Abstract
Composting is an important tool for transforming organic waste into useful products for agriculture. However, the characterization of the compost and its capacity to stimulate crop growth are necessary to ensure sanitary quality and process efficiency. In this study, the objectives were characterize and evaluate a kitchen waste compost produced in static piles as a stimulant to lettuce growth. The residual effect of compost on soil fertility was also studied. A randomized block design was used, with 3 replications of compost doses equivalent to 0, 30, 60 and 90 t ha-1. The compost presented chemical characteristics that allow their agricultural use according to Brazilian regulations, but a high electrical conductivity (EC) value was detected. The absence of E. coli indicated that the process was efficient to guarantee the elimination of the pathogenic contaminant. Although compost has reduced net CO2 assimilation, stomatal conductance and leaf transpiration in plants, consistent increases in shoot and root dry mass, as well as in shoot projection were noticed, with the dose of 90 t ha-1. Residual effect in soil fertility was also confirmed. The kitchen waste compost obtained from static piles is a safe product that enables the recycling of nutrients, spurring the development of lettuce and resulting in a residual effect on soil fertility.
Highlights
Waste generation is inherent to human activity, but production grew to worrying levels in recent decades
The kitchen waste compost obtained from static piles is a safe product that enables the recycling of nutrients, spurring the development of lettuce and resulting in a residual effect on soil fertility
Brazilian regulations do not limit the agricultural use of composts based on electrical conductivity (EC) values, but is important to mention that the direct use of composts with EC > 4.0 mS cm-1 may result in phytotoxicity, affecting seed germination and negatively influence the plant growth (SilesCastellano et al, 2020)
Summary
Waste generation is inherent to human activity, but production grew to worrying levels in recent decades. Brazil produces more than 78 million tons of urban solid waste (USW) annually, of which 51% has organic origin (ABRELPE, 2017). Kitchen organic waste is a type of USW produced from households and restaurants, and its disposal in unplanned areas without any treatment contributes to public health problems and environmental contamination (Han et al, 2016). Incineration would be a more suitable destination, but the moisture of kitchen waste (Sakarika et al, 2019) makes this strategy not efficient. Another possibility is disposal in landfills, but they have high operating costs and makes recycling materials impossible
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
