Skip to main content Accessibility help

We use cookies to distinguish you from other users and to provide you with a better experience on our websites. Close this message to accept cookies or find out how to manage your cookie settings.

Close cookie message
×
Hostname: page-component-77c89778f8-sh8wx Total loading time: 0 Render date: 2024-07-16T11:30:49.177Z Has data issue: false hasContentIssue false

References

Published online by Cambridge University Press:  05 June 2012

Stephen Morse
Stephen Morse
Affiliation:
University of Reading
Get access

Summary

A summary is not available for this content so a preview has been provided. Please use the Get access link above for information on how to access this content.
Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Chapter
Information
Sustainability
A Biological Perspective
 , pp. 222 - 245
Publisher: Cambridge University Press
Print publication year: 2010

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Adams, W. M. (2001). Green development. Environment and sustainability in the Third World, 2nd Edn, London and New York: Routledge.Google Scholar
Agegnehu, G., Ghizaw, A. and Sinebo, W. (2008). Yield potential and land-use efficiency of wheat and faba bean mixed intercropping. Agronomy for Sustainable Development 28(2), 257–263.CrossRefGoogle Scholar
Aikman, D. P. (1989). Potential increase in photosynthetic efficiency from the redistribution of solar radiation in a crop. Journal of Experimental Botany 40(217), 855–864.CrossRefGoogle Scholar
Alberts, D. J. (2007). Stakeholders or subject matter experts, who should be consulted?Energy Policy 35(4), 2336–2346.CrossRefGoogle Scholar
Aldunate, J. (1994). Human-rights as the rights of the poor. The perspective from Liberation-Theology. Journal of Moral Education 23(3), 297–303.CrossRefGoogle Scholar
Alfsen, K. H. and Greaker, M. (2007). From natural resources and environmental accounting to construction of indicators for sustainable development. Ecological Economics 61(4), 600–610.CrossRefGoogle Scholar
Ali, Y., Aslam, Z., Rafique, T. and Hussain, F. (2005). Economical use of land and agricultural resources under different cropping system, International Journal of Biology and Biotechnology 2(1), 223–225.Google Scholar
Al-Jufaili, S. M. (2007). Conceptual model for sardine and anchovy inverse cyclic behavior in abundance. Journal of Food Agriculture & Environment 5(1), 317–327.Google Scholar
Allen, P., Dusen, D., Lundy, L. and Gliessman, S. (1991). Integrating social, environmental and economic issues in sustainable agriculture. American Journal of Alternative Agriculture 6, 34–39.CrossRefGoogle Scholar
Ambec, S. and Lanoie, P. (2008). Does it pay to be Green? A systematic overview. Academy of Management Perspectives 23(4), 45–62.Google Scholar
Andow, D. A. (1991). Yield loss to arthropods in vegetationally diverse agroecosystems. Environmental Entomology 20(5), 1228–1235.CrossRefGoogle Scholar
Andow, D. A. and Zwahlen, C. (2006). Assessing environmental risks of transgenic plants. Ecology Letters 9(2), 196–214.CrossRefGoogle ScholarPubMed
,Anon (2002). PVC industry encouraged to take the natural step to sustainability. Materials World 10(6), 5.Google Scholar
Apaiah, R. K., Linnemann, A. R., Kooi, H. J. (2006). Exergy analysis: A tool to study the sustainability of food supply chains. Food Research International 39(1) 1–11.CrossRefGoogle Scholar
Aras, G. and Crowther, D. (2009). Corporate Sustainability Reporting: A Study in Disingenuity?Journal of Business Ethics 87, 279–288.CrossRefGoogle Scholar
Arnstein, S. (1969). A ladder of citizen participation. Journal of the American Institute of Planners 35(4), 216–224.CrossRefGoogle Scholar
Aslanidis, N. and Iranzo, S. (2009). Environment and development: Is there a Kuznets curve for CO2 emissions?Applied Economics 41(6), 803–810.CrossRefGoogle Scholar
Auty, R. M. (2007). Natural resources, capital accumulation and the resource curse. Ecological Economics 61(4), 627–634.CrossRefGoogle Scholar
Aylward, B. and Barbier, E. B. (1992). Valuing environmental functions in developing-countries. Biodiversity and Conservation 1(1), 34–50.CrossRefGoogle Scholar
Ayres, R. U. (2000). Commentary on the utility of the ecological footprint concept. Ecological Economics 32(3), 347–349.Google Scholar
Ayres, R. U. (1978), Resources, Environment and Economics, New York: John Wiley & Sons, Inc.Google Scholar
Ayres, R. U. (2008). Sustainability economics: Where do we stand?Ecological Economics 67(2), 281–310.CrossRefGoogle Scholar
Bagliani, M., Bravo, G. and Dalmazzone, S. (2008). A consumption-based approach to environmental Kuznets curves using the ecological footprint indicator. Ecological Economics 65(3), 650–661.CrossRefGoogle Scholar
Ballard, D. (2000). The cultural aspects of change for sustainable development. Eco-Management and Auditing 7, 53–59.3.0.CO;2-N>CrossRefGoogle Scholar
Barbier, E. B. (2007). Valuing ecosystem services as productive inputs. Economic Policy Issue 49, 178–229.Google Scholar
Bartelmus, P. (2007). SEEA-2003: Accounting for sustainable development?Ecological Economics 61(4), 613–616.CrossRefGoogle Scholar
Bartelmus, P. (2009). The cost of natural capital consumption: Accounting for a sustainable world economy. Ecological Economics 68, 1850–1857.CrossRefGoogle Scholar
Bartelmus, P., Richmond, A. and Kumar, S. (Topic Eds) (2008). Green accounting. In Encyclopedia of Earth ed. Cleveland, Cutler J., Washington, DC: Environmental Information Coalition, National Council for Science and the Environment. [First published in the Encyclopedia of Earth August 9, 2006; last revised September 17, 2008; eetrieved July 26, 2009]. www.eoearth.org/article/Green_accountingGoogle Scholar
Bazin, D. (2009). What exactly is corporate responsibility towards nature? Ecological responsibility or management of nature? A pluri-disciplinary standpoint. Ecological Economics 68(3), 634–642.CrossRefGoogle Scholar
Beard, V. A. (2005). Individual determinants of participation in community development in Indonesia. Environment and Planning C: Government and Policy 23(1), 21–39.CrossRefGoogle Scholar
Becchetti, L., Di Giacomo, S. and Pinnacchio, D. (2008). Corporate social responsibility and corporate performance: Evidence from a panel of US listed companies. Applied Economics 40(5), 541–567.CrossRefGoogle Scholar
Bell, S. and Morse, S. (2003). Measuring Sustainability: Learning by Doing, Earthscan: London.Google Scholar
Bellamy, D. and Barrett, J. (2007). Climate stability: an inconvenient proof. Proceedings of the Institution of Civil Engineers-Civil Engineering 160(2), 66–72.CrossRefGoogle Scholar
Bevan, P. (2000). Who's a goody? Demythologizing the PRA agenda. Journal of International Development 12(5), 751–759.3.0.CO;2-P>CrossRefGoogle Scholar
Bhattacharya, C. B., Korschun, D. and Sen, S. (2009). Strengthening Stakeholder-Company relationships through mutually beneficial corporate social responsibility initiatives. Journal of Business Ethics 85(2), 257–272.CrossRefGoogle Scholar
Biabani, A., Hashemi, M. and Herbert, S. J. (2008). Agronomic performance of two intercropped soybean cultivars. International Journal of Plant Production 2(3), 215–221.Google Scholar
Black, N. (2001). Evidence based policy: proceed with care. British Medical Journal 323, 275–278.CrossRefGoogle ScholarPubMed
Blair, J. M. (2005). Community indicator programs: Their construction, logic and consistency based on a program evaluation of the Santa Monica CIP, California. Journal of Environmental Assessment Policy and Management 7(4), 597–617.CrossRefGoogle Scholar
Block, M. D., Botterman, J., Vandewiele, M., et al. (1987). Engineering herbicide resistance in plants by expression of a detoxifying enzyme. Journal of the European Molecular Biology Organization (EMBO) 6, 2513–2518.Google ScholarPubMed
Blowfield, M. (2007). Reasons to be cheerful? What we know about CSR's impact. Third World Quarterly 28(4), 683–695.CrossRefGoogle Scholar
Blutstein, H. (2003). A forgotten pioneer of sustainability. Journal of Cleaner Production 11(3), 339–341.CrossRefGoogle Scholar
Boerema, L. K. and Gulland, J. A. (1973). Stock assessment of the Peruvian anchovy (Engraulis ringens) and management of the fishery. Journal Fisheries Research Board of Canada 30, 2226–2235.CrossRefGoogle Scholar
Bolton, J. R. and Hall, D. O. (1991). The maximum efficiency of photosynthesis. Phytochemistry and Photobiology 53(4), 545–548.CrossRefGoogle Scholar
Bousquet, A. and Favard, P. (2005). Does S. Kuznets's belief question the Environmental Kuznets Curves?Canadian Journal of Economics 38(2), 604–614.CrossRefGoogle Scholar
Boutaud, A., Gondran, N. and Brodhag, C. (2006). (Local) environmental quality versus (global) ecological carrying capacity: what might alternative aggregated indicators bring to the debates about environmental Kuznets curves and sustainable development?International Journal of Sustainable Development 9(3), 297–310.CrossRefGoogle Scholar
Boyd, J. (2007). Nonmarket benefits of nature: What should be counted in green GDP?Ecological Economics 61(4), 716–723.CrossRefGoogle Scholar
Boyd, J. W. and Banzhaf, H. S. (2005). Ecosystem services and government: the need for a new way of judging nature's value. Resources 158, 16–19.Google Scholar
Boyd, P. W., Jickells, T., Law, C. S., et al. (2007). Mesoscale iron enrichment experiments 1993–2005: Synthesis and future directions, Science 315 (5812), 612.CrossRefGoogle ScholarPubMed
Bradbury, H. and Clair, J. A. (1993). Promoting Sustainable Organizations with Sweden's Natural Step. The Academy of Management Executive 13(4), 63–74.Google Scholar
Broman, G., Holmberg, J., Robert, K. H. (2000). Simplicity without reduction: Thinking upstream towards the sustainable society. Interfaces 30(3), 13–25.CrossRefGoogle Scholar
Bruckmeier, K. and Tovey, H. (2008). Knowledge in sustainable rural development: From forms of knowledge to knowledge processes. Sociologia Ruralis 48(3), 313–329.CrossRefGoogle Scholar
Buchs, W. (2003). Biodiversity and agri-environmental indicators – general scopes and skills with special reference to the habitat level. Agriculture Ecosystems & Environment 98(1–3), 35–78.CrossRefGoogle Scholar
Buesseler, K. O., Doney, S. C., Karl, D. M., et al. (2008). Ocean iron fertilization. Moving forward in a sea of uncertainty, Science 319 (5860), 162.CrossRefGoogle Scholar
Burger, J. (2006). Bioindicators: A review of their use in the environmental literature 1970–2005. Environmental Bioindicators 1(2), 136–144.CrossRefGoogle Scholar
Burns, S. (1999). The Natural Step: A Compass for Environmental Management Systems. Corporate Environmental Strategy 6(4), 329–342.CrossRefGoogle Scholar
Butler, L. M. and Mazur, R. E. (2007). Principles and processes for enhancing sustainable rural livelihoods: Collaborative learning in Uganda. International Journal of Sustainable Development and World Ecology 14(6), 604–617.CrossRefGoogle Scholar
Byerlee, D. and Murgai, R. (2001). Sense and sustainability revisited: the limits of total factor productivity measures of sustainable agricultural systems. Agricultural Economics 26(3), 227–236.CrossRefGoogle Scholar
Carignan, V. and Villard, M. A. (2002). Selecting indicator species to monitor ecological integrity: A review. Environmental Monitoring and Assessment 78(1), 45–61.CrossRefGoogle ScholarPubMed
Carney, D. (Ed) (1998), Sustainable Rural Livelihoods: What Contribution Can We Make? Department of International Development. Nottingham: Russell Press Ltd.
Carson, R. (1962) Silent Spring, London: Penguin.Google Scholar
Castro, C. J. (2004). Sustainable development – Mainstream and critical perspectives. Organization and Environment 17(2), 195–225.CrossRefGoogle Scholar
Caterina, M. and Lorenzo-Molo, F. (2009). Why corporate social responsibility (CSR) remains a myth: The case of the Philippines. Asian Business & Management 8(2), 149–168.Google Scholar
Caviglia-Harris, J. L., Chambers, D. and Kahn, J. R. (2009). Taking the ‘U’ out of Kuznets A comprehensive analysis of the EKC and environmental degradation. Ecological Economics 68(4), 1149–1159.CrossRefGoogle Scholar
Cerdeira, A. L. and Duke, S. O. (2006). The current status and environmental impacts of glyphosate-resistant crops: A review. Journal of Environmental Quality 35(5), 1633–1658.CrossRefGoogle ScholarPubMed
Chambers, R. (1983). Rural Development: Putting the Last First, London: Longman.Google Scholar
Chambers, R. (1993). Challenging the Professionals: Frontiers for Rural Development, London: Intermediate Technology.CrossRefGoogle Scholar
Chambers, R. (1997). Whose Reality Counts? Putting the Last First, London: Intermediate Technology.CrossRefGoogle Scholar
