have been analyzed with enough consistency to allow a meaningful comparison of patterns of changing seasonal timing in the UK among such a diverse range of plants and animals," said Dr Stephen Thackeray."Phenology is 'the canary in the cage'. The results of this new study make real our changing climate and its potential to have profound consequences for the complex web of life," added co-author Richard Smithers of the Woodland Trust.: hackeray et al., 'Trophic level asynchrony in rates of phenological change for marine, freshwater and terrestrial environments', Global Change Biology, 2010; doi: 10.1111/j.1365-2486.2010.02165.x