Behind the Screen: The Changing Face of E-Waste Politics and What it Means for Environmental Justice

Lucier, Cristina

January 2014

Thesis advisor: Brian J. Gareau / For my dissertation research, I am focused on the sociopolitical relations of electronics disposal, a less-considered but increasingly important stage in the life cycle of electronics. Although much has already been written on the global trade in hazardous wastes, the Basel Convention that regulates this trade, and the environmental injustice of the global waste trade--with wealthy countries dumping the "negative externalities" of their consumption on vulnerable communities in the global South--the reality today appears to be more complex. Regulators in the Basel Convention and the UN Environment Program, as well as civil society actors in industry and NGOs, have an increased interest in promoting the development of markets and infrastructure in high tech e-waste recycling. Historically, e-wastes have been both talked about, and treated as, a toxic and unwanted byproduct of the digital age. However, today key actors in the regulatory, industrial and civil society spheres are now discussing e-wastes as critical "resources" for economic and technological development. I hypothesize that uncovering the economic, technological and geopolitical drivers of this shift will reveal that the global trade in e-wastes can no longer be described as a clear-cut North/South, "perpetrator-victim," scenario, rather, it must be seen as a dynamic process where environmental inequalities are mitigated and reconstituted in new forms and at various sites. I identify two dominant paradigms that scholars, activists, policy makers and industry actors employ in evaluating the global trade in electronic wastes. I label these two paradigms the "environmental justice evaluation" and the "resource capture evaluation." By engaging concepts from global political economy and environmental sociology (particularly, O'Connor 1979; Harvey 2003; Pellow 2003) and applying them to my case, my dissertation attempts to bring a nuanced perspective to the e-waste debate. My initial findings suggest that both of these frameworks do not account for the key economic processes that are driving the e-waste trade. A better understanding of these processes will better illuminate the pathway to finding meaningful solutions to the persistent, presently illegal global trade in discarded electronics. My data consists of a comprehensive examination of meeting archives from the Basel Convention (where the experts and political decision makers on this issue implement policies that affect the global e-waste trade) spanning from 1992 to the present, as well as reviews of the proceedings of other relevant actors in e-waste policy (for example, annual meetings of the global organization StEP, and publications and pamphlets from trade organizations in the US and abroad and publications from the US government). In addition, I conducted semi-structured interviews with 25 key actors in the national regulatory, global regulatory, industry and NGO spheres in order to understand how the key decision makers in the e-waste trade understand the drivers and implications of the shift "from waste to resources." Finally, I draw on ethnographic observations conducted at a pivotal Basel Convention meeting in 2011, where a decision was made that has the potential to fundamentally reshape the Basel Convention and enable increased global trade in discarded electronics through the development of formalized recycling centers in less-developed countries. / Thesis (PhD) — Boston College, 2014. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Sociology.

Basel Convention

Electronic waste

global environmental justice

hazardous waste

resource shortage

WEEE

Beyond Waste Management : Challenges to Sustainable Global Physical Resource Management

Singh, Jagdeep

January 2016

Current physical resource management (PRM) was investigated in a global perspective in this thesis, to gain a deeper understanding of its implications in a sustainability perspective. In particular, the main challenges to the current PRM system and the kinds of systemic changes needed for sustainable PRM were examined. In five separate studies, different theoretical and practical challenges to current PRM approaches were analysed. A descriptive literature review, causal loop diagrams and semi-structured interviews were performed to gather qualitative and quantitative inferences. Perspectives from industrial ecology, life cycle thinking, systems thinking and environmental philosophy were then applied to analyse global resource/waste management issues. The analysis resulted in an overview of the global ecological sustainability challenges to current PRM and identification of major challenges to the global waste management system. Causal loop diagrams were used to qualitatively analyse the structure and behaviour of production and consumption systems responsible for unintended environmental consequences of purposive actions to improve material and energy efficiencies. Ways in which resource quality could be maintained throughout the system of production and consumption systems were determined by identifying challenges facing product designers while closing the material loops. A planning framework was devised to operationalise the sustainable development demands in society, including production and consumption systems. A broader systems approach is proposed for future sustainable global PRM, focusing on ensuring societal functions within the human activity system. The approach involves designing and managing anthropogenic stocks of physical resources to reduce inflows of physical resources and outflows of wastes and emissions. Life cycle-based databases linking resource consumption with waste generation are needed for improved global PRM. / I denna avhandling undersöktes fysisk resursanvändning i ett globalt perspektiv, för att få en djupare förståelse av dess konsekvenser i ett hållbarhetsperspektiv. Framför allt undersöktes de största utmaningarna med den aktuella fysiska resurshanteringen och vilka typer av systemförändringar som krävs för en hållbar fysisk resurshantering. I fem studier analyserades olika teoretiska och praktiska utmaningar för den nuvarande fysiska resurshanteringen. Litteraturstudier, kausala loopdiagram och semistrukturerade intervjuer genomfördes för att samla kvalitativ och kvantitativ information. Perspektiv från industriell ekologi, livscykeltänkande, systemtänkande och miljöfilosofi tillämpades för att analysera globala resurs- och avfallshanteringsfrågor. Analysen resulterade i en översikt av den nuvarande fysiska resurshanteringens globala ekologiska hållbarhetsutmaningar och identifiering av stora utmaningar för den globala avfallshanteringen. Kausala loopdiagram användes för att kvalitativt analysera strukturen och beteendet hos de produktions- och konsumtionssystem som gör att ändamålsenliga åtgärder för att förbättra material- och energieffektivitet får oavsiktliga negativa miljökonsekvenser. Hur resurskvalitet kan upprätthållas i produktions- och konsumtionssystemen som helhet bestämdes genom att identifiera de utmaningar som produktdesigners möter när de sluter kretslopp av material. En planeringsmodell utformades för att operationalisera kraven på hållbar utveckling i samhället, bland annat produktions- och konsumtionssystem. Ett bredare systemtänkande föreslås för en hållbar global fysisk resursförvaltning i framtiden, med fokus på att säkerställa samhällsfunktioner inom det mänskliga aktivitetssystemet. Tillvägagångssättet innebär att utforma och hantera antropogena fysiska resurser i syfte att: minska inflödet av fysiska resurser; och utflödet av avfall och utsläpp. Livscykelbaserade databaser som länkar resursanvändning till avfallsgenerering behövs för att förbättra den globala fysiska resursförvaltningen. / <p>QC 20160516</p> / India4EU

global waste management

systems thinking

life cycle thinking

planning framework

global environmental justice

circular economy