Chambers, R. and Conway, G. R. (1992). Sustainable Rural Livelihoods: Practical Concepts for the 21st Century, IDS Discussion Paper No. 296, Brighton: IDS.Google Scholar
Chang, D.-S. and Kuo, L.-C. R. (2008). The effects of sustainable development on firms' financial performance – an empirical approach. Sustainable Development 16(6), 365–380.CrossRefGoogle Scholar
Checkland, P. and Scholes, J. (1990). Soft Systems Methodology in Action, Chichester: John Wiley & Sons, Ltd.Google Scholar
Checkland, P. (1981). Systems Thinking, Systems Practice, Chichester: John Wiley & Sons, Ltd.Google Scholar
Chee, Y. E. (2004). An ecological perspective on the valuation of ecosystem services. Biological Conservation 120(4), 549–565.CrossRefGoogle Scholar
Chen, C. C., Westcott, M., Neill, K., Wichman, D. and Knox, M. (2004). Row configuration and nitrogen application for barley-pea intercropping in Montana. Agronomy Journal 96(6), 1730–1738.CrossRefGoogle Scholar
Chen, B. and Chen, G. Q. (2006). Ecological footprint accounting based on emergy – A case study of the Chinese society. Ecological Modelling 198(1–2), 101–114.CrossRefGoogle Scholar
Chen, B. and Chen, G. Q. (2007). Modified ecological footprint accounting and analysis based on embodied exergy – a case study of the Chinese society 1981–2001. Ecological Economics 61(2–3), 355–376.CrossRefGoogle Scholar
Chen, G. Q., Jiang, M. M., Yang, Z. F., et al. (2009). Exergetic assessment for ecological economic system: Chinese agriculture. Ecological Modelling 220(3), 397–410.CrossRefGoogle Scholar
Chhotray, V. (2004). The negation of politics in participatory development projects, Kurnool, Andhra Pradesh. Development and Change 35(2), 327–352.CrossRefGoogle Scholar
Choi, B. C. K., Pang, T., Lin, V., et al. (2005). Can scientists and policy makers work together?Journal of Epidemiology and Community Health 59, 632–637.CrossRefGoogle ScholarPubMed
Christensen, V. (1995). Ecosystem maturity – Towards quantification. Ecological Modelling 77(1), 3–32.CrossRefGoogle Scholar
Christou, P., Capell, T., Kohli, A., Gatehouse, J. A. and Gatehouse, A. M. R. (2006). Recent developments and future prospects in insect pest control in transgenic crops. Trends in Plant Science 11(6), 302–308.CrossRefGoogle ScholarPubMed
Chu, G. X., Shen, Q. R. and Cao, J. L. (2004). Nitrogen fixation and N transfer from peanut to rice cultivated in aerobic soil in an intercropping system and its effect on soil N fertility. Plant and Soil 263(1–2), 17–27.CrossRefGoogle Scholar
Ciegis, R., Streimikiene, D. and Zavadskas, E. K. (2008). The use of the environmental Kuznets curve: environmental and economic implications. International Journal of Environment and Pollution 33(2–3), 313–335.CrossRefGoogle Scholar
Clapp, J. (2008). Illegal GMO releases and corporate responsibility: Questioning the effectiveness of voluntary measures. Ecological Economics 66(2–3), 348–358.CrossRefGoogle Scholar
Clark, M. R. and Tracey, D. M. (1994). Changes in a population of Orange Roughy, Hoplostethus atlanticus, with commercial exploitation on the Challenger Plateau, New Zealand. Fishery Bulletin 92(2), 236–253.Google Scholar
Clarke, M. and Lawn, P. (2008). Is measuring genuine progress at the sub-national level useful?Ecological Indicators 8(5), 573–581.CrossRefGoogle Scholar
Cleaver, F. (2001). Institutions, agency and the limitations of participatory approaches to development. In Participation the New Tyranny, ed. Cooke, B and Kothari, U., Zed Books, 36–55.Google Scholar
Cole, M. A. (2003). Development, trade and the environment: How robust is the Environmental Kuznets Curve?Environment and Development Economics 8(4), 557–580.CrossRefGoogle Scholar
Conroy, M. M. and Berke, P. R. (2004). What makes a good sustainable development plan? An analysis of factors that influence principles of sustainable development. Environment and Planning A 36(8), 1381–1396.CrossRefGoogle Scholar
Cooke, B. and Kothari, U. (Eds.) (2001). Participation the New Tyranny, London: Zed Books.
Cornwall, A. (2003). Whose voices? Whose choices? Reflections on gender and participatory development. World Development 31(8), 1325–1342.CrossRefGoogle Scholar
Corten, A. (1996). The widening gap between fisheries biology and fisheries management in the European Union. Fisheries Research 27(1–3), 1–15.CrossRefGoogle Scholar
Costanza, R., Erickson, J., Fligger, K., et al. (2004). Estimates of the Genuine Progress Indicator (GPI) for Vermont, Chittenden County and Burlington, from 1950 to 2000. Ecological Economics 51(1–2), 139–155.CrossRefGoogle Scholar
Costanza, R., d'Arge, R., Groot, R., et al. (1997). The value of the world's ecosystem services and natural capital. Nature 387, 253–260.CrossRefGoogle Scholar
Costanza, R., Graumlich, L., Steffen, W., et al. (2007). Sustainability or collapse: What can we learn from integrating the history of humans and the rest of nature?Ambio 36(7), 522–527.CrossRefGoogle ScholarPubMed
Craig, J. L. (2004). Science and sustainable development in New Zealand. Journal of the Royal Society of New Zealand 34(1), 9–22.CrossRefGoogle Scholar
Craig, W., Tepfer, M., Degrassi, G. and Ripandelli, D. (2008). An overview of general features of risk assessments of genetically modified crops. Euphytica 164(3), 853–880.CrossRefGoogle Scholar
Curtis, I. A. (2004). Valuing ecosystem goods and services: a new approach using a surrogate market and the combination of a multiple criteria analysis and a Delphi panel to assign weights to the attributes. Ecological Economics 50(3–4), 163–194.CrossRefGoogle Scholar
Curwell, S. and Cooper, I. (1998). The Implications of Urban Sustainability. Building Research and Information, 26(1) 17–28.CrossRefGoogle Scholar
Cury, P., Roy, C., and Faure, V. (1998). Environmental constraints and pelagic fisheries in upwelling areas: The Peruvian puzzle. South African Journal of Marine Science 19, 159–167.CrossRefGoogle Scholar
Dagg, J. L. (2002). Unconventional bed mates: Gaia and the selfish gene. Oikos 96(1), 182–186.CrossRefGoogle Scholar
Daily, G. C. (1997). Introduction: what are ecosystem services? In Nature's Services: Societal Dependence on Natural Scosystems, ed. Daily, G. C., Washington, DC: Island Press, 1–10.Google Scholar
Dallot, S. (2001). Sampling properties of biodiversity indices. Oceanis 24(4), 89–105.Google Scholar
Daniels, P. L. and Moore, S. (2002). Approaches for quantifying the metabolism of physical economies. Part I: Methodological overview. Journal of Industrial Ecology, 5 (4), 69–93.CrossRefGoogle Scholar
Danielsson, A. (2005). Methods for environmental and economic accounting for the exploitation of wild fish stocks and their applications to the case of Icelandic fisheries. Environmental & Resource Economics 31(4), 405–430.CrossRefGoogle Scholar
Groot, R. S., Wilson, M. A. and Boumans, R. M. J. (2002). A typology for the classification, description and valuation of ecosystem functions, goods and services. Ecological Economics 41(3), 393–408.CrossRefGoogle Scholar
Haan, L. J. (2000). Globalization, localization and sustainable livelihood. Sociologia Ruralis 40(3), 339–365.CrossRefGoogle Scholar
Haan, L. J. (2005). How to research the changing outlines of African livelihoods. Paper presented at the 11th General Assembly of CODESRIA, 6–10 December 2005, Maputo 2005.
,Department for International Development (DFID) (1997). Eliminating World Poverty: A Challenge for the 21st Century. White Paper on International Development. HMSO, London. Available at www.dfid.gov.uk/Pubs/files/whitepaper1997.pdfGoogle Scholar
Deroba, J. J. and Bence, J. R. (2008). A review of harvest policies: Understanding relative performance of control rules. Fisheries Research 94(3), 210–223.CrossRefGoogle Scholar
Devinney, T. M. (2009). Is the socially responsible corporation a myth? The good, the bad, and the Ugly of Corporate Social Responsibility. Academy of Management Perspectives 23(2), 44–56.CrossRefGoogle Scholar
Dewulf, J., Langenhove, H., Muys, B., et al. (2008) Exergy: Its potential and limitations in environmental science and technology. Environmental Science & Technology 42(7), 2221–2232.CrossRefGoogle ScholarPubMed
Diekmann, M. (2003). Species indicator values as an important tool in applied plant ecology – a review. Basic and Applied Ecology 4(6), 493–506.CrossRefGoogle Scholar
Dietz, S. and Neumayer, E. (2007). Weak and strong sustainability in the SEEA: Concepts and measurement. Ecological Economics 61(4), 617–626.CrossRefGoogle Scholar
Dincer, I. (2007). Exergetic and sustainability aspects of green energy systems. Clean-Soil Air Water 35(4), 311–322.CrossRefGoogle Scholar
Dinda, S. (2005). A theoretical basis for the environmental Kuznets curve. Ecological Economics 53(3), 403–413.CrossRefGoogle Scholar
Dona, A. and Arvanitoyannis, I. S. (2009). Health Risks of Genetically Modified Foods. Critical Reviews in Food Science and Nutrition 49(2), 164–175.CrossRefGoogle ScholarPubMed
Dryzak, J. S. and Niemeyer, S. (2006). Reconciling pluralism and consensus as political ideals. American Journal of Political Science 50(3), 634–649.CrossRefGoogle Scholar
Dutta, D. and Bandyopadhyay, P. (2007). Productivity, economics and competition functions of groundnut (Arachis hypogaea) plus pigeonpea (Cajanus cajan) intercropping system under various plant density and fertilizer management in rainfed uplands of West Bengal. Advances in Plant Sciences 20(1), 181–184.Google Scholar
,The Ecologist (1972). Blueprint for survival 2(1). Available at www.theecologist.info/key27.html. Also published by Penguin Books.
Edwards-Jones, G., Canals, L. M. I., Hounsome, N., et al. (2008). Testing the assertion that ‘local food is best’: the challenges of an evidence-based approach. Trends in Food Science & Technology 19(5), 265–274.CrossRefGoogle Scholar
Ehrlich, P. and Ehrlich, A. (1990). The Population Explosion, Pymble: Simon & Schuster Australia.Google ScholarPubMed
Ehui, S. K. and Spencer, D. S. C. (1993). Measuring the sustainability and economic viability of tropical farming systems – a model from sub-Saharan Africa. Agricultural Economics 9(4), 279–296.CrossRefGoogle Scholar
Einoder, L. D. (2009), A review of the use of seabirds as indicators in fisheries and ecosystem management. Fisheries Research 95(1), 6–13.CrossRefGoogle Scholar
Ekins, P. (1997). The Kuznets curve for the environment and economic growth: Examining the evidence. Environment and Planning A 29(5), 805–830.CrossRefGoogle Scholar
Elton, C. S. (1927). Animal Ecology, New York: Macmillan.Google Scholar
Espinoza, P. and Bertrand, A. (2008). Revisiting Peruvian anchovy (Engraulis ringens) trophodynamics provides a new vision of the Humboldt Current system. Progress in Oceanography 79(2–4), 215–227.CrossRefGoogle Scholar
Evans, K. E. and Klinger, T. (2008). Obstacles to bottom-up implementation of marine ecosystem management. Conservation Biology 22(5), 1135–1143.CrossRefGoogle ScholarPubMed
Eversole, R. (2003). Managing the pitfalls of participatory development: Some insights from Australia. World Development 31(5), 781–795.CrossRefGoogle Scholar
Faysse, N. (2006). Troubles on the way: An analysis of the challenges faced by multi-stakeholder platforms. Natural Resources Forum 30(3), 219–229.CrossRefGoogle Scholar
Ferguson, A. R. B. (2002). The assumptions underlying eco-footprinting. Population and Environment 23(3), 303–313.CrossRefGoogle Scholar
Few, R., Brown, K. and Tompkins, E. L. (2007). Public participation and climate change adaptation: Avoiding the illusion of inclusion. Climate Policy 7(1), 46–59.CrossRefGoogle Scholar
Fiala, N. (2008). Measuring sustainability: Why the ecological footprint is bad economics and bad environmental science. Ecological Economics 67(4), 519–525.CrossRefGoogle Scholar
Field, F. R., Isaacs, J. A. and Clark, J. P. (1994). Life-cycle analysis of automobiles – a critical review of methodologies. Journal of the Minerals Metals & Materials Society 46(4), 12–16.CrossRefGoogle Scholar
Fielding, A. (1991). Chaotic biology. Biologist 38(5), 185–188.Google Scholar
Florides, G. A. and Christodoulides, P. (2009). Global warming and carbon dioxide through sciences. Environment International 35(2), 390–401.CrossRefGoogle ScholarPubMed
Forde, C. (2005). Participatory democracy or pseudo-participation? Local government reform in Ireland. Local Government Studies 31(2), 137–148.CrossRefGoogle Scholar
Francis, C. A. (1986). Introduction: distribution and importance of multiple cropping. In Multiple Cropping Systems, ed. Francis, C. A., New York: Macmillan, 1–19.Google Scholar
Francis, C. A. (1989). Biological efficiencies in multiple-cropping systems. Advances in Agronomy 42, 1–42.CrossRefGoogle Scholar
Francis, P. (2001). Participatory development at the World Bank: The primacy of process. In Participation the New Tyranny, ed. Cooke, B. and Kothari, U., Londond: Zed Books, 72–87.Google Scholar
