European vipers (Vipera) show parapatric distributions as result of distinct evolutionary trajectories and
specific ecological requirements. Competitive interactions among species at range margins play an important
role in the sustainment of distributional patterns. Taking into account the competition between species in a
heterogeneous climate along their distribution areas, three biogeographical cases are predicted to happen: 1)
autoecological segregation, when a low favorable climate is stronger than biological interactions; 2) sympatric
coexistence, when an optimal climate for both species provides high abundance of resources, minimizing the
effect of competitive interactions; and 3) sinecological segregation, when in sub-optimal areas, one species,
better adapted to this conditions, could exclude the other by competition. Fuzzy logic distribution models
provide a useful framework to analyze and identify these interactions. Using a presence/absence matrix for five
western vipers (V. aspis, V. berus, V. lataste and V. seoanei) and a set of climate variables at ~10x10 km
resolution, we studied species favorability for current and future climate scenarios. Regions of overlap between
species pairs were analyzed to identify the three biogeographical cases in both periods of time. Results
emphasize the generalist character of V. aspis, with a predicted range largest than the currently observed, and the
strong competitive character of V. berus, V. latastei and V. seoanei at range margins, which might be limiting the
expansion of the former species. Despite a high uncertainty in our predictions, future favorable areas are
restricted to coastal and mountain regions, which is translated into important changes in species interactions.