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Visualizing Relationships between Drivers of Environmental Change and Pressures on Land-Based Ecosystems

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DOI: 10.4236/nr.2014.54015    4,278 Downloads   5,936 Views   Citations


The pursuit of human needs and demands is placing more pressure on land resources than ever before. The challenge of feeding 7 billion people is increasingly competing with rising demands for materials and biofuels. Deforestation and land degradation are among the pressing outcomes of these trends. Drivers of environmental changeincluding population growth, economic activity, consumption, urbanization, trade, conflict, and governance—clearly play a role in aggravating or mitigating these pressures on land. Despite advances in understanding causality in complex systems, navigating the interactions between these drivers remains a major challenge. This paper analyzes and visualizes the relationships between multiple, interacting drivers of environmental change and specific pressures on land-based ecosystems. Drawing on experience from the development of the Drivers and Land chapters of the UN Environment Programme’s Fifth Global Environment Outlook report (GEO-5), we use a series of Kiviat diagrams to illustrate the relative influence of key drivers on selected pressures on land. When individual diagrams are overlaid, patterns of influence emerge that can provide insight into where policy responses might best be targeted. We propose that, subject to some limitations, the Kiviat exercise can provide an accessible and potentially valuable knowledge-intermediary tool to help link science-based information to policy action.

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The authors declare no conflicts of interest.

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Jabbour, J. and Hunsberger, C. (2014) Visualizing Relationships between Drivers of Environmental Change and Pressures on Land-Based Ecosystems. Natural Resources, 5, 146-160. doi: 10.4236/nr.2014.54015.


[1] Scheffer, M., Bascompte, M., Brock, J., Brovkin, W.A., Carpenter, V., Dakos, S.R., Held, V., van Nes, H., Rietkerk, E.H. and Sugihara, G. (2009) Early-Warning Signals for Critical Transitions. Nature, 461, 53-59.
[2] Rockström, J., Steffen, W., Noone, K., Persson, &ARING., Chapin III, F.S., Lambin, E., Lenton, T.M., Scheffer, M., Folke, C., Schellnhuber, H., Nykvist, B., De Wit, C.A., Hughes, T., van der Leeuw, S., Rodhe, H., Sörlin, S., Snyder, P.K., Costanza, R., Svedin, U., Falkenmark, M., Karlberg, L., Corell, R.W., Fabry, V.J., Hansen, J., Walker, B., Liverman, D., Richardson, K., Crutzen, P. and Foley, J. (2009) Planetary Boundaries: Exploring the Safe Operating Space for Humanity. Ecology and Society, 14, 32.
[3] Barnosky, A.D., Hadly, E.A., Bascompte, J., Berlow, E.L., Brown, J.H., Fortelius, M., Getz, W.M., Harte, J., Hastings, A., Marquet, P.A, Martinez, N.D., Mooers, A., Roopnarine, P., Vermeij, G., Williams, J.W., Gillespie, R., Kitzes, J., Marshall, C., Matzke, N., Mindell, D.P., Revilla, E. and Smith, A.B. (2012) Approaching a State Shift in Earth’s Biosphere. Nature, 486, 52-58.
[4] Davidson, E.A., de Araújo, A.C., Artaxo, P., Balch, J.K., Brown, I.F., Bustamante, M.M.C., Coe, S., DeFries, R.S., Keller, M., Longo, M., Munger, J.W., Schroeder, W., Soares-Filho, B.S., Souza, C.M. and Wofsy, S.C. (2012) The Amazon Basin in Transition. Nature, 481, 321-328.
[5] AMAP (2011) Snow, Water, Ice, Permafrost in the Arctic: (SWIPA): Climate Change and the Cryosphere. Arctic Monitoring and Assessment Secretariat, Oslo, 538 p.
[6] Schaefer, K., Lantuit, H., Wegener, A., Romanovsky, V.E., Schuur, E.A.G and Gärtner-Roer, I. (2012) Policy Implications of Warming Permafrost. United Nations Environment Programme, Nairobi.
