Mid-to-late Holocene vegetation and paleofire dynamics of the last 6,000 years in the Southeast Brazilian highlands montane rainforest
DOI:
https://doi.org/10.5380/qeg.v15i0.95546Keywords:
Paleoenvironments, Holocene fires, Brazilian highlands, montane rainforestAbstract
The present study aimed to investigate the dynamic of the vegetation and the occurrence of local fires during the Mid-to-Late Holocene in the mountainous domain of the Serra do Mar (SE, Brazil). Investigation involved the analysis of charcoal particles, pollen samples and stable isotopes in colluvial sediment cores, in the upper portion of Macaé River's Basin (Rio de Janeiro State), in order to perceive the environmental changes. Previous studies conducted stable carbon isotope analysis and radiocarbon dating, indicating a timescale within the Mid-to-Late Holocene (last 6,000 cal yrs BP). Two cores were collected for palynological and charcoal particle analyses and the results indicated three significant shifts in the vegetation composition during this period. The analysis indicates that fires played a role in shaping the vegetation dynamics of the montane rainforest. Around 6,000 cal yrs BP, the montane rainforest was predominantly covered by herbaceous-shrub vegetation, characterized by an abundance of grasses and shrubs, along with frequent fires. Between 4,500 and 2,000 cal yrs BP, a transition occurred towards a denser canopy forest with increasing dominance of tree species such as Ilex, Alchornea and Machaerium, accompanied by a decrease in fire activity. Despite forest expansion, fires still occurred and became frequent in the last 900 cal yrs BP, leading to a decrease in tree density and opening of the canopy. Charcoal particles peaks reached maximum levels over the last centuries, being related to local anthropic action.
References
ALMEIDA, J. Geologia e recursos minerais da Folha Macaé. Belo Horizonte. CPRM. 2012.
ALVES, L.M.; CHADWICK, R.; MOISE, A.; BROWN, J.; MARENGO, J.A. Assessment of rainfall variability and future change in Brazil across multiple timescales. International Journal of Climatology 41, E1875–E1888. 2021.
BARRETO, C. F.; LUZ, C. F. P.; BAPTISTA-NETO, J. A.; VILELA, C. G.; BARTH, O. M. Palynological analysis of a sediment core obtained in Guanabara Bay. 79(2), 223–234, 2007.
BARTH, O. M.; BARROS, M. A.; LUZ, C. F. P. Reconstituição do Bioma Mata Atlântica no Estado do Rio de Janeiro durante o Quaternário através da Palinologia. Em Ismar de Souza Carvalho (Org.), Paleontologia: Cenários de vida – Paleoclimas. Editora Interciência. 1a, Vol. 5, p. 425–444, 2013.
BAUERMANN, S. G.; MARQUES-TOIGO, M.; BEHLING, H.; NEVES, P. C. P. Aspectos tafonômicos em palinologia do Quaternário. Botanica, 52, 223–239, 2002.
BEHLING, H. A high resolution Holocene pollen record from Lago do Pires, SE Brazil: vegetation, climate and fire history. Journal of Paleolimnology. 14(3), 253–268, 1995.
BEHLING, H. Late Quaternary vegetation, climate and fire history from the tropical mountain region of Morro de Itapeva, SE Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology, 129, 407–422, 1997
BEHLING, H. South and southeast Brazilian grasslands during Late Quaternary times: a synthesis. Paleogeography, Paleoclimatology, Paleoecology. 177, 19–27, 2002
BEHLING, H.; NEGRELLE, R. R. B. Tropical rain forest and climate dynamics of the Atlantic lowland, Southern Brazil, during the late Quaternary. Quaternary Research, 56(3), 383–389, 2001.
BEHLING, H.; SAFFORD, H. D. Late-glacial and Holocene vegetation, climate and fire dynamics in the Serra dos Órgãos, Rio de Janeiro State, southeastern Brazil. Global Change Biology, 16(6), 1661–1671, 2010.
BIGARELLA, J. J.; MOUSINHO, M. R.; SILVA, J. X. Processes and environments of the Brazilian Quaternary. VII INQUA, 1–69, 1965.
