β-Carotene is widely used in food systems because of its biological activity; however, β-carotene has poor chemical stability and low bioavailability. Thus, researchers use encapsulated delivery systems to overcome these disadvantages. In this study, we prepared emulsion gels to encapsulate β-carotene, using Longzhua mushroom polysaccharide (LMP), which can autonomously form weak gels. The LMP emulsion gel (LEG) exhibited a high water-holding capacity of up to 95.06 %. All samples showed adequate storage stability for 28 days. Increasing the polysaccharide content in the emulsion gel enhanced the encapsulation efficiency of β-carotene (96.76 %–98.27 %), the release of free fatty acids (68.21 %–81.44 %), and the photostability (80.65 %–91.27 %), thermal stability (73.84 %–97.08 %), and bioaccessibility (18.28 %–30.26 %) of β-carotene. In conclusion, LEG is a promising fat-soluble material that can be used for food-grade encapsulated delivery systems.