Forest tree pollen dispersal via the water cycle

• Premise of the Study: Pine pollen ( Pinus spp.), along with other atmospheric particles, is dispersed by the water cycle, but this mode of dispersal requires cloud–pollen interactions that depend on taxon‐specific biological properties. In the simplest form of this dispersal, pine pollen ascends vertically to altitudes of 2 to 6 km, where a fraction is captured by mixed‐phase cloud formation. Captured pollen accretes into frozen droplets, which ultimately descend as rain, snow, or hail. Whether Pinus pollen can still germinate after its exposure to high‐altitude freezing is pertinent to (1) how forests adapt to climate change and (2) potential gene flow between genetically modified plantation species and their conspecific relatives. • Methods: To address this question, pollen from four Old World and two New World Pinus species were subjected to immersion freezing, a common cloud formation mode, under laboratory conditions. • Key Results: Some pollen grains immersed at −20°C for 15, 60, or 120 min in either a dehydrated or a water‐saturated state were still capable of germination. After exposure, dehydrated pine pollen had higher germination (43.3%) than water‐saturated pollen (7.6%). • Conclusions: Pine pollen exposed to freezing during cloud formation can still germinate, raising the question of whether rain‐delivered live pollen might be linked to rain‐facilitated pollination. Dispersal of live pine pollen via cloud formation and the water cycle itself deserves closer study.