The Future We Want: Sustainable Development Goals Accomplishment with Organic Agriculture

• Autorzy: Šeremešić Srđan , Dolijanović Željko , Simin Mirela Tomaš , Vojnov Bojan , Trbić Danica Glavaš

Identyfikatory

DOI

10.35784/pe.2021.2.18

Warianty tytułu

PL

Przyszłość, której chcemy: możliwości osiągnięcia Celów Zrównoważonego Rozwoju w rolnictwie ekologicznym

• Języki publikacji: EN

Abstrakty

EN

The aim of the paper is to enlighten the role that organic agriculture can have in the achievement of Sustainable Development Goals (SDG). Currently, sustainable agriculture systems are not adequately recognized in SDG and supported by the decision-makers. Given that agriculture plays one of the key roles in sustainable development accomplishment, the introduction of an organic agriculture can be a basis to implementing SDG. Organic agriculture has multiple benefits as most valuable option in redesigning food systems to achieve ecological, economic, and social sustainability. Moreover it could encompass and establish food system from field to fork necessary to complete the SDG without oversize resource depletion and negative impact on the environment. The study showed that by placing organic agriculture in the agenda of SDG it is possible to create conditions for sustainable development while identify and manage trade-offs in agriculture and maximising co-benefits.

PL

Celem artykułu jest wyjaśnienie roli, jaką rolnictwo ekologiczne może odgrywać w osiąganiu celów zrównoważonego rozwoju (SDG). Obecnie systemy zrównoważonego rolnictwa nie są odpowiednio uwzględniane w SDG i wspierane przez decydentów. Biorąc pod uwagę, że rolnictwo odgrywa jedną z kluczowych ról w realizacji zrównoważonego rozwoju, wprowadzenie rolnictwa ekologicznego może być podstawą do rzeczywistej realizacji SDG. Rolnictwo ekologiczne ma wiele zalet, jako najcenniejsza opcja w przeprojektowywaniu systemów żywnościowych w celu osiągnięcia zrównoważonego rozwoju ekologicznego, gospodarczego i społecznego. Ponadto może ustanowić system żywnościowy od pola do stołu niezbędny do ukończenia celu zrównoważonego rozwoju bez nadmiernego wyczerpywania zasobów i negatywnego wpływu na środowisko. Badanie wykazało, że umieszczając rolnictwo ekologiczne w agendzie SDG można stworzyć warunki dla zrównoważonego rozwoju, jednocześnie identyfikując i zarządzając kompromisami w rolnictwie oraz maksymalizując korzyści.

Słowa kluczowe

EN

organic agriculture; ecological intensification; agroecology; sustainability; environment

PL

rolnictwo ekologiczne; intensyfikacja ekologiczna; agroekologia; zrównoważoność; środowisko

• Wydawca: Lublin University of Technology
• Czasopismo: Problemy Ekorozwoju
• Rocznik: 2021
• Tom: Vol. 16, nr 2
• Strony: 171--180
• Opis fizyczny: Bibliogr. 70 poz., fig., tab.

Twórcy

autor

Šeremešić Srđan

• University of Novi Sad, Faculty of Agriculture, Sq Dositeja Obradovića 8, Novi Sad, Serbia

autor

Dolijanović Željko

• University of Belgrade, Faculty of Agriculture, Nemanjina 6, Belgrade, Serbia

autor

Simin Mirela Tomaš

• University of Novi Sad, Faculty of Agriculture, Sq Dositeja Obradovića 8, Novi Sad, Serbia

autor

Vojnov Bojan

• University of Novi Sad, Faculty of Agriculture, Sq Dositeja Obradovića 8, Novi Sad, Serbia

autor

Trbić Danica Glavaš

• University of Novi Sad, Faculty of Agriculture, Sq Dositeja Obradovića 8, Novi Sad, Serbia

