The production components of an evergreen shrub (Ilex crenata ‘Bennett’s Compacta’) grown in a no.3 container in an east coast U.S.nursery were analyzed for their costs and contributions to carbon footprint, as well as the product impact in the landscape throughout its life cycle.A life cycle inventory was conducted of input materials, equipment use, and all cultural practices and other processes used in a model production system for this evergreen shrub.A life cycle assessment (LCA) of the model numerated the associated greenhouse gas emissions (GHG), carbon footprint, and variable cost of each component.The LCA also included the transportation and transplanting of the final product in the landscape as well as its removal after a 40-year useful life.GHGfrominput products and processes during the production (cutting-to-gate) of the evergreen shrub were estimated to be 2.918 kg CO2e.When considering carbon sequestration during production weighted over a 100-year assessment period, the carbon footprint for this model system at the nursery gate was 2.144 kg CO2e.Operations, combining the impact ofmaterial and equipment use, that contributed most ofGHG during production included fertilization (0.707 kg CO2e), the liner and transplanting (0.461 kg CO2e), the container (0.468 kg CO2e), gravel and ground cloth installation (0.222 kg CO2e), substrate materials and preparation (0.227 kg CO2e), and weed control (0.122 kg CO2e).The major contributors to global warming potential (GWP) were also major contributors to the cutting-to-gate variable costs ($3.224) except for processes that required significant labor investments.Transporting the shrub to the landscaper, transporting it to the landscape site, and transplanting it would result inGHGof 0.376, 0.458, and 0 kgCO2e, respectively.Variable costs for postharvest activities were $6.409 and were dominated by labor costs (90%).
CITATION STYLE
Ingram, D. L., Hall, C. R., & Knight, J. (2016). Carbon footprint and variable costs of production components for a container-grown evergreen shrub using life cycle assessment: An east coast U.S.model. HortScience, 51(8), 989–994. https://doi.org/10.21273/hortsci.51.8.989
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