This study proposes an anomaly detection model that integrates EC–pH variation rates with key environmental factors (temperature, humidity, CO₂, PPFD, and soil moisture) to address nutrient accumulation and pH imbalance in lettuce cultivation. Real-world data from a vertical farming system were preprocessed, normalized, and used to compare three models: Isolation Forest (IF), LSTM-Autoencoder (LSTM-AE), and the proposed Temporal Graph Attention Autoencoder (TGAAE). TGAAE achieved the best performance, with a Precision of 0.92, Recall of 0.89, F1-score of 0.91, and ROC-AUC of 0.93. By jointly learning temporal changes and inter-variable relationships, TGAAE accurately detected complex anomalies and identified early signs of EC surges and pH drops. Attention-based visualization enabled interpretable insights into variable contributions. The proposed model enhances the reliability of smart farm monitoring, improving lettuce cultivation stability and productivity while providing a scalable foundation for intelligent, data-driven agricultural management.