The Regulatory Effect of Nitrogen on the Formation and Accumulation of Secondary Metabolites in Different Genotypes of Camellia Sinensis (L.) Kuntze

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Abstract

Soil N deficiency is one of the main constraints limiting high tea yields worldwide, particularly in Russia. In addition, high dosages of N fertilizers are widely applied for tea plantations, resulting in agrogenic transformation of soils, environmental pollution, and a decrease in tea quality. One of the ways to reduce dosages of N fertilizers is the development of new cultivars with high efficiency of N use. In this regard, the effect of genotype on biosynthesis and accumulation of valuable secondary metabolites in tea leaves was studied under optimal N supply and its deficiency in a potted experiment. The study was conducted on the most promising local tea cultivars (Kolkhida and Karatum) grown on brown forest acidic soils in the humid subtropics of Russia. Using high-performance liquid chromatography, the contents of catechins, flavanols, alkaloids, and theanine were evaluated in tea leaves. Our results showed that N availability stimulated the biosynthesis of theanine more than one order of magnitude and alkaloids (caffeine by three to five times and theobromine by two to three times) in both tea genotypes; however, it decreased the accumulation of several catechins and flavanols by on average 1.5–2 times. Under optimal N supply, the Kolkhida cultivar displayed higher accumulation of theanine (by 30–60%) and gallated catechins (by 50%) in the leaves; however, higher accumulation of alkaloids (caffeine and theobromine) was observed in the Karatum cultivar (by 10–20%). N deficiency resulted in greater accumulation of simple and gallated catechins, as well as rutin in the Kolkhida cultivar, as compared to the Katarum cultivar. However, the content of the studied metabolites in the Katarum cultivar was more stable under different nitrogen levels, indicating its lower susceptibility to N deficiency.

氮对不同基因型山茶(L. Kuntze)次生代谢产物的形成和积累的调节作用
摘要 土壤缺氮是限制全世界茶叶高产的主要因素之一,在俄罗斯尤其如此。此外,茶园普遍施用高剂量的氮肥,导致土壤发生农化、环境污染和茶叶品质下降。减少氮肥用量的方法之一是培育氮利用率高的新栽培品种。为此,我们在一个盆栽实验中,研究了在最佳氮供应和氮缺乏条件下,基因型对茶叶中有价值的次生代谢物的生物合成和积累的影响。研究对象是生长在俄罗斯亚热带湿润地区棕色森林酸性土壤上的当地最有前途的茶叶栽培品种(Kolkhida 和 Karatum)。使用高效液相色谱法评估了茶叶中儿茶素、黄烷醇、生物碱和茶氨酸的含量。结果表明,氮的供应刺激了两种茶叶基因型中茶氨酸和生物碱(咖啡碱增加了三到五倍,可可碱增加了两到三倍)的生物合成,而儿茶素和黄烷醇的积累则平均减少了 1.5 到 2 倍。在最佳氮供应条件下,Kolkhida 栽培品种叶片中茶氨酸(增加 30-60%)和没食子儿茶素(增加 50%)的积累量较高;但 Karatum 栽培品种中生物碱(咖啡因和可可碱)的积累量较高(增加 10-20%)。与 Katarum 栽培品种相比,缺氮导致 Kolkhida 栽培品种中单生儿茶素和没食子儿茶素以及芦丁的积累更多。然而,在不同的氮水平下,卡塔鲁姆栽培品种中研究的代谢物含量更加稳定,这表明它对氮缺乏的敏感性较低。
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