Francis, R. I. C. C. and Clark, M. R. (2005). Sustainability issues for Orange Roughy fisheries. Bulletin of Marine Science 76(2), 337–351.Google Scholar
Free, A. and Barton, N. H. (2007). Do evolution and ecology need the Gaia hypothesis?Trends in Ecology & Evolution 22(11), 611–619.CrossRefGoogle ScholarPubMed
Freire, P. (1972). Pedagogy of the Oppressed, London: Sheed and Ward.Google Scholar
Funke, T., Han, H., Healy-Fried, M. L., Fischer, M. and Schönbrunn, E. (2006). Molecular basis for the herbicide resistance of Roundup Ready crops. Proceedings of the National Academy of Science USA 103, 13010–13015.CrossRefGoogle ScholarPubMed
Gaichas, S. K. (2008). A context for ecosystem-based fishery management: Developing concepts of ecosystems and sustainability. Marine Policy 32(3), 393–401.CrossRefGoogle Scholar
Galeotti, M. and Lanza, A. (2005). Desperately seeking environmental Kuznets. Environmental Modelling and Software 20(11), 1379–1388.CrossRefGoogle Scholar
Garcia, S. M., Zerbi, A., Aliaume, C., Chi, T. D. and Lasserre, G. (2003). The ecosystem approach to fisheries: Issues, terminology, principles, institutional foundations, implementation and outlook. FAO Fisheries Technical Paper Issue 443, i-vii, 1–71.Google Scholar
Garcia-Serna, J., Perez-Barrigon, L. and Cocero, M. J. (2007). New trends for design towards sustainability in chemical engineering: Green engineering. Chemical Engineering Journal 133(1–3), 7–30.CrossRefGoogle Scholar
Gari, L. (2002). Arabic treatises on environmental pollution up to the end of the thirteenth century. Environment and History 8(4), 475–488.CrossRefGoogle Scholar
Gause, G. F. (1934). The Struggle for Existence, Baltimore: Williams and Wilkins.CrossRefGoogle ScholarPubMed
Ghosh, P. K., Bandyopadhyay, K. K., Wanjari, R. H., et al. (2007). Legume effect for enhancing productivity and nutrient use-efficiency in major cropping systems – An Indian perspective: A review. Journal of Sustainable Agriculture 30(1), 59–86.CrossRefGoogle Scholar
Giljum, S. (2006). Material flow-based indicators for evaluation of eco-efficiency and dematerialisation policies. In Sustainability Indicators in Ecological Economics, ed. Lawn, P., Cheltenham: Edward Elgar, 376–398.Google Scholar
Glantz, M. H. (1990). Does history have a future – forecasting climate change effects on fisheries by analogy. Fisheries 15(6), 39–44.2.0.CO;2>CrossRefGoogle Scholar
Glendining, M. J., Dailey, A. G., Williams, A. G., et al. (2009). Is it possible to increase the sustainability of arable and ruminant agriculture by reducing inputs?Agricultural Systems 99(2–3), 117–125.CrossRefGoogle Scholar
,Global Footprint Network (2005). National Footprint Accounts, 2005 Edition. Available online at www.footprintnetwork.org).
Goodland, R. (1995). The concept of environmental sustainability. Annual Review of Ecology and Systematics 26, 1–24.CrossRefGoogle Scholar
Gopinath, M. and Roe, T. L. (1997). Sources of sectoral growth in an economy wide context: The case of US agriculture. Journal of Productivity Analysis 8(3), 293–310.CrossRefGoogle Scholar
Gordon, H. S. (1954). The economic theory of a common-property resource: the fishery. Journal of Political Economy, 62, 124–42.CrossRefGoogle Scholar
Graciano, J. D., Zarate, H., Antonio, N., et al. (2007). Yield and gross income of radish and lettuce in monocrop and intercrop system. Acta Scientiarum Agronomy 29(3), 397–401.Google Scholar
Gray, T. and Hatchard, J. (2008). A complicated relationship: Stakeholder participation and the ecosystem-based approach to fisheries management. Marine Policy 32(2), 158–168.CrossRefGoogle Scholar
Greenhalgh, T. and Russell, J. (2009). Evidence-based policy making a critique. Perspectives in Biology and Medicine 52(2), 304–318.CrossRefGoogle ScholarPubMed
Grinnell, J. (1904). The origin and distribution of the chestnut-backed chickadee. Auk 21,364–82.CrossRefGoogle Scholar
Guarnieri, V., Benessia, A., Camino, E. and Barbiero, G. (2008). The Myth of Natural Barriers. Is transgene introgression by genetically modified crops an environmental risk? Rivista Di Biologia-Biology Forum 101(2), 195–214.Google ScholarPubMed
Guijt, I. and Shah, M. (1998). The myth of community: Gender issues in participatory development, London: IT Publications.CrossRefGoogle Scholar
Guvenc, I. and Yildirim, E. (2005). Intercropping with eggplant for proper utilisation of interspace under greenhouse conditions. European Journal of Horticultural Science 70(6), 300–302.Google Scholar
Haberl, H., Wackernagel, M. and Wrbka, T. (2004a). Land use and sustainability indicators. An introduction. Land Use Policy 21(3), 193–198.CrossRefGoogle Scholar
Haberl, H., Wackernagel, M., Krausmann, F., Erb, K. H. and Monfreda, C. (2004b). Ecological footprints and human appropriation of net primary production: a comparison. Land Use Policy 21(3), 279–288.CrossRefGoogle Scholar
Haila, Y. and Kouki, J. (1994). The phenomenon of biodiversity in conservation biology. Annales Zoologici Fennici 31(1), 5–18.Google Scholar
Hamilton, C. (1999). The genuine progress indicator methodological developments and results from Australia. Ecological Economics 30(1), 13–28.CrossRefGoogle Scholar
Hammond, G. P. (2006). People, planet and prosperity: The determinants of humanity's environmental footprint. Natural Resources Forum 30(1), 27–36.CrossRefGoogle Scholar
Harbaugh, W. T., Levinsom, A. and Wilson, D. M. (2002). Re-examining the empirical evidence for an Environmental Kuznets Curve. The Review of Economics and Statistics 84(3), 541–551.CrossRefGoogle Scholar
Hardi, P., Barg, S., Hodge, T. and Pinter, L. (1997). Measuring Sustainable development: review of current practice, Occasional Paper no. 17, Ottawa: Industry Canada.
Hardin, G. (1968). The tragedy of the commons. Science 162, 1243–1248.Google ScholarPubMed
Hatch, M. D. (1992). C4 Photosynthesis: An unlikely process full of surprises. Plant and Cell Physiology, 33(4), 333–342.Google Scholar
Hau, J. L. and Bakshi, B. R. (2004a). Promise and problems of emergy analysis. Ecological Modelling 178(1–2), 215–225.CrossRefGoogle Scholar
Hau, J. L. and Bakshi, B. R. (2004b). Expanding exergy analysis to account for ecosystem products and services. Environmental Science & Technology 38(13), 3768–3777.CrossRefGoogle ScholarPubMed
Heller, M. C. and Keoleian, G. A. (2003). Assessing the sustainability of the US food system: a life cycle perspective. Agricultural Systems 76(3), 1007–1041.CrossRefGoogle Scholar
Hepbasli, A. (2008). A key review on exergetic analysis and assessment of renewable energy resources for a sustainable future. Renewable & Sustainable Energy Reviews 12(3), 593–661.CrossRefGoogle Scholar
Herdt, R. W. (2006). Biotechnology in agriculture. Annual Review of Environment and Resources 31, 265–295.CrossRefGoogle Scholar
Herendeen, R. A. (2004). Energy analysis and EMERGY analysis – a comparison. Ecological Modelling 178(1–2), 227–237.CrossRefGoogle Scholar
Hertwich, E. G. (2005). Life cycle approaches to sustainable consumption: A critical review. Environmental Science & Technology 39(13), 4673–4684.CrossRefGoogle ScholarPubMed
Herva, M., Franco, A., Ferreiro, S., Alvarez, A. and Roca, E. (2008). An approach for the application of the Ecological Footprint as environmental indicator in the textile sector. Journal of Hazardous Materials 156(1–3), 478–487.CrossRefGoogle ScholarPubMed
Heysse, T. (2006). Consensus and power in deliberative democracy. Inquiry – An Interdisciplinary Journal of Philosophy 49(3), 265–289.Google Scholar
Hezri, A. A. (2004). Sustainability indicator system and policy processes in Malaysia: a framework for utilisation and learning. Journal of Environmental Management 73, 357–371.CrossRefGoogle Scholar
Hezri, A. A. (2005). Utilisation of sustainability indicators and impact through policy learning in the Malaysian policy processes. Journal of Environmental Assessment Policy and Management 7(4), 575–595.CrossRefGoogle Scholar
Hibbard, M. and Lurie, S. (2000). Saving land but losing ground. Challenges to community planning in the era of participation. Journal of Planning Education and Research 20(2), 187–195.CrossRefGoogle Scholar
Hickey, S. and Mohan, G. (2005). Relocating participation within a radical politics of development. Development and Change 36(2), 237–262.CrossRefGoogle Scholar
Hilborn, R., Annala, J. and Holland, D. S. (2006). The cost of overfishing and management strategies for new fisheries on slow-growing fish: Orange Roughy (Hoplostethus atlanticus) in New Zealand. Canadian Journal of Fisheries and Aquatic Sciences 63(10), 2149–2153.CrossRefGoogle Scholar
Hilborn, R., Walters, C. J. and Ludwig, D. (1995). Sustainable exploitation of renewable resources. Annual Review of Ecology and Systematics 26, 45–67.CrossRefGoogle Scholar
Hilson, C. (2008). Going local? EU Law, localism and climate change. European Law Review 33(2), 194–210.Google Scholar
Hilty, J. and Merenlender, A. (2000). Faunal indicator taxa selection for monitoring ecosystem health. Biological Conservation 92(2), 185–197.CrossRefGoogle Scholar
Hinterberger, F., Luks, F. and Schmidt-Bleek, F. (1997). Material flows vs. natural capital. What makes an economy sustainable? Ecological Economics, 23 (1), 1–14.CrossRefGoogle Scholar
Holden, E. (1998). Planning theory: Democracy or sustainable development? Both (but don't bother about the bread please). Scandinavian Housing and Planning Research 15(4), 227–247.CrossRefGoogle Scholar
Holmberg, J., Lundqvist, U., Robert, K. H. and Wackernagel, M. (1999). The ecological footprint from a systems perspective of sustainability. International Journal of Sustainable Development and World Ecology 6(1), 17–33.CrossRefGoogle Scholar
Holt, T. (2008). Official statistics, public policy and public trust. Journal of the Royal Statistical Society Series A – Statistics in Society 171(2), 323–346.CrossRefGoogle Scholar
Holt, S. (2009). Sunken billions – But how many?Fisheries Research 97(1–2), 3–10.CrossRefGoogle Scholar
Holub, H. W., Tappeiner, G. and Tappeiner, U. (1999). Some remarks on the ‘System of Integrated Environmental and Economic Accounting’ of the United Nations. Ecological Economics 29(3), 329–336.CrossRefGoogle Scholar
Hoben, A. (1982). Anthropologists and development. Annual review of Anthropology 11, 349–375.CrossRefGoogle Scholar
Hooks, C. R. R. and Johnson, M. W. (2003). Impact of agricultural diversification on the insect community of cruciferous crops. Crop Protection 22(2), 223–238.CrossRefGoogle Scholar
Howlett, M. (2009). Policy analytical capacity and evidence-based policy-making: Lessons from Canada. Canadian Public Administration 52(2), 153–175.CrossRefGoogle Scholar
Hulten, C. R. (2000). Total Factor Productivity: A short siography. NBER Working Paper No. W7471. Available at SSRN: http://ssrn.com/abstract=213430.CrossRef
Hunter, C. M. and Runge, M. C. (2004). The importance of environmental variability and management control error to optimal harvest policies. Journal of Wildlife Management 68(3), 585–594.CrossRefGoogle Scholar
Huston, A. C. (2008). From research to policy and back. Child Development 79(1), 1–12.CrossRefGoogle Scholar
Hutchinson, G. E. (1957). Concluding remarks. Cold Spring Harbour Symposium 22, 415–27.CrossRefGoogle Scholar
Ibarra, A. A., Reid, C. and Thorpe, A. (2000). The political economy of marine fisheries development in Peru, Chile and Mexico. Journal of Latin American Studies 32, 503–527.CrossRefGoogle Scholar
Idyll, C. P. (1973). The anchovy crisis, Scientific American. 228(6), 22–29.CrossRef
Iles, A. (2005). Learning in sustainable agriculture: Food miles and missing objects. Environmental Values 14(2), 163–183.CrossRefGoogle Scholar
Innvaer, S., Vist, G., Trommald, M. and Oxman, A. (2002). Health policy-makers' perceptions of their use of evidence: a systematic review. Journal of Health Services Research Policy 7(4), 239–244h.CrossRefGoogle ScholarPubMed
,Intergovernmental Panel on Climate Change (2007). Synthesis Report. Summary for Policymakers. Available at www.ipcc.ch/pdf/assessment-report/ar4/syr/ar4_syr_spm.pdf
Izac, A.-M. N. and Swift, M. J. (1994). On agricultural sustainability and its measurement in small-scale farming in sub-Saharan Africa. Ecological Economics 11, 105–125.CrossRefGoogle Scholar
Jahansooz, M. R., Yunusa, I. A. M.., Coventry, D. R., Palmer, A. R. and Eamus, D. (2007). Radiation- and water-use associated with growth and yields of wheat and chickpea in sole and mixed crops. European Journal of Agronomy 26(3), 275–282.CrossRefGoogle Scholar
James, C. (2006). Global status of commercialized biotech/GM crops: 2006. (ISAAA Briefs No. 35). New York: International Service for the Aquisition of Agri-Biotech Applications (ISAAA).Google Scholar