[7] Lawrence, D.M., Slater, A.G., Tomas, R.A., Holland, M.M. and Deser, C. (2008) Accelerated Arctic Land Warming and Permafrost Degradation during Rapid Sea Ice Loss. Geophysical Research Letters, 35, L11356.
[8] Schaefer, K., Zhang, T., Bruhwiler, L. and Barrett, A.P. (2011) Amount and Timing of Permafrost Carbon Release in Response to Climate Warming. Tellus B, 63, 165-180.
[9] Herreroand, M. and Thornton, P.K. (2012) Production Systems for the Future: Balancing Trade-Offs between Food Production, Efficiency, Livelihoods and the Environment. CGIAR, Nairobi.
[10] UNEP (2012) Fifth Global Environment Outlook Report: Environment for the Future We Want. United Nations Environment Programme, Earthprint, Nairobi.
[11] Smith, P., Gregory, P.J., van Vuuren, D., Obersteiner, M., Havlík, P., Rounsevell, M., Woods, J., Stehfest, E. and Bellarby, J. (2010) Competition for Land. Philosophical Transactions of the Royal Society B, 365, 2941-2957.
[12] Foley, J.A., Ramankutty, N., Brauman, K.A., Cassidy, E.S., Gerber, J.S., Johnston, M., Mueller, N.D., O’Connell, C., Ray, D.K., West, P.C., Balzer, C., Bennett, E.M., Carpenter, S.R., Hill, J., Monfreda, C., Polasky, S., Rockström, J., Sheehan, J., Siebert, S., Tilman, D. and Zaks, D.P.M. (2011) Solutions for a Cultivated Planet. Nature, 478, 337-342.
[13] FAO (2012) FAO Statistics. Food and Agriculture Organisation of the United Nations, Rome.
[14] FAO (2011) State of the World’s Forests. Food and Agriculture Organization of the United Nations, Rome.
[15] MA (2005) Millennium Ecosystem Assessment: Ecosystems and Human Well-Being. 1 Current State and Trends. Island Press, Washington, D.C.
[16] IPCC (2007) Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, New York.
[17] UNEP (2007) Fourth Global Environment Outlook Report (GEO-4). United Nations Environment Programme. Earthprint, Nairobi.
[18] IAASTD (2009) The International Assessment of Agricultural Science and Technology for Development. Island Press, Washington D.C.
[19] Nelson, G.C., Bennett, E., Berhe, A.A., Cassman, K., DeFries, R., Dietz, T., Dobermann, A., Dobson, A., Janetos, A., Levy, M., Marco, D., Nakicenovic, N., O’Neill, B., Norgaard, R., Petschel-Held, G., Ojima, D., Pingali, P., Watson, R. and Zurek, M. (2006) Anthropogenic Drivers of Ecosystem Change: An Overview. Ecology and Society, 11, 29.
[20] Liu, J., Dietz, T., Carpenter, S.R., Folke, C., Alberti, M., Redman, C.L., Schneider, S.H., Ostrom, E., Pell, A.N., Lubchenco, J., Taylor, W.W., Ouyang, Z., Deadman, P., Kratz, T. and Provencher, W. (2007) Coupled Human and Natural Systems. AMBIO: A Journal of the Human Environment, 36, 639-649.
[21] Hersperger, A.M., Gennaio, M., Verburgand, P.H. and Bürgi, M. (2010) Linking Land Change with Driving Forces and Actors: Four Conceptual Models. Ecology and Society, 15, 1.
[22] Carpenter, S.R., Bennett, E.M. and Peterson, G.D. (2006) Editorial: Special Feature on Scenarios for Ecosystem Services. Ecology and Society, 11, 32.
[23] Carpenter, S.R., Mooney, H.A, Agard, J., Capistrano, D., Defries, R.S. and Diaz, S. (2009) Science for Managing Ecosystem Services: Beyond the Millennium Ecosystem Assessment. Proceedings of the National Academy of Sciences, 106, 1305-1312.
