Analysis of soil carbon stocks under different vegetation cover in Brazil

Authors

DOI:

https://doi.org/10.20873/jbb.uft.cemaf.v8n1.marinhojr

Keywords:

anthropic actions, management and land use, brazilian ecosystems

Abstract

Anthropic activities have caused an increase in the concentration of greenhouse gases in the atmosphere, mainly due to changes in land use that alter the ability of soils to store CO2. The present study seeks to review current publications on changes in soil carbon stock under different vegetation cover published in recent years and to make a critical and systemic assessment of the subject, considering the methodologies used in each work and the different types of soil management and use in various regions of Brazil. For data collection, 35 articles published in the last ten years that correlated with the theme were selected. The survey of the articles sought to characterize the Brazilian ecosystems and summarize the main published data on carbon stocks in ecosystems and subsequently the estimates of stocks in environments under changing land use. The results showed that the different vegetation coverings present distinct, however positive capacity to store carbon in the soil in Brazil and that variables such as management, texture, physical, chemical and biological attributes are significant factors and can and directly influence the results.

References

Aguiar S, Santos IS, Arêdes N, Silva S. Biome-networks: information and communication for sociopolitical action in eco-regions. Ambiente & sociedade, v. 19, n. 3, p. 231-248, 2016.

Alcântara Neto F, Leite LFC, Arnhold E, Maciel GA, Carneiro RFV. Compartimentos de carbono em Latossolo vermelho sob cultivo de eucalipto e fitofisionomias de cerrado. Revista Brasileira de Ciencia do Solo, v. 35, p. 849-856, 2011.

Araújo EA, Ker JC, Mendonça ES, Silva IR, Oliveira EK. Impacto da conversão floresta - pastagem nos estoques e na dinâmica do carbono e substâncias húmicas do solo no bio-ma Amazônico. Acta Amazonica, v. 41, p. 103-114, 2011.

Batlle-Bayer L, Batjes NH, Bindraban PS. Changes in organic carbon stocks upon land use conversion in the Brazilian Cerrado: A review. Agriculture, Ecosystems and Environ-ment, v. 137, p. 47-58, 2010.

Bordonal RO, Lal R, Ronquim CC, Figueiredo EB, Carvalho JLN, Maldonado Jr. W et al. Changes in quantity and quali-ty of soil carbon due to the land-use conversion to sugarcane (Saccharum officinarum) plantation in southern Brazil. Ag-riculture, Ecosystems and Environment, v. 240, p. 54–65, 2017.

Bordonal RO, Menandro LMS, Barbosa LC, Lal R, Milori DMBP, Kolln OT et al. Sugarcane yield and soil carbon re-sponse to straw removal in south-central Brazil. Geoderma, v. 328, p. 79-90, 2018.

Bortoluzzi Castro LR, Carvalho AV, Soares JR, Castro Pes-sano, EF. Os Biomas Brasileiros nos livros didáticos de Ci-ências: Um olhar ao Pampa Gaúcho. Revista Electrónica In-vestigación en Educación en Ciencias, v. 14, n. 1, p. 38-49, 2019.

Campos MCC, Soares MDR, Nascimento MF, Silva DMP. Estoque de carbono no solo e agregados em Cambissolo sob diferentes manejos no sul do Amazonas. Revista Ambiente e Agua, v. 11, p. 339-349, 2016.

Campos, B-HC, Amado TJC, Bayer C, Nicoloso RS, Fiorin JE. Carbon stock and its compartments in a subtropical oxisol under long-term tillage and crop rotation systems. Revista Brasileira de Ciência do Solo, v. 35, p. 805-817, 2011.

Carvalho JLN, Avanzi JC, Silva MLN, Mello CR, Cerri CEP. Potencial de sequestro de carbono em diferentes biomas do Brasil. Revista Brasileira de Ciencia do Solo, v. 34, p. 277-289, 2010.

Cassol PC, Fachini L, Mafra ÁL, Brand MA, Simonete M, Coimbra JLM. Alterações no carbono orgânico do solo de campo natural submetido ao plantio de Pinus taeda em três idades. Ciência Florestal, v. 29, p. 545-558, 2019.

Cook RL, Binkley D, Mendes JCT, Stape JL. Soil carbon stocks and forest biomass following conversion of pasture to broadleaf and conifer plantations in southeastern Brazil. Forest Ecology and Management, v. 324, p. 37-45, 2014.

Cook RL, Binkley D, Stape JL. Eucalyptus plantation effects on soil carbon after 20 years and three rotations in Brazil. Forest Ecology and Management, v. 359, p. 92-98 2016.

Coser TR, Figueiredo CC, Jovanovic B, Moreira TN, Leite GG, Salomon SL et al. Short-term buildup of carbon from a low-productivity pastureland to an agrisilviculture system in the Brazilian savannah. Agricultural Systems, v. 166, p. 184-195, 2018.