Jennings, S., Kaiser, M. J. and Reynolds, J. D. (2001). Marine Fisheries Ecology, Malden MA: Blackwell Publishing.Google Scholar
Johnston, P., Everard, M., Santillo, D., Robert, K.-H. (2007). Reclaiming the definition of sustainability. Environmental Science and Pollution Research 14(1), 60–66.Google ScholarPubMed
Jonasson, B. L. (2004). Stakeholder participation as a tool for sustainable development in the Em River Basin. International Journal of Water Resources Development 20(3), 345–352.CrossRefGoogle Scholar
Jones, A. (2002). An environmental assessment of food supply chains: A case study on dessert apples. Environmental Management 30(4), 560–576.CrossRefGoogle ScholarPubMed
Jones, P., Comfort, D. and Hillier, D. (2007). Sustainable development and the UK's major retailers. Geography 92(1), 41–47.Google Scholar
Jonsson, A. (2000). Tools and methods for environmental assessment of building products – methodological analysis of six selected approaches. Building and Environment 35(3), 223–238.CrossRefGoogle Scholar
Juntti, M., Russel, D. and Turnpenny, J. (2009). Evidence, politics and power in public policy for the environment. Environmental Science & Policy 12(3), 207–215.CrossRefGoogle Scholar
Kallio, T. J. (2007). Taboos in corporate social responsibility discourse. Journal of Business Ethics 74(2), 165–175.CrossRefGoogle Scholar
Karnani, M. and Annila, A. (2009). Gaia again. Biosystems 95(1), 82–87.CrossRefGoogle Scholar
Kates, R. W., Clark, W. C., Corell, R., et al. (2000). Sustainability Science. Cambridge MA: Belfer Center for Science and International Affairs, Harvard University.Google Scholar
Katz, S. L., Zabel, R., Harvey, C., Good, T. and Levin, P. (2001). Ecologically sustainable yield, American Scientist 91(2), 150.Google Scholar
Keller, C. F. (2007). Global warming 2007. An update to global warming: the balance of evidence and its policy implications. The Scientific World Journal 7, 381–99.CrossRefGoogle ScholarPubMed
Keller, C. F. (2009). Global warming: a review of this mostly settled issue. Stochastic Environmental Research and Risk Assessment 23(5), 643–676.CrossRefGoogle Scholar
Kelling, K. A. and Klemme, R. M. (1989). Defining ‘sustainable’. Agrochemical Age, May, 32.Google Scholar
Key, S., Ma, J. K. C. and Drake, P. M. W. (2008). Genetically modified plants and human health. Journal of the Royal Society of Medicine 101(6), 290–298.CrossRefGoogle ScholarPubMed
Kidd, C. V. (1992). The evolution of sustainability, Journal of Agricultural and Environmental Ethics 5 (1), 1–26.CrossRefGoogle Scholar
King, C. A. (2008). Community resilience and contemporary agri-ecological systems: Reconnecting people and food, and people with people. Systems Research and Behavioral Science 25(1), 111–124.CrossRefGoogle Scholar
King, G. (2003). The role of participation in the European demonstration projects in ICZM. Coastal Management 31(2), 137–143.CrossRefGoogle Scholar
Kirchner, J. W. (2002). The Gaia hypothesis: Fact, theory, and wishful thinking. Climatic Change 52(4), 391–408.CrossRefGoogle Scholar
Kirchner, J. W. (2003). The Gaia hypothesis: Conjectures and refutations. Climatic Change 58(1–2), 21–45.CrossRefGoogle Scholar
Kitzes, J. and Wackernagel, M. (2009). Answers to common questions in Ecological Footprint accounting. Ecological Indicators 9(4), 812–817.CrossRefGoogle Scholar
Kitzes, J., Wackernagel, M., Loh, J., et al. (2008). Shrink and share: humanity's present and future Ecological Footprint. Philosophical Transactions of the Royal Society B-Biological Sciences 363(1491), 467–475.CrossRefGoogle ScholarPubMed
Kitzes, J., Galli, A., Bagliani, M., et al. (2009). A research agenda for improving national Ecological Footprint accounts. Ecological Economics 68(7), 1991–2007.CrossRefGoogle Scholar
Krotscheck, C. (1997). Measuring eco-sustainability: Comparison of mass and/or energy flow based highly aggregated indicators. Environmetrics 8(6), 661–681.3.0.CO;2-N>CrossRefGoogle Scholar
Kuznets, S. and Simon, P. (1955). Economic growth and income inequality American Economic Review 45, 1–28.
Landon, J. R. (Ed.) (1984). Booker tropical soil manual. Harlow, UK: Longman.
Lange, G. M. (2007). Environmental accounting: Introducing the SEEA-2003. Ecological Economics 61(4), 589–591.CrossRefGoogle Scholar
Larkin, P. A. (1977). An epitaph for the concept of Maximum Sustainable Yield, Transactions of the American Fisheries Society 106 (1), 1–11.2.0.CO;2>CrossRefGoogle Scholar
Lawlor, D. W. and Mitchell, R. A. C. (1991). The effects of increasing CO2 on crop photosynthesis and productivity – a review of field studies. Plant Cell and Environment 14(8), 807–818.CrossRefGoogle Scholar
Lawn, P. A. (2003). A theoretical foundation to support the Index of Sustainable Economic Welfare (ISEW), Genuine Progress Indicator (GPI), and other related indexes. Ecological Economics 44, 105–118.CrossRefGoogle Scholar
Lawn, P. (2007). A stock-take of green national accounting initiatives. Social Indicators Research 80(2), 427–460.CrossRefGoogle Scholar
Laws, E. A. (1997). El Nino and the Peruvian Anchovy Fishery, Sausalito, CA: University Science Books.Google Scholar
Leach, M., Scoones, I. and Thompson, L. (2002). Citizenship, science and risk: Conceptualising relationships across issues and settings. IDS Bulletin 33(2), 40.CrossRefGoogle Scholar
Lee, J. J., Ocallaghan, P. and Allen, D. (1995). Critical-review of life-cycle analysis and assessment techniques and their application to commercial activities. Resources Conservation and Recycling 13(1), 37–56.CrossRefGoogle Scholar
Lee, M.-D. P. (2008). A review of the theories of corporate social responsibility: Its evolutionary path and the road ahead. International Journal of Management Reviews 10(1), 53–73.CrossRefGoogle Scholar
Lehman, H., Clark, E. A. and Weise, S. F. (1993). Clarifying the definition of sustainable agriculture. Journal of Environmental Ethics 6(2), 127–143.CrossRefGoogle Scholar
Leibold, M. A. (1995). The niche concept revisited – mechanistic models and community context. Ecology 76(5), 1371–1382.CrossRefGoogle Scholar
Lenton, T. M. and Oijen, M. (2002). Gaia as a complex adaptive system. Philosophical Transactions of the Royal Society of London Series B – Biological Sciences 357(1421), 683–695.CrossRefGoogle ScholarPubMed
Levins, R. (1968). Evolution in Changing Environments. Princeton, NJ: Princeton University Press.Google Scholar
Lewin, K. (1948). Resolving Social Conflicts: Selected Papers on Group Dynamics, New York: Harper & Brothers.Google Scholar
Lo, S.-F. and Sheu, H.-J. (2007). Is corporate sustainability a value-increasing strategy for business?Corporate Governance-An International Review 15(2), 345–358.CrossRefGoogle Scholar
Long, S. P., Zhu, X.-G., Naidu, S. L. and Ort, D. R. (2006). Can improvement in photosynthesis increase crop yields?Plant, Cell and Environment 29, 315–330.CrossRefGoogle ScholarPubMed
Long, N. and Long, A. (1992). Battlefields of Knowledge: Interlocking of Theory and Practice in Social Research and Development. London: Routledge.Google Scholar
Lopez, M. V., Garcia, A. and Rodriguez, L. (2007). Sustainable development and corporate performance: A study based on the Dow Jones Sustainability Index. Journal of Business Ethics 75(3), 285–300.CrossRefGoogle Scholar
Lovelock, J. E. (1987).Gaia: A New Look at Life on Earth, Oxford, UK: Oxford University Press.Google Scholar
Lovelock, J. E. (1988). The Ages of Gaia. A Biography of Our Living Earth, Oxford, UK: Oxford University Press.Google Scholar
Lovelock, J. E. and Margulis, L. (1974). Atmospheric homeostasis by and for biosphere – Gaia hypothesis. Tellus 26(1–2), 2–10.CrossRefGoogle Scholar
Lynam, J. K. and Herdt, R. W. (1989). Sense and sustainability: Sustainability as an objective in international agricultural research. Agricultural Economics 3, 381–398.CrossRefGoogle Scholar
MacDonald, M. and Peters, K. (2007). The Sustainability Report: A Review of Corporate Sustainability Reporting, York, UK: York Centre for Applied Sustainability, York University, www.sustreport.org/business/report/intro.html. Accessed 10/9/09.Google Scholar
Mace, P. M. (2001). A new role for MSY in single-species and ecosystem approaches to fisheries stock assessment and management. Fish and Fisheries 2, 2–32.CrossRefGoogle Scholar
Malezieux, E., Crozat, Y., Dupraz, C., et al. (2009). Mixing plant species in cropping systems: concepts, tools and models. A review. Agronomy for Sustainable Development 29(1), 43–62.CrossRefGoogle Scholar
Mallory-Smith, C. and Zapiola, M. (2008). Gene flow from glyphosate-resistant crops. Pest Management Science 64(4), 428–440.CrossRefGoogle ScholarPubMed
Manrique, L. A. (1993). Crop production in the tropics – a review. Journal of Plant Nutrition 16(8), 1485–1516.CrossRefGoogle Scholar
Mansuri, G. and Rao, V. (2004). Community-based and –driven development: A critical review. World Bank Research Observer 19(1), 1–39.CrossRefGoogle Scholar
Marjolein, B. A. V. and Rijkens-Klomp, N. (2002). A look in the mirror; reflection on participation in Integrated Assessment from a methodological perspective. Global Environment, Change-Human and Policy Dimensions 12(3), 167–184.CrossRefGoogle Scholar
Mayer, A. L., Thurston, H. W. and Pawlowski, C. W. (2004). The multidisciplinary influence of common sustainability indices. Frontiers in Ecology and the Environment 2(8), 419–426.CrossRefGoogle Scholar
McLean, I. (2008). Climate change and UK politics: From Brynle Williams to Sir Nicholas Stern. Political Quarterly 79(2), 184–193.CrossRefGoogle Scholar
McManus, P. and Haughton, G. (2006). Planning with Ecological Footprints: a sympathetic critique of theory and practice. Environment and Urbanization 18(1), 113–127.CrossRefGoogle Scholar
Mead, R. and Willey, R. W. (1980). The concept of a land equivalent ratio and advantages in yields from intercropping. Experimental Agriculture 16(3), 217–228.CrossRefGoogle Scholar
Meadowcroft, J. (1999). The politics of sustainable development: Emergent arenas and challenges for political science. International Political Science Review 20(2), 219–237.CrossRefGoogle Scholar
Mebratu, D. (1998). Sustainability and sustainable development: Historical and conceptual review. Environmental Impact Assessment Review 18(6), 493–520.CrossRefGoogle Scholar
Meehl, G. A., Stocker, T. F., Collins, W. D., et al. (2007). Global climate projections. In Climate Change 2007: The Physical Science Basis, Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, ed. Solomon, S., Qin, D., Manning, M., Chen, Z., Marquis, M., Averyt, K. B., Tignor, M. and Miller, H. L., Cambridge, UK and New York: Cambridge University Press.Google Scholar
Mendoza, G. A. and Prabhu, R. (2005). Combining participatory modelling and multi-criteria analysis for community-based forest management. Forest Ecology and Management 207(1–2), 145–156.CrossRefGoogle Scholar
Mertz, O., Ravnborg, H. M., Lovei, G. L., Nielsen, I. and Konijnendijk, C. C. (2007). Ecosystem services and biodiversity in developing countries. Biodiversity and Conservation 16(10), 2729–2737.CrossRefGoogle Scholar
Metz, M. (2003). Baccillus thuringiensis: A Cornerstone of modern agriculture. Binghampton: Haworth Press.Google Scholar
Mikalsen, K. H. and Jentoft, S. (2008). Participatory practices in fisheries across Europe: Making stakeholders more responsible. Marine Policy 32(2), 169–177.CrossRefGoogle Scholar
Miller, F. P. (2003). Natural resources management and the second Copernican revolution. Journal of Natural Resources and Life Sciences Education 32, 43–51.Google Scholar
Miller, R. P. and Nair, P. K. R. (2006). Indigenous agroforestry systems in Amazonia: from prehistory to today. Agroforestry Systems 66(2), 151–164.CrossRefGoogle Scholar
Miller, V., VeneKlasen, L. and Clark, C. (2005). Rights-based development: Linking rights and participation – Challenges in thinking and action. IDS Bulletin 36(1), 31.CrossRefGoogle Scholar
Mills, J. H. and Waite, T. A.. (2009). Economic prosperity, biodiversity conservation, and the environmental Kuznets curve. Ecological Economics 68(7), 2087–2095.CrossRefGoogle Scholar
Mitcham, C. (1995). The concept of sustainable development: its origins and ambivalence. Technology in Society 17(3), 311–326.CrossRefGoogle Scholar
Moffatt, I. (2008). A preliminary analysis of composite indicators of sustainable development. International Journal of Sustainable Development and World Ecology 15(2), 81–87.CrossRefGoogle Scholar
Mohan, G. and Stokke, K. (2000). Participatory development and empowerment: the dangers of localism. Third World Quarterly 21(2), 247–268.CrossRefGoogle Scholar
