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Understanding how abiotic factors influence organisms at present is the necessary first step to predict how species assemblages could be affected by climate change in the future. We examined how wind, a poorly studied abiotic factor, affects the distribution and abundance of two aphid species, Uroleucon aeneum and Brachycaudus cardui (hereafter black and green aphids, respectively), that live on the thistle Carduus thoermeri (Asteraceae) in a windy region of Patagonia, Argentina. First, considering the prevailing wind direction, we described the distribution of both aphid species around plant stems. Then, we performed a bi-factorial experiment in which we cut stems with aphids to manipulate their position respect to wind (exposed/unexposed) and to control wind incidence (protected/unprotected). Finally, using the species most affected by wind, we examined possible mechanisms through which wind could affect aphids. Both aphid species were less abundant on the side of the stem exposed to wind respect to the unexposed side; and this pattern was stronger for the black aphid. When black aphids were positioned exposed to wind and without protection, their proportion changed towards the unexposed side of the stem; while green aphids showed a weaker response to wind. Laboratory experiments demonstrated that wind triggered both the detachment of black aphids and their movement towards the unexposed side of the stem. Our results showed that wind can explain the asymmetric distribution of aphids around plants and that stems can act as windbreaks. In a less windy future scenario, aphids could expand their foraging area, reaching higher infestation rates, which could affect their role in structuring ant assemblages and their status as crop pests. This work highlights the importance of testing the effects of less studied abiotic factors to fully understand how climate change could impact on the abundance and distribution of animals in the future.