Bibliografia

• 1. ALTIERI A., NICHOLLS I., 2020, Agroecology and the emergence of a post COVID-19 agriculture, Agricultre and Human Values 37: 525-526. DOI: 10.1007/s10460-020-10043-7.
• 2. BOGDANOV N., 2015, Ruralni razvoj i ruralna politika, Poljoprivredni fakultet, Beograd.
• 3. BREUER A., JANETSCHEK H., MALERBA D., 2019, Translating sustainable development goal (SDG) interdependencies into policy advice, Sustainability, 11(7): 2092.
• 4. DG RESEARCH., 2006, FP7 Theme 2: Food, Agriculture, Fisheries and Biotechnology, Work programme.
• 5. DRASTICHOVÁ M., FILZMOSER P., 2019, Assessment of sustainable development using cluster analysis and principal component analysis, Problemy Ekorozwoju/ Problems Of Sustainable Development, 14(2): 7-24.
• 6. ECOLEBEL INDEX, 2020, http://www.ecolabel index.com/. 7. ELLEBY C., DOMÍNGUEZ P., ADENAUER M., GENOVESE G., 2020, Impacts of the COVID-19 pandemic on the global agricultural markets, Environmental and Resource Economics, 76(4): 1067- 1079.
• 8. EU COMMISSION, BIOECONOMY, 2012, https://ec.europa.eu/research/bioeconomy/pdf/review_of_2012_eu_bes.pdf.
• 9. EYHORN F., MULLER A., REGANOLD P., 2019. Sustainability in global agriculture driven by organic farming, Natural Sustainability, 2: 253-255. DOI: 10.1038/s41893-019-0266-6.
• 10. FOGUESATTO R., BORGES .R., MACHADO D., 2020, A review and some reflections on farmers’ adoption of sustainable agricultural practices worldwide,. Science of The Total Environment, 138831, DOI: 10.1016/j.scitotenv.2020.138831.
• 11. GALLUZZO N., 2017, Quantitative relationships between investments in farms and environmental effects in some European countries, Journal of Agricultural Sciences, 62(3): 299-313.
• 12. GARNETT T., APPLEBY M., BALMFORD A., BATEMAN J., BENTON G., BLOOMER P., BURLINGAME B., 2013, Sustainable intensification in agriculture: premises and policies, Science, 341: 33-34.
• 13. GAURAV N., SIVASANKARI S., KIRAN S., NINAWE A., SELVIN J., 2017, Utilization of bioresources for sustainable biofuels: a review, Renewable and Sustainable Energy Reviews, 73: 205-214.
• 14. GODFRAY H., BEDDINGTON J., CRUTE I., HADDAD L., LAWRENCE D., MUIR J., TOULMIN C., 2010, Food security: the challenge of feeding 9 billion people, Science, 327(5967): 812-818.
• 15. GRIGGS D., STAFFORD-SMITH M., GAFFNEY O., ROCKSTRÖM J., ÖHMAN M., SHYAMSUNDAR P., NOBLE I., 2013, Policy: Sustainable development goals for people and planet, Nature, 495(7441): 305-307.
• 16. GUTHMAN J., 2004, The Trouble with ‘Organic Lite’ in California: A Rejoinder to the Conventionalisation’ Debate, Sociologia. Rural, 44(1): 301-316.
• 17. HALL J., CROWTHER S., 1998, Biotechnology: the ultimate cleaner production technology for agriculture? Journal of Cleaner Production, 6: 313-322.
• 18. HICKEL J., 2019, The contradiction of the sustainable development goals: Growth versus ecology on a finite planet, Sustainable Development, 27(5): 873- 884.
• 19. HUTTUNEN S., 2019, Revisiting agricultural modernisation: Interconnected farming practices driving rural development at the farm level, Journal of Rural Studies, 71: 36-45. DOI: 10.1016/j.jrurstud.2019.09.004.
• 20. IFOAM 2017, Principles of organic agriculture, Organics International, Bonn, http://www.ifoam.bio/ en/organic-landmarks/principles-organic-agriculture (10.02.2021).
• 21. IKERD J., 2018, The economic pamphleteer: The Industrialization of Organics, Journal of Agriculture, Food Systems, and Community Development, 8(1): 9- 12.
• 22. JANKER J., MANN S., RIST S., 2019, Social sustainability in agriculture – A system-based framework. Journal of rural studies, 65: 32-42. DOI: 10.1016/j.jrurstud.2018.12.010.
• 23. KANTER R., SCHWOOB H., BAETHGEN E., BERVEJILLO E., CARRIQUIRY M., DOBERMANN A., FERRARO B., LANFRANCO B., MONDELLI M., PENENGO C., SALDIAS R., SILVA A., DE LIMA S., 2016, Translating the sustainable development goals into action: a participatory backcasting approach for developing national agricultural transformation pathways, Global Food Security, 10: 71-79. DOI: 10.1016/j.gfs.2016.08.002.
• 24. KATES R., PARRIS T., LEISEROWITZ A., 2005, What is sustainable development? Environment, 47(3): 8-21.
• 25. KLEDAL P., KJELDSEN C., REFSGAARD K., SÖDERBAUM P., 2006, Ecological economics and organic farming, Global Development of Organic Agriculture, eds. Halberg N., Alrøe H.F. Knudsen M.T. and Kristensen E.S.): 113-133.