Mohsenabadi, G. R., Jahansooz, M. R., Chaichi, M. R., et al. (2008). Evaluation of barley vetch intercrop at different nitrogen rates. Journal of Agricultural Science and Technology 10(1), 23–31.Google Scholar
Monfreda, C., Wackernagel, M. and Deumling, D. (2004). Establishing national natural capital accounts based on detailed – Ecological Footprint and biological capacity assessments. Land Use Policy 21(3), 231–246.CrossRefGoogle Scholar
Montambault, J. R. and Alavalapati, J. R. R. (2005). Socioeconomic research in agroforestry: a decade in review. Agroforestry Systems 65(2), 151–161.CrossRefGoogle Scholar
Montiel, I. (2008). Corporate social responsibility and corporate sustainability – Separate pasts, common futures. Organization & Environment 21(3), 245–269.CrossRefGoogle Scholar
Moon, J. (2007). The contribution of corporate social responsibility to sustainable development. Sustainable Development 15(5), 296–306.CrossRefGoogle Scholar
Moran, D. D., Wackernagel, M., Kitzes, J. A., Goldfinger, S. H. and Boutaud, A. (2008). Measuring sustainable development – Nation by nation. Ecological Economics 64(3), 470–474.CrossRefGoogle Scholar
Mosse, D. (2001). ‘People's knowledge’, participation and patronage: Operations and representations in rural development. In Participation the New Tyranny, ed. Cooke, B. and Kothari, U., London: Zed Books, 16–35.Google Scholar
Mous, P. J., Pet, J. S., Arifin, Z., et al. (2005). Policy needs to improve marine capture fisheries management and to define a role for marine protected areas in Indonesia. Fisheries Management and Ecology 12(4), 259–268.CrossRefGoogle Scholar
Mundlak, Y. (2005). Economic growth: Lessons from two centuries of American agriculture. Journal of Economic Literature 43(4), 989–1024.CrossRefGoogle Scholar
Munro, N. D. (2003). Small game, the younger dryas, and the transition to agriculture in the southern levant. Mitteilungen der Gesellschaft für Urgeschichte 12, 47–71.Google Scholar
Munro, N. D. (2004). Zooarchaeological measures of hunting pressure and occupation intensity in the Natufian. Implications for agricultural origins. Current Anthropology 45, S5–S33.CrossRefGoogle Scholar
Muoneke, C. O., Ogwuche, M. A. O. and Kalu, B. A. (2007). Effect of maize planting density on the performance of maize/soybean intercropping system in a guinea savannah agroecosystem. African Journal of Agricultural Research 2(12), 667–677.Google Scholar
Mutamba, E. (2004). Community participation in natural resources management:Reality or rhetoric? Environmental Monitoring and Assessment 99(1–3), 105–113.CrossRefGoogle Scholar
Muthuri, J. N., Chapple, W. and Moon, J. (2009). An integrated approach to implementing ‘community participation’ in corporate community involvement: lessons from Magadi Soda Company in Kenya. Journal of Business Ethics 85(2), 431–444.CrossRefGoogle Scholar
Nahman, A. and Antrobus, G. (2005). The environmental Kuznets curve:A literature review. South African Journal of Economics, 73 (1), 105–120.CrossRefGoogle Scholar
Nattrass, B. and Altomare, M. (1999). The Natural Step for business. In Wealth, Ecology and the Evolutionary Corporation, Gabrioloa Island, BC: New Society Publishers.Google Scholar
Nattrass, B. and Altomare, M. (2002). Dancing with the tiger. In Learning Sustainability Step by Natural Step, Gabriola Island, BC: New Society Publishers.Google Scholar
Nedunchezhiyan, M. (2007). Production and energy-use efficiency of greater yam (Dioscorea alata)-based intercropping system as influenced by intercrops and planting patterns. Indian Journal of Agronomy 52(3), 216–219.Google Scholar
Neumayer, E. (2000). On the methodology of ISEW, GPI and related measures: some constructive suggestions and some doubt on the ‘threshold’ hypothesis, Ecological Economics 34, 347–361.CrossRefGoogle Scholar
Newig, J., Haberl, H., Pahl-Wostl, C. and Rothman, D. S. (2008). formalised and non-formalised methods in resource management-knowledge and social learning in participatory processes: an Introduction. Systemic Practice and Action Research 21(6), 381–387.CrossRefGoogle Scholar
Neylan, J. (2008). Social policy and the authority of evidence. The Australian Journal of Public Administration 67(1), 12–19.CrossRefGoogle Scholar
Nielsen, P. N. and Ditlevsen, P. (2009). On the homeostasis and bistability on a Gaian planet. Planetary and Space Science 57(4), 491–497.CrossRefGoogle Scholar
Niquen, M. and Bouchon, M. (2004). Impact of El Nino events on pelagic fisheries in Peruvian waters. Deep-Sea Research Part II – Topical Studies in Oceanography 51(6–9), 563–574.CrossRefGoogle Scholar
Norberg, J. (1999). Linking Nature's services to ecosystems: some general ecological concepts. Ecological Economics 29(2), 183–202.CrossRefGoogle Scholar
Nuijten, M. (2004). Peasant ‘participation’, rural property and the state in western Mexico. Journal of Peasant Studies 31(2), 181–209.CrossRefGoogle Scholar
Ny, H., MacDonald, J. P., Broman, G., Yamamoto, R. and Robert, K. H. (2006). Sustainability constraints as system boundaries – An approach to making life-cycle management strategic. Journal of Industrial Ecology 10(1–2), 61–77.CrossRefGoogle Scholar
Odero, K. K. (2006). Information capital: 6th asset of sustainable livelihood framework. Discovery and Innovation 18(2), 83–91.CrossRefGoogle Scholar
Odum, H. T. (1957). Trophic structure and productivity of Silver Springs, Florida. Ecological Monographs 27, 55 –112.CrossRefGoogle Scholar
Odum, E. P. (1959). Fundamentals of Ecology, 2nd Edn., Philadelphia: Saunders.Google Scholar
Odum, E. P. (1975). Ecology, 2nd Edn., London: Holt Rinehart and Winston.Google Scholar
Odum, H. T. (1988). Self-organization, transformity and information. Science 242(4882), 1132–1139.CrossRefGoogle Scholar
Odum, H. T. (1996). Environmental Accounting: Emergy and Environmental Decision Making, New York: John Wiley & Sons Inc.Google Scholar
Ofori, K. and Gamedoagbao, D. K. (2005). Yield of scarlet eggplant (Solanum aethiopicum L.) as influenced by planting date of companion cowpea. Scientia Horticulturae 105(3), 305–312.CrossRefGoogle Scholar
O'Hara, S. U. (1997). Toward a sustaining production theory. Ecological Economics 20(2), 141–154.CrossRefGoogle Scholar
Osborne, C. P. and Beerling, D. J. (2006). Nature's green revolution: the remarkable evolutionary rise of C-4 plants. Philosophical Transactions of the Royal Society b-Biological Sciences 361(1465), 173–194.CrossRefGoogle Scholar
Ostrom, E. (2001). The Drama of the Commons, Washington DC: National Academies Press.Google Scholar
Ozor, N. and Igbokwe, E. M. (2007). Roles of agricultural biotechnology in ensuring adequate food security in developing societies. African Journal of Biotechnology 6(14), 1597–1602.Google Scholar
Padhi, A. K. and Panigrahi, R. K. (2006). Effect of intercrop and crop geometry on productivity, economics, energetics and soil-fertility status of maize (Zea mays)-based intercropping systems. Indian Journal of Agronomy 51(3), 174–177.Google Scholar
Pandey, D. N. (2007). Multifunctional agroforestry systems in India. Current Science 92(4), 455–463.Google Scholar
Pankhurst, N. W. (1999). Deep sea fisheries: Managing the unmanageable? Environmental Biology of Fishes 55(4), 459–461.CrossRefGoogle Scholar
Pannell, D. J. (1999). Social and economic challenges in the development of complex farming systems. Agroforestry Systems 45(1–3), 393–409.CrossRefGoogle Scholar
Papendick, R. I., Sanchez, P. A. and Triplett, G. B. (Eds.) (1976). Multiple Cropping: Proceedings of a Symposium, ASA Special Publication Number 27, Madison Wisconsin: American Society of Agronomy, Crop Science Society of America and Soil Science Society of America.
Parfitt, T. (2004). The ambiguity of participation: a qualified defence of participatory development. Third World Quarterly 25(3), 537–556.CrossRefGoogle Scholar
Parkins, J. R. (2006). De-centralising environmental governance: A short history and analysis of democratic processes in the forest sector of Alberta, Canada. Policy Studies 39(2), 183–203.Google Scholar
Parris, T. M. and Kates, R. W. (2003). Characterizing and measuring sustainable development. Annual Review of Environment and Resources 28, 559–586.CrossRefGoogle Scholar
Patil, J. D., Ranpise, S. A. and Kakade, D. S. (2004). Inter-cropping studies in cabbage during kharif season. Journal of Maharashtra Agricultural Universities 29(1), 39–41.Google Scholar
Patil, D. H., Pujari, B. T. and Mudalagiriyappa, B. T. (2007). Fertilizer management in groundnut and sunflower intercropping system for better economics and land utilization. Crop Research (Hisar) 34(1–3), 80–83.Google Scholar
Paulsen, H. M. (2008). Organic mixed cropping systems with oilseeds 2. Yields of mixed cropping systems of linseed (Linum ustitatissivum L.) with spring wheat, oats or false flax. Landbauforschung Volkenrode 58(4), 307–314.Google Scholar
Pava, M. L. (2008). Why corporations should not abandon social responsibility. Journal of Business Ethics 83(4), 805–812.CrossRefGoogle Scholar
Pawson, R. (2006). Evidence-Based Policy: A Realist Perspective, Londond: Sage Publications.CrossRefGoogle Scholar
Pelletier, N. L., Ayer, N. W., Tyedmers, P. H.et al. (2007). Impact categories for life cycle assessment research of seafood production systems: Review and prospectus. International Journal of Life Cycle Assessment 12(6), 414–421.CrossRefGoogle Scholar
Pepper, D. (1987). The Roots of Modern Environmentalism, London: Routledge.Google Scholar
Pereira, H. M. and Cooper, H. D. (2006). Towards the global monitoring of biodiversity change. Trends in Ecology & Evolution 21(3), 123–129.CrossRefGoogle ScholarPubMed
Perman, R. and Stern, D. I. (2003). Evidence from panel unit root and co-integration tests that the Environmental Kuznets Curve does not exist. Australian Journal of Agricultural and Resource Economics, 47(3). 325–347.CrossRefGoogle Scholar
Peterson, M. N., Peterson, M. J. and Peterson, T. R. (2005). Conservation and the myth of consensus. Conservation Biology 19(3), 762–767.CrossRefGoogle Scholar
Polacheck, T., Hilborn, R. and Punt, A. E. (1993). Fitting surplus production models: Comparing methods and measuring uncertainty. Canadian Journal of Fisheries and Aquatic Sciences 50(12), 2597–2607.CrossRefGoogle Scholar
Poolman, M. and Giesen, N. (2006). Participation: rhetoric and reality. The importance of understanding stakeholders based on a case study in Upper East Ghana. International Journal of Water Resources Development 22(4), 561–573.CrossRefGoogle Scholar
Popielarz, P. A. and Neal, Z. P. (2007). The niche as a theoretical tool. Annual Review of Sociology 33, 65–84.CrossRefGoogle Scholar
Porwal, M. K., Agarwal, S. K. and Khokhar, A. K. (2006). Effect of planting methods and intercrops on productivity and economics of castor (Ricinus communis)-based intercropping systems. Indian Journal of Agronomy 51(4), 274–277.Google Scholar
Prager, M. H. (1994). A suite of extensions to a non-equilibrium surplus-production model. Fishery Bulletin 92(2), 374–389.Google Scholar
Prakash, V., Pandey, A. K. and Srivastava, A. K. (2004a). Relay intercropping of potato (Solanum tuberosum) in maize (Zea mays) under mid-hill condition of north-western Himalaya. Indian Journal of Agricultural Sciences 74(2), 64–67.Google Scholar
Prakash, V., Pandey, A. K., Srivastva, A. K. and Gupta, H. S. (2004b). Relay intercropping of hybrid tomato (Lyeopersicon esculentum) in maize (Zea mays) under mid-hill condition of North-Western Himalayas. Indian Journal of Agricultural Sciences 74(8), 405–408.Google Scholar
Pretty, J. N., Ball, A. S., Lang, T and Morison, J. I. L. (2005). Farm costs and food miles: An assessment of the full cost of the UK weekly food basket. Food Policy 30(1), 1–19.CrossRefGoogle Scholar
Pullin, A. S. and Knight, T. M. (2009). Doing more good than harm – Building an evidence-base for conservation and environmental management. Biological Conservation 142(5), 931–934.CrossRefGoogle Scholar
Rahimi, M. M. and Yadegari, M. (2008). Assessment of product in corn and soybean intercropping. International Conference on Mathematical Biology 2007, AIP Conference Proceedings 971, 187–191.Google Scholar
Raji, J. A. (2007). Intercropping kenaf and cowpea. African Journal of Biotechnology 6(24), 2807–2809.Google Scholar
Raji, J. A. (2008). The feasibility of intercropping kenaf with sorghum in a small-holder farming system. Journal of Sustainable Agriculture 32(2), 355–364.CrossRefGoogle Scholar
Rao, S. S., Regar, P. L., Jangid, B. L. and Chand, K. (2009). Productivity and economics of sorghum (Sorghum bicolor) and greengram (Phaseolus radiata) intercropping system as affected by row ratio and nitrogen in and fringes. Indian Journal of Agricultural Sciences 79(2), 101–105.Google Scholar
