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Organic agriculture in Argentina's Pampas. A case study on Pampa Orgánica Norte farmers

Published online by Cambridge University Press:  02 September 2021

Silvina M. Cabrini*
Affiliation:
Universidad Nacional del Noroeste de la Provincia de Buenos Aires, Junín, Argentina Instituto Nacional de Tecnología Agropecuaria, EEA Pergamino, Buenos Aires, Argentina
Luciana Elustondo
Affiliation:
Universidad Nacional del Noroeste de la Provincia de Buenos Aires, Junín, Argentina
*
Author for correspondence: Silvina M. Cabrini, E-mail: silvinacabrini@unnoba.edu.ar

Abstract

Faced with a society that demands the reduction of negative environmental impacts of agriculture while producing high-value, healthy food for local and export markets, Argentina is currently in a debate on the alternative paths toward sustainability in agricultural production. Argentina is ranked second in the world in terms of land under organic certification. Extensive sheep production in Patagonia natural grasslands accounts for most of this area and harvested organic area remains a very small fraction of total harvested land (0.6%). This paper aims to contribute to the discussion of opportunities and limitations in organic farming as an ecological intensification alternative for Argentina's Pampas. A case study was conducted on Pampa Orgánica Norte. This is a group of nine organic farmers that manages field crops and livestock-certified organic production. Farmers interviewed in this study considered different criteria including economic and environmental attributes when choosing to produce organically. However, the main drivers for conversion to organic production are related to environmental factors, in particular ecosystem protection. The main limitations in organic production are related to crop management practices, primarily weed control. To achieve the goal of increasing organic production a more active role of the public sector in technology generation and transfer was demanded by farmers.

Type
Preliminary Report
Copyright
Copyright © The Author(s), 2021. Published by Cambridge University Press

