Solos org?nicos em ambientes altomontanos no Sudeste do Brasil: forma??o, classifica??o e rela??es com a hist?ria da vegeta??o

Silva Neto, Eduardo Carvalho da

Solos org?nicos em ambientes altomontanos no Sudeste do Brasil: forma??o, classifica??o e rela??es com a hist?ria da vegeta??o

Detalhes bibliográficos
Autor(a) principal:	Silva Neto, Eduardo Carvalho da
Data de Publicação:	2022
Tipo de documento:	Tese
Idioma:	por
Título da fonte:	Biblioteca Digital de Teses e Dissertações da UFRRJ
Texto Completo:	https://tede.ufrrj.br/jspui/handle/jspui/6908
Resumo:	The research developed in this thesis aims to contribute to the understanding of the formation of non-hydromorphic organic soils in upper montane environments in the southeastern Brazil. The thesis was organized in two chapters, in Chapter I ?Organic soils - definitions and use as record of paleoenvironmental changes?, a theoretical framework based on relevant bibliographical sources is presented and discussed. In addition to the environmental relevance, organic soils are important natural archives of paleoenvironmental changes, providing data for inferences about the climate and vegetation of the past and future. They have great relevance for climate regulation, water storage and maintaining biodiversity. In the Chapter II, entitled - Organic soils in upper montane environments in Southeastern Brazil: formation, classification and relations with the history of vegetation, the results obtained from the characterization of 14 soil profiles, described and collected in upper montane environments in southeastern Brazil, are presented. The following hypotheses were set: (i) the formation of organic soils under free drainage conditions is related to the history of vegetation and variations in climatic conditions in the past; (ii) the cold and humid climate of the upper montane environments in the Southeastern region of Brazil results in soils with andic (non-allophanic) properties. The objective of this research was to propose a general scheme for the formation of these soils, based on the understanding of the soil-landscape relationship and on the reconstitution of the vegetation history. As for the first hypothesis, based on records of phytoliths, ? 13C, carbon stocks derived from C3 and C4 plants, and 14C dating, it was possible to infer four environmental conditions: Phase I (before ~18,9k yr BP), markedly colder climate and drier than current one, with a predominance of subtropical grassland vegetation and the occurrence of fires; Phase II (~18,9k yr BP to ~11,1k yr BP), slight increase in humidity, decrease in fires and expansion of forest formations, with rare presence of Araucaria angustifolia; Phase III (from ~11,1k years BP) increase in humidity, with the establishment of current conditions (cold and humid climate, typical of southeastern Brazilian highlands), and marked presence of Araucaria in upper- montane forests; Phase IV (present) environmental changes related to increased occurrence of fires, reduction of Araucaria individuals and increase of Bambusoid, Arecaceae and C4 plants, possibly linked to human activities. On the second hypothesis, Organossolos F?licos (Folists) in the upper montane environments of Serra da Mantiqueira are formed by the accumulation of litter (vegetation residues) and can occur in two soil environments: (i) directly on rocks in the high-altitude fields, by the processes of addition and transformation of litter, which constitute the main parental material of these soils; and (ii) in upper montane forests, with histic horizons formed over mineral horizons. In both cases, the cold and humid climate and the vegetation (organisms) are the main soil formation factors, not only reducing the decomposition of the organic matter, but influencing the physical and chemical properties of the soils. The cold and humid climate of the upper montane environments in southeastern Brazil also results in soils with andic (non-allophanic) properties.

Metadados do item

id	UFRRJ-1_5ed1a28d927b2d8c298e3b06a97aa0c0
oai_identifier_str	oai:localhost:jspui/6908
network_acronym_str	UFRRJ-1
network_name_str	Biblioteca Digital de Teses e Dissertações da UFRRJ
repository_id_str
spelling	Pereira, Marcos Gervasio874.292.767-68https://orcid.org/0000-0002-1402-3612http://lattes.cnpq.br/3657759682534978Anjos, L?cia Helena Cunha doshttps://orcid.org/0000-0003-0063-3521http://lattes.cnpq.br/7882538227876962Pereira, Marcos Gervasio874.292.767-68https://orcid.org/0000-0002-1402-3612http://lattes.cnpq.br/3657759682534978Oliveira, F?bio Soares dehttps://orcid.org/0000-0002-1450-7609http://lattes.cnpq.br/8546459778894275Valladares, Gustavo Souzahttps://orcid.org/0000-0002-4884-6588http://lattes.cnpq.br/7710601501267719Terra, Ingrid Hor?khttps://orcid.org/0000-0002-5078-5366http://lattes.cnpq.br/7150300826608941Souza, Jos? Jo?o Lelis Leal dehttps://orcid.org/0000-0003-4670-6626http://lattes.cnpq.br/4029385395680758098.401.516-73https://orcid.org/0000-0001-6986-1376http://lattes.cnpq.br/4988225711834196Silva Neto, Eduardo Carvalho da2023-09-11T11:38:53Z2022-08-23SILVA NETO, Eduardo Carvalho da. Solos org?nicos em ambientes altomontanos no Sudeste do Brasil: forma??o, classifica??o e rela??es com a hist?ria da vegeta??o. 2022. 105 f. Tese (Doutorado em Agronomia - Ci?ncia do Solo) - Instituto de Agronomia, Universidade Federal Rural do Rio de Janeiro, Serop?dica, 2022.https://tede.ufrrj.br/jspui/handle/jspui/6908The research developed in this thesis aims to contribute to the understanding of the formation of non-hydromorphic organic soils in upper montane environments in the southeastern Brazil. The thesis was organized in two chapters, in Chapter I ?Organic soils - definitions and use as record of paleoenvironmental changes?, a theoretical framework based on relevant bibliographical sources is presented and discussed. In addition to the environmental relevance, organic soils are important natural archives of paleoenvironmental changes, providing data for inferences about the climate and vegetation of the past and future. They have great relevance for climate regulation, water storage and maintaining biodiversity. In the Chapter II, entitled - Organic soils in upper montane environments in Southeastern Brazil: formation, classification and relations with the history of vegetation, the results obtained from the characterization of 14 soil profiles, described and collected in upper montane environments in southeastern Brazil, are presented. The following hypotheses were set: (i) the formation of organic soils under free drainage conditions is related to the history of vegetation and variations in climatic conditions in the past; (ii) the cold and humid climate of the upper montane environments in the Southeastern region of Brazil results in soils with andic (non-allophanic) properties. The objective of this research was to propose a general scheme for the formation of these soils, based on the understanding of the soil-landscape relationship and on the reconstitution of the vegetation history. As for the first hypothesis, based on records of phytoliths, ? 