Cunha CN, Girard P, Nunes GM, Arieira J, Penha J, Junk WJ. Pantanal: A identidade de uma grande área úmida. In: Peixoto AL, Luz JRP, Brito MA. Conhecendo a biodiversi-dade. Brasília: MCTIC, CNPq, PPBio, 196p. 2016.

Cunha JM, Gaio DC, Campos MCC, Soares MDR, Silva DMP, Lima AFL. Atributos físicos e estoque de carbono do solo em áreas de Terra Preta Arqueológica da Amazônia. Revista Ambiente e Agua, v. 12, p. 263-281, 2017.

Dubreuil V, Fante KP, Planchon O, Sant'anna Neto JL. Os tipos de climas anuais no Brasil: uma aplicação da classifica-ção de Köppen de 1961 a 2015. Confins, v. 37, oct, 2018. Disponível em: <http://journals.openedition.org/confins/15738>. Acesso em : 07 Nov. 2019.

Frazão LA, Paustian K, Cerri CEP, Cerri CC Soil carbon stocks under oil palm plantations in Bahia State, Brazil. Bi-omass and Bioenergy, v. 62, p. 1-7, 2014.

Freitas L, Oliveira IA, Casagrande JC, Silva LS, Campos MCC. Estoque de carbono de Latossolos em sistemas de manejo natural e alterado. Ciencia Florestal, v. 28, p. 228-239, 2018.

Gatto A, Barros NF, Novais RF, Silva IR, Leite HG, Leite FP et al. Estoques de carbono no solo e na biomassa em planta-ções de eucalipto. Revista Brasileira de Ciencia do Solo, v. 34, p. 1069-1079, 2010.

Giácomo RG, Pereira MG, Guareschi RF, Machado DL. Atributos químicos e físicos do solo, estoques de carbono e nitrogênio e frações húmicas em diferentes formações vege-tais. Ciencia Florestal, v. 25, p. 617-631, 2015.

Gonçalves MJR. Como escrever um artigo de revisão de literatura. Revista JRG de Estudos Acadêmicos, v. 2, n. 5, p. 29-55, ago. 2019.

Instituto Brasileiro de Geografia e Estatística (IBGE). Mapa de vegetação brasileira. 2018. Disponível em: <http://geoftp.ibge.gov.br/informacoes_ambientais/vegetacao/vetores/escala_250_mil/brasil> Acesso em: 01 Nov. 2019.

Le Quéré C, Andrew RM, Friedlingstein P, Sitch S, Hauck J, Pongratz J et al. Global Carbon Budget 2018. Earth System Science Data, v. 10, p. 2141–2194, 2018.

Luca EF, Chaplot V, Mutema M, Feller C, Ferreira ML, Cerri CC et al. Effect of conversion from sugarcane preharvest burning to residues green-trashing on SOC stocks and soil fertility status: Results from different soil conditions in Bra-zil. Geoderma, v. 310, v. 238-248, 2018.

Magalhães SSA, Ramos FT, Weber OLS. Estoques de carbo-no em Latossolo após trinta e oito anos sob diferentes siste-mas de cultivo. Revista Brasileira de Engenharia Agricola e Ambiental, v. 20, p. 85-91, 2016.

Maia SMF, Ogle SM, Cerri CC, Cerri CEP. Changes in soil organic carbon storage under different agricultural manage-ment systems in the Southwest Amazon Region of Brazil. Soil and Tillage Research, v. 106, p. 177-184, 2010.

Mello JM, Couto EG, Amorim RSS, Chig LA, Johnson MS, Lobo FA. Dinâmica dos atributos físico-químicos e variação sazonal dos estoques de carbono no solo em diferentes fito-fisionomias do pantanal norte Mato-Grossense. Revista Ar-vore, v. 39, p. 325-336, 2015.

Nunes RS, Lopes AAC, Sousa DMG, Mendes IC. Sistemas de manejo e os estoques de carbono e nitrogênio em Latos-solo de cerrado com a sucessão soja-milho. Revista Brasilei-ra de Ciencia do Solo, v. 35, p. 1407-1419, 2011.

Oliveira DMS, Paustian K, Davies CA, Cherubin MR, Franco ALC, Cerri CC et al. Soil carbon changes in areas undergo-ing expansion of sugarcane into pastures in south-central Brazil. Agriculture, Ecosystems and Environment, v. 228, p. 38-48, 2016.

Pegoraro RF, Moreira CG, Dias DG, Silveira TC. Carbon and nitrogen stocks in the soil and humic substances of agricul-tural crops in the semi-arid region. Revista Ciencia Agro-nomica, v. 49, p. 574-583, 2018.

Pegoraro RF, Silva IR, Novais RF, Barros NF, Cantarutti RB, Fonseca S. Carbon and nitrogen stocks in the alfisol submit-ted to the Eucalyptus urograndis monoculture and Acacia mangium rotation. Ciencia Florestal, v. 24, p. 933-943, 2014.

