QUALITATIVE ANALYSIS OF ORANGE PEEL ORGANIC WASTE ECOENZYME APPLICATION IN DELAYING OF RIPENING AND DECAYING FRUITS

Hafsah Hafsah, Kameliah Mushonev

Abstract


Fruit damage due to overripe/rotten is a major constraint in the fruit industry. Efforts to restrain the rate of ripening are generally made by coating the fruit using certain chemicals, one of which is acid. Ecoenzyme is a liquid acidic resulting from anaerobic fermentation. Its organic acids have the potential to slow down fruit rot. This study aimed to analyse qualitatively (visually) the effect of applying specific ecoenzymes (orange peel waste) in delaying the ripening and spoilage of strawberries, bananas, green tomatoes, and red tomatoes. Tested fruits were immersed in ecoenzymes with different concentrations (100%, 50%, 25%, 12.5%, and 6.25%). Physical changes in the morphology of the fruit skin were observed every day until the fruit became ripe/rotten. Control strawberries showed a decrease in quality (mold appearance) on the 3rd day, while the concentration of 12.5% occurred on the 4th day. In bananas, a concentration of 100% can delay skin discoloration (yellowing) one day later than the control, while at a concentration of 50%, the appearance of the white mold is one day later than the control. In green tomatoes, a concentration of 50% can delay skin discoloration five days longer than controls. Concentrations of 6.25% and 50% were able to delay the emergence of white mold on red tomatoes for eight days longer than the control. Different commodities have different optimal concentrations of orange peel ecoenzymes in delaying fruit ripening/rotting. The higher acidity of the ecoenzyme is not always in line with the better result in delaying fruit ripening/rotting

Keywords


acetic acid; descriptive test; garbage enzymes; organoleptic

Full Text:

PDF

References


Arun C and Sivashanmugam P. 2015. Investigation of biocatalytic potential of garbage enzyme and its influence on stabilization of industrial waste activated sludge. Process Safety and Environmental Protection. 471-478.

Amit SK, Uddin MM, Rahman R, Islam SMR and Khan MS. 2017. A review on mechanisms and commercial aspects of food preservation and processing. Agriculture and Food Security. 6(51)

Astuti R. 2015. Proses Penyekeban Terhadap Kematangan Buah Pisang. Jakarta: Universitas Bakrie.

Fang Y and Wakisaka M. 2021. A Review on the Modified Atmosphere Preservation of Fruits and Vegetables with Cutting-Edge Technologies. Agriculture. 11(10):992

Halstead F, Rauf M, Moiemen N, Bamford A, Wearn C, Fraise A, Webber M. 2015. The antibacterial activity of acetic acid against biofilm-producing pathogens of relevance to burns patients. PLoS ONE. e0136190.

Li X, Wang H, Gan S, Jiang D, Tian G. 2013. Eco-Stoichiometric Alterations in Paddy Soil Ecosystem Driven by Phosphorus Application. PloS ONE. 12.

Lund P, Tramonti A, Biase D. 2014. Coping with low pH: Molecular strategies in neutralophilic bacteria. FEMS Microbiol. Rev. 1091–1125.

Maula R, Astuti A, Maharani E. 2020. Analisis Efektifitas Penggunaan Eco-enzyme pada Pengawetan Buah Stroberi dan Tomat dengan Perbandingan Konsentrasi. Prosiding Seminar Edusainstech. 434-442.

Mavani H, Tew I, Wong L, Yew H, Mahyuddin A, Ghazali RA, Pow D. 2020. Antimicrobial Efficacy of Fruit Peels Eco-Enzyme against Enterococcus faecalis: An In Vitro Study. Int. J. Environ. Res. Public Health. 5107.

Mudyantini W, Anggarwulan E, Rahayu P. 2015. Penghambatan Pemasakan Buah Srikaya (Annona squamosa L.) dengan Suhu Rendah dan Pelapisan Kitosan. Agric. 23-29.

Naupane K and Khadka R. 2019. Production of Garbage Enzyme from Different Fruit and Vegetable Wastes and Evaluation of Its Enzymatic and Antimicrobial Efficacy. TUJM. 113-118.

Pundir R and Jain P. 2010. Screening for antifungal. International Journal of Pharmaceutical. 25-37.

Smitha R. 2010, February 27. Dual Production of Endotoxin and Amylase From Bacillus thuringiensis subsp. kurstaky By Fermentation and Efficacy Studies of Endotoxin Against Eriophid Mite. Disertation. University of Calicut.

Sudjatha W and Wisaniyasa N. 2017. Fisiologi dan Teknologi Pacapanen (Buah dan Sayur). Bali: Udayana University Press.

Teo S, Ling R, Low C. 2021. Effective Microorganisms in Producing Eco-Enzyme from Food Waste for Wastewater Treatment. Applied Microbiology: Theory and Technology. 28-36.

Vama L and Cherekar M. 2020. Production, extraction and uses of eco-enzyme using citrus fruit waste. Asian Jr. of Microbiol. Biotech. Env. Sc. 346-351.

Widiastuti A, Ningtyas O, Priyatmojo A. 2015. Identifikasi Cendawan Penyebab Penyakit Pascapanen pada Beberapa Buah di Yogyakarta. J Fitopatol Indones. 91-96.

Win Y. 2011. Eco-enzyme Activating the Earth’s Self Healing Power. Malaysia: Summit Print SDN BHD.

Yuliana N, Nurdjanah S, Sari M. 2014. Penambahan Asam Asetat dan Fumarat Untuk Mempertahankan Kualitas Pikel Ubi Jalar Kuning Pasca Fermentasi. Agritech. 298-307




DOI: https://doi.org/10.18860/elha.v9i1.18532

Refbacks

  • There are currently no refbacks.


Copyright (c) 2022 El-Hayah

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

INDEXING OF El-Hayah :

DOAJ El-Hayah on Google Scholar El-Hayah on Crossref MoraReff Garuda Garuda

----------------------------------------------------------------------------------

EDITORIAL OFFICE

Program Study of Biology
Faculty of Science and Technology
State Islamic University Maulana Malik Ibrahim, Malang, Indonesia
Jl. Gajayana No. 50 Malang 65144
Telp./Fax: (+62 341) 558933
e-mail: elhayah@uin-malang.ac.id

E-ISSN 2657-0726 | P-ISSN 2086-0064

----------------------------------------------------------------------------------


Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.