13C, carbon stocks derived from C3 and C4 plants, and 14C dating, it was possible to infer four environmental conditions: Phase I (before ~18,9k yr BP), markedly colder climate and drier than current one, with a predominance of subtropical grassland vegetation and the occurrence of fires; Phase II (~18,9k yr BP to ~11,1k yr BP), slight increase in humidity, decrease in fires and expansion of forest formations, with rare presence of Araucaria angustifolia; Phase III (from ~11,1k years BP) increase in humidity, with the establishment of current conditions (cold and humid climate, typical of southeastern Brazilian highlands), and marked presence of Araucaria in upper- montane forests; Phase IV (present) environmental changes related to increased occurrence of fires, reduction of Araucaria individuals and increase of Bambusoid, Arecaceae and C4 plants, possibly linked to human activities. On the second hypothesis, Organossolos F?licos (Folists) in the upper montane environments of Serra da Mantiqueira are formed by the accumulation of litter (vegetation residues) and can occur in two soil environments: (i) directly on rocks in the high-altitude fields, by the processes of addition and transformation of litter, which constitute the main parental material of these soils; and (ii) in upper montane forests, with histic horizons formed over mineral horizons. In both cases, the cold and humid climate and the vegetation (organisms) are the main soil formation factors, not only reducing the decomposition of the organic matter, but influencing the physical and chemical properties of the soils. The cold and humid climate of the upper montane environments in southeastern Brazil also results in soils with andic (non-allophanic) properties.A pesquisa busca contribuir para o entendimento da g?nese de solos org?nicos n?o hidrom?rficos em ambientes altomontanos na regi?o Sudeste do Brasil. A tese foi organizada em dois cap?tulos, no Cap?tulo I - Referencial te?rico sobre Organossolos, s?o apresentadas e discutidas fontes bibliogr?ficas importantes para o embasamento te?rico da tese. Al?m da grande relev?ncia ambiental, os solos org?nicos s?o importantes arquivos naturais para a compreens?o do passado por meio da reconstitui??o paleoambiental, fornecendo dados para infer?ncias sobre o clima e a vegeta??o do passado e tend?ncias futuras diante das mudan?as clim?ticas. Possuem grande relev?ncia na regula??o do clima, armazenamento de ?gua, manuten??o da biodiversidade. No Cap?tulo II, de t?tulo ? Solos org?nicos em ambientes altomontanos no Sudeste do Brasil: forma??o, classifica??o e rela??es com a hist?ria da vegeta??o, s?o apresentados e discutidos os resultados da caracteriza??o de 14 perfis descritos e coletados em ambientes altomontanos na regi?o da Serra da Mantiqueira, no Sudeste do Brasil. As seguintes hip?teses foram levantadas: (i) a forma??o de solos org?nicos em condi??es de drenagem livre, est? relacionada com a hist?ria da vegeta??o e varia??es das condi??es clim?ticas no passado; (ii) o clima frio e ?mido dos ambientes altomontanos na regi?o Sudeste do Brasil resulta em solos com propriedades ?ndicas (n?o-alof?nicos). O objetivo geral foi propor um esquema geral de forma??o desses solos, com base no entendimento da rela??o solo- paisagem e na reconstitui??o da hist?ria da vegeta??o. Quanto a primeira hip?tese, com base nos registros de fit?litos, ? 13C, estoques de carbono derivados de plantas C3 e C4, e data??es 14C foi poss?vel inferir 4 momentos ambientais: Fase I (antes de ~18.900 anos cal AP), clima marcadamente mais frio e seco do que o atual, com predom?nio de vegeta??o de campos subtropicais e ocorr?ncia de inc?ndios; Fase II (~18.900 anos cal AP a ~11.100 anos cal AP), ligeiro aumento de umidade, diminui??o de inc?ndios e expans?o de forma??es florestais, com rara presen?a de Araucaria angustifolia; Fase III (a partir de ~11.100 anos AP) aumento da umidade, com estabelecimento das condi??es atuais (clima frio e ?mido, t?pico dos ambientes altomontanos), e marcada presen?a de Araucaria nas florestas altomontanas; Fase IV (presente) mudan?as ambientais relacionadas com o aumento da ocorr?ncia de inc?ndios, redu??o de indiv?duos de Araucaria e aumento de Bambusoid, Arecaceae e plantas C4, possivelmente ligada ? atividades humanas. Quanto a segunda hip?tese, os Organossolos F?licos nos ambientes altomontanos da Serra da Mantiqueira s?o formados por acumula??o de liteira (res?duos da vegeta??o) e podem ocorrer dois pedoambientes: (i) diretamente sobre rochas nos campos de altitude, pelos processos de adi??o e transforma??o da liteira, que constituem o principal material parental desses solos; e (ii) em florestas altomontanas, com horizontes h?sticos formados sobre horizontes minerais. Em ambos os casos, o clima frio e ?mido e a vegeta??o (organismos) s?o os principais fatores de forma??o, n?o apenas reduzindo a decomposi??o da mat?ria org?nica, mas influenciando as propriedades f?sicas e qu?micas dos solos. O clima frio e ?mido dos ambientes altomontanos na regi?o sudeste do Brasil tamb?m resulta em solos com propriedades ?ndicas (n?o-alof?nicos).Submitted by Leticia Schettini (leticia@ufrrj.br) on 2023-09-11T11:38:53Z No. of bitstreams: 1 2022 - Eduardo Carvalho da Silva Neto.Pdf: 1947368 bytes, checksum: 191751093b0414b2fe51c4c242a94cd5 (MD5)Made available in DSpace on 2023-09-11T11:38:53Z (GMT). No. of bitstreams: 1 2022 - Eduardo Carvalho da Silva Neto.Pdf: 1947368 bytes, checksum: 191751093b0414b2fe51c4c242a94cd5 (MD5) Previous issue date: 2022-08-23CAPES - Coordena??o de Aperfei?oamento de Pessoal de N?vel SuperiorFAPERJ - Funda??o Carlos Chagas Filho de Amparo ? Pesquisa do Estado do Rio de Janeiroapplication/pdfhttps://tede.ufrrj.br/retrieve/74710/2022%20-%20Eduardo%20Carvalho%20da%20Silva%20Neto.Pdf.jpgporUniversidade Federal Rural do Rio de JaneiroPrograma de P?s-Gradua??o em Agronomia - Ci?ncia do SoloUFRRJBrasilInstituto de AgronomiaABBOTT, G.D., SWAIN, E.Y., MUHAMMAD, A.B., ALLTON, K., BELYEA, L.R., LAING, C.G., COWIE, G.L. Effect of water-table fluctuations on the degradation of Sphagnum phenols in surficial peats. Geochim. Cosmochim. Acta 106, 177?191, 2013. Ab'SABER, A.N. Espa?os ocupados pela expans?o dos climas secos da Am?rica do Sul, por ocasi?o dos per?odos glaciais quatern?rios. Instituto de Geografia. Paleoclimas, 3:1-19, 1977. AHR, S. W.; NORDT, L.C.; SCHAETZL, R.J. Lithologic discontinuities in soils. International Encyclopedia of Geography: People, the Earth, Environment and Technology: People, the Earth, Environment and Technology, 1:1-8, 2016. ALBERT, R.M.; BAMFORD, M.K.; CABANES, D. Palaeoecological significance of palms at Olduvai Gorge, Tanzania, based on phytolith remains. Quaternary International, 193(2):41-48, 2009. ALBERT, R.M.; WEINER, S. Study of phytoliths in prehistoric ash layers using a quantitative approach. In: MEUNIER, J.D., COLINE, F. (Eds.), Phytoliths: Applications in Earth Sciences and Human History. A.A. Balkema Publishers, Lisse, p. 251-266, 2001. ALEMAN, J. C.; CANAL-SUBITANI, S.; FAVIER, C.; BREMOND, L. Influence of the local environment on lacustrine sedimentary phytolith records. Palaeogeography, Palaeoclimatology, Palaeoecology, 414:273-283, 2014. ALEXANDRE, A.; MEUNIER J.D.; COLIN, F.; KOUD, J.M. Plant impact on the biogeochemical cycle of silicon and related weathering processes. Geochimica et Cosmochimica Acta, 61(3):677-682, 1997. ALEXANDRE, A.; MEUNIER, J.D.; MARIOTTI, A., SOUBIES, F. Late Holocene phytolith and carbon isotope record from a latosol at Salitre, south-central Brazil, Quaternary Research, 51:187-194, 1999. ALMEIDA, F.F.M., HASUI, Y., DE BRITO NEVES, B.B., FUCK, R.A., Brazilian structural provinces: an introduction. Earth-Sci. Rev. 17, 1?29, 1981. ANJOS, L.H.C.; JACOMINE, P.K.T.; SANTOS, H.G.; OLIVEIRA, V.A.; OLIVEIRA, J.B. Sistema Brasileiro de Classifica??o de solos. In: KER, J.C.; CURI N.; SCHAEFER, C.E.G.R.; VIDAL-TORRADO, P. (Eds.), Pedologia: Fundamentos. Vi?osa: Sociedade Brasileira de Ci?ncia do Solo, p. 303-343, 2012. AUGUSTIN, C.H.R.R., COE, H.H.G., CHUENG, K.F., GOMES, J.G., Analysis of geomorphic dynamics in ancient quartzite landscape using phytolith and carbon isotopes, Espinha?o Mountain Range, Minas Gerais, Brazil. G ?eomorphologie 4, 355?376, 2014. BALIEIRO, F.C., DE MELO BENITES, V., ALVES, B. J. R., FONTANA, A., CANELLAS, L. P. Vegetation influence on organic matter source of black soils from high altitude rocky complexes traced by 13C and 15N isotopic techniques. Catena, 99, 97-101, 2012. BARBONI, D.; BREMOND, L.; BONNEFILLE, R. Comparative study ofmodem phytolith assemblages frominter-tropical Africa. Palaeogeography, Palaeoclimatology, Palaeoecology, 246: 454-470, 2007. 61 BATJES, N.H. Total carbon and nitrogen in the soils of the world. European Journal of Soil Science, 65(1): 10?21, 2014. BECKER, C. G., RODRIGUEZ, D., ZAMUDIO, K. R. The Brazilian Adirondacks. Science (New York, NY), 340(6131), 428. 