BOUTTON, T. W.; ARCHER, S. R.; MIDWOOD, A. J.; CASAR, I.; NORDT, L. C. Stable carbon isotope ratios of soil organic matter and their potential use as indicators of palaeoclimate. Em T. W. Boutton & S. Yamasaki (Orgs.), Mass Spectrometry of Soils. Marcel Dekker. p. 47–82, 1996.
CLARK, J. S. Particle Motion and the Theory of Charcoal Analysis: Source Area, Transport, Deposition, and Sampling. Em Quaternary Research, Vol. 30: 67-80, 1988
CLARK, J. S.; ROYALL, P. D. Particle-Size evidence for source areas of charcoal accumulation in Late Holocene Sediments of Eastern North American Lakes. Quaternary research, 43, 80–89, 1995.
COELHO, L. G., BARTH, O. M., & DE ARAUJO, D. S. D. Pollen analysis of Holocene sediments from the Poço das Antas National Biological Reserve, Silva Jardim, Rio de Janeiro, Brazil. Anais da Academia Brasileira de Ciências, 531–541, 2008.
COELHO NETTO, A. L. Hidrologia de encosta na interface com a geomorfologia. Em A. J. T. Guerra & S. B. Cunha (Orgs.), Geomorfologia: Uma atualização de bases e conceitos Ed. Bertrand. 2a, p. 93–148, 1994.
COELHO NETTO, A. L. Catastrophic landscape evolution in a humid region (SE Brazil): inheritances from tectonic, climatic and land use induced changes. Suppl. Geogr. Fis. Dinam. Quat., 29(3), 21–48, 1999.
COELHO NETTO, A. L.; SATO, A. M.; AVELAR, A. D. S.; VIANNA, L. G. G.; ARAÚJO, I. S.; FERREIRA, D. L. C.; LIMA, P. H.; SILVA, A. P. A.; SILVA, R. P. January 2011: The extreme landslide disaster in Brazil. Landslide Science and Practice: Risk Assessment, Management and Mitigation, 6, 377–384, 2013.
DANTAS, M. E. Geomorfologia do Estado do Rio de Janeiro (CPRM, Org.). Serviço Geológico do Brasil (CPRM), 2000.
DELCOURT, P. A.; DELCOURT, H. R. (1980). Pollen preservation and quaternary environmental history in the Southeastern United States. Palynology, 4(1), 215–231, 1980.
ERDTMAN, G. The Acetolysis Method—A Revised Description. Em The acetolysis method-a revised description. Vol. 54, p. 561–564, 1960.
FACADIO, A. C. C. Mudanças ambientais holocênicas e evolução de encostas no alto curso das bacias dos rios Grande e Macaé, Região Serrana do Rio de Janeiro. [Tese]. Universidade Federal do Rio de Janeiro. 2023.
FINSINGER, W.; KELLY, R.; FEVRE, J.; MAGYARI, E. K. A guide to screening charcoal peaks in macrocharcoal-area records for fire-episode reconstructions. Holocene, 24(8), 1002–1008, 2014.
FRAGA, J. S. Aspectos vegetacionais relevantes à hidrologia de floresta secundária com idades distintas: subsídios à compreensão de estabilidade de encostas [Dissertação]. Universidade Federal do Rio de Janeiro. 2014.
GARDNER, J. J.; WHITLOCK, C. Charcoal accumulation following a recent fire in the Cascade Range, northwestern USA, and its relevance for fire-history studies. The Holocene, 11, 541–549, 2001.
GUERRA-SOMMER, M.; DEGANI-SCHMIDT, I.; JASPER. A.; BENÍCIO, J. R. W.; CAZZULO-KLEPZIG, M. Macrocharcoal como indicador de incêndios em turfeiras permianas no Sul da Bacia do Paraná. Contribuições à geologia do Rio Grande do Sul e de Santa Catarina ,273–288, 2021.
