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首页> 外文期刊>Journal of Agricultural and Food Chemistry >Effects of Fertilizing with N, P, Se, and Zn on Regulating the Element and Functional Component Contents and Antioxidant Activity of Tea Leaves Planted in Red Soil
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Effects of Fertilizing with N, P, Se, and Zn on Regulating the Element and Functional Component Contents and Antioxidant Activity of Tea Leaves Planted in Red Soil

机译:施氮,磷,硒和锌对红壤茶树叶片元素,功能成分含量和抗氧化活性的调控作用

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摘要

New fertilizing strategies (with exogenetic N, P, Se, and Zn) were explored to regulate the element (Se, Zn, Mn, and Al) and functional component (polyphenol, catecbins, free amino acid, polysaccharide, and caffeine) contents of new (a bud and two leaves, grown for about 10 days) and old tea leaves (grown for >3 month$) cultivated in a hilly red soil region. Using four different fertilizing strategies (A, Se + Zn; B, Se + Zn + N; C, Se + Zn + P; D, Se + Zn + N + P), the Al and Mn contents of tea leaves in both new and old leaves were significantly decreased. Meanwhile, the contents of Se and Zn were increased, and the contents of some functional components as well as the antioxidant activities in tea leaves were improved. In particular, fertilizing strategy C showed the highest Se (0,444 μg/kg), total polyphenol (28.294%), and catecbins (131.852 mg/g) contents and antioxidant activities (DPPH, 95.06%; FRAP, 3.81 mmol FeSO4/g; reducing power, 1.26) as well as the lowest Al (222.005 mg/ kg) content among these four strategies, whereas fertilizing strategy B showed the highest Zn (34.235 mg/kg), total free amino acid (5.60%), tea polysaccharide (5,79%), and caffeine (56,684 mg/g) contents as well as the lowest Mn content (747.658 mg/ kg). It has been proven that exogenetic elements (N, P, Se, and Zn) as fertilizers could be an effective way to produce tea leaves with higher Se, Zn, and functional component contents and antioxidant activity as well as lower Al and Mn contents in a red soil region.
机译:探索了新的施肥策略(外源N,P,Se和Zn)来调节元素(Se,Zn,Mn和Al)和功能成分(多酚,catecbins,游离氨基酸,多糖和咖啡因)的含量。在丘陵的红壤地区种植的新茶叶(芽和两片叶子,生长约10天)和旧茶叶(生长超过3个月)。利用四种不同的施肥策略(A,Se + Zn; B,Se + Zn + N; C,Se + Zn + P; D,Se + Zn + N + P),两种新茶叶中的铝和锰含量和老叶子明显减少。同时,增加了硒和锌的含量,提高了茶叶中某些功能成分的含量和抗氧化活性。特别是施肥策略C表现出最高的Se(0,444μg/ kg),总多酚(28.294%)和catecbins(131.852 mg / g)含量和抗氧化活性(DPPH,95.06%; FRAP,3.81 mmol FeSO4 / g;在这四种策略中,还原力为1.26),铝含量最低(222.005 mg / kg),而施肥策略B的锌含量最高(34.235 mg / kg),总游离氨基酸(5.60%),茶多糖( 5,79%)和咖啡因(56,684 mg / g)含量以及最低的Mn含量(747.658 mg / kg)。业已证明,外源元素(氮,磷,硒和锌)作为肥料可以有效地生产茶叶中硒,锌,功能成分含量和抗氧化活性以及较低的铝和锰含量的茶叶。红壤地区。

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