Abstract
In areas of the Cerrado-Pantanal ecotone in Brazil, the soil displays features which are inherent to the processes of soil formation, both of the Central Plateau and the Pantanal Plain. Given this premise, the area should be noteworthy for its high level of edaphic heterogeneity. The present study aimed to determine the physical, chemical and physico-hydric attributes that best explain the heterogeneity of soils in areas of the Cerrado-Pantanal ecotone, and to assess whether these attributes differ between the studied fragments and between the Cerrado soils of the Central Plateau and of the Pantanal Plain. One hundred and sixty soil samples were collected and 11 profiles described for five areas of the Cerrado-Pantanal ecotone (15o43' S, 56o04' W). The following classes were identified: typic Concretionary Petric Plinthosol; typic Lithoplintic Petric Plinthosol; typic dystrophic Yellow Latosol; dystrophic Yellow Latosol with plinthite, the last three not yet having been described for this region. The chemical attributes CEC, M, OM, K, P, Mg, Ca and Mn explained 40.49% of the variability of the soils in the region under study, whether differing or not between the studied fragments. Spatial distribution of the attributes varied between random and aggregated, with the chemical attributes CEC, K, Ca and Mg being similar to soils of the Pantanal Plain. Whereas Al, P and Mn, as well as the hydric variables, were similar to the Plateau. On the other hand, the average organic matter content, pH, gravel and pebbles, were characteristic of both the Plateau and the Plain.
Highlights
Natural resources are generally not evenly distributed spatially, and this environmental heterogeneity becomes a barrier to plants due to their sessile nature (POOR et al, 2005)
The results revealed the occurrence of three new classes for this region, dystrophic Yellow Latosol, dystrophic Yellow Latosol with plinthite and typic Lithoplintic Petric Plinthosol (Table 2)
Only the Red Yellow Latosol and Petric Plinthosol classes had been identified on the scale of 1:100,000 (SHINZATO; TEIXEIRA; MARTINS, 2006), and the Red Yellow Latosol and dystrophic Concretionary Podzolic classes on the scale of 1:250,000 (PROJETO DE DESENVOLVIMENTO AGROAMBIENTAL DO ESTADO DE MATO GROSSO, 2001)
Summary
Natural resources are generally not evenly distributed spatially, and this environmental heterogeneity becomes a barrier to plants due to their sessile nature (POOR et al, 2005). The Cerrado of the Cuiabana Depression presents a flattened terrain and greatly altered rocks, which generated a deposition of gravels arising from the breakdown of quartz veins (CASTRO JUNIOR; SALOMÃO; BORDEST, 2006) Due to peneplanation, this area resembles the Pantanal Formation, and has 18 classes of soil (SHINZATO; TEIXEIRA; MARTINS, 2006). Due to the small map scale used, there are no records on the existence of other classes, nor the physical, chemical or hydro-physical heterogeneity of the topsoil (PROJETO DE DESENVOLVIMENTO AGROAMBIENTAL DO ESTADO DE MATO GROSSO, 2001; SHINZATO; TEIXEIRA; MARTINS, 2006) Part of this depression is formed by an ecotone.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