HEILBRON, M.; MOHRIAK, W. U.; VALERIANO, C. M.; MILANI, E. J.; ALMEIDA, J.; TUPINAMBÁ, M. From collision to extension: The roots of the southeasternc ontinentalm argin of Brazil. Em Geophysical Monograph Series. Blackwell Publishing Ltd. Vol. 115, p. 1–32, 2000.
HEYERDAHL, E. K.; BRUBAKER, L. B.; AGEE, J. K. Spatial controls of historical fire regimes: a multiscale example from the interior west, USA. Em Ecology. Vol. 82, N. 3, 2001.
HIRUMA, S. T.; MODENESI-GAUTTIERI, M. C.; RICCOMINI, C. Late Quaternary colluvial deposits in the Bocaina Plateau, southeastern Brazil highlands: Age and palaeoenvironmental consequences. Boreas, 42(2), 306–316, 2013.
INEA - INSTITUTO ESTADUAL DO MEIO AMBIENTE. APA Estadual de Macaé de Cima: plano de manejo – contextualização e análise regional. 2014.
JESKE-PIERUSCHKA, V.; FIDELIS, A.; BERGAMIN, R. S.; VÉLEZ, E.; BEHLING, H. Araucaria forest dynamics in relation to fire frequency in southern Brazil based on fossil and modern pollen data. Review of Palaeobotany and Palynology, 160(1–2), 53–65, 2010.
JOU, R. M.; MACARIO, K. D.; PESSENDA, L. C.; PEREIRA, M. G.; LORENTE, F. L.; PEDROSA, R.; DOS ANJOS, R. M. (2020). The use of carbon isotopes (13C,14C) in different soil types and vegetation coverage in a montane atlantic forest region, Southeast Brazil. Quaternary Geochronology, 101133. doi:10.1016/j.quageo.2020.101133
LEITÃO FILHO, H. F. Considerações sobre a florística de florestas tropicais e subtropicais do Brasil. IPEF, 35, 41–46, 1987.
LIMA, H. C.; GUEDES-BRUNI, R. R. Serra de Macaé de Cima: diversidade florística e conservação em Mata Atlântica. Jardim Botânico do Rio de Janeiro. 1o ed, Vol. 1, 1997.
LORSCHEITTER, M. L.; ROTH, L. (2013). O uso da concentração polínica em interpretações paleoambientais. Anuario do Instituto de Geociencias, 36(1), 80–84, 2013.
LUZ, C. F. P.; BARTH, O. M.; MARTIN, L. Evolução das florestas tropical Estacional, Semidecídua e Ombrófila Densa durante o Holoceno Médio na região Norte do Rio de Janeiro, baseada em palinologia. Revista Universidade Guarulhos, 6, 74–84, 1999.
LYNCH, J. A.; CLARK, J. S.; STOCKS, B. J. Charcoal production, dispersal, and deposition from the Fort Providence experimental fire: Interpreting fire regimes from charcoal records in boreal forests. Canadian Journal of Forest Research, 34(8), 2004.
MARÇAL, M. S.; RAMOS, R. R. C.; SESSA, J. C.; FEVRIER, P. V. R. Sedimentação fluvial quaternária no Vale do alto curso do Rio Macaé, Estado do Rio de Janeiro, Brasil. Revista Brasileira de Geomorfologia, vol 16(3), p.449-467, 2015.
MODENESI, M. C. Evolução quaternária de uma montanha tropical: o planalto de Campos do Jordao, São Paulo. Rev. Instituto Geológico, 5(112), 7–13, 1984.
MODENESI-GAUTTIERI, M. C. Hillslope deposits and the quaternary evolution of the Altos Campos - Serra da Mantiqueira, from Campos do Jordão to the Itatiaia massif. Revista Brasileira de Geociências, 30(3), 508–514, 2000.
MOORE, P. D.; WEBB, J. A.; COLLINSON, M. E.; MOORE, P. D. Pollen analysis. Blackwell Science. 1997.
NEHREN, U.; KIRCHNER, A.; SATTLER, D.; TURETTA, A. P.; HEINRICH, J. Impact of natural climate change and historical land use on landscape development in the Atlantic Forest of Rio de Janeiro, Brazil. An Acad Bras Cienc, 85(2), 2013.