[24] Giest, H. and Lambin, E. (2002) Proximate Causes and Underlying Driving Forces of Tropical Deforestation. Bioscience, 15, 143-150.[0143:PCAUDF]2.0.CO;2
[25] Hayes, K. (2002) Update on Coltan Mining in the Democratic Republic of Congo. Oryx, 36, 12-13.
[26] Sutherland, E. (2011) Coltan, the Congo and your Cell Phone: The Connection between Your Mobile Phone and Human Rights Abuses in Africa. LINK Centre, University of the Witwatersrand, South Africa.
[27] Smith, J.H. and Mantz, J.W. (2006) Do Cellular Phones Dream of Civil War? The Mystification of Production and the Consequences of Technology Fetishism in the Eastern Congo. In: Kirsch, M. and Nash, J., Eds., Inclusion and Exclusion in the Global Arena, Routledge, New York, 71-93.
[28] Jackson, S. (2003) Fortunes of War: The Coltan Trade in the Kivus. HPG Background Paper, London.
[29] Smith, J.H., (2011). Tantalus in the Digital Age: Coltan Ore, Temporal Dispossession, and “Movement” in the Eastern Democratic Republic of the Congo. American Enthologist, 38, 17-35.
[30] Pimentel, D., Marklein, A., Toth, M.A., Karpoff, M.N., Paul, G.S., McCormack, R., Kyriazisand, J. and Krueger, T. (2009) Food versus Biofuels: Environmental and Economic costs. Human Ecology, 37, 1-12.
[31] Jackson, R.J., Minjares, R., Naumoff, K.S., Shrimali, B.P. and Martin, L.K. (2009) Agriculture Policy Is Health Policy. Journal of Hunger and Environmental Nutrition, 4, 393-408.
[32] Wallinga, D. (2010) Agricultural Policy and Childhood Obesity: A Food Systems and Public Health Commentary. Health Affairs, 29, 405-10.
[33] Adger, W.N. and Jordan, A. (2009) Governing Sustainability. Cambridge University Press, Cambridge.
[34] Marshall, N.A., Park, S.E., Adger, W.N., Brown, K. and Howden, S.M. (2012) Transformational Capacity and the Influence of Place and Identity. Environmental Research Letters, 7, 9 p.
[35] Stirling, A. (2013) From Sustainability, through Diversity to Transformation: Towards More Reflexive Governance of Technological Vulnerability. In: Hommels, A.M.J. and Bijker, W.E., Eds., Vulnerability in Technological Cultures: New Directions in Research and Governance, MIT Press, Cambridge, 408 p.
[36] Carpenter, S.R., DeFries, R., Dietz, T., Mooney, H.A., Polasky, S. and Reid, W.V. (2006) Millennium Ecosystem Assessment: Research Needs. Science, 314, 257-258.
[37] EEA (1995) Europe’s Environment: The Dobris Assessment. European Environment Agency, Copenhagen.
[38] Carr, E.R., Wingard, P.M., Yorty, S.C., Thompson, M.C., Jensen, N.K. and Robertson, J. (2007) Applying DPSIR to Sustainable Development. International Journal of Sustainable Development and World Ecology, 14, 543-555.
[39] Svarstad, H., Petersen, L.K., Rothman, D., Siepel, H. and Wätzold, F. (2008) Discursive Biases of the Environmental Research Framework DPSIR. Land Use Policy, 25, 116-125.
[40] Rekolainen, S., Kämäri, J., Hiltunen, M. and Salorantac, T.M. (2003) A Conceptual Framework for Identifying the Need and Role of Models in the Implementation of the Water Framework Directive. International Journal of River Basin Management, 1, 347-352.
[41] Berger, A.R. and Hodge, R.A. (1998) Natural Change in the Environment: A Challenge to the Pressure-State-Response Concept. Social Indicators Research, 44, 255-265.
[42] Gabrielson, P. and Bosch, P. (2003) Environmental Indicators: Typology and Use in Reporting. EEA Internal Working Paper, Copenhagen.
[43] Giupponi, C. (2002) From the DPSIR Reporting Framework to a System for a Dynamic and Integrated Decision Making Process. Venice.