2013. BEHLING, H. 2003. Late glacial and Holocene vegetation, climate and fire history inferred from Lagoa Nova in the southeastern Brazilian lownland. Vegetation History Archeobotany, 12:263?270, 2003. BEHLING, H. A high-resolution Holocene pollen record from Lago do Pires, SE Brazil: Vegetation, climate and fire history. Journal of Paleolimnology, 14:253-268, 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(3-4), 407-422, 1997. BEHLING, H. Late Quaternary vegetational and climatic changes in Brazil. Review of palaeobotany and palynology, 99(2), 143-156, 1998. BEHLING, H. South and southeast Brazilian grasslands during Late Quaternary times: A synthesis. Palaeogeography, Palaeoclimatology, Palaeoecology, 177:19-27, 2002. BEHLING, H., DUPONT, L., SAFFORD, H.D., WEFER, G. Late Quaternary vegetation and climate dynamics in the Serra da Bocaina, southeastern Brazil. Quat. Int. 161, 22?31, 2007. BEHLING, H., LICHTE, M. Evidence of dry and cold climatic conditions at glacial times in tropical SE Brazil. Quat. Res. 48, 348?358, 1997. BEHLING, H.; SAFFORD, H.D. Late-glacial and Holocene vegetation, climate and fire dynamics in the Serra dos ?rg?os, Rio de Janeiro State, SE Brazil. Global Change Biology, 16:1661-1671, 2010. BENITES, V. D. M., CAIAFA, A. N., MENDON?A, E. D. S., SCHAEFER, C. E., KER, J. C. Solos e vegeta??o nos complexos rupestres de altitude da Mantiqueira e do Espinha?o. Floresta e ambiente, 10(1), 76-85, 2012. BENITES, V. D. M., DE S? MENDON?A, E., SCHAEFER, C. E. G., NOVOTNY, E. H., REIS, E. L., KER, J. C. Properties of black soil humic acids from high altitude rocky complexes in Brazil. Geoderma, 127(1-2), 104-113, 2005. BENITES, V. M., SCHAEFER, C. E. G., SIMAS, F. N., SANTOS, H. G. Soils associated with rock outcrops in the Brazilian mountain ranges Mantiqueira and Espinha?o. Brazilian Journal of Botany, 30(4), 569-577, 2007. BENITES, V.C.; CAIAFA, A.N.; MENDON?A, E.S.; SHAEFER, C.E.G.R.; KER, J. C. Solos e vegeta??o nos complexos rupestres de altitude da Mantiqueira e do Espinha?o. Floresta e Ambiente, 10(1):76-85, 2003. BENITES, V.M., DE S? MENDON?A, E., SCHAEFER, C. E. G., NOVOTNY, E. H., REIS, E. L., KER, J. C. Properties of black soil humic acids from high altitude rocky complexes in Brazil. Geoderma, 127(1-2), 104-113, 2005. 62 BENITES, V.M.; SCHAEFER, C.E.G.R.; SIMAS, F.N.B.; SANTOS, H.G. Soils associated with rock outcrops in the Brazilian mountain ranges Mantiqueira and Espinha?o. Brazilian Journal of Botany, 30:569-77, 2007. BISPO, D.A., SILVA, A.C., CHRISTOFARO, C., SILVA, M.L.N., BARBOSA, M.S., SILVA, B.P.C., BARRAL, U.MCharacterization of headwaters peats of the Rio Ara?ua?, Minas Gerais state, Brazil. Rev. Bras. Ci. Solo 39, 475?489, 2015. BISPO, D.F.A.; SILVA, A.C.; MATOSINHOS, C.C.; SILVA, M.L.N.; BARBOSA, M.S.; SILVA, B.P.C.; BARRAL, U.M.; FABRIS, J.D. Hydrology and carbon dynamics of tropical peatlands from Southeast Brazil. Catena, 143:18-25, 2016. BOCKHEIM, J.G. Soil endemism and its relation to soil formation theory. Geoderma 129, 109? 124, 2005. BORBA-ROSCHEL, M.; ALEXANDRE, A.; VARAJAO, A.F.D.C.; MEUNIER, J.D.; VARAJAO, C.A.C.; COLIN, F. Phytoliths as indicators of pedogenesis and paleoenvironmental changes in Brazilian cerrado. Journal of Geochemical Exploration, 88(1):172-176, 2006. BOUTTON, T.W. Stable carbon isotope ratios of soil organic matter and their use as indicators of vegetation and climate change. In: BOUTTON, T.W., YAMAZAKI, S.I. (Eds.), Mass Spectrometry of Soils. Marcel Dekker, New York, p. 47-82, 1996. BOUTTON, T.W.; ARCHER, S.R.; MIDWOOD, A.J.; ZITZER, S.F.; BOL, R. ? 13C values of soil organic carbon and their use in documenting vegetation change in a subtropical savanna ecosystem. Geoderma 82:5-41, 1998. BREEMEN, N.; BUURMAN, P. Soil formation. 2 ed. Dordrecht: Kluwer Academic, p. 404, 2002. BREMOND, L.; ALEXANDRE, A.; H?LY, C.; GUIOT, J. A phytolith index as a proxy of tree cover density in tropical areas: calibration with Leaf Area Index along a forest-savanna transect in southeastern Cameroon. Global and Planetary Change, 45:277-293, 2005a. BREMOND, L.; ALEXANDRE, A.; PEYRON, O.; GUIOT, J. Grass water stress estimated from phytoliths in West Africa. Journal of Biogeography, 32, 311- 327, 2005b. BREMOND, L.; ALEXANDRE, A.; V?LA, E.; GUIOTA, J. Advantages and disadvantages of phytolith analysis for the reconstruction of Mediterranean vegetation: an assessment based on modern phytolith, pollen and botanical data (Luberon, France). Review of Palaeobotany and Palynology, 129(4), 213-228, 2004. BREMOND, L.; ALEXANDRE, A.; WOOLLER, M.J.; H?LY, C.; SCH?FER, P.A.; MAJULE, A.; GUIOT, J. Phytolith indices as proxies of grass subfamilies on East African tropical mountains. Global and Planetary Change, 61:209-224, 2008. BREMOND, L.; FAVIER, C.; FICETOLA, G.F.; TOSSOU, M.G.; AKOU?GNINOU, A.; GIELLY, L.; SALZMANN, U. Five thousand years of tropical lake sediment DNA records from Benin. Quaternary Science Reviews, 170:203-211, 2017. 63 BROOKS, T. M., MITTERMEIER, R. A., DA FONSECA, G. A. B., GERLACH, J., HOFFMANN, M., LAMOREUX, J. F., RODRIGUES, A. S. L. (2006). Global Biodiversity Conservation Priorities. Science, 313(5783), 58?61. BUOL, S. W.; SOUTHARD, R. J.; GRAHAM, R. C.; MCDANIEL, P. A. Soil genesis and classification. John Wiley Sons. 544 p. 2011. BUOL, S.W.; HOLE, F.D.; MC CRACKEN, R.J. Soil genesis and classification. 3 ed. Ames, Iowa State University Press, p. 404, 1980. BUOL, S.W.; HOLE, F.D.; McCRACKEN, R.J.; SOUTHARD, R.J. Soil genesis and classification. 4 ed. Ames, Iowa State University Press, p. 527, 1997. BUURMAN, P. Classification of paleosols - a comment. Quaternary International, 51(7) 17- 33, 1998. CABANES, D.; BURJACHS, F.; EXP?SITO, I.; RODR?GUEZ, A.; ALLU?, E.; EUBA, I.; VERG?S, J.M. Formation processes through archaeobotanical remains: the case of the Bronze Age levels in El Mirador cave, Sierra de Atapuerca, Spain. Quaternary International, 193:160- 173, 2009. CALEGARI, M.R. Ocorr?ncia e significado paleoambiental do horizonte A h?mico em latossolos. 259p. Tese (Doutorado em Solos e Nutri??o Mineral de Plantas). Universidade de S?o Paulo, Piracicaba, 2008. CALEGARI, M.R.; MADELLA, M.; BRUSTOLIN, L.T.; PESSENDA, L.C.R.; BUSO, A.A.; FRANCISQUINI, M.; VIDAL-TORRADO, P. Potential of soil phytoliths, organic matter and carbon isotopes for small-scale differentiation of tropical rainforest vegetation: A pilot study from the campos nativos of the Atlantic Forest in Esp?rito Santo State (Brazil). Quaternary International, 437:1-17, 2017. CALEGARI, M.R.; MADELLA, M.; BUSO JUNIOR, A.A.; OSTERRIETH, M.; LORENTE, F.L.; PESSENDA, L.C.R. Holocene Vegetation and Climate inferences from Phytoliths and Pollen from Lagoa do Macuco, North Coast of Esp?rito Santo State (Brazil). Quaternary and Environmental Geosciences, 6:41-50, 2015. CALEGARI, M.R.; MADELLA, M.; VIDAL-TORRADO, P.; OTERO, X.L.; MACIAS, F.; OSTERRIETH, M. Opal phytolith extraction in oxisols. Quaternary International, 287, 56-62, 2013a. CALEGARI, M.R.; MADELLA, M.; VIDAL-TORRADO, P.; PESSENDA, L.C.R.; MARQUES, F.A. Combining phytoliths and soil organic matter in Holocene palaeoenvironmental studies of tropical soils: the example of an oxisol in Brazil. Quaternary International, 287:47-55, 2013b. CALEGARI, S. S., PEIFER, D., NEVES, M. A., DE ANDRADE CAXITO, F. Post-Miocene topographic rejuvenation in an elevated passive continental margin not characterized by a sharp escarpment (northern end of the Mantiqueira Range, Brazil). Geomorphology, 393, 107946, 2021. CAMPBELL, C.A.; PAUL, E.A.; RENNIE, D.A.; McCALLUM, R.J. Applicability of the carbon dating method of analysis to soil humus studies. Soil Science, 104:217-224, 1967. 64 CAMPOS, J.R.R., SILVA, A.C., NANNI, M.R., DOS SANTOS, M., VIDAL-TORRADO, P. Influence of the structural framework on peat bog distribution in the tropical highlands of Minas Gerais, Brazil. Catena 156, 228?236. 