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References

Alexopoulos, G, Koutsouris, A and Tzouramani, I (2010) Should I stay or should I go? Factors affecting farmers’ decision to convert to organic farming as well as to abandon it. Proceedings of the 9th European IFSA Symposium.Google Scholar
Berkhout, ED, Schipper, RA, Van Keulen, H and Coulibaly, O (2011) Heterogeneity in farmers’ production decisions and its impact on soil nutrient use: results and implications from northern Nigeria. Agricultural Systems 104 (1), 6374.CrossRefGoogle Scholar
Bitar, MV, Cabrini, SM, Orlando, L, Lingua, M, Paolilli, C, Fillat, F, Elustondo, L, Bevaqua, F and Senigagliesi, C (2020) Los sistemas productivos del partido de Pergamino. Resultados de una encuesta a productores. Edited by INTA – EEA Pergamino – Indicadores económicos e informes técnicos.Google Scholar
Cavaliere, A, Peri, M and Banterle, A (2016) Vertical coordination in organic food chains: a survey based analysis in France, Italy and Spain. Sustainability 8(569), 112. doi: 10.3390/su8060569CrossRefGoogle Scholar
Chavas, JP, Posner, JL and Hedtcke, JL (2009) Organic and conventional production systems in the Wisconsin integrated cropping systems trial: II. Economic and risk analysis 1993–2006. Agronomy Journal 101, 288295.CrossRefGoogle Scholar
Clark, M and Tilman, D (2017) Comparative analysis of environmental impacts of agricultural production systems, agricultural input efficiency, and food choice. Environmental Research Letters 12(064016), 111. doi: 10.1088/1748-9326/aa6cd5CrossRefGoogle Scholar
Crowder, DW and Reganold, JP (2015) Financial competitiveness of organic agriculture on a global scale. Proceedings of the National Academy of Sciences of the United States of America 112, 76117616.CrossRefGoogle ScholarPubMed
Darnhofer, I, Schneeberger, W and Freyer, B (2005) Converting or not converting to organic farming in Austria: farmer types and their rationale. Agriculture and Human Values 22, 3952.CrossRefGoogle Scholar
Delate, K, Duffy, M, Chase, C, Holste, A, Friedrich, H and Wantate, N (2013) An economic comparison of organic and conventional grain crops in a long-term agroecological research (LTAR) site in Iowa. American Journal of Alternative Agriculture 18, 5669.Google Scholar
Delbridge, TA, Fernholz, C, King, RP and Lazarus, W (2013) A whole-farm profitability analysis of organic and conventional cropping systems. Agricultural Systems 122, 110.CrossRefGoogle Scholar
De Ponti, T, Rijk, B and Van Ittersum, MK (2012) The crop yield gap between organic and conventional agriculture. Agricultural Systems 108, 19.CrossRefGoogle Scholar
FiBL (2019) The World of Organic Agriculture. Internatio, The World of Organic Agriculture Statistic and emerging trends 2019. Internatio. Available at: https//WWW.IFOAM.BIO/POLICY-TOOLKITS%0AMerkblatt.Google Scholar
Hernández Sampieri, R, Fernández Collado, C and Bautista Lucio, P (2014) Metodología de la Investigación. Mexico DF: McGraw Hill Education.Google Scholar
Kallas, Z, Serra, T and Gil, JM (2009) ‘Farmer's objectives as determinant factors of organic farming adoption’, in 113th EAAE Seminar ‘A resilient European food industry and food chain in a challenging world’, pp. 36.Google Scholar
Klonsky, K and Greene, C (2005) ‘Widespread adoption of organic agriculture in the US: Are market-driven policies enough?’, in American Agricultural Economics Association Annual Meeting, Providence, Rhode Island. Available at: ageconsearch.umn.edu/bitstream/19382/1/sp05kl05.pdf.Google Scholar
Madelrieux, S and Alavoine-Mornas, F (2013) Withdrawal from organic farming in France. Agronomy for Sustainable Development 33, 457468.CrossRefGoogle Scholar
Midmore, P and Padel, S (2002) ‘Attitudes towards conversion to organic production of farmers in England’, The UK Organic Research 2002 Conference (March), pp. 325326.Google Scholar
Mukherjee, A, Omondi, EC, Hepperly, PR, Seidel, R and Heller, WP (2020) Impacts of organic and conventional management on the nutritional level of vegetables. Sustainability 12, 125.CrossRefGoogle Scholar
Muller, A, Schader, C, El-Hage Scialabba, N, Brüggemann, J, Isensee, A, Erb, KH, Smith, P, Klock, P, Leiber, F, Stolze, M and Niggli, U (2017) Strategies for feeding the world more sustainably with organic agriculture. Nature Communications 8, 113.CrossRefGoogle ScholarPubMed
Padel, S (2008) Values of organic producers converting at different times: results of a focus group study in five European countries. International Journal of Agricultural Resources, Governance and Ecology 7, 6377.CrossRefGoogle Scholar
Reganold, JP and Wachter, JM (2016) Organic agriculture in the twenty-first century. Nature Plants 2, 15221.CrossRefGoogle ScholarPubMed
Sahm, H, Sanders, J, Nieberg, H, Behrens, G, Kuhnert, H, Strohm, R and Hamm, U (2013) Reversion from organic to conventional agriculture: a review. Renewable Agriculture and Food Systems 28, 263275.CrossRefGoogle Scholar
SENASA (2021) ‘Situación de la Producción Orgánica en la Argentina durante el año 2001’.Google Scholar
Seufert, V, Ramankutty, N and Foley, JA (2012) Comparing the yields of organic and conventional agriculture. Nature 485, 229232.CrossRefGoogle ScholarPubMed
Solbrig, BOT and Viglizzo, E (1996) Sustainable farming in the Argentine Pampas: history, society, economy, and ecology. Cambridge, MA, USA: David Rockefeller Center for Latin American Studies.Google Scholar
Tittonell, P (2016) Ecological intensification of agriculture – sustainable by nature ScienceDirect ecological intensification of agriculture – sustainable by nature. Current Opinion in Environmental Sustainability 8, 5361.CrossRefGoogle Scholar
Toma, L and Mathijs, E (2007) Environmental risk perception, environmental concern and propensity to participate in organic farming programmes. Journal of Environmental Management 83, 145157.CrossRefGoogle ScholarPubMed
Wu, J and Babcock, BA (1998) The choice of tillage, rotation, and soil testing practices: economic and environmental implications. American Journal of Agricultural Economics 80, 494511.CrossRefGoogle Scholar