Raugei, M. and Ulgiati, S. (2009). A novel approach to the problem of geographic allocation of environmental impact in Life Cycle Assessment and Material Flow Analysis. Ecological Indicators 9(6), 1257–1283.CrossRefGoogle Scholar
Raup, D. and Sepkoski, J. (1982). Mass extinctions in the marine fossil record. Science 215, 1501–1503.CrossRefGoogle ScholarPubMed
Ravallion, M. (1997). Good and bad growth: The Human Development Reports. World Development 25(5), 631–638.CrossRefGoogle Scholar
Rebitzer, G., Ekvall, T., Frischknecht, R.et al. (2004). Life cycle assessment Part 1: Framework, goal and scope definition, inventory analysis, and applications. Environment International 30(5), 701–720.CrossRefGoogle ScholarPubMed
Reed, M. S. (2008). Stakeholder participation for environmental management: A literature review. Biological Conservation 141(10), 2417–2431.CrossRefGoogle Scholar
Reed, M. S., Graves, A., Dandy, N.et al. (2009). Who's in and why? A typology of stakeholder analysis methods for natural resource management. Journal of Environmental Management 90(5), 1933–1949.CrossRefGoogle Scholar
Rees, W. E. (1996). Ecological footprints of the future. Overview. People Planet 5(2), 6–9.Google Scholar
Rees, W. E. (2002). Footprint: our impact on Earth is getting heavier. Nature 420(6913), 267–268.CrossRefGoogle ScholarPubMed
Ricotta, C. (2005). Through the jungle of biological diversity. Acta Biotheoretica 53(1), 29–38.CrossRefGoogle ScholarPubMed
Riley, J. (1984). A general-form of the Land Equivalent Ratio. Experimental Agriculture 20(1), 19–29.CrossRefGoogle Scholar
Robèrt, K.-H. (2002). The Natural Step Story. Seeding a Quiet Revolution. Gabriola Island BC: New Society Publishers.Google Scholar
Robèrt, K.-H., Daly, H., Hawken, P. and Holmberg, J. (1997). A compass for sustainable development. International Journal of Sustainable Development and World Ecology (4),79–92.CrossRefGoogle Scholar
Rockloff, S. F. and Moore, S. A. (2006). Assessing representation at different scales of decision making: Rethinking local is better. Policy Studies Journal 34(4), 649–670.CrossRefGoogle Scholar
Rohde, R. A. and Muller, R. A. (2005). Cycles in fossil diversity. Nature 434, 209–210.CrossRefGoogle ScholarPubMed
Romsdahl, R. J. (2005). Appendix A. When do environmental decision makers use social science? In Decision Making for the Environment: Social and Behavioural Science Research Priorities, ed. Brewer, G. D. and Stern, P. C.Washington DC: National Academies Press.Google Scholar
Rosen, M. A., Dincer, I. and Kanoglu, M. (2008). Role of exergy in increasing efficiency and sustainability and reducing environmental impact. Energy Policy 36(1), 128–137.CrossRefGoogle Scholar
Rosenberg, A. A., Swasey, J. H. and Bowman, M. (2006). Rebuilding US fisheries: progress and problems. Frontiers in Ecology and the Environment 4(6), 303–308.CrossRefGoogle Scholar
Rowland, J., Andrews, W. S. and Creber, K. A. M. (2004). A neural network approach to selecting indicators for a sustainable ecosystem. Journal of Environmental Engineering and Science 3(Supplement 1), S129-S136.CrossRefGoogle Scholar
Rupasingha, A., Goetz, S. J., Debertin, D. L. and Pagoulatos, A. (2004). The environmental Kuznets curve for US counties: A spatial econometric analysis with extensions. Papers in Regional Science 83 (2), 407–424.CrossRefGoogle Scholar
Rydin, Y. (2007). Indicators as a governmental technology? The lessons of community-based sustainability indicator projects. Environment and Planning D: Society and Space 25, 610–624.CrossRefGoogle Scholar
Salazar, J. F. and Poveda, G. (2009). Role of a simplified hydrological cycle and clouds in regulating the climate-biota system of Daisyworld. Tellus Series B – Chemical and Physical Meteorology 61(2), 483–497.CrossRefGoogle Scholar
Salwasser, H. (1993). Sustainability needs more than better science. Ecological Applications 3(4), 587–589.Google ScholarPubMed
Sanderson, I. (2002). Evaluation, policy learning and evidence-based policy making. Public Administration 80(1), 1–22.CrossRefGoogle Scholar
Sarkar, R. K., Malik, G. C. and Pal, P. K. (2004). Effect of intercropping lentil (Lens culinaris) and linseed (Linum usitatissimum) under varying plant density and row arrangement on productivity and advantages in system under rainfed upland. Indian Journal of Agronomy 49(4), 241–243.Google Scholar
Scales, B. R. and Marsden, S. J. (2008). Biodiversity in small-scale tropical agroforests: a review of species richness and abundance shifts and the factors influencing them. Environmental Conservation 35(2), 160–172.CrossRefGoogle Scholar
Schaefer, M. B. (1954). Some aspects of the dynamics of populations important to the management of commercial marine fisheries. Bulletin of the Inter-American Tropical Tuna Commission 1, 27–56.Google Scholar
Schaefer, M. B. (1957). A study of the dynamics of the fishery for yellowfin tuna in the eastern tropical Pacific Ocean. Bulletin of the Inter-American Tropical Tuna Commission 2, 245–285.Google Scholar
Scherr, S. J. (1991). On-farm research – the challenges of agroforestry. Agroforestry Systems 15(2–3), 95–110.CrossRefGoogle Scholar
Schmidt-Bleek, F. (2000). The Factor 10/MIPS-Concept. Bridging ecological, economic, and social dimensions with Sustainability Indicators. Available for download at factor10-institute.org/files/MIPS.pdf.
Schulthess, F., Chabi-Olaye, A. and Gounou, S. (2004). Multi-trophic level interactions in a cassava-maize mixed cropping system in the humid tropics of West Africa. Bulletin of Entomological Research 94(3), 261–272.CrossRefGoogle Scholar
Schwilch, G., Bachmann, F. and Liniger, H. P. (2009). Appraising and selecting conservation measures to mitigate desertification and land degradation based on stakeholder participation and global best practices. Land Degradation & Development 20(3), 308–326.CrossRefGoogle Scholar
,Science Council of Canada (1992). Sustainable Agriculture: The Research Challenge. Report 43, July, Ottawa, Ontario: Science Council of Canada.Google Scholar
Scott, I. M. (2000). Green symbolism in the genetic modification debate. Journal of Agricultural & Environmental Ethics 13(3–4), 293–311.CrossRefGoogle Scholar
Sellamna, N.-E. (1999). Relativism in Agricultural Research and Development: Is Participation a Post-Modern Concept? ODI Working Paper 119. Overseas Development Institute:London.Google Scholar
Sen, A. K. (1984). Resources, Values and Development, Cambridge, MA: Harvard University Press.Google Scholar
Sen, A. K. 1985. Commodities and Capabilities, Oxford: Oxford University Press.Google Scholar
Sepkoski, J. J. (2002). A compendium of fossil marine animal genera. Bulletin of American Paleontology 363, 1–560.Google Scholar
Sharma, K. C. (2008). Fodder productivity and economics of multi-cut pearlmillet (Pennisetum glaucum) intercropped with clusterbean (Cyamopsis tetragonoloba). Indian Journal of Agronomy 53(1), 51–56.Google Scholar
Sharma, R. P., Singh, A. K., Poddar, B. K. and Raman, K. R. (2008). Forage production potential and economics of maize (Zea mays) with legumes intercropping under various row proportions. Indian Journal of Agronomy 53(2), 121–124.Google Scholar
Shelton, P. A. and Sinclair, A. F. (2008). It's time to sharpen our definition of sustainable fisheries management. Canadian Journal of Fisheries and Aquatic Sciences 65(10), 2305–2314.CrossRefGoogle Scholar
Shen, C.-H. and Chang, Y. (2009). Ambition versus conscience, does Corporate Social Responsibility pay off? The application of matching methods. Journal of Business Ethics 88, 133–153.CrossRefGoogle Scholar
Shrivastava, G. K., Lakpale, R., Choubey, N. K. and Singh, A. P. (2004). Productivity and economics of pigeonpea (Cajanus cajan) plus urdbean (Phaseolus mungo) intercropping system under various planting geometry and fertilizer management in rainfed condition of Chhattisgarh. Indian Journal of Agronomy 49(2), 101–103.Google Scholar
Sibbald, A. R. (1999). Agroforestry principles – Sustainable productivity?Scottish Forestry 53(1), 18–23.Google Scholar
Smith, P. J., Francis, R. I. C. C. and McVeagh, M. (1991). Loss of genetic diversity due to fishing pressure. Fisheries Research 10(3–4), 309–316.CrossRefGoogle Scholar
Smith, H. and McSorley, R. (2000). Intercropping and pest management: A review of major concepts. American Entomologist 46(3), 154–161.CrossRefGoogle Scholar
Smith, V. and Langford, P. (2009). Evaluating the impact of corporate social responsibility programs on consumers. Journal of Management & Organization 15(1), 97–109.CrossRefGoogle Scholar
Smithson, J. B. and Lenne, J. M. (1996). Varietal mixtures: A viable strategy for sustainable productivity in subsistence agriculture. Annals of Applied Biology 128(1), 127–158.CrossRefGoogle Scholar
Sobhee, S. K. (2004). The environmental Kuznets curve (EKC): a logistic curve?Applied Economics Letters 11(7), 449–452.CrossRefGoogle Scholar
Soma, K. and Vatn, A. (2009). Local democracy implications for coastal zone management-A case study in southern Norway. Land Use Policy 26(3), 755–762.CrossRefGoogle Scholar
Sorrell, S. (2007). Improving the evidence base for energy policy: The role of systematic reviews. Energy Policy 35, 1858–1871.CrossRefGoogle Scholar
Spangenberg, H., Hinterberger, F., Moll, S. and Schutz, H. (1999). Material flow analysis, TMR and the MIPS concept: a contribution to the development of indicators for measuring changes in consumption and production patterns. International Journal of Sustainable Development 2(4), 491–505.CrossRefGoogle Scholar
Spector, B. (2008). Business Responsibilities in a Divided World: The Cold War roots of the corporate social responsibility movement. Enterprise & Society 9(2), 314–336.Google Scholar
Speight, M. R. (1983). The potential of ecosystem management for pest control. Agriculture, Ecosystems and Environment 10(2), 183–199.CrossRefGoogle Scholar
Spencer, D. S. C. and Swift, M. J. (1992). Sustainable agriculture: Definition and measurement In Biological Nitrogen Fixation and Sustainability of Tropical Agriculture, ed. Mulongoy, K., Gueye, M. and Spencer, D. S. C.Chichester, UK: John Wiley & Sons, Ltd. 15–24.Google Scholar
Srinivasan, T. N.. (1994). Human development: A new paradigm or reinvention of the wheel? The American Economic Review 84(2), 238–243.Google Scholar
Staley, M. (2002). Darwinian selection leads to Gaia. Journal of Theoretical Biology 218(1), 35–46.CrossRefGoogle ScholarPubMed
Steinbeck, J. (1939). The Grapes of Wrath, London: William Heinemann.Google Scholar
Stern, D. I. (2004). The rise and fall of the environmental Kuznets curve. World Development 32 (8), 1419–1439.CrossRefGoogle Scholar
Stern, D. I., Common, M. S. and Barbier, E. B. (1996). Economic growth and environmental degradation: The Environmental Kuznets Curve and sustainable development. World Development 24 (7), 1151–1160.CrossRefGoogle Scholar
Stockle, C. O., Papendick, R. I., Saxton, K. E., Campbell, G. S. and Evert, F. K. (1994). A framework for evaluating the sustainability of agricultural production systems. American Journal of Alternative Agriculture 9(1 and2), 45–50.CrossRefGoogle Scholar
Stoeglehner, G. and Narodoslawsky, M. (2008). Implementing ecological footprinting in decision-making processes. Land Use Policy 25(3), 421–431.CrossRefGoogle Scholar
Strange, P. (1983). Permaculture – practical design for town and country in permanent agriculture. Ecologist 13(2–3), 88–94.Google Scholar
Strange, A., Park, J., Bennett, R. and Phipps, R. (2008). The use of life-cycle assessment to evaluate the environmental impacts of growing genetically modified, nitrogen use-efficient canola. Plant Biotechnology Journal 6, 337–345.CrossRefGoogle ScholarPubMed
Straton, A. (2006). A complex systems approach to the value of ecological resources. Ecological Economics 56(3), 402–411.CrossRefGoogle Scholar
Stringer, L. C., Dougill, A. J., Fraser, E., Hubacek, K., Prell, C. and Reed, M. S. (2006). Unpacking ‘participation’ in the adaptive management of social ecological systems: A critical review. Ecology and Society 11(2), Article Number: 39.CrossRefGoogle Scholar
Stubbs, W. and Cocklin, C. (2008). Conceptualizing a ‘sustainability business model’. Organization & Environment 21(2), 103–127.CrossRefGoogle Scholar
Suganthi, L. and Samuel, A. A. (2000). Exergy based supply side energy management for sustainable energy development. Renewable Energy 19(1–2), 285–290.CrossRefGoogle Scholar
Sultana, P., Abeyasekera, S. and Thompson, P. (2007). Methodological rigour in assessing participatory development. Agricultural Systems 94(2), 220–230.CrossRefGoogle Scholar
Sultana, P., Thompson, P. and Green, C. (2008). Can England learn lessons from Bangladesh in introducing participatory floodplain management? Water Resources Management 22(3), 357–376.CrossRefGoogle Scholar
