The great acceleration of plant phenological shifts

To the Editor — The world’s longest time series of plant blooming and leaf-out in spring reveal unprecedented shifts since the middle of the 1980s in line with the acceleration of global warming. These long-term time series provide powerful evidence of the impact of global warming on life on Earth and can help raise awareness of the urgent need to mitigate greenhouse-gas emissions among citizens, decision makers and future generations.

With the rise of Homo sapiens, the Earth has experienced drastic landscape changes and biodiversity losses. For example, during the prehistoric and preindustrial periods, forest cover and biodiversity declined massively in the world’s most populated regions due to the rise of agriculture and the increasing need for firewood and building materials^1,2. These abrupt changes have been highlighted by the scientific community through paleoecological and archaeological records and modelling, without being directly visible or understandable to the general public because the sources do not constitute tangible continuous records. More recently, since the Industrial Revolution, human activities have led to massive changes in climatic, biotic and socio-economic indicators, a period now called the Anthropocene³. These changes accelerated considerably after the 1950s, a period often referred to as ‘the great acceleration’⁴, with particularly strong ecological and biogeochemical changes since the 1980s (ref. ⁵). Unlike the pre-Anthropocene changes, climatic changes and seasonal plant activity have been recorded continuously for several centuries in a few locations and can be used to demonstrate the impact of human activities on global warming and its consequences for living organisms. In fact, the phenological cycle of plants and animals is strongly temperature dependent, and spring phenological events (for example, flowering or egg hatching in birds) in boreal, temperate and subtropical regions have progressively advanced over recent warmer decades^6,7. However, phenological observations are very limited before 1950, and we thus lack important information on whether current trends during the great acceleration of the Anthropocene are unique over longer timescales. Here we present the five world’s longest phenological time series known to date to provide evidence for an abrupt change linked to the current acceleration of global warming.