Assessment of the suitability of pineapple waste as feedstock for vermicomposting

Agricultural Engineering International: CIGR Journal

View Publication Info
 
 
Field Value
 
Title Assessment of the suitability of pineapple waste as feedstock for vermicomposting
 
Creator Miito, Gilbert John
Komakech, Allan John
Zziwa, Ahamada
Kiggundu, Nicholas
Kambugu, Robert
 
Subject Pineapple waste
vermicompost
soil conditioner
stocking density
feeding rate
 
Description Declining soil fertility is a challenge to sustainable agricultural production in sub-Saharan Africa with a case of Uganda. However, the large volumes of agricultural waste generated from pineapples can be converted into soil conditioners through vermicomposting. by the use of earthworms. Several types of agricultural waste have been studied extensively as vermicompost feedstock, but little work exists on pineapple waste. The objective of this study was to investigate the suitability of pineapple waste for vermicomposting. To achieve this, an assessment of the physicochemical properties of fresh, pre-composted pineapple waste, and the resultant vermicompost, and determination of the optimal feeding rate and stocking density were performed.  The study revealed that pre-composting reduced the moisture content (28.8%), VOC (10.3%), and increased the pH (56.8%) which was helpful in waste stabilization as well as in the mass reduction of the waste. Vermicomposting after pre- composting increased the bulk density (92.3%), ash content (25.4%), pH (10%), EC (14.3%), total phosphorus (20.9%) and total potassium (28.4%) but decreased the moisture content (29.1%), VOC (11.8%), organic carbon (81.4%), total nitrogen (21.3%) and the C:N ratio (76.4%) of the pineapple waste hence giving a more stabilized and mineralized vermicompost. The study further revealed an optimal feeding rate of 2 kg feeds/kg worms and a stocking density of 1 kg worms/m2 for complete nitrogen mineralization of the pineapple waste and 1 kg feeds/kg worms and 0.5 kg worms/m2 for higher phosphorus concentrations. The degradation of the pineapple waste by earthworms demonstrated the practicability of vermicomposting as a simple and low-cost technology of converting pineapple waste into an effective nutrient rich soil amendment. 
 
Publisher International Commission of Agricultural and Biosystems Engineering
 
Date 2021-12-30
 
Type info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
 
Format application/pdf
 
Identifier http://www.cigrjournal.org/index.php/Ejounral/article/view/6739
 
Source Agricultural Engineering International: CIGR Journal; Vol. 23 No. 4 (2021): CIGR Journal
1682-1130
 
Language eng
 
Relation http://www.cigrjournal.org/index.php/Ejounral/article/view/6739/3745
 
Rights Copyright (c) 2021 Agricultural Engineering International: CIGR Journal
 

Contact Us

The PKP Index is an initiative of the Public Knowledge Project.

For PKP Publishing Services please use the PKP|PS contact form.

For support with PKP software we encourage users to consult our wiki for documentation and search our support forums.

For any other correspondence feel free to contact us using the PKP contact form.

Find Us

Twitter

Copyright © 2015-2018 Simon Fraser University Library