- Feb 2023
The Cosmo-local Reader — Invitation to Participate
= Cosmolocal Reader = Cosmo-local Reader = Cosmolocal
- May 2022
The third example involves local manufacture and supply. The coronavirus (COVID-19) pandemic has highlighted the risks associated with reliance on long globalized supply chains, which are energy- and resource-intensive and therefore help power the hyperthreat. Increasing local manufacturing and supply capacities helps deflate the hyperthreat and reduces risks associated with stockouts of critical items. Circular economies, which incorporate closed-loop manufacturing and recycling systems, can now be viewed as critical to achieving planetary security.
cosmolocal production (design global, manufacture local or what's light is shared, what's heavy is produced) can also help alleviate hyperthreat supply chain vulnerabilities, democratize production and increase local wealth at the same time (Ramos, Edes, Bauwens & Wong, 2021)
IPCC AR6 WGIII Chapter 5: demand, services and social aspects of mitigation identifies that up to 45% of mitigation can result from a demand-side socialization strategy and collective action mobilization. This gives us tremendous power of impact to mobilize people. The low hanging fruit can be identified by comprehensive, ongoing, deep, global conversations with the greatest diversity of actors with a common vision collectively searching for the social tipping points, leverage points and idling resources and scaling massively thru the Indyweb as a cosmolocal network (what's light we share, what's heavy we produce locally).
Climate scientist and realist Professor Kevin Anderson has argued for many years that demand side changes are the only solutions that can be implemented rapidly enough to peak emissions and drop emissions rapidly in the short term (next few years), buying time for reneewable energy solutions to scale globally.
- awaken the sleeping giant
- James Gien Wong
- demand side
- Jose Ramos
- bottom up collective action
- IPCC AR6
- Michel Bauwens
- bottom up rapid whole system change
- IPCC AR6 Chapter 5
- social aspects of mitigation
- kevin anderson
- Sharon Ede
- cosmolocal production
- Nov 2021
For low-carbon practices to grow and displace high-carbon ones, integrated action across disparate spaces and coordination between many different actors are necessary (161). For example, mobility scholars (166) highlight the extent of reconfiguration required to disassociate academia from high-carbon travel, including altered institutional cultures, funding practices, and student recruitment to support virtual ways of working. Although novel low-carbon practices may emerge, policy must ensure these stabilize and become prevalent, as well as impeding the circulation of high-carbon practices.
A new social imaginary of cosmolocality, where we spend most of our time locally, but use information technology as the prime method for nonlocal communication. In other words, replacing transportation with lower footprint communications.
In the field of production and provisioning systems, cosmolocal production implies designing and sharing designs globally, and downloading the appropriate ones for local clean production, thereby minimizing global supply chains.
Graduated relocalization that begins to replace auto transportation with pedestrian and bike traffic can result in huge decarbonization impacts. This relocalization movement is also an economic reconfiguration, echoing what community economist Michael Shuman refers to as the movement from Wall Street to Main Street - decentralizing centralizing organizations when feasible, and creating more community wealth while decarbonizing unnecessarily long supply chains.