[44] Pintér, L., Swanson, D. and Chenje, J. (2007) GEO Resource Book: A Training Manual on Integrated Environmental Assessment and Reporting (Module Overviews). UN Environment Programme and International Institute for Sustainable Development, Nairobi.
[45] Jabbour, J., Keita-Ouane, F., Hunsberger, C., Sánchez-Rodríguez, R., Gilruth, P., Levy, M.A., Patel, N., Singh, A. and Schwarzer, S. (2012) Internationally Agreed Environmental Goals: A Critical Evaluation of Progress. Environmental Development, 3, 5-24.
[46] Friendly, M. and Denis, D.J. (2001) Milestones in the History of Thematic Cartography, Statistical Graphics, and Data Visualization. York University, Toronto.
[47] Kolence, K.W. and Kiviat, P.J. (1973) Software Unit Profiles and Kiviat Figures. ACM Sigmetrics. Performance Evaluation Review, 2, 34-39.
[48] Bamford, J. (2005) Implementing Quality: A Practical Guide to Tools and Techniques. International Journal of Operations and Production Management, 25, 1034.
[49] Shepherd, C. and Günter, H. (2006) Measuring Supply Chain Performance: Current Research and Future Directions. International Journal of Productivity and Performance Management, 55, 242-258.
[50] Horatiu, C. (2008) Performance Metrics in Downstream Supply Chain. Doctoral Dissertation, University of Padova, Padova.
[51] Stewart, C.A., Link, M., McCaulay, D.S., Rodgers, G., Turner, G., Hancock, D., Wang, P., Saied, F., Pierce, M., Aiken, R., Mueller, M.S., Jurenz, M., Lieber, M., Tillotson, J. and Plale, B.A. (2010) Implementation, Performance, and Science Results from a 30.7 TFLOPS IBM Blade Center Cluster. Concurrency and Computation: Practice and Experience, 22, 157-174.
[52] World Bank (2009) Environmental Crises or Sustainable Development Opportunity? Transforming the Charcoal Sector in Tanzania. The World Bank, Washington DC.
[53] Girard, P. (2004) Charcoal Production and Use in Africa: What Future? Unasylva: An International Journal of Forestry and Forest Industries, 54, 30-33.
[54] Kuser, J.E. (2007) Urban and Community Forest in the Northeast. 2nd Edition, Springer, Berlin.
[55] Heltberg, R. (2005) Factors Determining Household Fuel Choice in Guatemala. Environmental and Development Economics, 10, 337-361.
[56] Nyembe, M. (2011) An Econometric Analysis of Factors Determining Charcoal Consumption by Urban Households: The Case of Zambia. Master’s Thesis, Swedish University of Agricultural Sciences, Ultuna.
[57] Agrawal, A., Chhatre, A. and Hardin, R. (2008) Changing Governance of the World’s Forests. Science, 320, 14601462.
[58] Turner, A., Buongiorno, J., Katz, A., Zhu, S. and Li, R. (2008) Economic Incentives Exist to Support Measures to Reduce Illegal Logging. International Forestry Review, 10, 74-80.
[59] Nellemann, C. (2012) INTERPOL Environmental Crime Programme. In: Green Carbon, Black Trade: Illegal Logging, Tax Fraud and Laundering in the Worlds Tropical Forests. A Rapid Response Assessment, United Nations Environment Programme, GRID Arendal.
[60] Angelsen, A., Brockhaus, M., Kanninen, M., Sills, E., Sunderlin, W.D. and Wertz-Kanounnikoff, S. (2009) Realising REDD+: National Strategy and Policy Options. CIFOR, Bogor.
[61] Larson, A.M. and Petkova, E. (2011) An Introduction to Forest Governance, People and REDD+ in Latin America: Obstacles and Opportunities. Forests, 2, 86-111.
[62] Corbera, E. and Schroeder, H. (2011) Governing and Implementing REDD+. Environmental Science and Policy, 14, 89-99.
[63] Kissinger, G., Herold, M. and De Sy, V. (2012) Drivers of Deforestation and Forest Degradation: A Synthesis Report for REDD+ Policymakers. Lexeme Consulting, Vancouver.