• 26. KRAJEWSKI P., 2016, Agricultural Biodiversity for Sustainable Development, Problemy Ekorozwoju/ Problems of Sustainable Development 12(1): 135- 141.
• 27. LAL R., 2016, Global food security and nexus thinking, Journal of Soil and Water Conservation, 71(4): 85-90.
• 28. LAMICHHANE S., EĞILMEZ G., GEDIK R., KHURRUM S., ERENAY B., 2021, Benchmarking OECD countries’ sustainable development performance: A goal-specific principal component analysis approach, Journal of Cleaner Production, 287: 125040. DOI: 10.1016/j.jclepro.2020.125040.
• 29. LAPPÉ M., COLLINS J., ROSSET P., 1998, World hunger: 12 myths. First Food, New York, Second edition.
• 30. LAURETT R., PAÇO A., MAINARDES W., 2021, Sustainable Development in Agriculture and its Antecedents, Barriers and Consequences – An Exploratory Study, Sustainable Production and Consumption, 27: 298-311. DOI: 10.1016/j.spc.2020.10.032.
• 31. LAZIĆ B., ŠEREMEŠIĆ S., 2017, The importance of organic food production within the green economy, Proceedings ‘Globalization, world hunger, new technologies and their impact on food production’, Serbian Academy of Engineering, Beograd: 63.
• 32. MA Y., CHEN L., ZHAO X., ZHENG H., LÜ, Y. 2009, What motivates farmers to participate insustainable agriculture? Evidence and policy implications, International Journal of Sustainable Development & World Ecology, 16 (6): 374-380. DOI: 10.1080/13504500903319047.
• 33. MARKOVIĆ D., ILIĆ B., RISTIĆ Ž., 2010, Ekološka ekonomija, EtnoStil, Beograd.
• 34. McCARTHY U., UYSAL I., BADIA-MELIS R., MERCIER S., O'DONNELL C., KTENIOUDAKI A., 2018, Global food security – Issues, challenges and technological solutions, Trends in Food Science & Technology, 77: 11-20.
• 35. McCORMICK K., 2014, The bioeconomy and beyond: visions and strategies, Biofuels, 5(3): 191-193.
• 36. MENSAH J., CASADEVALL R., 2019, Sustainable development: Meaning, history, principles, pillars, and implications for human action: Literature review, Cogent Social Sciences, 5(1): 1653531.
• 37. MIRANDA-ACKERMAN A., AZZARO-PANTEL C., 2017, Extending the scope of ecolabelling in the food industry to drive change beyond sustainable agriculture practices, Journal of environmental management 204 (3): 814-824. DOI: 10.1016/j.jenvman.2017.05.027.
• 38. MUNITLAK-IVANOVIĆ O., 2005, Ecological Aspects of Sustainable Development-International and Regional Comparison, Doctoral Dissertation, Faculty of Economics, Subotica.
• 39. MUPFASONI B., KESSLER A., LANS T., 2018, Sustainable agricultural entrepreneurship in Burundi: drivers and outcomes, Journal of Small Business and Enterprise Development, 25(1): 64-80. DOI: 10.1108/JSBED-03-2017-0130
• 40. NUTTAVUTHISIT K., THØGERSEN J., 2017, The importance of consumer trust for the emergence of a market for green products: The case of organic food, Journal of Business Ethics, 140(2): 323-337.
• 41. PANG J., LIU X., HUANG Q., 2020, A new quality evaluation system of soil and water conservation for sustainable agricultural development. Agricultural Water Management, 240, 106235. DOI: 10.1016/j.agwat.2020.106235.
• 42. PAWŁOWSKI A., 2020, Covid-19, Environmental Engineering and the End of the World as We Know it, Problemy Ekorozwoju/ Problems of Sustainable Development, 15(2): 7-14. DOI: 10.35784/pe.2020.2.01.
• 43. PEYRAUD L., TABOADA M., DELABY L., 2014, Integrated crop and livestock systems in Western Europe and South America: A review, European Journal of Agronomy 57: 31-42. DOI: 10.1016/j.eja.2014.02.005.
• 44. PRANEETVATAKUL S., SCHREINEMACHERS P., PANANURAK P., TIPRAQSA P., 2013, Pesticides, external costs and policy options for Thai agriculture,. Environmental Science & Policy, 27: 103- 113. DOI: 10.1016/j.envsci.2012.10.019.
• 45. RAHMANN G., ARDAKANI M., BÀRBERI P., BOEHM H., CANALI S., CHANDER M., HAMM U., 2017, Organic Agriculture 3.0 is innovation with research, Organic Agriculture, 7(3): 169-197.
• 46. RAY K., WEST C., CLARK M., GERBER S., PRISHCHEPOV V., CHATTERJEE S., 2019, Climate change has likely already affected global food production, PloS one, 14(5): e0217148. DOI: 10.1371/journal.pone.0217148.
• 47. REGANOLD J., WACHTER J., 2016, Organic agriculture in the twenty-first century, Nature Plants, 2: 15221.
