TY - JOUR
T1 - Us before me
T2 - a group level approach to the circular economy
AU - Figge, Frank
AU - Stevenson Thorpe, Andrea
AU - Good, Jason
PY - 2021/1
Y1 - 2021/1
N2 - A more efficient use of natural resources is considered a necessary condition for their sustainable use. When firms use resources circularly they aim to contribute to using resources more eco-efficiently, and thus in a more sustainable way than when adopting more linear systems. Eco-efficiency in linear systems can be determined by aggregating each individual instance of resource use. However, in circular systems this approach is problematic, as it cannot capture the dynamics of resource use that unfurl between firms that contribute to eco-efficiency. In other words, we argue that in circular systems, eco-efficiency overall is more than the sum of the eco-efficiencies of individual firms. Moreover, we counterintuitively suggest that within circular economy systems, selecting only highly eco-efficient firms can actually reduce rather than increase the degree of eco-efficiency overall. Using a lens of multi-level selection theory, we build our argument through a series of numerical examples, and in conclusion show how the assessment and management of resources must be moved from the individual to the group level.
AB - A more efficient use of natural resources is considered a necessary condition for their sustainable use. When firms use resources circularly they aim to contribute to using resources more eco-efficiently, and thus in a more sustainable way than when adopting more linear systems. Eco-efficiency in linear systems can be determined by aggregating each individual instance of resource use. However, in circular systems this approach is problematic, as it cannot capture the dynamics of resource use that unfurl between firms that contribute to eco-efficiency. In other words, we argue that in circular systems, eco-efficiency overall is more than the sum of the eco-efficiencies of individual firms. Moreover, we counterintuitively suggest that within circular economy systems, selecting only highly eco-efficient firms can actually reduce rather than increase the degree of eco-efficiency overall. Using a lens of multi-level selection theory, we build our argument through a series of numerical examples, and in conclusion show how the assessment and management of resources must be moved from the individual to the group level.
KW - Circular Economy
KW - Cooperation
KW - Eco-Efficiency
KW - Evolution
U2 - 10.1016/j.ecolecon.2020.106838
DO - 10.1016/j.ecolecon.2020.106838
M3 - Article
SN - 0921-8009
VL - 179
JO - Ecological Economics
JF - Ecological Economics
M1 - 106838
ER -