Peixoto AL, Luz JRP, Brito MA. Conhecendo a biodiversida-de. Brasília: MCTIC, CNPq, PPBio, 196p. 2016.

Petter FA, Lima LB, Morais LA, Tavanti RFR, Nunes ME, Freddi OS et al. Carbon stocks in oxisols under agriculture and forest in the southern Amazon of Brazil. Geoderma Re-gional, v. 11, v. 53-61, 2017.

Polidoro JC, Mendonça-Santos ML, Lumbreras JF, Coelho MR, Carvalho Filho A, Motta PEF et al. Programa Nacional de Solos do Brasil (PronaSolos). Dados eletrônicos. – Rio de Janeiro : Embrapa Solos, 53p. 2016.

Primieri S, Muniz AW, Lisboa HM. Dinâmica do Carbono no Solo em Ecossistemas Nativos e Plantações Florestais em Santa Catarina. Floresta e Ambiente, v. 24, e00110314, 2017.

Rodrigues Filho S, Lindoso DP, Bursztyn M, Nascimento CG. O clima em transe: políticas de mitigação e adaptação no Brasil. Revista Brasileira de Climatologia, ano 12, v. 19, p. 74-91, 2016.

Rossetti KV, Centurion JF. Estoque de carbono e atributos físicos de um Latossolo em cronossequência sob diferentes manejos. Revista Brasileira de Engenharia Agricola e Ambi-ental, v. 19, p. 252-258, 2015.

Santana MS, Sampaio EVSB, Giongo V, Menezes RSC, Jesus KN, Albuquerque ERGM et al. Carbon and nitrogen stocks of soils under different land uses in Pernambuco state, Brazil. Geoderma Regional, v. 16, e00205, 2019.

Santos CA, Rezende CP, Pinheiro EFM, Pereira JM, Alves BJR, Urquiaga S et al. Changes in soil carbon stocks after land-use change from native vegetation to pastures in the Atlantic forest region of Brazil. Geoderma, v. 337, p. 394-401, 2019.

Santos HG Carvalho Junior W, Dart RO, Aglio MLD, Sousa JS, Pares JG et al. O novo mapa de solos do Brasil: legenda atualizada. Dados eletrônicos. - Rio de Janeiro : Embrapa Solos, 67p. 2011.

Santos HG, Jacomine PKT, dos Anjos LHC, Oliveira VÁ, Lumbreras JF, Coelho MR et al. Sistema Brasileiro de Clas-sificação de Solos. 5. ed., rev. e ampl. − Brasília, DF : Em-brapa, 2018.

Santos LR, Lima AMN, Cunha JC, Rogrigues MS, Soares BEM, Santos LPA et al. Does irrigated mango cultivation alter organic carbon stocks under fragile soils in semiarid climate? Scientia Horticulturae, v. 255, p. 121-127, 2019b.

Schulz K, Voigt K, Beusch C, Almeida-Cortez JS, Kowarik I, Walz A et al. Grazing deteriorates the soil carbon stocks of Caatinga forest ecosystems in Brazil. Forest Ecology and Management, v. 367, p. 62-70, 2016.

Stockmann U, Padarian J, McBratney A, Minasny B, Bro-ginez D, Montanarella L et al. Global soil organic carbon assessment. Global Food Security, v. 6, p. 9-16, 2015.

Stürmer SLK, Rossato OB, Copetti ACC, Santos DR, Calega-ri A, Brum B. Variações nos teores de carbono orgânico em função do desmatamento e revegetação natural do solo. Ci-encia Florestal, v. 21, p. 241-250, 2011.

Vicente LC, Gama-Rodrigues EF, Gama-Rodrigues AC. Organic carbon within soil aggregates under forestry sys-tems and pasture in a southeast region of Brazil. Catena v. 182, e104139, 2019.

Zelarayán, MLC, Celentano D, Oliveira EC, Triana SP, Sodré DN, Muchavisoy KHM et al. Impacto da degradação sobre o estoque total de carbono de forestas ripárias na Amazônia Oriental, Brasil. Acta Amazonica v. 45, p. 271-282, 2015.

Zinn YL, Guerra AR, Silva CA, Faria JÁ, Silva TAC. Soil organic carbon and morphology as affected by pine planta-tion establishment in Minas Gerais, Brazil. Forest Ecology and Management, v. 318, p. 261-269, 2014.

Published

2020-05-22

How to Cite

Marinho Junior, J. L., Lima, D. de S., Dias, J. L. A., & Araújo Filho, R. N. de. (2020). Analysis of soil carbon stocks under different vegetation cover in Brazil. Journal of Biotechnology and Biodiversity, 8(1), 031–040. https://doi.org/10.20873/jbb.uft.cemaf.v8n1.marinhojr