• 48. RIGBY D., WOODHOUSE P., YOUNG T., BURTON M., 2001, Constructing a farm level indicator of sustainable agricultural practice, Ecological Economics 39: 463-478. DOI: 10.1016/S0921-8009(01)00245-2 .
• 49. RITCHIE H., ROSER M., 2020, Crop Yields Published online at Our World In Data, https:// ourworldindata.org/crop-yields.
• 50. RODRIGUEZ M., MOLNAR J., FAZIO A., SYDNOR E., LOWE M.J., 2009, Barriers to adoption of sustainable agriculture practices: Change agent perspectives, Renewable Agriculture and Food Systems, 24 (1): 60-71. DOI: 10.1017/S1742170508002421.
• 51. SACHS J., SCHMIDT-TRAUB G., KROLL C., LAFORTUNE G., FULLER G., WOELM F., 2020, The Sustainable Development Goals and COVID-19. Sustainable Development Report 2020, Cambridge University Press, Cambridge.
• 52. SCHERHAUFER S., MOATES G., HARTIKAINEN H., WALDRON, K., & OBERSTEINER, G., 2018, Environmental impacts of food waste in Europe, Waste management, 77: 98-113.
• 53. SCOWN W., BRADY V., NICHOLAS A., 2020, Billions in misspent EU agricultural subsidies could support the Sustainable Development Goals, One Earth, 3(2): 237-250. DOI: 10.1016/j.oneear.2020.07.011.
• 54. SEMEDO H., 2017, Only 60 years of farming left if soil degradation continues, https://www.scientific american.com/article/only-60-years-of-farming-leftif-soil-degradation-continues/.
• 55. ŠEREMEŠIĆ S., VOJNOV B., MANOJLOVIĆ M., MILOŠEV D., UGRENOVIĆ V., FILIPOVIĆ V., BABEC B., 2017, Organska poljoprivreda u službi biodiverziteta i zdravlja, Letopis naučnih radova, 41(2): 51-60.
• 56. ŠEREMEŠIĆ S., 2020, Agroecological terroir: an approach for scaling-out local food systems, Landbauforsch – Journal of Sustainable and Organic Agriculture Systems, 70(2): 43-48.
• 57. SETBOONSARNG S., GREGORIO, E., 2017, Achieving sustainable development goals through organic agriculture: Empowering poor women to build the future, Asian Development Bank. DOI: 10.22617/WPS179123-2.
• 58. SUWEIS S., CARR A., MARITAN A., RINALDO A., D’ODORICO P., 2015, Resilience and reactivity of global food security, Proceedings of the National Academy of Sciences, 112(22): 6902-6907. DOI: 10.1073/pnas.1507366112.
• 59. THICKE F., 2017, Closing Comments by Francis Thicke at end of NOSB term, https://www. cornucopia.org/2017/11/closing-comments-francis-thickeend-nosb-term/.
• 60. TODARO M., SMITH S., 2015, Economic development, Pearson Education Limited, UK.
• 61. TOMAŠ SIMIN M., RODIĆ V., GLAVAŠ-TRBIĆ D., 2019, Organic agriculture as an indicator of sustainable agricultural development: Serbia in focus, Economics of Agriculture, 66(1): 265-281. DOI: 10.5937/ekoPolj1901265T.
• 62. TP ORGANIC, 2016, Organic EU strategic research and innovation agenda 2014, http://tporganics.eu/wp-content/uploads/2016/01/tporganiceu-strategicresearch-and-innovation-agenda-2014-brochure20150129.pdf.
• 63. TUOMISTO H., HODGE I., RIORDAN P., MACDONALD D., 2012, Does organic farming reduce environmental impacts? A meta-analysis of European research, Journal of Environmental Management, 112: 309-320.
• 64. UN, 2012, Rio+20 The future we want: outcome document adopted at Rio+20, http://www.un.org/ en/sustainablefuture. 65. UN, 2015, Transforming our world: The 2030 agenda for sustainable development, United Nations General Assembly (A/RES/70/1), New York.
• 66. UN, 2020, Sustainable development goals partnership platform, https://sustainabledevelopment .un.org/partnerships/ (15.10.2020).
• 67. UNEP, 2015, Embedding the Environment in Sustainable Development Goals, UNEP Post-2015 Discussion Paper 1, http://www.unep.org/pdf/embed ding-environments-in-SDGs-v2.pdf.
• 68. WCED, 1987, Report of the World Commission on Environment and Development: Our Common Future, Oxford University Press, Oxford, http://www. un-documents.net/our-common-future. pdf.
• 69. WILLER H., SCHLATTER B., TRÁVNÍČEK J., KEMPER L., LERNOUD J., 2020, The World of Organic Agriculture Statistics and Emerging Trends 2020. 21st edition. Research Institute of Organic Agriculture (FiBL) and IFOAM – Organics International, Frick and Bonn.
• 70. WORLD RESOURCE REPORT, 2019, Creating a sustainable food future, World resource institute, https://wrr-food.wri.org/sites/default/files/20197/ WRR _Food_Full_Report_0.pdf.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).