2017 CAMPOS, J.R.R., SILVA, A.C., SLATER, L., NANNI, M.R., VIDAL-TORRADO, P. Stratigraphic control and chronology of peat bog deposition in the Serra do Espinha?o Meridional, Brazil. Catena 143, 167?173, 2016. CAMPOS, J.R.R.; SILVA, A.C.; FERNANDES, J.S.C.; FERREIRA, M.M.; SILVA, D. V. Water retention in a peatland with organic matter in different decomposition stages. Revista Brasileira de Ci?ncia do Solo, 35:1217-1227, 2011. CAMPOS, J.R.R.; SILVA, A.C.; VASCONCELLOS, L.L.; SILVA, D.V.; ROMAO, R.V.; SILVA, E.B.; GRAZZIOTTI, P.H. Pedochronology and development of peat bog in the environmental protection area pau-de-fruta - Diamantina, Brazil. Revista Brasileira de Ci?ncia do Solo, 34:1965-1975, 2010. CANELLAS, L.P.; SANTOS, G.A.; AAMARAL-SOBRINHO; N.M.B. Rea??es da mat?ria org?nica. IN: SANTOS, G.A.; CAMARGO, F.A.O. (Eds.), Fundamentos da mat?ria org?nica do solo: ecossistemas tropicais e subtropicais. G?nesis, Porto Alegre, Rio Grande do Sul. p. 69- 90, 1999. CASTRO, D.F.; ROSSETTI, D.F.; COHEN, M.C.L.; PESSENDA, L.C.R.; LORENTE, F.L. The growth of the Doce River Delta in northeastern Brazil indicated by sedimentary facies and diatoms. Diatom Research, 28:455-466, 2013. CATT, J. A. Paleopedology manual. Quaternary International, 6:1-95, 1990. CHARMAN, D. Peatlands and Environmental Change. Chichester: John Wiley Sons, Ltd. P. 320 p. 2002. CHESWORTH, W. Encyclopedia of soil science, Encyclopedia of earth sciences series. Dordrecht, The Netherlands Springer XXVI. 902 p. 2008. CHESWORTH, W., CORTIZAS, A. M., GARC?A-RODEJA, E. The redox?pH approach to the geochemistry of the Earth's land surface, with application to peatlands. Developments in Earth surface processes, 9, 175-195, 2006. CHUENG, K. F., COE, H. H. G., AUGUSTIN, C. H. R. R., MACARIO, K. D., RICARDO, S. D. F., VASCONCELOS, A. M. C. Landscape paleodynamics in siliciclastic domains with the use of phytoliths, sponge spicules and carbon isotopes: The case of southern Espinha?o Mountain Range, Minas Gerais, Brazil. Journal of South American Earth Sciences, 95, 102232, 2019. CHURCHILL, S.P.; BALSLEV, H.; FORERO, E.; LUTEYN, J.L. (Eds.), 1995. Biodiversity and Conserva- tion of Neotropical Montane Forests. The New York Botanical Garden, Bronx, New York. 550 p., 1995. COE H.H.G. Fit?litos como indicadores de mudan?as na vegeta??o xerom?rfica da regi?o de B?zios/Cabo frio, RJ, durante o Quatern?rio. 340p. Tese (Doutorado em Geologia e Geof?sica Marinha). Universidade Federal Fluminense, Niter?i, 2009. 65 COELHO, R.M.; ROSSI, M.; MATTOS, I.F.A. Solos da Mata Atl?ntica. In: CURI et al. (Ed). Pedologia: solos dos Biomas Brasileiros. 1a ed. Vi?osa, MG: Sociedade Brasileira de Ci?ncia do Solo, 2017. 261-302 p. CONANT, R. T., RYAN, M. G., ?GREN, G. I., BIRGE, H. E., DAVIDSON, E. A., ELIASSON, P. E., BRADFORD, M. A. Temperature and soil organic matter decomposition rates?synthesis of current knowledge and a way forward. Global change biology, 17(11), 3392- 3404, 2011. COSTA, C. R., HOR?K?TERRA, I., COE, H. H. G., CHUENG, K. F., MACHADO, D. O. B. F., DE CAMARGO, P. B., SILVA, A. C. Multi-proxy analysis of a Holocene records from a high-altitude tropical peatland in the Serra do Espinha?o Meridional, Brazil. Journal of South American Earth Sciences, 116, 103795, 2022. DE OLIVEIRA, P.E. A palynological record of Late Quaternary vegetational and climatic change in southeastern Brazil. 244p. Tese. The Ohio State University Columbus, Ohio. 1992. DELHON, A.A.; BERGER, J.F.; THI?BAULT, S.; BROCHIER, J.L.; MEUNIER, J.D. Phytolith assemblages as a promising tool for reconstructing Mediterranean Holocene vegetation, Quaternary Research, 59:48-60, 2003. DELHON, C. Phytolith and pedoanthracology analysis of ?off-site? Holocene sequences from Mondragon (Middle Rhone Valley, south of France). In: ZURRO, D. MADELLA, M. (Eds.), Recent Studies in Phytolith Analysis, Oxbow Books, Plants People and Places, p. 175-188, 2007. D?MIG, A., SCHAD, P., KOHOK, M., BEYERLEIN, P., SCHWIMMER, W., K?GEL- KNABNER, I. A mosaic of nonallophanic Andosols, Umbrisols and Cambisols on rhyodacite in the southern Brazilian highlands. Geoderma, 145(1-2), 158-173, 2008a. D?MIG, A., SCHAD, P., RUMPEL, C., DIGNAC, M. F., K?GEL-KNABNER, I. Araucaria forest expansion on grassland in the southern Brazilian highlands as revealed by 14C and ?13C studies. Geoderma, 145(1-2), 143-157, 2008b. EBELING, A.G.; ANJOS, L.H.C.; P?REZ, D.V.; PEREIRA, M.G.; VALLADARES, G.S. Rela??o entre acidez e outros atributos qu?micos em solos com teores elevados de mat?ria org?nica. Bragantia, 67:261-271, 2008. EBELING, A.G.; ANJOS, L.H.C; P?REZ, D.V.; PEREIRA, M.G.; GOMES, F.W.F. Atributos qu?micos, carbono org?nico e susbt?ncias h?micas em Organossolos H?plicos de v?rias regi?es do Brasil. Revista Brasileira de Ci?ncia do Solo, 35:325-336, 2011. EMBRAPA, Empresa Brasileira de Pesquisa Agropecu?ria. Sistema Brasileiro de Classifica??o de Solos. Bras?lia, DF: Embrapa Produ??o de Informa??o; Rio de Janeiro: Embrapa Solos, 412 p. 1999. ERLANK, A.J.; SMITH, H.S.; MARCHANT, J.W.; CARDOSO, M.P.; AHRENS, L.H. Zirconium. In: WEDEPOHL, K.H. (Ed.), Handbook of Geochemistry. Springer-Verlag, Berlim, p. 102-143, 1978. FANNING, D.S.; FANNING, M.C.B. Soil Morphology, Genesis, and Classification. New York, John Wiley, p. 544, 1989. 66 FARQUHAR, G.D.; EHLERINGER, J.R.; HUBICK, K.T. Carbon isotope discrimination and photosynthesis. Annual Review of Plant Physiology and Plant Molecular Biology, Palo Alto, 40:503-537, 1989. FONTANA, A.; SOARES, P.F.; ANJOS, L.H.C.; VALLADARES, G.S. Solos com altos teores de mat?ria org?nica. In: TEIXEIRA, P. C.; DONAGEMMA, G. K.; FONTANA, A.; TEIXEIRA, W. G. (Eds.), Manual de m?todos de an?lise de solo. Bras?lia: Embrapa, p. 426- 437, 2017. FRANCHI, J. G., S?GOLO, J. B., & MOTTA, J. F. M. Diagn?tico das turfas no Brasil: hist?rico da utiliza??o, classifica??o, geologia e dados econ?micos. Revista Brasileira de Geoci?ncias, 36(1), 179-190, 2006. GIBBS, H. K., A. S. RUESCH, F. ACHARD, M. K. CLAYTON, P. HOLMGREN, N. RAMANKUTTY, AND J. A. FOLEY. Tropical forests were the primary sources of new agricultural land in the 1980s and 1990s. Proc. Natl Acad. Sci. USA 107: 16732?16737, 2010. GON?ALVES, T. S. origem e evolu??o fitogeogr?fica dos cap?es de mata associados aos ecossistemas de turfeiras da Serra do Espinha?o Meridional ? MG. Tese. Programa de P?s- Gradua??o em Produ??o Vegetal. UFVJM, 274 p. 2021. GOUVEIA, S.E.M.; PESSENDA, L.C.R.; ARAVENA, R.; BOULET, R.; SCHEEL-YBERT, R.; BENDASSOLI, J.A.; RIBEIRO, A.S.; FREITAS, H.A. Carbon isotopes in charcoal and soils in studies of paleovegetation and climate changes during the late Pleistocene and the Holocene in the southeast and centerwest regions of Brazil. Global Planetary Change, 33: 95- 106, 1999. GRIMM, E.C. CONISS: A Fortran 77 program for stratigraphically constrained cluster analysis by the method of the incremental sum of squares. Computers Geosciences,13:13-35, 1987. HALLETT, R.B.; KYLE, P.R. XRF and INAA determinations of major and trace elements in geological survey of Japan igneous and sedimentary rock standards. Geostandards Newsletter 17, 127?133, 1993. HART, G.; LEONARD, R.E.; R.S. PIERCE. Leaf fall, humus depth, and soil frost in a northern hardwood forest. US Forest Service Research, Note NE-131. 12, 1962. HAYWARD, D.M.; PARRY, D.W. Electron-probe microanalysis studies of silica deposition in barley (Hordeum sativum L.). Annual Botany, 37:579-591, 1973. HEILBRON M, PEDROSA-SOARES AC, CAMPOS NETO MC, TROUW RAJ, JANASI VA Prov?ncia Mantiqueira. In: Mantesso-Neto et al. (eds) Geologia do Continente Sul-Americano. Evolu??o da obra de Fernando Fl?vio Marques de Almeida, Becca, S?o Paulo, pp 203?234, 2004. HEMPEL, J.; MICHELI, E.; OWENS, P.; MCBRATNEY, A. Universal Soil Classification System Report from the International Union of Soil Sciences Working Group. Soil Horizons, 54(2):0-13, 2013. HOR?K-TERRA, I.; CORTIZAS, A.M.; SILVA, A.C.; CAMARGO, P.B.; VIDAL- TORRADO, P. Characterization of properties and main processes related to the genesis and 67 evolution of tropical mountain mires from Serra do Espinha?o Meridional, Minas Gerais, Brazil. Geoderma, 234:183-197, 2014. HOR?K-TERRA, I.; MART?NEZ-CORTIZAS, A.; LUZ, C.F.P.; RIVAS-L?PEZ, P.; SILVA, A.C.; VIDAL-TORRADO, P. Holocene climate change in central-eastern Brazil reconstructed using pollen and geochemical records of Pau de Fruta mire (Serra do Espinha?o Meridional, Minas Gerais). Palaeogeography, Palaeoclimatology, Palaeoecology, 437, 117?131, 2015. HOR?K-TERRA, I.; VIDAL-TORRADO, P.; SILVA, A. C.; PESSENDA, L. C. R. Pedological and isotopic relations of a highland tropical peatland, Mountain Range of the Southern Espinha?o (Brazil). Revista Brasileira de Ci?ncia do Solo, 35:41-52, 2011. IBGE (Instituto Brasileiro de Geografia e Estat?stica). 