Identifying meteorological factors influencing catechin biosynthesis and optimizing cultivation conditions of tea plant (Camellia sinensis)

Marat Tukhvatshin ¹ Qiliang Peng ^1* Xuan Zhao ^1* Jianghong Liu ^1* Ping Xiang ^2* Jinke Lin ^1*

• ¹ Fujian Agriculture and Forestry University, Fuzhou, China
• ² Hunan University of Arts and Science, Changde, Hunan, China

Catechins, the most important bioactive components in tea plants (Camellia sinensis), are influenced by growth environment. To identify and optimize the key meteorological factors affecting catechin accumulation, we investigated the relationship between meteorological factors and tea plant catechin biosynthesis across three growing seasons at ten locations. Rainfall, average temperature, and effective accumulated temperature (EAT) were identified as key drivers, regulating catechin accumulation via the responsive expression of key structural genes CsCHS1, CsANR, and CsSCPL. Optimal meteorological conditions for enhancing total esterified catechins (TEC) and total nonesterified catechins (TNEC) were determined using LINGO software, although the optimal conditions for these two groups were contrasting. Hot and rainy environments promote the biosynthesis of EGCG, ECG, and TEC through CsPAL and CsSCPL, while reduced rainfall and EAT promote the accumulation of C, EGC, and TNEC. This study reveals the differential effects of meteorological factors on catechin accumulation and obtain optimal meteorological conditions for promoting catechin accumulation. These results provide guidance for improving catechin accumulation and tea cultivation management. phenylpropanoid and flavonoid biosynthetic pathways (Lin et al., 2017;Gong et al., 2020;Xiang et al., 2021a;Xiang et al., 2021b). Key enzymes such as chalcone synthase (CsCHS1), flavanone 3hydroxylase (CsF3H), and leucoanthocyanidin reductase (CsLAR) have been identified as critical regulators of catechin production (Gong et al., 2020;Xiang et al., 2021a;Xiang et al., 2021b). However, while the genetic regulation of these enzymes is relatively well understood, the role of environmental factors in modulating their activity remains underexplored. Recent studies suggest that climatic conditions can significantly affect catechin profiles by altering gene expression and enzyme activity (