Author : Tveraa, T.; Fauchald, P.; Yoccoz, N. G.; Ims, R. A.; Aanes, R.; Hogda, K. A. Title : What regulate and limit reindeer populations in Norway? Keywords : WILD REINDEER; RED DEER; DENSITY-DEPENDENCE; LIFE-HISTORY; SOAY SHEEP; DYNAMICS; CLIMATE; MOOSE; RESPONSES; UNGULATE Abstract : An understanding of how species are affected by top-down and bottom-up processes in food webs, and how these forces interact with climatic conditions is crucial for how ecosystems should be managed. In Norway large carnivores are effectively removed from extensive areas to protect livestock, leaving human harvesting as the only significant top-down force on ungulate populations. We examined the relative role of top-down and bottom-up processes for 58 semi-domesticated reindeer populations in Norway subjected to contrasting climatic regimes over the period 1981-2005. Intensive herding and international agreement have resulted in a situation where some populations are unable to undertake seasonal migration to the interior to escape the unfavourable climatic conditions that rule the coastal region in the winter, a critical season for northern ungulates. We used this natural manipulation to contrast between populations with 'poor' and 'good' winter conditions. For populations with good winter conditions, average body size increased with harvesting, suggesting that some top-down process was necessary to avoid food limitation. Time-series analyses revealed that direct regulation of population size was only evident in populations subjected to intensive harvesting. The lack of direct regulation in populations subjected to low harvesting resulted in high vulnerability to harsh winter weather. The body size and climate vulnerability of populations with poor winter conditions was unaffected of harvesting, but average densities was positively related to overall vegetation productivity as indexed by satellite images (NDVI). Top-down processes appeared to be necessary to dampen the effect of harsh winters in populations with generally good winter conditions. Conversely, populations subjected to generally poor winter conditions appeared to be more influenced by bottom-up processes and buffered climatic perturbations by increasing body size. URL : <Go to ISI>://000245313500017