1983. Folhas SF. 23/24. Rio de Janeiro/Vit?ria: geologia, geomorfologia, pedologia, vegeta??o e uso potencial da terra. Projeto Radambrasil, Rio de Janeiro. IBRAHIM, M.A.; LAL, R. Soil Carbon and Silicon Pools across a Drained Catena in Central Ohio, USA. Soil Horizons, 55(5):12-21, 2014a. IBRAHIM, M.A.; LAL, R. Soil carbon and silicon pools across an un-drained toposequence in central Ohio. Catena, 120, 57?63, 2014b. IUSS WORKING GROUP WRB. World Reference Base for Soil Resources 2014, update 2015. International soil classification system for naming soils and creating legends for soil maps. Rome: FAO, 192 p. 2015. JACKSON, R.B.; LAJTHA, K.; CROW, S.E.; HUGELIUS, G.; KRAMER, M.G.; PI?EIRO, G. The ecology of soil carbon: pools, vulnerabilities, and biotic and abiotic controls. Annual Review of Ecology, Evolution, and Systematics, 48, 419-45, 2017. JANZEN, H. Henry. The soil remembers. Soil Science Society of America Journal, v. 80, n. 6, p. 1429-1432, 2016. JENNY, H. Factors of Soil Formation: A system of quantitative pedology. McGraw-Hill, New York. p.144, 1941. JOLY, C. A., METZGER, J. P., TABARELLI, M. Experiences from the B razilian A tlantic F orest: ecological findings and conservation initiatives. New phytologist, 204(3), 459-473, 2014. JOOSTEN, H., TAPIO-BISTR?M, M. L., TOL, S. Peatlands: guidance for climate change mitigation through conservation, rehabilitation and sustainable use. Rome: Food and Agriculture Organization of the United Nations. 2012. JOOSTEN, H.; CLARKE, D. Wise use of mires and peatlands -Background and principles including a framework for decision-making. International Mire Conservation Group and International Peat Society. Saarij?rvi: International Mire Conservation Group and International Peat Society. 304 p. 2002. JUGGINS, S. C2 Version 1.5 User Guide. Software for Ecological and Palaeoecological Data Analysis and Visualisation. Newcastle University, Newcastle upon Tyne, UK, p. 73, 2007. 68 KAMPF, N.; CURI, N. Forma??o e evolu??o do solo (Pedog?nese). In: KER, J.C.; CURI N.; SCHAEFER, C.E.G.R.; VIDAL-TORRADO, P. (Eds.), Pedologia: Fundamentos. Vi?osa: Sociedade Brasileira de Ci?ncia do Solo, p. 207-302, 2012. KIRCHNER, A., NEHREN, U., BEHLING, H., HEINRICH, J. Mid-and late Holocene fluvial dynamics in the tropical Guapi-Macacu catchment, Southeast Brazil: the role of climate change and human impact. Palaeogeography, Palaeoclimatology, Palaeoecology, 426, 308-318, 2015. K?CHY, M.; HIEDERER, R.; FREIBAUER, A. Global distribution of soil organic carbon? part 1: Masses and frequency distributions of SOC stocks for the tropics, permafrost regions, wetlands, and the world. Soil,1,351-65, 2015. KOLKA, RANDALL K.; RABENHORST, MARTIN C.; SWANSON, DAVID. 2011. Histosols. In: Huang, P.M.; Li, Y.; Sumner, M.E., eds. Handbook of soil sciences properties and processes, 2nd edition. Boca Raton, FL: CRC Press: 33.8-33.39. LAL, R. 2013. Soil carbon management and climate change. Carbon Management, 4(4): 439? 462. LAL, R.; GRIFIN, M.; APT. J.; LAVE, L.; MORGAN, M.G. Managing soil carbon. Science; 304-393, 2004. LEDRU, M. P., MONTADE, V., BLANCHARD, G., H?LY, C. Long?term spatial changes in the distribution of the Brazilian Atlantic Forest. Biotropica, 48(2), 159-169, 2016. LEDRU, M. P., MOURGUIART, P., RICCOMINI, C. Related changes in biodiversity, insolation and climate in the Atlantic rainforest since the last interglacial. Palaeogeography, Palaeoclimatology, Palaeoecology, 271(1-2), 140-152, 2009. LEDRU, M. P., ROUSSEAU, D. D., CRUZ, F. W., RICCOMINI, C., KARMANN, I., MARTIN, L. Paleoclimate changes during the last 100,000 yr from a record in the Brazilian Atlantic rainforest region and interhemispheric comparison. Quaternary Research, 64(3), 444- 450, 2005. LEDRU, M.P. 1993. Late Quaternary environmental and climatic changes in Central Brazil. Quaternary Research, 39:90-98, 1993. LEDRU, M.P.; SALGADO-LABOURIAU, M.L.; LORSCHEITTER, M.L. Vegetation dynamics in southern and central Brazil during the last 10,000 yr B.P. Journal Palaeobotany Palynology, 99:131-142, 1998. LEHMANN, J.; KLEBER, M. The contentious nature of soil organic matter. Nature, 528(7580):1-60, 2015. LEIFELD, J., MENICHETTI, L. The underappreciated potential of peatlands in global climate change mitigation strategies. Nature communications, 9(1), 1-7, 2018. LEIFELD, J., STEFFENS, M., GALEGO?SALA, A. Sensitivity of peatland carbon loss to organic matter quality. Geophysical Research Letters, 39(14), 2012. 69 LEIFELD, J., ZIMMERMANN, M., FUHRER, J., CONEN, F. Storage and turnover of carbon in grassland soils along an elevation gradient in the Swiss Alps. Global Change Biology, 15(3), 668-679, 2009. LOISEL, J., GALLEGO-SALA, A. V., AMESBURY, M. J., MAGNAN, G., ANSHARI, G., BEILMAN, D. W. WU, J. (2021). Expert assessment of future vulnerability of the global peatland carbon sink. Nature climate change, 11(1), 70-77, 2021. LU, H.Y.; LIU, K.B. Phytolith indicators of hurricane overwash and coastal environmental changes. Abstract of the 97th Annual Meeting of the Association of American Geographers, New York. 13p., 2001. LYNN, W. C.; MCKINZIE, W. E.; GROSSMAN, R. B. Field laboratory tests for characterization of Histosols. In: STELLY, M. (Ed.). Histosols: their characteristics, classification and use. Madison: Soil Science Society of America, p. 11-20. 1974. MACHADO, D. O. B. F., CHUENG, K. F., COE, H. H. G., SILVA, A. C., & COSTA, C. R. Paleoenvironmental reconstruction of the headwaters of the preto river, Minas Gerais state, Brazil, through siliceous bioindicators. Journal of South American Earth Sciences, 108, 103349, 2021. MADELLA, M., JONES, M.K., ECHLIN, P., POWERS-JONES, A., MOORE, M. Plant water availability and analytical microscopy of phytoliths: implications for ancient irrigation in arid zones. Quaternary International, 193(1-2):32-40, 2009. MADELLA, M.; ALEXANDRE, A.; BALL, T. International Code for Phytolith Nomenclature 1.0. Annals of Botany, Oxford, 96(2):253-260, 2005. MADELLA, M.; LANCELOTTI, C. Taphonomy and phytoliths: A user manual. Quaternary International, 275:76-83, 2012. MANTOVANI, L. E.; FRITZSONS, E.; PARANHOS FILHO, A. C.; MONTEIRO, C. da S. A evolu??o din?mica das savanas subtropicais sul americanas. Revista de Estudos Ambientais, v. 5, n.1, p. 42-55, 2003. MARQUES NETO, R., OLIVEIRA, T. A. D. Itatiaia Massif: morphogenesis of southeastern Brazilian highlands. In Landscapes and landforms of Brazil (pp. 299-308). Springer, 2015. MARTINELLI, G., BANDEIRA, J. Campos de Altitude. Index, Rio de Janeiro. 1989. MARTINI, I. P., MART?NEZ CORTIZAS, A., CHESWORTH, W. Peatlands: a concise guide to the volume. Developments in Earth Surface Processes, 9, 1-13, 2006. MEYERS, P. A preservation of elemental and isotopic source identification of sedimentary organic matter. Chemical Geology, 114:289-302, 1994. MILNE, G. Some suggested units of classification and mapping particularly for East African soils. Londres, Soil Research, 4(2):183-98, 1934. MILNES, A.R.; FITZPATRICK, R.W. Titanium and zirconium minerals. In: DIXON, J.B., WEED, S.B. (Eds.), Minerals in Soil Environment, 2 ed. Soil Science Society America, Madison, WI, p. 1131-1205, 1989. 