Teaching Themes (MSc, BA, BSc)
• Poverty-population- environment relationships
• Gender and the environment• Environmental governance
and decentralisation• Livelihoods, agriculture and
diversification• Indigenous and scientific
knowledge of natural resources and environmental change
• Deforestation, land degradation, desertification – causes etc.
• Political ecology
• Community-based natural resource management and wildlife/biodiversity conservation
• Risk perceptions, resilience• Power, resistance,
environmental struggles and ‘violent environments’
• Challenging environmental narratives
• Research methods – qualitative, quantitative and participatory methodologies
Research outputs and interests• village/ community level; • human-environment interactions; • informed by social theory; • combination of qualitative, quantitative and
participatory methodologies
Current research: Nepal – risk and resilience, risk perception, risk governance, institutions for disaster management
Research outputs and interests• Tanzania – land degradation, agricultural and social
change• Thailand – soil conservation, conservation farming and
actor-orientated perspectives• Zambia – sustainability, institutions and resettlement• The Gambia – ecotourism and social capital• Nepal – community forestry, decentralisation and
environmental governance • Review papers and edited book – political ecology and
environmental degradation; changing approaches to wildlife conservation; environment, development and rural livelihoods
Social science research on arsenic in groundwater
Quantitative medical/ epidemiological research– Hadi and Parveen 2004, 1675 people in sample,
found age and economic status to be significant predictors of arsenicosis;
– Argos et al 2007: dataset of 11438 found skin lesions more prevalent in men; individuals over 35 years and those with lower socio-economic status. Landlessness modified the relationship between skin lesions and exposure
Semi-quantitative social research • Awareness/ knowledge of the arsenic problem,
identifying knowledge gaps– Paul 2004: 365 questionnaires in 4 villages - found gender, level
of education and age as important determinants of arsenic knowledge;
– Caldwell et al 2005; Hadi 2003 • The relationship between knowledge and behaviour
(Madajewicz et al 2007)– 6943 sample – households that change wells increase time
spent obtaining water fifteen-fold– Door to door information delivery did not increase knowledge
more than the media, but was more effective in changing behaviour (especially with well testing and information about alternatives
Qualitative, sociological/ political geography research
• Social (mis)understandings of the problem (stigmatisation, being ostracised, thought of as contagious); impacts of arsenicosis on social activities and livelihoods, coping stratagies (e.g. Hassan, Atkins and Dunn 2005)
• Expert knowledges, scientific uncertainty, safety standards (Atkins, Hassan and Dunn, 2007)
• Governance and democracy in response to the arsenic hazard, legal geographies (Atkins, Hassan and Dunn 2007; Atkins, Hassan and Dunn 2006)
Further potential social science research on arsenic in groundwater(Conceptual frameworks may be applied to other
environmental issues)– Awareness raising and safe water decision-making– Governing the arsenic problem– Sustainable livelihoods, the role of livelihood assets in
gaining access to uncontaminated water– Social capital, gender relations
– A political ecology of arsenic in groundwater
Environmental Governance
Governance may be defined as: the structures and process of power sharing in society or the interactions of different stakeholders (NGOs, state, civil society) to make decisions and generate formal and informal rules
Principles of ‘good governance’ include: Participation, effectiveness, accountability, transparency, equity, deliberation, empowerment, justice
Environmental Governance
Research questions on arsenic and governance: Who are the stakeholders? To what extent is the
problem being governed according to the principles of good governance?
What is the most appropriate level to govern the arsenic problem?
What are the constraints to effective governance of the problem?
Methodology – in depth semi-structured interviews with stakeholders
• How does access to these capital assets mediate access to uncontaminated water?
• How is access to the various assets differentiated in society? Who is most vulnerable and why?
• How do people cope with other shocks and stresses in their livelihoods?
• What is the impact of arsenicosis on livelihood strategies and asset portfolios?
Physical Capital Infrastructure and equipment for production (transport, shelter, energy)
Human Capital Skills, knowledge, ability to labour, good health
Social Capital Social resources such as networks, trust, institutional links, cohesion
Financial Capital Financial resources such as savings, credit unions, flows of money
Natural Capital Natural resources such as land, forests, water etc.
Social CapitalNetworks of relations and trust that generate mutually beneficial collective action. Includes structural and cognitive social capital
• How strong is social capital? What has affected the development of social capital? What community level institutions exist?
• To what extent does the availability of social capital affect mitigation preferences?
• To what extent do neighbours influence each other in terms of behaviour? (Maadajewicz et al 2007)
References
Argos, M et al (2007) Socio-economic status and risk for arsenic-related skin lesions in Bangladesh, American Journal of Public Health, 97, 5, 825-831
Atkins, P., Hassan, M and Dunn, C. (2007) Poisons, pragmatic governance and deliberative democracy: The arsenic crisis in Bangladesh, Geoforum, 38, 155-170
Atkins, P., Hassan, M. and Dunn, C. (2007) Environmental irony: Summoning death in Bangladesh, Environment and Planning A, 39, 2699-2714
Atkins, P., Hassan M and Dunn, C (2006) Toxic Torts: Arsenic poisoning in Bangladesh and the legal goegraphies of responsibility, Transactions of the Institute of British Geographers, 31, 272-285
Caldwell, B.K., Smith, W.T., Caldwell, J.C. and Mitra, S.N. (2005) Trends in water usage and knowledge of arsenicosis in Bangladesh, Population, Space and Place, 11, 211-223
References
Hadi, A and Parveen, R. (2004) Arsenicosis in Bangladesh: prevalence and socio-economic correlates, Public Health, 118, 559-564
Hadi, A (2003) Fighting arsenic at the grassroots: experience of BRAC’s community awareness initiative in Bangladesh, Health Policy and Planning, 18, 1, 93-100
Hassan, M., Atkins, P. and Dunn, C. (2005) Social implications of arsenic poisoning in Bangladesh, Social Science and Medicine, 61, 2201-2211
Madajewicz, M et al (2007) Can information alone change behaviour? Response to arsenic contamination of groundwater in Bangladesh, Journal of Development Economics, 84, 731-754
Paul, B.K (2004) Arsenic contamination awareness among the rural residents in Bangladesh, Social Science and Medicine, 59, 1741-1745