Abstract
Swidden cultivation is the traditional agricultural system in most parts of the Amazonian rain forest. In a remote area in the Manu National Park, Peru, this system was analysed in two indigenous Matsiguenka communities. Diversity of cultivated plants on fields and in homegardens are presented in the current study. Cultivated plants were noted on two to four plots per field on 46 fields, making a total of 126 survey plots. Nineteen homegardens were studied as well. Dominating species cultivated on fields is cassava (Manihot esculenta). Fruit trees such as the peach palm (Bactris gasipaes), guava (Psidium guajava) or Inga edulis, but also cotton (Gossypium barbadense) and a medicinal plant (Cyperus sp.) predominate in more than 75 % of the homegardens analysed. Species diversity increases steadily from 18 and 24 species on 1- and 2-year-old fields to 26, 29 and 66 species in young, medium old and old homegardens, respectively. Seventy-one different species in total were found in all homegardens analysed and 25 in swidden fields. Diversity of species cultivated in homegardens is low compared to other studies in the rain forest of the Amazon. This seems to be due to their remoteness from the next urban centre and to the fact that they are native communities with still low external exchange of information. These findings are in contrast to the hypothesis that remoteness from urban centres increases species richness because subsistence production is based on a broad variety of species. In contrast to species richness in homegardens, differences in species richness in swidden fields between the present and other studies could not be found.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
G. Baer (1984) Die Religion der Matsiguenka - Ost-Peru Wepf & Co. AG Verlag, Basel 516
A. Brack Egg (1999) Diccionario enciclopédico de plantas útiles del Perú CBC Cuzco, Peru 550
M.A. Brazil (1990) A list of herbaceous and woody plants grown in home gardens world-wide K. Landauer M. Brazil (Eds) Tropical Home Gardens United Nations University Press Tokyo, Japan 214–230
O.T. Coomes G.J. Burt (1997) ArticleTitleIndigenous market-oriented agroforestry: dissecting local diversity in western Amazonia Agroforestry Systems 37 27–44 Occurrence Handle10.1023/A:1005834816188
CTAR (Consejo Transitorio de Administracíon Regional, Madre de Dios), Parque Nacional del Manu and IMA (Instituto de Manejo de Agua y Medio Ambiente) 1998. Propuesta de ordenamientio territorial de la provincia del Manu – Resumen ejectivo oficina de proramcíon y planeamiente ambiental – Unidad de estudios. Cusco, Peru, 231 pp.
CTAR (Consejo Transitorio de Administracion Regional, Madre de Dios) and IIAP (Instituto de Investigacíon de la Amazonia Peruana) 2000. Zonificacíon Ecologica Economica de la Region Madre de Dios. Medio Fisico II, Puerto Maldorado, Peru, pp. 1–156.
F.A.J. Clerck ParticleDe P. Negreros-Castillo (2000) ArticleTitlePlant species of traditional Mayan homegardens of Mexico as analogs for multistrata agroforests Agroforest. Syst. 48 303–317 Occurrence Handle10.1023/A:1006322612362
D.L. Dufour (1990) ArticleTitleUse of tropical rainforest by native Amazonians BioScience 40 652–659
M.J. Eden A. Andrade (1987) ArticleTitleEcological aspects of swidden cultivation among the Andoke and Witoto Indians of the Colombian Amazon Human Ecol. 15 IssueID3 339–359 Occurrence Handle10.1007/BF00888030
E.C.M. Fernandes P.K.R. Nair (1986) ArticleTitleAn evaluation of the structure and functions of tropical homegardens Agricult. Syst. 21 IssueID4 279–310 Occurrence Handle10.1016/0308-521X(86)90104-6
M. Hiraoka (1986) ArticleTitleZonation of Mestizo riverine farming systems in northeast Peru Natl. Geogr. Res. 2 IssueID3 354–371
M. Hiraoka (1989) Agricultural systems of the floodplains of the Peruvian Amazon J.G. Browder (Eds) Fragile Lands of Latin America: Strategies for Sustainable Development Westview Press Boulder, Colorado, USA 75–101
Instituto Nacional de Estadistica e Informatica 2003. Censos – informacíon distrital. www.inei.gob.pe.