70 MINASNY, B.; BERGLUND, ?.; CONNOLLY, H. C.; VRIES, F.; GIMONA, A.; KEMPEN, B.; KIDD, D.; LILJA, H.; MALONE, B.; McBRATNEY, A. Digital mapping of peatlands - a critical review. Earth Science Reviews, 196, 102-178, 2019. MITCHELL, P. B., HUMPHREYS, G. S. Litter dams and microterraces formed on hillslopes subject to rainwash in the Sydney Basin, Australia. Geoderma, 39(4), 331-357, 1987. MODENESI, M. C. 1983: Weathering and morphogenesis in a tropical plateau. Catena 10, 237?251. MODENESI, M. C. 1992: Dep?sitos de vertente e evolu??o quatern?ria do planalto do Itatiaia ? RJ. Revista do Instituto Geol?gico 13, 31?46. MODENESI, M. C. 2000: Hillslope deposits and the Quaternary evolution of the altos campos ? Serra da Mantiqueira, from Campos do Jord?o to the Itatiaia Massif. Revista Brasileira de Geoci?ncias 30, 508?514. MODENESI, M. C. TOLEDO, M. C. M. 1996: Weathering and the formation of hillslope deposits in the tropical highlands of Itatiaia ? Southeastern Brazil. Catena 27, 81?103. MODENESI, M. C., HIRUMA, S. T. RICCOMINI, C. 2002: Morphotectonics of a high plateau on the northwestern flank of the Continental Rift of southeastern Brazil. Geomorphology 43, 257?271. MODENESI, M. C., TOLEDO, M. C. M., HIRUMA, S. T., TAIOLI, F. SHIMADA, H. 2011: Deep weathering and landscape evolution in a tropical plateau. Catena 85, 221?230. MOURA, J.R.S.; PEIXOTO, M. N. O.; SILVA, T. M. Geometria do relevo e estratigrafia do quatern?rio como base ? tipologia de cabeceiras de drenagem em anfiteatro ? m?dio vale do rio Para?ba do Sul. Revista Brasileira de Geoci?ncias. v.21, n. 3, p.255-265. 1991. MULHOLLAND, S.C. Phytoliths shape frequencies in North Dakota grasses: a comparison to general patterns. Journal of Archaeological Science, 16:489-511, 1989. MULHOLLAND, S.C.; RAPP, JUNIOR. G. Phytolith Systematics. Emerging Issues, Advances in Archeological and Museum Science. Plenum Press, Berlim. p.350, 1992. MYERS, N.; MITTERMEIER, R.A.; MITTERMEIER, C.G.; DA FONSECA, G.A., KENT, J. Biodiversity hotspots for conservation priorities. Nature 403, 853?858, 2000. NEUMANN, K.; STR?MBERG, C.A.E.; BALL, T.; ALBERT, R.M.; VRYDAGHS, L.; CUMMINGS, L.S. International Code for Phytolith Nomenclature (ICPN) 2.0. Annals of Botany, 124(2), 189-199, 2019. OLIVEIRA, J.B. Solos do Estado de S?o Paulo: Descri??o das classes registradas no mapa pedol?gico. Campinas, Instituto Agron?mico, 1999. 108p. OLIVEIRA?FILHO, A. T., FONTES, M. A. L. Patterns of floristic differentiation among Atlantic Forests in Southeastern Brazil and the influence of climate 1. Biotropica, 32, 793-810, 2000. 71 OSTERRIETH, M.; MADELLA, M.; ZURRO, D.; ALVAREZ, M. F. Taphonomical aspects of silica phytoliths in the loess sediments of the Argentinean Pampas. Quaternary International, 193:70-79, 2009. PAGE, S. E., RIELEY, J. O., BANKS, C. J. Global and regional importance of the tropical peatland carbon pool. Global change biology, 17(2), 798-818, 2011. PEARSALL, D.M. Paleoethnobotany: A Handbook of Procedures. Left Coast Press, Berlim. 544p, 2016. PEREIRA, M.G.; ANJOS, L.H.C. VALLADARES, G.S. Organossolos: Ocorr?ncia, g?nese, classifica??o, altera??es pelo uso agr?cola e manejo. In: VIDAL-TORRADO, P., ALLEONI, L.R.F.; COOPER, M.; SILVA, A.P. CARDOSO, E.J. (Eds) T?picos em ci?ncia do solo. Vi?osa, MG, Sociedade Brasileira de Ci?ncia do Solo, v.4. p.233-276, 2005. PESSENDA, L. C. R., DE OLIVEIRA, P. E., MOFATTO, M., DE MEDEIROS, V. B., GARCIA, R. J. F., ARAVENA, R. ETCHEBEHERE, M. L. (2009). The evolution of a tropical rainforest/grassland mosaic in southeastern Brazil since 28,000 14C yr BP based on carbon isotopes and pollen records. Quaternary Research, 71(3), 437-452, 2009. PESSENDA, L.C.R.; ARAVENA, R.; MELFI, A.J.; BOULET, R. 1996. The use of carbon isotopes (C-13, C-14) in soil to evaluate vegetation changes during the Holocene in central Brazil. Radiocarbon, 38(2):191-201, 1996. PESSENDA, L.C.R.; BUSO JUNIOR, A.A.; GOUVEIA, S.E.M.; LORENTE, F.L.; FRANCISQUINI, M.I. Estudos Interdisciplinares na Reconstru??o Milenar da Din?mica Clim?tica, da Vegeta??o e Marinha - S?rie Did?tica. CENA/USP, Piracicaba. 144p., 2015. PESSENDA, L.C.R.; GOUVEIA, S.E.M.; ARAVENA, R. Radiocarbon dating of total soil organic matter and humin fraction and its comparison with 14C ages of fossil charcoal. Radiocarbon, 43(2B):595-601, 2001. PESSENDA, L.C.R.; SAIA, S.E.M.G; GOUVEIA, S.E.M.; LEDRU, M.P.; SIFFEDINE, A.; AMARAL, P.G.C.; BENDASSOLLI, J.A. Last millennium environmental changes and climate inferences in the Southeastern Atlantic Forest, Brazil. Anais da Academia Brasileira de Ci?ncias, 82, 717-729, 2010. PHILBEN, M., KAISER, K., BENNER, R. Does oxygen exposure time control the extent of organic matter decomposition in peatlands? J. Geophys. Res. Biogeosci. 119, 897?909, 2013. PHILLIPS, J.D.; LORZ, C. Origins and Implications of Soil Layering. Earth-Science Reviews, 89(3):144-155, 2008. PIERUSCHKA, V., BEHLING, H. Palaeoenvironmental history of the S?o Francisco de Paula region in southern Brazil during the late Quaternary inferred from the Rinc?o das Cabritas core. The Holocene, 22(11), 1251-1262, 2012. PIERUSCHKA, V., LEDRU, M. P. A Mata Atl?ntica no final do Quatern?rio: Din?micas climatobot?nicas e antropog?nicas desde o ?ltimo M?ximo Glacial. Metamorfoses florestais: Culturas, ecologias e as transforma??es hist?ricas da Mata Atl?ntica. Prismas, Curitiba, 37-53, 2016. 72 PIPERNO, D.R. Phytoliths: A Comprehensive Guide for Archaeologists and Paleoecologists. Lanham MD - AltaMira Press, San Diego. 2006 PIPERNO, D.R.; BECKER, P. Vegetational history of a site in the central Amazon basin derived from phytolith and charcoal records from natural soils. Quaternary research, 45(2):202- 209, 1996. PORTES, M. C. G., SAFFORD, H. D., MONTADE, V., BEHLING, H. Pollen rain?vegetation relationship along an elevational gradient in the Serra dos ?rg?os National Park, southeastern Brazil. Review of Palaeobotany and Palynology, 283, 104314, 2020. PORTES, M.C.G.O., SAFFORD, H., BEHLING, H. Humans and climate as designers of the landscape in Serra da Bocaina National Park, southeastern Brazil, over the last seven centuries. Anthropocene 24, 61?71, 2018. REIMER, P.J.; BARD, E.; BAYLISS, A.; BECK, J.W.; BLACKWELL, P.G.; BRONK- RAMSEY, C.; BUCK, C.E.; CHENG, H.; EDWARDS, R.L.; FRIEDRICH, M.; GROOTES, P.M.; GUILDERSON, T.P.; HAFLIDASON, H.; HAJDAS, I.; HATT?, C.; HEATON, T.J.; HOFFMAN, D.L.; HOGG, A.G.; HUGHEN, K.A.; KAISER, K.F.; KROMER, B.; MANNING, S.W.; NIU, M.; REIMER, R.W.; RICHARDS, D.A.; SCOTT, E.M.; SOUTHON, J.R.; STAFF, R.A.; TURNEY, C.S.M.; VAN DER PLICHT, J. IntCal13 and Marine13 radiocarbon age calibration curves 0-50,000 years cal BP. Radiocarbon, 55:1869-1887, 2013. RETALLACK, G.J. Soils of the past: an introduction to paleopedology. 2 ed. Unwin Hyman, London. p. 520, 2001. REUTER, G. A logical system of paleopedological terms. Catena, 41:93-109, 2000. RIBEIRO, M. C., METZGER, J. P., MARTENSEN, A. C., PONZONI, F. J., HIROTA, M. M. The Brazilian Atlantic Forest: How much is left, and how is the remaining forest distributed? Implications for conservation. Biological conservation, 142(6), 1141-1153, 2009. RUNGE, F. The opal phytolith inventory of soils in central Africa - quantities, shapes, classification, and spectra. Review of Palaeobotany and Palynology, 107(2):23-53, 1999. RYDIN, H.; JEGLUM, J. K., BENNETT, K. D. The biology of peatlands, Oxford University Press. 432 p. 2013. SAADI, A. Neot?nica da Plataforma Brasileira: esbo?o e interpreta??o preliminares. Geonomos, 1:1-15, 1993. SAFFORD, H.D. MARTINELLI, G. Southeast Brazil. In: Inselbergs: Biotic diversity of isolated rock outcrops in: Barthlott, W., Porembski, S. (eds) Tropical and temperate regions. Ecological Studies No. 146. Springer-Verlag, Berlin, pp. 339- 389, 2000. SAFFORD, H.D., 1999. Brazilian P?ramos I. An introduction to the physical environment and vegetation of the campos de altitude. J. Biogeogr. 26, 693?712. SAFFORD, H.D., Brazilian P?ramos I. An introduction to the physical environment and vegetation of the campos de altitude. Journal of Biogeography 26, 693-712, 1999a. 73 SAFFORD, H.D., Brazilian P?ramos II. Macro- and mesoclimate of the campos de altitude and affinities with high mountain climates of the tropical Andes and Costa Rica. Journal of Biogeography 26, 713-737, 1999b. SAIA, S. E. M. G., PESSENDA, L. C. R., GOUVEIA, S. E. M., ARAVENA, R., BENDASSOLLI, J. A. Last glacial maximum (LGM) vegetation changes in the Atlantic Forest, southeastern Brazil. Quaternary International, 184(1), 195-201, 2008. SANTOS JUNIOR, J. B. D., ALMEIDA, J. A. D. Andic properties in soils with histic horizon ?O? in the highlands of Southern Brazil. Revista Brasileira de Ci?ncia do Solo, 45., 2021. SANTOS, H. G.; JACOMINE, P. K. T.; ANJOS, L. H. C. dos; OLIVEIRA, V. A. de; OLIVEIRA, J. B.; COELHO, M. R.; LUMBRERAS, J. F.; CUNHA, T. J. F. (Ed.). Sistema Brasileiro de Classifica??o de Solos. 