Land (Sep 2024)

Soil Classification Based on Local and Scientific Knowledge in an Irrigated District in the Semi-Arid Region of Brazil

  • Jucirema Ferreira da Silva,
  • Miguel Ferreira Neto,
  • Jeane Cruz Portela,
  • Joaquim Emanuel Fernandes Gondim,
  • Stefeson Bezerra de Melo,
  • Diana Ferreira de Freitas,
  • José Francismar de Medeiros,
  • Nildo da Silva Dias,
  • Tayd Dayvison Custódio Peixoto,
  • Francisco Vanies da Silva Sá

DOI
https://doi.org/10.3390/land13101559
Journal volume & issue
Vol. 13, no. 10
p. 1559

Abstract

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Ethnopedology offers a unique opportunity to recognize and highlight invaluable local soil knowledge (LSK). We aimed to classify three soil profiles in a Brazilian irrigated district with salt-affected soils based on smallholder farmers’ LSK and scientific knowledge. The study occurred in the Baixo-Açu irrigation district in Brazil’s semi-arid region. Three soil profiles were characterized by researchers (etic approach) and farmers (emic approach) in the following areas: P1 profile (area under banana cultivation), P2 profile (fallow area), and P3 profile (native forest area). Smallholder farmers identified the studied areas with salt problems based on the salt precipitation on the surface, changes in leaf color, and incidence of indicator plants of salinized areas. Researchers classified P1 profile as Pantohypereutric Calcaric Leptic Cambisol (Loamic, Humic), P2 as Pantohypereutric Calcaric Leptic Cambisol (Loamic, Humic), and P3 as Leptic Calcic Chernozem (Loamic). Smallholder farmers classified the P1 profile as “Terra de Salitre” (Salt Soil), the P2 profile as “Terra de Piçarro” (Saprolite Soil), and the P3 profile as “Terra Boa” (Good Soil). The results indicate that valuing local soil knowledge is effective and crucial for improved scientific research and land use, highlighting the importance of recognizing and utilizing their expertise and experience.

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