NELLE, O.; DREIBRODT, S.; DANNATH, Y. Combining pollen and charcoal: Evaluating Holocene vegetation composition and dynamics. Journal of Archaeological Science, 37(9), 2126–2135, 2010.
NUNES, M. F. S. Q. C.; ORNELLAS, T.; COLACCHI, F. A vegetação e flora da APA de Macaé de Cima: ameaças, proteção e manejo. Em G. H. VILLAS BOAS & C. P. MATTOS (Orgs.), 20 anos da Área de Proteção Ambiental de Macaé de Cima: trajetórias e caminhos na pesquisa ambiental. Boa Vista: Editora IOLE/ Rio de Janeiro: EdTur. Vol. 1, p. 263–306, 2021.
PAYETTE, S.; DELWAIDE, A.; SCHAFFHAUSER, A.; MAGNAN, G. Calculating long-term fire frequency at the stand scale from charcoal data. Ecosphere, 3(7), 2012.
PESSENDA, L.C.R.; LEDRU, M.P.; GOUVEIA, S.E.M.; ARAVENA, R.; RIBEIRO, A.S.; BENDASSOLLI, J.A.; BOULET, R. Holocene Paleoenvironmental reconstruction in northeastern Brazil inferred from pollen, charcoal and carbon isotopes records. The Holocene 15,6 (2005) pp. 812-820. DOI: 10. 1191/0959683605hl855ra
PESSENDA, L.C.R.; VALENCIA, E.P.E.; MARTINELLI, L.A; AND CERRI, C.C. 1996a: 14C mensurements in tropical soil developed on basic rocks. Radiocarbon 38, 203-08.
PORTES, M. C. G. O.; BEHLING, H.; MONTADE, V.; SAFFORD, H. D. Holocene vegetation, climate and fire dynamics in the Serra dos Órgãos, Rio de Janeiro State, southeastern Brazil. Acta Palaeobotanica, 60(2), 438–453, 2020.
REHN, E., ROWE, C., ULM, S., WOODWARD, C., ZAWADZKI, A., JACOBSEN, G., & BIRD, M. I. Integrating charcoal morphology and stable carbon isotope analysis to identify non-grass elongate charcoal in tropical savannas. Vegetation History and Archaeobotany. 2021. doi:10.1007/s00334-021-00836-z
RHODES, A. N. Moorland Fire History from Microscopic Charcoal in Soils and Lake Sediments. University of Newcastle. 1996.
RIBEIRO, V. Evidência de incêndios em turfeira costeira do Rio Grande do Sul - Brasil e relação com flutuações climáticas no Quaternário. Universidade Federal Do Rio Grande Do Sul. 2015.
ROSSI, H. R. S.; CORRÊA, A. M. S.; MONTICELLI, C.; MORAIS, L. H.; ROCHA, V. J. Análise de pólen em pelagem de morcegos Phyllostomidae (Chiroptera) no Parque Estadual Fontes do Ipiranga, São Paulo, SP, Brasil. Hoehnea, vol. 47, 2020.
SCOTT, A. C. Charcoal recognition, taphonomy and uses in palaeoenvironmental analysis. Palaeogeography, Palaeoclimatology, Palaeoecology, 291(1–2), 11–39, 2010.
SNITKER, G. The Charcoal Quantification Tool (CharTool): A Suite of Open-source Tools for Quantifying Charcoal Fragments and Sediment Properties in Archaeological and Paleoecological Analysis. Ethnobiology Letters, 11(1), 103–115, 2020.
STEVENSON, J.; HABERLE, S. Macro Charcoal Analysis: A modified technique used by the Department of Archaeology and Natural History. Papers 5, p. 7, 2005.
STOCKMARR, J. Tablets with Spores used in Absolute Pollen Analysis. Em Pollen et Spores. Vol. 13, p. 615–621, 1971.
