Impact of forest–pasture conversion on soil physical and chemical properties

Revista Agrogeoambiental

Endereço:
Avenida Vicente Simões, nº 1111, Nova Pouso Alegre - Nova Pouso Alegre
Pouso Alegre / MG
37553-465
Site: http://agrogeoambiental.ifsuldeminas.edu.br
Telefone: (35) 3449-6158
ISSN: 23161817
Editor Chefe: Saul Jorge Pinto de Carvalho
Início Publicação: 31/03/2009
Periodicidade: Trimestral
Área de Estudo: Ciências Agrárias, Área de Estudo: Multidisciplinar

Impact of forest–pasture conversion on soil physical and chemical properties

Ano: 2021 | Volume: 13 | Número: 4
Autores: D. Dortzbach, M. G. Pereira, A. P. Gonzalez, O. A. Q. dos Santos, M. de C. Piccolo, A. Loss.
Autor Correspondente: D. Dortzbach | [email protected]

Palavras-chave: carbon stocks, soil use conversion, 13C natural abundance, soil fertility.

Resumos Cadastrados

Resumo Inglês:

The objective of this paper is to assess the changes in soil physical and chemical properties resulting from the conversion of native forest to pasture and pasture to secondary forest in the state of Santa Catarina, Brazil. Seven forest–pasture successional stages were identified using aerial photographs and satellite images acquired in 1957, 1978, and 2008. Successional stages were coded as FFF, FPF, PFF, PPF, FPP, FFP, and PPP, where the first, second, and third letters refer to the land uses (P, pasture; F, forest) practiced in 1957, 1978, and 2008, respectively. Soil samples were collected by layer at depths of 0–10, 10–20, 20–40, 40–60, 60–80, and 80–100 cm. Clay contents, soil bulk density (Db), macroporosity (MP), microporosity (mP), pH, Aluminum (Al), cation exchange capacity (CEC), calcium (Ca), potassium (K), phosphorus (P), total organic carbon (TOC) content, carbon stock, and δ13C abundance were quantified. Conversion of forest to pasture increased soil P, K, Ca, Db, and mP; and reduced MP, TOC content, and carbon stocks. The largest carbon stocks occurred in sites occupied by forests but previously used as pastures. Forest and pasture age influenced δ13C values, resulting in different isotopic signatures for different sites, confirming the transition from C3 to C4 plants. In 50-year-old pastures, about 66 % of soil TOC is still derived from the primary forest biomass.