Identifying eco-efficient year-round crop combinations for rooftop greenhouse agriculture

Martí Rufí-Salís, Anna Petit-Boix, Gara Villalba, Mireia Ercilla-Montserrat, David Sanjuan-Delmás, Felipe Parada, Verónica Arcas, Joan Muñoz-Liesa, Xavier Gabarrell*

*Corresponding author for this work

Research output: Contribution to journalArticleResearchpeer-review

2 Citations (Scopus)

Abstract

Purpose Rooftop greenhouses (RTGs) are agricultural systems that can improve the food supply chain by producing vegetables in unused urban spaces. However, to date, environmental assessments of RTGs have only focused on specific crops, without considering the impacts resulting from seasonality, combinations of crops and nonoperational time. We analyze vegetable production in an RTG over 4 years to determine the crop combinations that minimize yearly environmental impacts while diversifying food supply. Methods The system under study consists of an integrated RTG (i-RTG) with a hydroponic system in Barcelona, in the Mediterranean region. By using life cycle assessment (LCA), we evaluate the environmental performance of 25 different crop cycles and 7 species cultivated during the period 2015-2018. Three functional units are used: 1 kg of edible fresh production, 1 unit of economic value (euro) in the wholesale market and 1 kcal of nutritional value. The system boundaries consider two subsystems: infrastructure (greenhouse structure, rainwater harvesting system and auxiliary equipment) and operation (fertilizers and their emissions into water and substrate). In addition, we perform an eco-efficiency analysis, considering the carbon footprint of the crop cycles and their value at the wholesale market during their harvesting periods. Results and discussion Spring tomato cycles exert the lowest impacts in all categories, considering all three functional units, due to the high yields obtained. In contrast, spinach and arugula have the highest impacts. Regarding relative impact, the greenhouse structure presented a large impact, while fertilizer production had notable relative contributions in tomato cycles. Moreover, nitrogen and phosphorus emissions from fertigation are the main causes of freshwater and marine eutrophication. By combining the most eco-efficient cycles, we can see that growing two consecutive tomato cycles is the best alternative with the functional unit of yield (0.49 kg CO2 eq./kg), whereas a long spring tomato cycle combined with bean and lettuce cycles in the autumn/winter is the best scenario when using market (0.70 kg CO2 eq./euro) and nutritional value (3.18 center dot 10(-3) kg CO2/ kcal). Conclusions This study shows that increasing the diversity of the system leads to better environmental performance of greenhouse urban agriculture if suitable crops are selected for the autumn/winter season. The functional unit involving the economic value and the eco-efficiency analysis are useful to demonstrate the capability of the growing system to produce added-value vegetables under harsher conditions while categorizing and classifying the crops to select the most suitable combinations based on economic and environmental parameters.

Original languageAmerican English
Pages (from-to)564-576
Number of pages13
JournalInternational Journal of Life Cycle Assessment
Volume25
Issue number3
DOIs
Publication statusPublished - 1 Mar 2020

Keywords

  • Crop combinations
  • Eco-efficiency
  • Industrial ecology
  • Life cycle assessment
  • Rooftop greenhouses
  • Sustainability
  • Urban agriculture
  • Urban metabolism

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