Sunderland, K. and Samu, F. (2000). Effects of agricultural diversification on the abundance, distribution, and pest control potential of spiders: a review. Entomologia Experimentalis et Applicata 95(1), 1–13.CrossRefGoogle Scholar
Talberth, J., Cobb, C. and Slattery, N. (2007). The Genuine Progress Indicator 2006: A Tool for Sustainable Development, Oakland, CA: Redefining Progress.Google Scholar
Thabrew, L., Wiek, A. and Ries, R. (2009). Environmental decision making in multi-stakeholder contexts: applicability of life cycle thinking in development planning and implementation. Journal of Cleaner Production 17(1), 67–76.CrossRefGoogle Scholar
Thirtle, C. and Bottomley, P. (1992). Total factor productivity in UK agriculture, 1967–90. Journal of Agricultural Economics 43(3), 381–400.CrossRefGoogle Scholar
Thompson, C. J., Movva, N. R., Tizard, R.et al. (1987). Characterization of the herbicide-resistance gene bar from Streptomyces hygroscopicus. Journal of the European Molecular Biology Organization (EMBO). 6, 2519–2523.Google ScholarPubMed
Torquebiau, E. (1992). Are tropical agroforestry home gardens sustainable? Agriculture Ecosystems & Environment 41(2), 189–207.CrossRefGoogle Scholar
Torras, M. and Boyce, J. K. (1998). Income, inequality and pollution: A reassessment of the Environmental Kuznets Curve. Ecological Economics 25 (2), 147–160.CrossRefGoogle Scholar
Tripathi, H. N., Chand, S. and Tripathi, A. K. (2005). Biological and economical feasibility of chickpea (Cicer arietinum) plus Indian mustard (Brassica juncea) cropping systems under varying levels of phosphorus. Indian Journal of Agronomy 50(1), 31–34.Google Scholar
Tukker, A. and Jansen, B. (2006). Environment impacts of products – A detailed review of studies. Journal of Industrial Ecology 10(3), 159–182.CrossRefGoogle Scholar
Turnhout, E., Hisschemoller, M. and Eijsackers, H. (2007). Ecological indicators: Between the two fires of science and policy. Ecological Indicators 7, 215–228.CrossRefGoogle Scholar
Tyteca, D. (1996). On the measurement of environmental performance of firms – A literature review and a productive efficiency perspective. Journal of Environmental Management 46(3), 281–308.CrossRefGoogle Scholar
,United Nations Development Programme (1990). Human Development Report 1990, New York: UNDP, Human Development Report Office.Google Scholar
Upham, P. (2000a). Scientific consensus on sustainability: The case of the Natural Step. Sustainable Development 8(4), 180–190.3.0.CO;2-R>CrossRefGoogle Scholar
Upham, P. (2000b). An assessment of The Natural Step theory of sustainability. Journal of Cleaner Production 8(6), 445–454.CrossRefGoogle Scholar
Beurden, P. and Gossling, T. (2008). The Worth of Values – A Literature Review on the Relation Between Corporate Social and Financial Performance. Journal of Business Ethics 82(2), 407–424.CrossRefGoogle Scholar
Kerkhof, M. (2006). Making a difference: On the constraints of consensus building and the relevance of deliberation in stakeholder analysis. Policy Studies 39(3), 279–299.Google Scholar
Bergh, J. C. J. M. and Verbruggen, H. (1999). Spatial sustainability, trade and indicators: an evaluation of the ‘ecological footprint’. Ecological Economics 29(1), 61–72.CrossRefGoogle Scholar
Bergh, J. and Verbruggen, H. (2000). An evaluation of the ‘ecological footprint’: reply to Wackernagel and Ferguson. Ecological Economics 31(3), 319–321.Google Scholar
Kooten, G. C. and Bulte, E. H. (2000). The ecological footprint: useful science or politics? Ecological Economics 32(3), 385–389.Google Scholar
Vanderheiden, S. (2008). Two conceptions of sustainability. Political Studies 56(2), 435–455.CrossRefGoogle Scholar
Vanhamme, J. and Grobben, B. (2009). ‘Too Good to be True!’ The Effectiveness of CSR history in countering negative publicity. Journal of Business Ethics 85, 273–283.CrossRefGoogle Scholar
Vantanen, A. and Maritunen, M. (2005). Public involvement in multi-objective water level regulation development projects – evaluating the applicability of public involvement methods. Environmental Impact Assessment Review 25(3), 281–304.CrossRefGoogle Scholar
Varga, M. and Kuehr, R. (2007). Integrative approaches towards Zero Emissions regional planning: synergies of concepts. Journal of Cleaner Production 15(13–14), 1373–1381.CrossRefGoogle Scholar
Varjopuro, R., Gray, T., Hatchard, J., Rauschmayer, F. and Wittmer, H. (2008). Introduction: Interaction between environment and fisheries – The role of stakeholder participation. Marine Policy 32(2), 147–157.CrossRefGoogle Scholar
Venetoulis, J. and Talberth, J. (2008). Refining the ecological footprint. Environment Development and Sustainability 10(4), 441–469.CrossRefGoogle Scholar
Verkerk, R. H. J., Leather, S. R. and Wright, D. J. (1998). The potential for manipulating crop-pest-natural enemy interactions for improved insect pest management. Bulletin of Entomological Research 88(5), 493–501.CrossRefGoogle Scholar
Verma, S. S., Joshi, Y. P. and Saxena, S. C. (2005). Effect of row ratio of fodder sorghum (Sorghum bicolor) in pigeonpea (Cajanus cajan) intercropping system on productivity, competition functions and economics under rainfed conditions of north India. Indian Journal of Agronomy 50(2), 123–125.Google Scholar
Vilanova, M., Lozano, J. M. and Arenas, D. (2009). Exploring the nature of the relationship between CSR and competitiveness. Journal of Business Ethics 87, 57–69.CrossRefGoogle Scholar
Villanueva, A. and Wenzel, H. (2007). Paper waste – recycling, incineration or landfilling? A review of existing life cycle assessments. Waste Management 27(8), S29–S46.CrossRefGoogle ScholarPubMed
Vogt, W. (1949). Road to Survival, London: Victor Gollancz.Google Scholar
Volk, T. (2003). Natural selection, Gaia, and inadvertent by-products – A reply to Lenton and Wilkinson's response. Climatic Change 58(1–2), 13–19.CrossRefGoogle Scholar
Wackernagel, M., Schulz, N. B., Deumling, D.et al. (2002). Tracking the ecological overshoot of the human economy. Proceedings of the National Academy of Sciences of the United States of America 99(14), 9266–9271.CrossRefGoogle ScholarPubMed
Wackernagel, M., Monfreda, C., Schulz, N. B.et al. (2004). Calculating national and global ecological footprint time series: resolving conceptual challenges. Land Use Policy 21(3), 271–278.CrossRefGoogle Scholar
Wackernagel, M.and Rees, W. E. (1996). Our Ecological Footprint: Reducing Human Impact on the Earth, Gabriola Island: New Society Publishers.Google Scholar
Wagner, M. (2008). The carbon Kuznets curve: A cloudy picture emitted by bad econometrics? Resource and Energy Economics 30(3), 388–408.CrossRefGoogle Scholar
Wall, G. (Lead Author) and Cleveland, C. J. (Topic Ed.) (2008). Exergy. In: Encyclopedia of Earth, Ed. Cleveland, C. J., Washington, D.C.: Environmental Information Coalition, National Council for Science and the Environment. [First published in the Encyclopedia of Earth August 29, 2006; last revised February 21, 2008; letrieved July 1, 2009]. www.eoearth.org/article/Exergy.Google Scholar
Walsh, C., O'Regan, B. and Moles, R. (2009). Incorporating methane into ecological footprint analysis: A case study of Ireland. Ecological Economics 68(7), 1952–1962.CrossRefGoogle Scholar
Waltham, D. (2007). Half a billion years of good weather: Gaia or good luck? Astronomy & Geophysics 48(3), 22–24.CrossRefGoogle Scholar
Watson, A. M. (1974). Arab agricultural revolution and its diffusion, 700–1100. Journal of Economic History 34(1), 8–35.CrossRefGoogle Scholar
Watson, A. M. (1981). A medieval Green Revolution: New crops and farming techniques in the Early Islamic World. In The Islamic Middle East, 700–1900: Studies in Economic and Social History, ed. Udovitch, A. L.Princeton NJ: The Darwin Press, 29–58.Google Scholar
Watson, A. M. (1983), Agricultural Innovation in the Early Islamic World, Cambridge: Cambridge University Press.Google Scholar
Watson, R. and Pauly, D. (2001). Systematic distortions in world fisheries catch trends. Nature 414(6863), 534–536.CrossRefGoogle ScholarPubMed
Weber, C. L. and Matthews, H. S. (2008). Food-miles and the relative climate impacts of food choices in the United States. Environmental Science & Technology 42(10), 3508–3513.CrossRefGoogle ScholarPubMed
Welp, M., Vega-Leinert, A., Stoll-Kleemann, S. and Jaeger, C. C. (2006). Science-based stakeholder dialogues: Theories and tools. Global Environmental Change-Human and Policy Dimensions 16(2), 170–181.CrossRefGoogle Scholar
Weyzig, F. (2009). Political and Economic Arguments for Corporate Social Responsibility: Analysis and a Proposition Regarding the CSR Agenda. Journal of Business Ethics 86(4), 417–428.CrossRefGoogle Scholar
White, T. J. (2007). Sharing resources: The global distribution of the Ecological Footprint. Ecological Economics 64(2), 402–410.CrossRefGoogle Scholar
Williams, G. (2004). Evaluating participatory development, power and (re)politicisation. Third World Quarterly 25(3), 557–578.CrossRefGoogle Scholar
Willis, H. H., DeKay, M. L., Morgan, M. G., Florig, H. K. and Fischbeck, P. S. (2004). Ecological risk ranking: Development and evaluation of a method for improving public participation in environmental decision making. Risk Analysis 24(2), 363–378.CrossRefGoogle ScholarPubMed
Willmann, R. (2000). Integration of sustainability indicators: the contribution of integrated economic and environmental accounting. Marine and Freshwater Research 51(5), 501–511.CrossRefGoogle Scholar
Wilson, G. A. and Rigg, J. (2003). ‘Post-productivist’ agricultural regimes and the South: Discordant concepts? Progress in Human Geography 27(6), 681–707.CrossRefGoogle Scholar
Wilson, J., Tyedmers, P., and Pelot, R. (2007). Contrasting and comparing sustainable development indicator metrics. Ecological Indicators 7(2), 299–314.CrossRefGoogle Scholar
Winkler, R. (2006a). Valuation of ecosystem goods and services Part 1: An integrated dynamic approach. Ecological Economics 59(1), 82–93.CrossRefGoogle Scholar
Winkler, R. (2006b). Valuation of ecosystem goods and services Part 2: Implications of unpredictable novel change. Ecological Economics 59(1), 94–105.CrossRefGoogle Scholar
Wood, A. J., Ackland, G. J., Dyke, J. G., Williams, H. T. P. and Lenton, T. M. (2008). Daisyworld: A review. Reviews of Geophysics 46(1), Article Number: RG1001.CrossRefGoogle Scholar
York, R., Rosa, E. A. and Dietz, T. (2003). Footprints on the earth: The environmental consequences of modernity. American Sociological Review 68(2), 279–300.CrossRefGoogle Scholar
York, R., Rosa, E. A. and Dietz, T. (2004). The ecological footprint intensity of national economies. Journal of Industrial Ecology 8(4), 139–154.CrossRefGoogle Scholar
Young, A. (1989). Agroforestry for soil conservation, Wallingford, Oxfordshire, UK: International Council for Research in Agroforestry, CAB International.Google Scholar
Young, O. R. (1998). Institutional uncertainties in international fisheries management. Fisheries Research 37(1–3), 211–224.CrossRefGoogle Scholar
Yunlong, C. and Smit, B. (1994). Sustainability in agriculture: a general review. Agriculture, Ecosystems and Environment 49, 299–307.CrossRefGoogle Scholar
Zarate, H., Antonio, N., Vieira, M.et al. (2007a). Yield and gross income of taro culture in monocrop system and intercropped with parsley and coriander cultures. Acta Scientiarum Agronomy 29(1), 83–89.Google Scholar
Zarate, N. A. H, Vieira, M. D. C., Giuliani, A. R.et al. (2007b). ‘Macaquinho’ taro in monocrop system and intercropped with ‘Salad Bowl’ lettuce in soil with chicken manure mulching. Semina-Ciencias Agrarias 28(4), 563–570.Google Scholar
Zarate, N. A. H., Vicira, M. D. C., Rech, J.et al. (2008). Yield and gross income of arracacha in monocrop and intercropping with the Japanese bunching onion and parsley. Horticultura Brasileira 26(2), 287–291.CrossRefGoogle Scholar
Zhao, S., Wu, C. W., Hong, H. S. and Zhang, L. P. (2009). Linking the concept of ecological footprint and valuation of ecosystem services – a case study of economic growth and natural carrying capacity. International Journal of Sustainable Development and World Ecology 16(2), 137–142.CrossRefGoogle Scholar
Zhu, X.-G., Long, S. P. and Ort, D. R. (2008). What is the maximum efficiency with which photosynthesis can convert solar energy into biomass? Current Opinion in Biotechnology 19(2), 153–159.CrossRefGoogle ScholarPubMed
Zimdahl, R. L. (2005). Extending Ethics. Journal of Extension 43(5), Article No. 5COM1 October 2005. Available on-line at www.joe.org. (accessed 26 January 2010).Google Scholar
Zimmerman, A. and Kibert, C. J. (2007). Informing LEED's next generation with the natural step. Building Research and Information 35(6), 681–689.CrossRefGoogle Scholar

