气候变化领域集成服务门户

Aim To quantify the effect of Pleistocene climate fluctuations on habitat connectivity across paramos in the Northern Andes. Location Northern Andes. Methods The unique paramos habitat underwent dynamic shifts in elevation in response to changing climate conditions during the Pleistocene. The lower boundary of the paramos is defined by the upper forest line, which is known to be highly responsive to temperature. Here, we reconstruct the extent and connectivity of paramos over the last 1 million years (Myr) by reconstructing the upper forest line from the long fossil pollen record of Funza09, Colombia, and applying it to spatial mapping on modern topographies across the Northern Andes for 752 time slices. Data provide an estimate of how often and for how long different elevations were occupied by paramos and estimate their connectivity to provide insights into the role of topography in biogeographical patterns of paramos. Results Our findings show that connectivity amongst paramos of the Northern Andes was highly dynamic, both within and across mountain ranges. Connectivity amongst paramos peaked during extreme glacial periods but intermediate cool stadials and mild interstadials dominated the climate system. These variable degrees of connectivity through time result in what we term the 'flickering connectivity system'. We provide a visualization (video) to showcase this phenomenon. Patterns of connectivity in the Northern Andes contradict patterns observed in other mountain ranges of differing topographies. Main conclusions Pleistocene climate change was the driver of significant elevational and spatial shifts in paramos causing dynamic changes in habitat connectivity across and within all mountain ranges. Some generalities emerge, including the fact that connectivity was greatest during the most ephemeral of times. However, the timing, duration and degree of connectivity varied substantially among mountain ranges depending on their topographical configuration. The flickering connectivity system of the paramos uncovers the dynamic settings in which evolutionary radiations shaped the most diverse alpine biome on Earth.