@Article{Kong_npjClimAtmosSci_20260210, author = {Xiangxu Kong and Jiafu Mao and Haishan Chen and Zhenzhong Zeng and Yuefeng Hao and Yaoping Wang and Yao Zhang and Anping Chen and Mingzhou Jin and Xiaoying Shi and Forrest M. Hoffman}, title = {Flash Flourishing of {N}orthern {H}emisphere Vegetation and Its Drivers}, journal = npjClimAtmosSci, volume = 9, number = 1, pages = 72, doi = {10.1038/s41612-026-01346-3}, day = 10, month = feb, year = 2026, abstract = {Rapid surges in vegetation growth—defined by thresholds in growth rate and duration—are critical yet understudied indicators of ecosystem responses to environmental change. Here, we investigate spatiotemporal patterns of such abrupt, short-lived flash flourishing events across the northern extratropical latitudes (NEL) from 2003 to 2022. We find more frequent occurrence of flash flourishing events at high latitudes ($\ge$45$^\circ$~N), where their incidence is 1.6 times higher than at mid-latitudes. Moreover, there is an increasing tendency in frequency, duration, and intensity of flash flourishing events over the past two decades, alongside consistent rises in vegetation indices across onset, post-onset, and entire phases. Model simulations attribute these multiyear increases primarily to elevated atmospheric CO$_2$, while temperature and radiation predominantly control phase-specific variability, with onset traits strongly predicting subsequent phenological responses. Together, these findings identify the patterns and drivers of NEL flash flourishing and highlight their large-scale impacts on ecosystem dynamics, offering critical insights for model improvement and the assessment of ecological shifts.} }