STOKES, A.; NORRIS, J. E.; VAN BEEK, L. P. H.; BOGAARD, T.; CAMMERAAT, E.; MICKOVSKI, S. B.; JENNER, A.; DI IORIO, A.; FOURCAUD, T. How vegetation reinforces soil on slopes. Em J. E. Norris, A. Stokes, & S. B. Mickovski (Orgs.), Slope Stability and Erosion Control: Ecotechnological Solutions. Springer, Dordrecht. 1o ed, p. 65–118, 2008.
SYLVESTRE, L. S. Pteridófitas da Reserva Ecológica de Macaé de Cima. Em Serra de Macaé de Cima: Diversidade e Conservação em Mata Atlântica. p. 41–52, 1997.
TRAVERS, S. E. Pollen Performance of Plants in Recently Burned and Unburned Environments. Ecology, 80(7), p. 2427, 1999.
TUPINAMBÁ, M.; TEXEIRA, W.; HEILBRON, M. Evolução Tectônica e Magmática da Faixa Ribeira entre o Neoproterozoico e o Paleozoico Inferior na Região Serrana do Estado do Rio de Janeiro, Brasil. Anuário do Instituto de Geociências - UFRJ, 35_2(1), 140–151, 2013.
UMBANHOWAR, C. E. Recent Fire History of the Northern Great Plains. The American Midland Naturalist, 135(1), 115–121, 1996.
UMBANHOWAR, C. E.; MCGRATH, M. J. Experimental production and analysis of microscopic charcoal from wood, leaves and grasses. Em The Holocene. Vol. 8, p. 341-346, 1998.
VELOSO, H. P.; RANGEL FILHO, A. L. R.; LIMA, J. C. A.; IBGE. Classificação da vegetação brasileira, adaptada a um sistema universal. Ministério da Economia, Fazenda e Planejamento, Fundação Instituto Brasileiro de Geografia e Estatística, Diretoria de Geociências, Departamento de Recursos Naturais e Estudos Ambientais. 1991.
WHITLOCK, C.; ANDERSON, R. S. Fire History Reconstructions Based on Sediment Records from Lakes and Wetlands. Em Fire and Climatic Change in Temperate Ecosystems of the Western Americas. Springer-Verlag. p. 3–31, 2003.
WHITLOCK, C; MILLSPAUGH, S. H. Testing assumptions of fire history studies: na examination of modern charcoal accumulation in Yellowstone National Park. The Holocene. Vol 6, 7-15, 1996.
WHITLOCK, C.; LARSEN, C. Charcoal as a Fire Proxy. In: J.P. Smol, et al. (eds) Tracking environmental change using lake sediments. Volume 3: Terrestrial, Algal and Siliceous indicators. Dordrecht, Kluwer Academic Publishers. p. 75-97, 2001.
YBERT, J. P.; SALGADO-LABOURIAU, M. L.; BARTH, O. M.; LORSCHEITTER, M. L.; BARROS, M. A.; LUZ, C. F. P.; RIBEIRO, M.; SCHEEL, R.; VICENTINI, K. F. Sugestões para padronização da metodologia empregada em estudos palinológicos do Quaternário. Revista IG, 13(2), 47–49, 1992.
YBERT, J.-P.; SCHEEL-YBERT, R.; CARVALHO, M. A. Grãos de pólen de plantas vasculares dicotiledôneas do Estado do Rio de Janeiro, Brasil Museu Nacional & UFRJ, Orgs. Vol. 1, 2016.
YBERT, J.-P.; CARVALHO, M. A.; SCHEEL-YBERT, R. Grãos de pólen de Plantas vasculares do estado do Rio de Janeiro, Brasil. Museu Nacional & UFRJ, Orgs. 8o ed, Vol. 2, 2017.
YBERT, J.-P.; SCHEEL-YBERT, R.; CARVALHO, M. A. Grãos de pólen de Plantas vasculares do estado do Rio de Janeiro, Brasil. Museu Nacional & UFRJ, Orgs. Vol. 3, 2017.
YBERT, J.-P.; CARVALHO, M. A.; SCHEEL-YBERT, R. Grãos de pólen de Plantas vasculares do estado do Rio de Janeiro, Brasil. Museu Nacional & UFRJ, Orgs. Vol. 4, 2018.
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