Hydrogels　with　conductive　properties　hold　significant　promise　in　the　realm　of　flexible　electronics,　owing　to　their　pliability,　outstanding　conductivity,　and　diverse　functionalities.　Nevertheless,　the　majority　of　conductive　hydrogels　are　prone　to　being　brittle　and　easily　damaged;　as　such,　they　are　not　adapt　to　cold　environments,　which　seriously　hinders　their　practical　applications.　Therefore,　hydrogels　that　possess　both　conductivity　and　anti-freezing,　as　well　as　moisturizing,　capabilities　have　garnered　considerable　interest,　and　these　hydrogels　can　work　stably　in　harsh　environments.　Phytic　acid　(PA),　which　mainly　exists　in　plant　seeds,　is　a　kind　of　natural　compound　widely　existing　in　nature　that　can　be　recycled;　it　provides　electrical　conductivity　and　anti-freezing　to　hydrogels.　Here,　a　highly　conductive　hydrogel　with　excellent　anti-freezing　and　moisturizing　capabilities　was　prepared　by　incorporating　PA　into　a　polyacrylamide/gelatin　hydrogel.　The　incorporation　of　PA　endowed　the　hydrogel　with　an　excellent　conductivity　of　5.8　Scm-1.　In　addition,　robust　hydrogen　bonding　was　formed　between　water　and　phytic　acid　molecules,　and　the　hydrogel　demonstrated　remarkable　anti-freezing　and　water　retention.　On　this　basis,　hydrogels　can　be　used　for　human　winter　sports　sensing　and　low-temperature　environmental　alarm　devices　to　provide　faster　rescue.　This　study　provides　a　novel　method　for　the　development　of　hydrogels　with　low-temperature　stability,　and　provides　a　revelation　for　the　application　of　anti-freezing　hydrogels　in　icy　and　snowy　environments.