Hostname: page-component-cd9895bd7-dk4vv Total loading time: 0 Render date: 2024-12-25T14:10:29.577Z Has data issue: false hasContentIssue false

Regional and local maize seed exchange and replacement in the western highlands of Guatemala

Published online by Cambridge University Press:  01 August 2007

Jacob van Etten*
Affiliation:
Technology and Agrarian Development, Department of Social Sciences, Wageningen University, Wageningen, The Netherlands Centre for Geo-Information, Department of Environmental Sciences, Wageningen University, Wageningen, The Netherlands
Sytze de Bruin
Affiliation:
Centre for Geo-Information, Department of Environmental Sciences, Wageningen University, Wageningen, The Netherlands
*
*Corresponding author. E-mail: [email protected]

Abstract

Regional distributions of crop diversity are important to take into account for the spatial design of in situ, farmer-participatory interventions in crop genetic management. Regional seed flows are an important factor in shaping geographical distributions of crop diversity. This study contributes to the insight in these seed flows, focusing on maize (Zea mays L.) in Chimaltenango, an area in the western highlands of Guatemala. A social survey of 257 households on different aspects of seed management produced information on cultivar naming, seed sources, reasons and causes of the discontinuation of seed lots, and important explanatory variables associated with different seed sources. A small portion of the reported seed lots originated from regional seed sources. The main motivation of regional seed exchange and the discontinuation of seed lots was to achieve change in plant characteristics of the crop, especially to obtain lower plants and shorter growing cycles. It is argued that farmer selection fails to achieve such change, and in fact leads to an equilibrium with high plants and long growing cycles. Seed exchange functions as an escape to this trend. Other factors of influence on seed exchange are altitude and ethnicity. The study also highlights the issue of geographical directionality in seed exchange patterns.