M. Jensen (1993) ArticleTitleSoil conditions, vegetation structure and biomass of a Javanese homegarden Agroforest. Syst. 24 171–186 Occurrence Handle10.1007/BF00706890
A. Johnson (1983) Machiguenka gardens R.B. Harries W.T. Vickers (Eds) Adaptive Responses of Native Amazonians Academic Press New York 29–63
A. Johnson (1989) How the Machiguenga manage resources: conservation or exploitation of nature D.A. Posey W. Balee (Eds) Resource Management in Amazonia: Indigenous and Folk Strategies New York Botanical Society New York 213–223
B.M. Kumar P.K.R. Nair (2004) ArticleTitleThe enigma of tropical homegardens Agroforest. Syst. 61 135–152 Occurrence Handle10.1023/B:AGFO.0000028995.13227.ca
S.R. Lamont W.H. Eshbaugh A.M. Greenberg (1999) ArticleTitleSpecies composition, diversity and use of homegardens among three Amazonian villages Economic Bot. 53 IssueID3 312–326
V.E. Méndez R. Lok E. Somarriba (2001) ArticleTitleInterdisciplinary analysis of homegardens in Nicaragua: micro-zonation, plant use and socio-economic importance Agroforest. Syst. 51 85–96 Occurrence Handle10.1023/A:1010622430223
D. Müller-Dombois H. Ellenberg (1974) Aims and Methods of Vegetation Ecology John Wiley & Sons New York
J. Ohl (2004) Die Ökonomie der Matsiguenka im Nationalpark ManuPeru – Tourismus als Chance für eine nachhaltige Entwicklung? University of Greifswald Germany
C. Padoch W. Jong ParticleDe (1991) ArticleTitleThe house gardens of Santa Rosa: diversity and variability in an Amazonian agricultural system Economic Bot. 45 IssueID2 166–175
J. Salick (1989) ArticleTitleEcological basis of Amuesha agriculturePeruvian Upper Amazon Adv. Economic Bot. 7 189–212
Shepard G.H.J. and Chicchón A. 2001. Resource use and ecology of the Matsiguenka of the eastern slopes of the Cordillera de Vilcabamba, Peru. In: Alonso L.E., Alonso A., Schulenberg T.S. and Dallmeier F. (eds), Rapid Assessment Program. Smithonian Institution/Monitoring and Assessment of Biodiversity Program, pp. 163–174.
N.J.H. Smith (1996) ArticleTitleHome gardens as a springboard for agroforestry develop-ment in Amazonia Int. Tree Crops J. 9 11–30
Thrupp L.A., Hecht S. and Browder J. 1997. The diversity and dynamics of shifting cultivation: myths, realities, and policy implications. World Resources Institute 49 pp.
A. Wezel S. Bender (2003) ArticleTitlePlant species diversity of homegardens of Cuba and its significance for household food supply Agroforest. Syst. 57 39–49 Occurrence Handle10.1023/A:1022973912195
Works M.A. 1990. Dooryard gardens in MoyobambaPeru. Focus (Summer 1990): 12–17.
M.E. Zaldivar O.J. Rocha E. Castro R. Barrantes (2002) ArticleTitleSpecies diversity of edible plants grown in homegardens of Chibchan Amerindian from Costa Rica Human Ecol. 30 IssueID3 301–316 Occurrence Handle10.1023/A:1016516401789
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Wezel, A., Ohl, J. Does Remoteness from Urban Centres Influence Plant Diversity in Homegardens and Swidden Fields?: A Case Study from the Matsiguenka in the Amazonian Rain Forest of Peru. Agroforest Syst 65, 241–251 (2005). https://doi.org/10.1007/s10457-005-3649-9
Revised:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/s10457-005-3649-9