Full Text (PDF)
Original Article

Effect of Sulphur and Copper Deficiency on Yield and Dry Matter of Gerbera Grown on Cocopeat under Polyhouse Conditions

Sonam Ashok Meghdambar

Author Information

Licence:

Attribution-Non-commercial 4.0 International (CC BY-NC 4.0)

This license enables reusers to distribute, remix, adapt, and build upon the material in any medium or format for noncommercial purposes only, and only so long as attribution is given to the creator.


Indian Journal of Plant and Soil 9(1):p 9-14, january-june 2022. | DOI: https://doi.org/10.21088/ijps.2348.9677.9122.1

How Cite This Article:

Sonam Ashok Meghdambar/Effect of Sulphur and Copper Deficiency on Yield and Dry Matter of Gerbera Grown on Cocopeat under Polyhouse Conditions/Indian J Plant Soil. 2022;9(1):9–14.

Timeline

Received : January 26, 2022         Accepted : April 10, 2022          Published : June 25, 2022

Abstract

The results of the experiment revealed that without sulphur and copper treatment showed significant reduction in yield, fresh and drymatter production of gerbera per plant. Minimum number of flowers were recorded in without copper and without sulphur treatment (2.60 and 2.80 flowers respectively). The significant decrease in fresh weight of roots were recorded under without copper and without sulphur treatment (35.23g and 35.97g respectively). The lowest fresh weight of crown + leaves was recorded in without sulphur treatment (91.84 g) followed by without copper treatment (93.99 g). The lowest fresh weight of flower was observed in without copper treatment (62.03 g) followed by without sulphur treatment (68.89 g) as compared to all nutrient treatment (136.18 g). Significantly lowest dry weight of roots was recorded in without copper treatment (5.97 g) followed by without sulphur treatment (6.20 g). Significantly lowest dry weight of crown + leaves was observed in without sulphur treatment (15.99 g) followed by without copper treatment (16.33 g). The lowest dry weight of flower was observed in without copper treatment (10.51 g) followed by without sulphur treatment (11.88 g) as compared to all nutrient treatment (24.41 g).


References

  • 1.   Alexandre Bessa Layara., Guimaraes Silva Fabiano., Alvarenga Moreira Marialva., Ribeiro Teodoro Joao Paulo and Soares Frederico Antonio Loureiro.2013. Characterization of nutrient deficiency in Hancornia Speciosa Gomes seedlings by omitting micronutrients from the nutrient solution.Brazilian Magazine of Fruit Culture. 35(2) : 616-624.
  • 2.   Anonymous 2010. Marathi booklet on gerbera cultivation under polyhouse. MPKV/ EXTN. PUB. No. 701/ 2010.
  • 3.   Juszczuk, Izabela M., and Monika Ostaszewska.2011. Respiratory activity, energy and redox status in sulphur- deficient bean plants. Poland J.Environ. and Exptl. Bot. 74: 245– 254.
  • 4.   Panse, V.G. and Sukhtme, P.V.1985. Statistical methods for agricultural workers. 4th Ed. ICAR, New Delhi. 157-165.
  • 5.   Ranshur, N. J. 2009. Assessment of soil growth media and micronutrient cation requirement for gerbera cultivation in Alfisol under polyhouse conditions. Ph.D. Thesis submitted to MPKV Rahuri.
  • 6.   Sujatha K., Gowda J.V. and Khan M.M. 2002. Effects of different fertigation levels on gerbera under low cost greenhouse. J. Ornam. Hortic. 5 (1) : 54-59.

Data Sharing Statement

There are no additional data available. All raw data and code are available upon request.

Funding

This research received no funding.

Author Contributions

All authors contributed significantly to the work and approve its publication.

Ethics Declaration

This article does not involve any human or animal subjects, and therefore does not require ethics approval.

Acknowledgements

We would like to express our gratitude to the patients, their families, and all those who have contributed to this study.

Conflicts of Interest

No conflicts of interest in this work.


About this article


Cite this article

Sonam Ashok Meghdambar/Effect of Sulphur and Copper Deficiency on Yield and Dry Matter of Gerbera Grown on Cocopeat under Polyhouse Conditions/Indian J Plant Soil. 2022;9(1):9–14.


Licence:

Attribution-Non-commercial 4.0 International (CC BY-NC 4.0)

This license enables reusers to distribute, remix, adapt, and build upon the material in any medium or format for noncommercial purposes only, and only so long as attribution is given to the creator.


Received Accepted Published
January 26, 2022 April 10, 2022 June 25, 2022

DOI: https://doi.org/10.21088/ijps.2348.9677.9122.1

Keywords

GerberaSulphurCopperCocopeatDeficiencyDry Matter

Article Level Metrics

Last Updated

Thursday 16 July 2026, 04:59:15 (IST)


502

Accesses

6
163
00

Citations


NA
NA
NA

Download citation


Article Keywords


Keyword Highlighting

Highlight selected keywords in the article text.


Timeline


Received January 26, 2022
Accepted April 10, 2022
Published June 25, 2022

licence


Attribution-Non-commercial 4.0 International (CC BY-NC 4.0)

This license enables reusers to distribute, remix, adapt, and build upon the material in any medium or format for noncommercial purposes only, and only so long as attribution is given to the creator.


Access this article



Share