印度北孟加拉茶叶的抗氧化特性:与其主要成分和土壤性质的关系

Q4 Agricultural and Biological Sciences

Journal of Plantation Crops Pub Date : 2022-09-30 DOI:10.25081/jpc.2022.v50.i2.7979

T. Misra, A. Saha, A. Nanda, Subhrajyoti Bagchi, P. Mandal

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引用次数: 0

摘要

这项研究于2012年至2017年在印度北孟加拉邦的18个茶园进行。采用主成分分析法（PCA）研究了茶树的土壤理化性质、植物成分、抗氧化特性和树龄之间的关系。还对每个区域进行了主成分分析和树状图。根据特征值选择了28个主成分，解释了Dooars、Terai和大吉岭茶叶的总数据方差。在几乎所有情况下，复合土壤的物理化学属性都集中在第二个主要成分上，并呈集群状，如树状图所示。在Terai的情况下，不同的属性彼此显著相关，即（“r”值在P<0.01水平）粘土分数（0.778）、电导率（0.618）、N（0.777）、S（0.748）、P（0.514ppm）、风味指数（0.918）、总多酚（0.687）DPPH（0.794）、一氧化氮（0.913）、抗脂质过氧化（0.717）和金属螯合（0.665）在Dooars地区，属性与淤泥（0.718）、pH（0.875）、P（0.615）、氯化物（0.858）、TP（0.776）、黄酮醇（0.923）、醌（0.666）、单宁（0.865）、DPPH（0.536）、超氧化物（0.576）、ABTS（0.520）和MC（0.777）显著相关，在大吉岭山区，属性与粘土（0.812）、沙子（0.818）、淤泥组分（0.974）、K（0.932）、S（0.999）高度相关，土壤MC（0.671）、TP（0.853）、单宁（0.912）、DPPH（0.624）、ABTS（0.661）和MC（0.633）。

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Antioxidant attributes of tea in North Bengal, India: Relation with its principal constituents and properties of soil

This study was performed in 18 tea gardens in North Bengal, India, from 2012 to 2017. The data were pooled to investigate the relationship with soil physico-chemical properties, phyto-constituents, antioxidant attributes and age of the tea bushes and principal component analysis (PCA). PCA and dendro-hit maps were also performed with each region. The 28 principal components were chosen based on their eigen values, explaining the total data variance for tea in Dooars, Terai and Darjeeling hill. In almost all cases, composite soil physico-chemical attributes were heavily loaded on the second principal component and clustered, as visual evidenced by the dendro-hit map. Different attributes were significantly correlated each other in case of Terai i.e. (value of “r’’ at P<0.01 level) clay fraction (0.778), electrical conductivity (0.618), N (0.777), S (0.748), P (0.514 ppm), flavour index (0.918), total polyphenol (0.687) DPPH (0.794), nitric oxide (0.913), anti-lipid peroxidation (0.717) and metal chelating (0.665). In Dooars region, attributes were significantly correlated with silt (0.718), pH (0.875), P (0.615 ), chloride (0.858), TP (0.776), flavonol (0.923), quinone (0.666), tannins (0.865), DPPH (0.536), superoxide (0.576), ABTS (0.520) and MC (0.777) and in the case of Darjeeling hills, attributes were highly correlated with clay (0.812), sand (0.818), silt fraction (0.974), K (0.932), S (0.999), MC of soil (0.671), TP (0.853), tannins (0.912), DPPH (0.624), ABTS (0.661) and MC (0.633) repectively.

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来源期刊

Journal of Plantation Crops Agricultural and Biological Sciences-Agronomy and Crop Science

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0.60

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