Abstract
There is no area of human activity more basic to society than a sustainable agricultural, food, and natural resources system. An existing agricultural production system which has provided an abundant, affordable, and safe food supply and many industrial and consumer products face the daunting challenge to meet the needs of a growing world population to approximately 9–10 billion people in 2050 with the need to provide about 60–70 % more food than now being produced. However, it is more than just agricultural productivity because the system must function within the space of climate change; minimum (zero) negative impacts on the environment; reduced (zero) greenhouse gas emissions (GHG); reduced water usage; concern for availability and cost of energy; increased application of conservation tillage; worldwide adoption of biotechnology; increased organic food production; major adoption of information technologies at all phases of the agricultural, food, and natural resources system; and significant advancements in machine innovations. Specifically, there is a need to transcend the debate between the vocal constituencies rooted in ideological solutions and rather invoke and encourage a broad recognition that many different approaches are needed to coexist to meet this huge challenge. Thus, there is no system more in need of and more likely to benefit from a comprehensive application of convergence technologies embodied in nanotechnology, biotechnology, information sciences, and cognitive sciences.
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Ausubel JH, Wernick IK, Waggoner PE (2012) Peak farmland and the prospect for land sparing. Popul Dev Rev 38(Suppl):221–242
Bittman M (2014) How to change the food system. https://www.youtube.com/watch?v=JWKa9DWSlz4. Accessed 26 Feb 2015
Capper JL, Cady RA, Bauman DE (2009) The environmental impact of dairy production: 1944 compared with 2007. J Anim Sci 87:2160–2167
Clay J (2010) Agriculture from 2000 to 2050 – the business as usual scenario. http://www.globalharvestinitiative.org/Documents/Clay%20%20Agriculture%20from%202000%20to%202050.pdf. Accessed 26 Feb 2015
Conway G (2012) One billion hungry: can we feed the world? Cornell University Press, Ithaca
Ehrlich PR (1968) The Population Bomb, Ballantine Books
Ehrlich PR (1974) The End of Affluence, Ballantine Books
Foley JC, Ramankutty N, Brauman KA, Cassidy ES, Gerber JS, Johnson M, Mueller ND, O’Oconnell C, Ray DK, West PC, Balzer C, Bennett EM, Carpenter SR, Hill J, Monfreda C, Polasky S, Rockstrom J, Sheehan J, Siebert S, Tillman D, Zaks DPM (2011) Solutions for a cultivated planet. Nature 478:327–342
Food and Agriculture Organization (FAO) (2009) The state of food and agriculture 2009. Conclusions: balancing society’s objectives for livestock. pp 94–100. http://www.fao.org/docrep/012/i0680e/i0680e.pdf. Accessed 26 Feb 2015
Food and Agriculture Organization (FAO) (2011) Global food losses and food waste – extent, causes and prevention. Rome http://www.fao.org/docrep/014/mb060e/mb060e00.pdf. Accessed 26 Feb 2015
Food and Agriculture Organization (FAO) (2013) Edible insects: future prospects for food and feed. http://www.fao.org/forestry/edibleinsects/74848/en/. Accessed 26 Feb 2015
Godfray HCJ, Beddington JR, Crute IR, Haddad I, Robinson S, Lawrence D, Muir JF, Pretty J, Thomas SM, Toulmin C (2010) Food security: the challenge of feeding 9 billion people. Science 327:812–818
Horowitz J, Ebel R, Ueda K (2010) “No-till” farming is a growing practice. Economic Information Bulletin Number 70, November Economic Research Service, United States Department of Agriculture, Washington DC
International Assessment of Agricultural Knowledge (IAASTD) (2009) Agriculture at a crossroads, global report. Island Press, Washington, DC, Chapters 1, 4
International Service for the Acquisition of Agri-Biotech Applications (ISAAA) (2015) Global status of commercial biotech/GM crops. http://www.isaaa.org/. Accessed 26 Feb 2015
Klümper W, Qaim M (2014) A meta-analysis of the impacts of genetically modified crops. PLoS One 9(11):e111629
Lemaux P (2009) Genetically engineered plants and foods: a scientist’s analysis of the issues (part II). Annu Rev Plant Biol 60:511–519
National Research Council (2010) Toward sustainable agricultural systems in the 21st century. The National Academies Press, Washington, DC
National Research Council (2011) Renewable fuel standard: potential standard: potential economic and environmental effects of U.S. biofuel policy. The National Academies Press, Washington, DC
National Resources Conservation Service (2012) Source for information on conservation tillage. http://www.nrcs.usda.gov/wps/portal/nrcs/main/national/home. Accessed 26 Feb 2015
Paddock W, Paddock P (1967) Famine 1975! America’s decision: who will survive New York Times (2014). “Working the land and data”, Quentin Hardy, November 30. Little, Brown, New York
Reid JF (2011) The impact of mechanization on agriculture the bridge. Natl Acad Eng 41(3):22–29
Rhodes FHT (2012) Earth: a Tenant’s manual. Cornell University Press, Ithaca
Scott NR, Chen H (2012) Nanoscale science and engineering for agricultural and food systems, part I. Ind Biotechnol 8(6):340–343, (also guest editors for special research section, 344–364)
Scott NR, Chen H (2013) Overview, nanoscale science and engineering for agricultural and food systems, part 2. Ind Biotechnol 9(1):17–18, (also guest editors for special research section, 19–50)
Smil V (2000) Feeding the world: a challenge for the twenty-first century. MIT Press, Cambridge, MA
The Royal Society (2009) Reaping the benefits: science and the sustainable intensification of global agriculture 1–10, 47–50. http://royalsociety.org/Reapingthebenefits/. Accessed 26 Feb 2009
United Nations (2014) World population prospects: probabilistic population projections based on world population prospects; the 2012 revision. http://esa.un.org/unpd/ppp/Figures-Output/Population/PPP_Total-Population.htm. Accessed 26 Feb 2015
USDA/ERS (2014) Food expenditures. http://www.ers.usda.gov/data-products/food-expenditures.aspx. Last accessed 24 Feb 2015
Webber ME (2015) A puzzle for the planet, Scientific American, 312(2): 63–67
Weston RF (1992) Sustainable development: definition and implementation strategies. Roy Weston, West Chester, PA
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Scott, N.R., Chen, H., Schoen, R. (2016). Sustainable Global Food Supply. In: Bainbridge, W., Roco, M. (eds) Handbook of Science and Technology Convergence. Springer, Cham. https://doi.org/10.1007/978-3-319-07052-0_43
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DOI: https://doi.org/10.1007/978-3-319-07052-0_43
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