Affiliation:
1. Universidade Federal do Rio Grande do Sul (UFRGS), Brasil
2. Universidad del Tolima, Colombia
Abstract
ABSTRACT: Approximately 5% of the total emissions (0.11 Gt CO2 and GWP-AR5) originate in Rio Grande do Sul state (RS), a representative agricultural region in Southern Brazil. This study assessed SOCS (soil organic C stocks) in Latossolos of the Planalto of RS, with up-to-date data obtained from recent field campaigns and legacy data, and relate these SOC stocks to environmental variables. A literature search identified 195 documents with SOCS in layers 0-30 cm and 0-100 cm. The mean SOCS (0-30 cm) in the Latossolos was significantly higher (73.6 Mg ha-1) than the suggested IPCC default (55 Mg ha-1). The highest stocks (237 ± 39 Mg ha-1) were measured in uncultivated Latossolos Brunos in the 0-100 cm layer, especially at higher altitudes and lower mean annual temperature. The most frequently occurring soil Latossolo Vermelho distroférrico-LVdf (25% of the Planalto), also had high SOCS. Surprisingly Latossolos Vermelho Distrófico (LVd) also had high SOCS, in spite of the coarser texture. The estimated SOCS in Latosoolos of the Planalto is 419.9 Tg C, 36% larger than reported previous studies. We concluded that, despite significant land use changes, soils of this region maintain large SOCS which had been underestimated in previous studies.
Reference30 articles.
1. Role of the ABC Plan and Planaveg in the adaptation of crop and cattle farming to climate change;ASSAD E. D.,2020
2. Coleção 7.1. Série Anual de Mapas de Uso e Cobertura da Terra do Brasil;AZEVEDO T.,2023
3. Effect of tillage and cropping systems on soil organic matter dynamics and atmospheric CO2 mitigation in southern Brazil;BAYER C.;Revista Brasileira de Ciência do Solo,2000
4. Brazil’s soil carbon stocks;BERNOUX M.;Soil Science Society of America Journal,2002
5. Carbon accumulation at depth in Ferralsols under zero-till sub- tropical agriculture;BODDEY R. M.;Global Change Biology,2010