Purpose
This article aims to estimate the social footprint of a higher education institution (HEI) and its potential contribution to Sustainable Development Goals (SDGs) under life cycle assessment (LCA) perspective. The social organisational life cycle assessment (SO-LCA) of the academic activity of the University of the Basque Country (UPV/EHU), in northern Spain, has been performed, in order to estimate its social impacts.
Method
The assessment has been run using openLCA software and supported on the PSILCA-based Soca add-on for the Ecoinvent v3.3 database, covering 53 social indicators for almost 15,000 industrial sectors and goods in 189 countries.
Results and discussion
The analysis undertaken reflects social impacts and associated risk levels for four stakeholders: Workers, Local Community, Society, and Value Chain Actors. Labour activity in the UPV/EHU is the sub-process with the greatest social impact, followed by processes related to transport, energy, materials, and waste management. Among the socio-economic context which supports the academic activity of the UPV/EHU (indirect impacts), the existence of traces of child labour and illiteracy outside the Basque Country stands out. Further analysis would be required in order to more accurately determine the geographical location of such impacts, and also to better tackle the concept of social debt.
Conclusion
SO-LCA may have great potential for HEIs, helping them to identify hotspots, reduce their social footprint, and raise awareness among the academic community, which undoubtedly contributes to the knowledge, progress, human values, and sustainability these HEIs stand for.
Graphical abstract
The impact of the lockdown, during the period from March to June in 2020, upon the air quality of the Basque Country in northern Spain is analyzed. The evaluation accounts for the meteorology of the period. Daily and sub-daily analysis of aerosol and ozone records show that the territory was repeatedly affected by episodes of pollutants from outer regions. Three episodes of PM10 and ten of PM2.5 were caused by transported anthropogenic European sulfates, African dust, and wildland fires. The region, with a varied orographic climatology, shows high and diverse industrial activity. Urban and interurban road traffic of the region decreased by 49% and 53%, respectively, whereas industrial activity showed a lower reduction of 20%. Consequently, the average concentrations of NO2 in the cities during the period fell to 12.4 µg·m−3 (−45%). Ozone showed up to five exceedances of the WHOAQG for the daily maximum 8-h average in both rural and urban sites, associated with transport through France and the Bay of Biscay, under periods of European blocking anticyclones. However, averages showed a moderate decrease (−11%) in rural environments, in line with the precursor reductions, and disparate changes in the cities, which reproduced the weekend effect of their historical records. The PM10 decreased less than expected (−10% and −21%, in the urban and rural environments, respectively), probably caused by the modest decrease of industrial activity around urban sites and favorable meteorology for secondary aerosol formation, which could also influence the lower changes observed in the PM2.5 (−1% and +3% at the urban and rural sites, respectively). Consequently, in a future low NOx traffic emission scenario, the inter-regional PM and ozone control will require actions across various sectors, including the industry and common pollution control strategies.
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