2. ed. Rio de Janeiro: Embrapa Solos, 306 p. 2006. SANTOS, H. G.; JACOMINE, P. K. T.; ANJOS, L. H.; OLIVEIRA, V. A.; LUMBRERAS, J. F.; COELHO, M. R.; ALMEIDA, J. A.; ARA?JO FILHO, J. C.; OLIVEIRA, J. B. DE; CUNHA, T. J. F. Sistema Brasileiro de Classifica??o de Solos. 5. ed. rev. ampl. Bras?lia, DF: Embrapa, 356 p. 2018. SANTOS, R.D.; LEMOS, R.C.; SANTOS, H.G.; KER, J.C.; ANJOS, L.H.C.; SHIMIZU, S.H. Manual de descri??o e coleta de solo no campo. 7. ed. Vi?osa, MG: Sociedade Brasileira de Ci?ncia do Solo; 2015. SCHAEFER, C.E.G.R. Bases F?sicas da Paisagem Brasileira: Estrutura Geol?gica, Relevo e Solos. T?picos em Ci?ncia do Solo, 8:221-278, 2013. SCHAETZL, R.; THOMPSON, S. Soils: genesis and geomorphology. Cambridge; Cambridge University Press, p. 817, 2015. SCHARLEMANN, J. P., TANNER, E. V., HIEDERER, R., KAPOS, V. Global soil carbon: understanding and managing the largest terrestrial carbon pool. Carbon Management, 5(1), 81- 91, 2014. SCHEER, M.B; CURCIO, G.R; RODERJAN, C.V. Environmental functionalities of upper montane soils in Serra da Igreja, Southern Brazil. Revista Brasileira de Ci?ncia do Solo, 35, 1113-1126, 2011. SCHELLEKENS, J., BRADLEY, J. A., KUYPER, T. W., FRAGA, I., PONTEVEDRA- POMBAL, X., VIDAL-TORRADO, P., BUURMAN, P. The use of plant-specific pyrolysis products as biomarkers in peat deposits. Quaternary Science Reviews, 123, 254-264, 2015. SCHELLEKENS, J.; HORAK, I.; BUURMAN, P.; SILVA, A.C.; VIDAL-TORRADO, P. Holocene vegetation and fire dynamics in central-eastern Brazil: Molecular records from the Pau de Fruta peatland. Organic Geochemistry, 77:32-42, 2014. SCHINDLBACHER, A., DE GONZALO, C., D?AZ?PIN?S, E., GORR?A, P., MATTHEWS, B., INCL?N, JANDL, R. Temperature sensitivity of forest soil organic matter decomposition along two elevation gradients. Journal of Geophysical Research: Biogeosciences, 115(G3). SCHUUR, E.A.G.; MCGUIRE, A.D.; GROSSE, G.; HARDEN, J.W.; HAYES, D.J.; HUGELIUS, G.; KOVEN, C.D.; KUHRY, P.; LAWRENCE, D.M.; NATALI, S.M.; 74 OLEFELDT, D.; ROMANOVSKY, V.E.; SCH?DEL, C.; SCHAEFER, K.; TURETSKY, M.; TREAT, C.; VONK, J.E. Climate change and the permafrost carbon feedback. Nature, 520, 171-179, 2015. SILVA NETO, E. C. Fitolitos como registros paleoambientais em solos de ambientes altomontanos no estado do Esp?rito Santo. [Disserta??o] Universidade Federal Rural do Rio de Janeiro, 2018. SILVA NETO, E.C.; PEREIRA, M.G.; ANJOS, L.H.C.; CALEGARI, M.R.; AZEVEDO, A.C.; SCHIAVO, J.A.; PESSENDA, L.C.R. Phytoliths as paleopedological records of an histosol- cambisol-ferralsol sequence in Southeastern Brazil. Catena, 193, 104642, 2020. SILVA NETO, E.C.; PEREIRA, M.G.; CARVALHO, M.A.; CALEGARI, M.R.; SCHIAVO, J.A.; SA, N.P.; ANJOS, L.H.C.; PESSENDA, L.C.R. Palaeoenvironmental records of Histosol pedogenesis in upland area, Esp?rito Santo State (SE, Brazil). Journal of South American Earth Sciences, 95, 1-12, 2019. SILVA NETO, E.S.; SANTOS, J.J.S.; PEREIRA, M.G.; MARANH?O, D.D.C.; BARROS, F.D.C.; ANJOS, L.H.C. Paleoenvironmental Characterization of a High-Mountain Environment in the Atlantic Forest in Southeastern Brazil. Revista Brasileira de Ci?ncia do Solo, 42:1-17, 2018. SILVA, A. C.; HORAK, I.; VIDAL-TORRADO, P.; PESSENDA, L.C.R. Pedological and isotopic relations of a highland tropical peatland, Mountain Range of the Espinha?o Meridional (Brazil). Revista Brasileira de Ci?ncia do Solo, 35:41-52, 2011. SILVA, A. C.; Hor?k-Terra, I.; Barral, U.M.; COSTA, C.R.; GON?ALVES, S.T.; PINTO, T.; Silva, B.P.C.; FERNANDES, J.S.C; MENDONCA FILHO, C.V.; VIDAL-TORRADO, P. Altitude, vegetation, paleoclimate, and radiocarbon age of the basal layer of peatlands of the Serra do Espinha?o Meridional, Brazil. Journal of South American Earth Sciences, 103, 102728, 2020. SILVA, A. C.; VIDAL TORRADO, P. G?nese dos Latossolos H?micos e sua rela??o com a evolu??o da paisagem numa ?rea crat?nica do sul de Minas Gerais. Revista Brasileira de Ciencia do Solo, 23:329-341, 1999. SILVA, A. C.; VIDAL-TORRADO, P.; MARTINEZ-CORTIZAS, A.; RODEJA, E. GARCIA. Solos do topo da Serra S?o Jos? (Minas Gerais) e suas rela??es com o paleoclima no Sudeste do Brasil. Revista Brasileira de Ci?ncia do Solo, 28(3):455-466, 2004. SILVA, A.C., BARBOSA, M.S., BARRAL, U.M., SILVA, B.P.C., FERNANDES, J.S.C., VIANA, A.J.S., MENDON?A FILHO, C.V., BISPO, D.F.A., Christofaro, C., Ragonezi, C., Guimaraes, L.R., Guilherme, L.R.G. Organic matter composition and paleoclimatic changes in tropical mountain peatlands currently under grasslands and forest clusters. Catena 180, 69?82, 2019. SILVA, A.C.; HORAK, I.; CORTIZAS, A.M.; VIDAL-TORRADO, P.; RACEDO, J.R.; GRAZZIOTTI, P.H.; SILVA, E.B.; FERREIRA, C.A. Turfeiras da Serra do Espinha?o Meridional - MG: I - Caracteriza??o e Classifica??o. Revista Brasileira de Ci?ncia do Solo, 33, 1385-1398, 2009a. 75 SILVA, A.C.; HORAK, I.; VIDAL-TORRADO, P.; CORTIZAS, A.M.; RACEDO, J.R.; CAMPOS, J.R.R. Turfeiras da Serra do Espinha?o Meridional - MG: II - influ?ncia da drenagem na composi??o elementar e subst?ncias h?micas. Revista Brasileira de Ci?ncia do Solo, 33, 1399-1408, 2009b. SILVA, A.C.; VIDAL-TORRADO, P.; PEREZ, M.G.; MARTIN NETO, L.; MACIAS- VAZQUEZ, F. Rela??es entre mat?ria org?nica do solo e declividade de vertentes em toposseq??ncia de Latossolos do Sul de Minas Gerais. Revista Brasileira de Ci?ncia do Solo, 31:1059-1068, 2007. SILVA, E. V.; Silva, A.C.; PEREIRA, R.C.; CAMARGO, P.B.; SILVA, B.P.C.; BARRAL, U.M.; MENDONCA FILHO, C.V. Composi??o lignocelul?sica e is?topica da vegeta??o e da mat?ria org?nica do solo de uma turfeira tropical: I - composi??o flor?stica, fitomassa e ac?mulo de carbono. Revista Brasileira de Ci?ncia do Solo, 37:21-133, 2013. SILVA, E.B.; SILVA, A.C.; GRAZZIOTTI, P.H.; FARNEZI, M.M.M.; FERREIRA, C.A.; COSTA, H.A.O.; HORAK, I. Compara??o de m?todos para estimar a acidez potencial mediante determina??o do pH SMP em Organossolos da Serra do Espinha?o Meridional. Revista Brasileira de Ci?ncia do Solo, 32:2007-2013, 2008. SILVA, M. L.; SILVA, A.C.; SILVA, B.P.C.; BARRAL, U.M.; SOARES, P.G.S.; VIDAL- TORRADO, P. Surface mapping, organic matter and water stocks in peatlands of the Serra do Espinha?o meridional - Brazil. Revista Brasileira de Ci?ncia do Solo, 37, 1149-1157, 2013. SIMAS, F.; SCHAEFER, C.; FERNANDES FILHO, E.; CHAGAS, A.; BRAND?O, P. Chemistry, mineralogy and micropedology of highland soils on crystalline rocks of Serra da Mantiqueira, southeastern Brazil. Geoderma, 125(3-4), 187-201, 2005. SOARES, P.F.C.; ANJOS, L.H.C.; PEREIRA, M.G.; PESSENDA, L.C.R. Histosols in an upper montane environment in the Itatiaia Plateau. Revista Brasileira de Ci?ncia do Solo, 40:1- 16, 2016. SOMMER, M.; KACZOREK, D.; KUZYAKOV, Y.; BREUER, J. Silicon pools and fluxes in soils and landscapes? a review. Journal Plant Nutrition Soil Science, 169:310-329, 2006. SPEHN, E.M., RUDMANN-MAURER, K., K?RNER, C., MASELLI, D. (Eds.), 2010. Mountain Biodiversity and Global Change. GMBA-DIVERSITAS, Basel. STRADIC, S.L; BUISSON, E.; FERNANDES, G. W. Vegetation composition and structure of some Neotropical mountain grasslands in Brazil. Journal of Mountain Science, 12(4), 864-877, 2015. STRECK, E.V.; KAMPF, N.; DALMOLIN, R.S.D.; KLAMT, E.; NASCIMENTO, P.C. SCHNETDER, P. Solos do Rio Grande do Sul. Porto Alegre, Universidade Federal do Rio Grande do Sul. p. 127, 2002. STROMBERG, C.A.; WERDELIN, L.; FRIIS, E.M.; SARA?, G. The spread of grass- dominated habitats in Turkey and surrounding areas during the Cenozoic: phytolith evidence. Palaeogeography, Palaeoclimatology, Palaeoecology, 250(4):18-49, 2007. 