Actual climate changes drive modifications of the thermal and water landscapes where live organisms. Thermoregulation in ectotherm species mostly rely on behavioral adjustments. These adjustments buffer the negative effects of these environmental changes on the physiology and the performances of the individuals. However, too few studies focused on the costs of changes in the water environment on thermoregulation behaviors. The main objective of this thesis is to highlight behavioral patterns involved in the joint regulation of body temperature and water balance, hereafter called thermo-hydroregulation behaviors, which would be critical to understand the responses of organisms to global changes. I focused on studying space use behaviors (activity patterns, micro-habitat selection) of a temperate squamate species, the common lizard (Zootoca vivipara) through experimental set-ups in laboratory or outdoor conditions, as well as a comparative study of natural populations in the Massif Central, France. My results highlighted that behavioral regulation of the water balance can trade-off or act in synergy with thermoregulation behaviors according to environmental conditions. The observed behavioral adjustments could consist in a water conservation strategy. A decrease in water availability in the environment as well as a dehydration induced changes in thermoregulation strategies (body temperature, thermoregulation accuracy). These studies highlighted the importance of a joint consideration of the thermal and water constraints when studying the ectotherms responses to global change, and questioned our current understanding of individual and populational responses to these changes.