Effect of Different Spacing and Fertilizer Levels on Physical and Chemical Yield of Different Parts of Pogostemon heyneanus Benth. (Lamiaceae)

World Journal of Agricultural Research Pub Date : 2019-03-05 DOI:10.12691/WJAR-7-2-2

R. Rathnayake, R. Dharmadasa, D. Abeysinghe

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引用次数: 1

Abstract

Pogostemon heyneanus Benth. (Lamiaceae) is an aromatic, perfumery important, industrial crop widely cultivated in many Asian countries for its distinguished fragrance and other therapeutic purposes.Therefore, the present study was undertaken to determine the effect of different spacing and fertilizer levels on physical and chemical yield (total antioxidant capacity (TAC), total phenol content (TPC) and total flavonoid content (TFC) in different parts (Leaf, Stem & Root) of Pogostemon heyneanus. Nine treatment combinations consisting of three levels of space (S1-90cm×45cm, S2-90cm×60cm and S3-90cm×90cm) and three levels of fertilizer (F1-Organic, F2-Inorganic and F-3 Control) was used for the field experiment in a completely randomized block design with three replicates. The plant height, canopy spread, number of leaves, number of branches, length of branches, number of roots and length of roots were recorded at two weeks intervals. The fresh weight and the dry weight of leaves, stems and toots of uprooted plants were recorded in each month. TPC, TFC and TAC of leaf, stem & root were determined by colorimetric Folin-Ciocalteu method, Aluminium Nitrate method and Ferric Reducing Antioxidant Power (FRAP) assay respectively. The highest values for all TAC, TPC and TFC (55.5±0.58AB, 11.6±0.25A and 86.1±2.83A) were found in leaves of Pogostemon heyneanus planted in the treatment combination S3F1. The order of increase TPC, TFC and TAC of P. heyneanus was leaf > root > stem.The highest number of leaves, leaf area, leaf fresh weight and dry weight (928±6.2A, 9484±4.9A, 516.2±4.9A and 70.3±0.7A) recorded in the treatment combination S3F1. Therefore, it can suggest to use 90cm×90cm space and organic fertilizer (Compost) for cultivation of P. heyneanus in commercial scale. Presence of higher amount of dry matter content and chemical yield (TPC, TFC and TAC) in the leaves scientifically validate traditional claims of harvesting the leaves and value of leaf for the development of newer effective drugs instead of roots and stem.

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不同间距和施肥量对广藿香不同部位理化产量的影响。(唇形科)

广藿香(Lamiaceae)是一种芳香、香料重要的工业作物，因其独特的香味和其他治疗目的而在许多亚洲国家广泛种植。因此，本研究旨在确定不同间距和施肥量对大藿香不同部位(叶、茎、根)理化产量(总抗氧化能力(TAC)、总酚含量(TPC)和总黄酮含量(TFC)的影响。田间试验采用完全随机区组设计，采用3个重复，3个空间水平(S1-90cm×45cm、S2-90cm×60cm和S3-90cm×90cm)和3个施肥水平(f1 -有机、f2 -无机和F-3对照)组成的9个处理组合。每隔2周记录株高、冠层铺展、叶数、枝数、枝长、根数和根长。每个月记录被连根拔起植物的叶、茎、根的鲜重和干重。叶、茎、根的TPC、TFC和TAC分别采用比色法、硝酸铝法和铁还原抗氧化力(FRAP)测定。以S3F1处理组合种植的广藿香叶片TAC、TPC和TFC最高，分别为55.5±0.58AB、11.6±0.25A和86.1±2.83A。黄参TPC、TFC和TAC的增加顺序为叶片>根>茎。叶片数、叶面积、叶片鲜重和干重分别为928±6.2A、9484±4.9A、516.2±4.9A和70.3±0.7A。因此，可建议利用90cm×90cm空间和有机肥(堆肥)进行商业规模栽培。叶片中较高的干物质含量和化学产量(TPC, TFC和TAC)的存在科学地验证了传统的主张，即收获叶子和叶子的价值，以开发新的有效药物，而不是根和茎。

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World Journal of Agricultural Research

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