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Journal of Environmental Biology

pISSN: 0254-8704 ; eISSN: 2394-0379 ; CODEN: JEBIDP
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    Abstract - Issue Jan 2018, 39 (1)                                     Back


nstantaneous and historical temperature effects on a-pinene

Herbage yield and bioactive principle of senna as influenced by micronutrient application in soil

 

B.B. Basak* and N.A. Gajbhiye

ICAR- Directorate of Medicinal? and Aromatic Plants Research, Anand-387 310, India

*Corresponding Author E-mail: biraj.ssac@gmail.com

 

 

 

Key words

Cassia angustifolia

Herbage yield

Micronutrients

Sennoside content

 

 

 

Publication Data

Paper received : 06.10.2016???????

Revised received : 22.02.2017????

Re-revised received : 24.05.2017

Accepted : 01.07.2017

 

Abstract

Aim: The study was conducted to evaluate the response of micronutrient application on herbage yield and bio active principle of senna for better quality, and thus fetch higher economic return in domestic and international market.

 

Methodology: A pot culture experiment was conducted during rainy season (July to September) to investigate the effects of micronutrient cations such as Zn, Cu, Fe and manganese (Mn) applications on herbage yield and sennoside content in senna (Cassia angustifolia). Different doses of micronutrient cations were fixed based on the initial availability of these micronutrients in soil. Different yield attributes like the number of flowers and pods and leaves and pods weight per plant was recorded, while sennoside and micronutrient cations content in leaves and pods samples were analysed.??

 

Results: The study revealed that a number of flower and pod as well as total fresh and dry herbage yield (leaf + pod) of senna were improved significantly higher under the micronutrient treatments. Application of Zn, Cu, Fe and Mn recorded higher fresh herbage yield up to 207.4, 202.2, 211.3 and 190.4 g plant-1 respectively over the control (173.8 g plant-1). Total sennoside yield recorded significantly higher 1.93 and 1.93 g plant-1 under Zn and Fe application, respectively, as compared to control (1.26 g plant-1). Micronutrient content (Zn and Fe) in senna leaf and pod significantly increased, while the available micronutrient status in the soil after the harvesting of the crop also improved. ???

 

Interpretation: The present study revealed that soil application of micronutrient responded significantly in improving yield and bioactive principle of senna, while increased the micronutrient content in leaf and pod of senna and available micronutrient status in the soil.

 

 

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