[64] Vos, M.B., Kimmons, J.E., Gillespie, C., Welsh, J. and Blanck, H.M. (2008) Dietary Fructose Consumption among US Children and Adults: The Third National Health and Nutrition Examination Survey. Medscape Journal of Medicine, 10, 160-168.
[65] Monteiro, C.A., Levy, R.B., Claro, R.M., de Castro, R.R.I. and Cannon, G. (2010) Increasing Consumption of UltraProcessed Foods and Likely Impact on Human Health: Evidence from Brazil. Public Health Nutrition, 14, 5-13.
[66] Mitchell, C., Sawin, J.L., Pokharel, G.R., Kammen, D., Wang, Z., Fifita, S., Jaccard, M., Langniss, O., Lucas, H., Nadai, A., Trujillo Blanco, R., Usher, E., Verbruggen, A., Wüstenhagen, R., and Yamaguchi, K. (2011) Policy, Financing and Implementation, In: Edenhofer, O., Pichs-Madruga, R., Sokona, Y., Seyboth, K., Matschoss, P., Kadner, S., Zwickel, T., Eickemeier, P., Hansen, G., Schlömer, S. and Von Stechow, C., Eds., IPCC Special Report on Renewable Energy Sources and Climate Change Mitigation, Cambridge University Press, Cambridge, New York..
[67] Bailis, R. and Baka, J. (2011) Constructing Sustainable Biofuels: Governance of the Emerging Biofuel Economy. Annals of the Association of American Geographers, 101, 827-838.
[68] Vogel, C., Moser, S.C., Kasperson, R.E. and Dabelko, G.D. (2007) Linking Vulnerability, Adaptation and Resilience Science to Practice: Pathways, Players and Partnerships. Global Environmental Change, 17, 349-364.
[69] Reed, M.S., Buenemann, M., Atlhopheng, J., Akhtar-Schuster, M., Bachmann, F., Bastin, G., Bigas, H., Chanda, R., Dougill, A.J., Essahli, W., Evely, A.C., Fleskens, L., Geeson, N., Glass, H.J., Hessel, R., Holden, J., Ioris, A.A.R., Kruger, B., Liniger, H.P., Mphinyane, W., Nainggolan, D., Perkins, J., Raymond, C.M., Ritsema, C.J., Schwilch, G., Sebego, R., Seely, M., Stringer, L.C., Thomas, R., Twomlow, S. and Verzandvoort, S. (2011) Cross-Scale Monitoring and Assessment of Land Degradation and Sustainable Land Management: A Methodological Framework for Knowledge Management. Land Degradation Development, 22, 261-271.
[70] Jones, N., Jones, H. and Walsh, C. (2008) Political Science? Strengthening Science-Policy Dialogue in Developing Countries. ODI Working Paper 294, London.
[71] Komiyama, H. and Takeuchi, K. (2006) Sustainability Science: Building a New Discipline. Sustainability Science, 1, 1-6.
[72] Weichselgartner, J. and Kasperson, R.E. (2010) Barriers in the Science-Policy-Practice Interface: Toward a Knowledge Action-System in Global Environmental Change Research. Global Environmental Change, 20, 266-277.
[73] Solinís, G. and Bayá-Laffite, N. (2011) Mapping out the Research-Policy Matrix: A Report on the Outputs from the First International Forum on the Social Science-Policy Nexus. UNESCO, Paris, 245.
[74] Jones, H., Jones, N., Shaxson, L. and Walker, D. (2012) Knowledge, Policy and Power in International Development: A Practical Guide. The Policy Press, Bristol.
[75] Salas-Zapata, W.A., Rios-Osorio, L.A. and Trouchon-Osorio, A.L. (2012) Typology of Scientific Reflections Needed for Sustainability Science Development. Sustainability Science, 7, 25-43.
[76] McCollum, D.L., Krey, V. and Riahi, K. (2011) An Integrated Approach to Energy Sustainability. Nature Climate Change, 1, 428-429.

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