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Developing Carbon-limiting Disposal Scenarios For Urban Pruning Waste

The removal of branches, fruits, inflorescences or foliage from urban afforestation promotes the longevity of trees, and the residues generated correspond to a significant portion of municipal solid waste.

These residues are usually disposed of in landfills or dumps and, in some cases, incinerated. Urban tree and woody yard residues (urban pruning waste) represent a high cost for municipalities, sanitary landfills or other destination sites, in addition to being a waste of material with energy potential.

Significant potential impacts could occur during the decomposition stage of municipal solid waste, with potential contamination of soil and surface water and groundwater and generation of greenhouse gases  – mainly methane (CH4). These potential environmental impacts can be quantified through the development of Life Cycle Assessments (LCA).

Due to recent concerns about climate change, the objective of the study was to apply the LCA methodology to quantify the carbon footprint associated with four different disposal scenarios for urban pruning waste. It is interesting to expose, among the available alternatives, the one with the highest or lowest environmental impacts, to support governments in decision making and policy orientation. The disposal scenarios considered were: sanitary landfilling (with and without collection of methane), simple municipal incineration, and re-utilization of wood (transformation into briquettes).

A study case was conducted at the municipality of João Pessoa (Northeast Brazil) and was utilized to exemplify the methodology. Brazil is a signatory of several agreements on climate change but does not have a binding commitment to reduce CO2 emissions. It was verified that the highest carbon footprint was associated with the current practice (simple landfilling).

This study demonstrated that re-utilization of biomass, besides being environmentally viable, presents the potential to contribute to the overall environmental quality, including the possibility of being used to obtain carbon credits.

These findings are described in the article entitled Carbon footprint associated with four disposal scenarios for urban pruning waste, published in the journal Environmental Science and Pollution Research. This work was led by Luiz Coelho Junior and Monica Carvalho from the Federal University of Paraíba.