Save book to Kindle

To save this book to your Kindle, first ensure coreplatform@cambridge.org is added to your Approved Personal Document E-mail List under your Personal Document Settings on the Manage Your Content and Devices page of your Amazon account. Then enter the ‘name’ part of your Kindle email address below. Find out more about saving to your Kindle.

Note you can select to save to either the @free.kindle.com or @kindle.com variations. ‘@free.kindle.com’ emails are free but can only be saved to your device when it is connected to wi-fi. ‘@kindle.com’ emails can be delivered even when you are not connected to wi-fi, but note that service fees apply.

Find out more about the Kindle Personal Document Service.

  • References
  • Stephen Morse, University of Reading
  • Book: Sustainability
  • Online publication: 05 June 2012
  • Chapter DOI: https://doi.org/10.1017/CBO9780511780288.009
Available formats
×

Save book to Dropbox

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Dropbox.

  • References
  • Stephen Morse, University of Reading
  • Book: Sustainability
  • Online publication: 05 June 2012
  • Chapter DOI: https://doi.org/10.1017/CBO9780511780288.009
Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

  • References
  • Stephen Morse, University of Reading
  • Book: Sustainability
  • Online publication: 05 June 2012
  • Chapter DOI: https://doi.org/10.1017/CBO9780511780288.009
Available formats
×