The low-altitude intelligent network （LAIN） serves as a fundamental infrastructure for the development of the low-altitude economy， and spectrum management and control （SMC） is one of the key technologies to address the problems of illegal spectrum use and malicious attacks in LAIN， as well as to improve the utilization rate of spectrum resources. Embodied artificial intelligence （EAI）， as a key research direction in the new generation of artificial intelligence， offers new possibilities for the development of SMC for LAIN due to its characteristics of physical embodiment， environmental interaction， and intelligent growth. Firstly， this paper introduces the requirements of SMC for LAIN from the aspects of technical framework， research status， and main challenges. Secondly， by sorting out the connotation and advantages of EAI， the concept and significance of EAI-enabled SMC for LAIN are analyzed. Furthermore， based on the closed-loop structure of “perception-decision-action-feedback”， a technology of SMC for LAIN is proposed， which includes low-altitude embodied spectrum sensing， inferring and decision-making， and action and feedback. This provides a possible technical pathway for achieving efficient and secure SMC for LAIN.