Type
Research Article
Copyright
Copyright © NIAB 2007

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

Almekinders, CJM, Louwaars, NP and Bruijn, GH (1994) Local seed systems and their importance for an improved seed supply in developing countries. Euphytica 78: 207216.CrossRefGoogle Scholar
Atran, S, Medin, D, Ross, N, Lynch, E, Coley, J, Ek, EU and Vapnarsky, V (1999) Folk ecology and commons management in the Maya lowlands. Proceedings of the National Academy of Sciences of the United States of America 96: 7598.CrossRefGoogle Scholar
Badstue, LB, Bellon, MR, Juárez, X, Manuel, I and Solano, AM (2002) Social Relations and Seed Transactions Among Smallscale Maize Farmers in the Central Valleys of Oaxaca, Mexico. Preliminary Findings. Mexico, DF: CIMMYT.Google Scholar
Badstue, LB, Bellon, MR, Berthaud, J, Ramírez, A, Flores, D, Juárez, X and Ramírez, F (2005) Collective Action for the Conservation of On-farm Genetic Diversity in a Center of Crop Diversity: An Assessment of the Role of Traditional Farmers' Networks. Washington, DC: IFPRI-CAPRi.Google Scholar
Bellon, MR and Risopoulos, J (2001) Small-scale farmers expand the benefits of improved maize germplasm: a case study from Chiapas, Mexico. World Development 29: 799–811.CrossRefGoogle Scholar
Breiman, L, Friedman, JH, Olshen, RA and Stone, CJ (1984) Classification and Regression Trees. Belmont, CA: Wadsworth International Group.Google Scholar
Butler, JH and Arnold, DE (1977) Tzutujil maize classification in San Pedro La Laguna. In: Neuenswander, HL and Arnold, DE (eds) Cognitive Studies of Southern Mesoamerica. Dallas, TX: Summer Institute of Linguistics Museum of Anthropology, pp. 185–205.Google Scholar
De'ath, G and Fabricius, KE (2000) Classification and regression trees: a powerful yet simple technique for ecological data analysis. Ecology 81: 31783192.CrossRefGoogle Scholar
Dennis, JV (ed.) (1987) Farmer Management of Rice Variety Diversity in Northern Thailand. PhD Dissertation, Cornell University.Google Scholar
Donald, CM and Hamblin, J (1983) The convergent evolution of annual seed crops in agriculture. Advances in Agronomy 36: 97–143.CrossRefGoogle Scholar
Duarte, MR, Hildebrand, P and Ruano, ASR (1977) Tecnología y estructura agro-socioeconómica del minifundio de occidente de Chimaltenango. Guatemala: ICTA (unpublished report).Google Scholar
Fuentes, MR (1997) Desarrollo de germoplasma de maíz para el Altiplano de Guatemala. Agronomía Mesoamericana 8: 8–19.Google Scholar
Gardner, CO (1961) An evaluation of effects of mass selection and seed irradiation with thermal neutrons on yields of corn. Crop Science 1: 241245.CrossRefGoogle Scholar
Gardner, CO (1969) Genetic variation in irradiated and control populations of corn after ten cycles of mass selection for high grain yield. In: Induced Mutations in Plants. Vienna: International Atomic Energy Agency, pp. 469477.Google Scholar
Johannessen, CL (1982) Domestication process of maize continues in Guatemala. Economic Botany 36: 84–99.CrossRefGoogle Scholar
Johannessen, CL, Wilson, MR and Davenport, WA (1970) The domestication of maize: process or event? Geographical Review 60: 393413.CrossRefGoogle Scholar
Louette, D (1999) Traditional management of seed and genetic diversity: what is a landrace? In: Brush, SB (ed.) Genes in the Field. On-farm Conservation of Crop Diversity. Rome: International Plant Genetic Resources Institute; Ottawa: International Development Research Centre; Boca Raton, FL: Lewis Publishers, pp. 109–142.Google Scholar
Louette, D, Charrier, A and Berthaud, J (1997) In situ conservation of maize in Mexico: genetic diversity and maize seed management in a traditional community. Economic Botany 51: 20–38.CrossRefGoogle Scholar
Morris, ML, Risopoulos, J and Beck, D (1999) Genetic Change in Farmer-recycled Maize Seed: A Review of the Evidence. Mexico, DF: CIMMYT.Google Scholar
Perales, HR, Brush, SB and Qualset, CO (2003) Dynamic management of maize landraces in Central Mexico. Economic Botany 57: 2134.CrossRefGoogle Scholar
Perales, HR, Benz, BF and Brush, SB (2005) Maize diversity and ethnolinguistic diversity in Chiapas, Mexico. Proceedings of the National Academy of Sciences of the United States of America 102: 949954.CrossRefGoogle ScholarPubMed
Perales Rivera, HR (1998) Conservation and evolution of maize in Amecameca and Cuautla valleys of Mexico. PhD Dissertation, University of California.Google Scholar
Pressoir, G and Berthaud, J (2004a) Patterns of population structure in maize landraces from the Central Valleys of Oaxaca in Mexico. Heredity 92: 88–94.CrossRefGoogle ScholarPubMed
Pressoir, G and Berthaud, J (2004b) Population structure and strong divergent selection shape phenotypic diversification in maize landraces. Heredity 92: 95101.CrossRefGoogle ScholarPubMed
Rainey, SJ (2005) Folk classification and capability assessment of soils in two highland Guatemalan municipios. Journal of Latin American Geography 4: 77106.CrossRefGoogle Scholar
Saín, G and Martínez, J (1999) Adoption and Use of Improved Maize by Small-scale Farmers in Southeast Guatemala. Mexico, DF: CIMMYT.Google Scholar
Salford Systems (2002) CART 5.0. San Diego, CA: Salford Systems.Google Scholar
Simmons, C, Tarano, JM and Pinto, JH (1959) Clasificación de reconocimiento de los suelos de la República de Guatemala. Guatemala: IAN/SCIDA.Google Scholar
Smith, CA (1979) Beyond dependency theory: national and regional patterns of underdevelopment in Guatemala. American Ethnologist 5: 574617.CrossRefGoogle Scholar
Smith, CA (1990) The militarization of civil society in Guatemala. Economic reorganization as a continuation of war. Latin American Perspectives 17: 8–41.Google Scholar
Soleri, D and Cleveland, DA (2001) Farmers’ genetic perceptions regarding their crop populations: an example with maize in the central valleys of Oaxaca, Mexico. Economic Botany 55: 106128.CrossRefGoogle Scholar
Soleri, D and Smith, SE (2002) Rapid estimation of broad sense heritability of farmer-managed maize populations in the Central Valleys of Oaxaca, Mexico, and implications for improvement. Euphytica 128: 105119.CrossRefGoogle Scholar
Soleri, D, Smith, SE and Cleveland, DA (2000) Evaluating the potential for farmer and plant breeder collaboration: a case study of farmer maize selection in Oaxaca, Mexico. Euphytica 116: 41–57.Google Scholar
Stadelman, R (1940) Maize cultivation in Northwestern Guatemala. Carnegie Institution of Washington Publications: 523.Google Scholar
van Etten, J (2001) The selecting landscape. Farmer management of maize genetic resources in a Mayan highland community in Guatemala. MSc thesis, Wageningen University.Google Scholar
van Etten, J (2006a) Changes in farmers' knowledge of maize diversity in highland Guatemala, 1927/37–2004. Journal of Ethnobiology and Ethnomedicine 2, .CrossRefGoogle ScholarPubMed
van Etten, J (2006b) Molding maize: the shaping of a crop diversity landscape in the western highlands of Guatemala. Journal of Historical Geography 32(4): 689711.CrossRefGoogle Scholar
Warren, P (2005) Between the Household and the Market: A Livelihoods Analysis of SPFS-promoted Seed Multiplication in Eastern Guatemala. Rome: FAO.Google Scholar
Wellhausen, EJ, Fuentes, OAHernández Corzo, A, and in collaboration with Mangelsdorf PC (1957). Races of Maize in Central America Washington, DC: National Academy of Sciences, National Research Council.Google Scholar
Wierema, H, Almekinders, C, Keune, L and Vermeer, R (1993) La producción campesina en Centroamérica: los sistemas locales de semilla. Tilburg: IVO.Google Scholar
Zeven, AC (1999) The traditional inexplicable replacement of seed and seed ware of landraces and cultivars: a review. Euphytica 110: 181–191.CrossRefGoogle Scholar
Zimmerer, KS (2003) Geographies of seed networks for food plants (potato, ulluco) and approaches to agrobiodiversity conservation in the Andean countries. Society and Natural Resources 16: 583–601.CrossRefGoogle Scholar