76 STROMBERG, C.A.E. Using phytolith assemblages to reconstruct the origin and spread of grass-dominated habitats in the great plains of North America during the late Eocene to early Miocene. Palaeogeography, Palaeoclimatology, Palaeoecology, 207:239-275, 2004. TABARELLI, M., PINTO, L. P., SILVA, J. M. C., HIROTA, M., BEDE, L. Challenges and Opportunities for Biodiversity Conservation in the Brazilian Atlantic Forest. Conservation Biology, 19(3), 695?700, 2005. TARGULIAN, V.O.; ARNOLD, R.W.; Miller, B.A.; Brevik, E.C. Pedosphere. Encyclopedia of Ecology, 4:162-168, 2019. TARGULIAN, V.O.; GORYACHKIN S.V. Soil memory and environmental reconstructions. Eurasian Soil Science, 44(4):464-465, 2011. TARGULIAN, V.O.; Goryachkin S.V. Soil memory: types of record, carriers, hierarchy and diversity. Revista Mexicana de Ciencias Geol?gicas, 21:1-8, 2004. TARGULIAN, V.O.; GORYACHKIN, S.V. Soil memory: essence, bearers, space and time behavior, in Materials of the International Symposium ?Functions of soils in the geosphere- biosphere systems?: Moscow. p. 270-272, 2001. TEIXEIRA, P.C.; DONAGEMMA, G.K.; FONTANA, A.; TEIXEIRA, W.G. Manual de m?todos de an?lise de solo. 3. ed. Bras?lia, DF: Embrapa; 2017. TWISS, C.; SUESS, E.; SMITH, R.M. Morphological classification of grass phytoliths. Soil Science Society of America Proceedings, Madison, 33:109-115, 1969. TWISS, P.C. Predicted world distribution of C3 and C4 grass phytoliths. In: TWISS, P.C. (Ed.), Phytolith systematics. Springer, Boston, MA, p. 113-128, 1992. UNITED STATES. Department of Agriculture. Natural Resources Conservation Service. Soil Survey Staff. Keys to soil taxonomy. 12th ed. Washington, DC, 360 p. 2014. UNITED STATES. Department of Agriculture. Soil Survey Division. Soil Conservation Service. Soil Survey Staff. Soil classification: a comprehensive system: 7th approximation. Washington, DC, 265 p. 1960. VALLADARES, G.S. Caracteriza??o de Organossolos, aux?lio ? sua classifica??o. Serop?dica, Universidade Federal Rural do Rio de Janeiro, 2003. 115p. (Tese de Doutorado) VALLADARES, G.S.; GOMES, E.G.; MELLO, J.C.B.; PEREIRA, M.G.; ANJOS, L.H.C.; EBELING, A.G.; BENITES, V.M. An?lise dos Componentes Principais e M?todo Multicrit?rio Ordinais no Estudo de Organossolos e Solos Afins. Revista Brasileira de Ci?ncia do Solo, 32:285-296, 2008. VALLADARES, G.S.; PEREIRA, M.G.; ANJOS, L.H.C; EBELING, A.G.; BENITES, V.M.; MOUTA, R.O. Humic substance fractions and attributes of Histosols and related high-organic- matter soils from Brazil. Communications in Soil Science and Plant Analysis, 8(6):763-777, 2007. VER?SSIMO, N., SAFFORD, H. D., BEHLING, H. Holocene vegetation and fire history of the Serra do Capara?, SE Brazil. 22, 1243?1250, 2012. 77 vonL?TZOW, M., AND I. K?GEL-KNABNER (2009), Temperature sensitivity of soil organic matter decomposition-what do we know? Biol. Fertil. Soils, 46, 1?15, 2009. WACKER, L.; FAHRNI, S.M.; HAJDAS, I.; MOLNAR, M.; SYNAL, H.A.; SZIDAT, S.; ZHANG, Y.L. A versatile gas interface for routine radiocarbon analysis with a gas ion source. Nuclear Instruments Methods in Physics Research, 294, 315?319, 2013. WAKSMAN, S.A. The peats of New Jersey and their utilization. New Jersey, Geologic Series, Bulletin, New Jersey, n. 55, p.152, 1942. XU, J., MORRIS, P. J., LIU, J., HOLDEN, J. PEATMAP: Refining estimates of global peatland distribution based on a meta-analysis. Catena, 160, 134-140, 2018. YU, Z., LOISEL, J., BROSSEAU, D. P., BEILMAN, D. W., HUNT, S. J. Global peatland dynamics since the Last Glacial Maximum. Geophysical research letters, 37(13), 2010. ZECH, W.; SENESI, N.; GUGGENBERGER, G.; KAISER, K.; LEHMANN, J.; MIANO, T.M.; MILTNER, A.; SCHROTH, G. Factors controlling humification and mineralization of soil organic matter in the tropics. Geoderma, 79:117-161, 1997.OrganossolosRela??o solo-paisagemMudan?as clim?ticasQuatern?rioHistosolsSoil-landscape relationshipClimate changeQuaternaryAgronomiaSolos org?nicos em ambientes altomontanos no Sudeste do Brasil: forma??o, classifica??o e rela??es com a hist?ria da vegeta??oOrganic soils in upper montane environments of southeastern Brazil: formation, classification, and relations to vegetation historyinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/doctoralThesisinfo:eu-repo/semantics/openAccessreponame:Biblioteca Digital de Teses e Dissertações da UFRRJinstname:Universidade Federal Rural do Rio de Janeiro (UFRRJ)instacron:UFRRJTHUMBNAIL2022 - Eduardo Carvalho da Silva Neto.Pdf.jpg2022 - Eduardo Carvalho da Silva Neto.Pdf.jpgimage/jpeg4935http://localhost:8080/tede/bitstream/jspui/6908/4/2022+-+Eduardo+Carvalho+da+Silva+Neto.Pdf.jpgfcd0ad0f71b38b35fa67648be605257aMD54TEXT2022 - Eduardo Carvalho da Silva Neto.Pdf.txt2022 - Eduardo Carvalho da Silva Neto.Pdf.txttext/plain290625http://localhost:8080/tede/bitstream/jspui/6908/3/2022+-+Eduardo+Carvalho+da+Silva+Neto.Pdf.txt842d7ad8185632341f18b67a34124b18MD53ORIGINAL2022 - Eduardo Carvalho da Silva Neto.Pdf2022 - Eduardo Carvalho da Silva Neto.Pdfapplication/pdf1947368http://localhost:8080/tede/bitstream/jspui/6908/2/2022+-+Eduardo+Carvalho+da+Silva+Neto.Pdf191751093b0414b2fe51c4c242a94cd5MD52LICENSElicense.txtlicense.txttext/plain; charset=utf-82089http://localhost:8080/tede/bitstream/jspui/6908/1/license.txt7b5ba3d2445355f386edab96125d42b7MD51jspui/69082023-09-12 01:00:21.398oai:localhost: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Biblioteca Digital de Teses e Dissertaçõeshttps://tede.ufrrj.br/PUBhttps://tede.ufrrj.br/oai/requestbibliot@ufrrj.br\|\|bibliot@ufrrj.bropendoar:2023-09-12T04:00:21Biblioteca Digital de Teses e Dissertações da UFRRJ - Universidade Federal Rural do Rio de Janeiro (UFRRJ)false
dc.title.por.fl_str_mv	Solos org?nicos em ambientes altomontanos no Sudeste do Brasil: forma??o, classifica??o e rela??es com a hist?ria da vegeta??o
dc.title.alternative.eng.fl_str_mv	Organic soils in upper montane environments of southeastern Brazil: formation, classification, and relations to vegetation history
title	Solos org?nicos em ambientes altomontanos no Sudeste do Brasil: forma??o, classifica??o e rela??es com a hist?ria da vegeta??o
spellingShingle	Solos org?nicos em ambientes altomontanos no Sudeste do Brasil: forma??o, classifica??o e rela??es com a hist?ria da vegeta??o Silva Neto, Eduardo Carvalho da Organossolos Rela??o solo-paisagem Mudan?as clim?ticas Quatern?rio Histosols Soil-landscape relationship Climate change Quaternary Agronomia
title_short	Solos org?nicos em ambientes altomontanos no Sudeste do Brasil: forma??o, classifica??o e rela??es com a hist?ria da vegeta??o
title_full	Solos org?nicos em ambientes altomontanos no Sudeste do Brasil: forma??o, classifica??o e rela??es com a hist?ria da vegeta??o
title_fullStr	Solos org?nicos em ambientes altomontanos no Sudeste do Brasil: forma??o, classifica??o e rela??es com a hist?ria da vegeta??o
title_full_unstemmed	Solos org?nicos em ambientes altomontanos no Sudeste do Brasil: forma??o, classifica??o e rela??es com a hist?ria da vegeta??o
title_sort	Solos org?nicos em ambientes altomontanos no Sudeste do Brasil: forma??o, classifica??o e rela??es com a hist?ria da vegeta??o
author	Silva Neto, Eduardo Carvalho da
author_facet	Silva Neto, Eduardo Carvalho da
author_role	author
dc.contributor.advisor1.fl_str_mv	Pereira, Marcos Gervasio
dc.contributor.advisor1ID.fl_str_mv	874.292.767-68 https://orcid.org/0000-0002-1402-3612
dc.contributor.advisor1Lattes.fl_str_mv	http://lattes.cnpq.br/3657759682534978
dc.contributor.advisor-co1.fl_str_mv	Anjos, L?cia Helena Cunha dos
dc.contributor.advisor-co1ID.fl_str_mv	https://orcid.org/0000-0003-0063-3521
dc.contributor.advisor-co1Lattes.fl_str_mv	http://lattes.cnpq.br/7882538227876962
dc.contributor.referee1.fl_str_mv	Pereira, Marcos Gervasio
dc.contributor.referee1ID.fl_str_mv	874.292.767-68 https://orcid.org/0000-0002-1402-3612
dc.contributor.referee1Lattes.fl_str_mv	http://lattes.cnpq.br/3657759682534978
dc.contributor.referee2.fl_str_mv	Oliveira, F?bio Soares de
dc.contributor.referee2ID.fl_str_mv	https://orcid.org/0000-0002-1450-7609
dc.contributor.referee2Lattes.fl_str_mv	http://lattes.cnpq.br/8546459778894275
dc.contributor.referee3.fl_str_mv	Valladares, Gustavo Souza
dc.contributor.referee3ID.fl_str_mv	https://orcid.org/0000-0002-4884-6588
dc.contributor.referee3Lattes.fl_str_mv	http://lattes.cnpq.br/7710601501267719
dc.contributor.referee4.fl_str_mv	Terra, Ingrid Hor?k
dc.contributor.referee4ID.fl_str_mv	https://orcid.org/0000-0002-5078-5366
dc.contributor.referee4Lattes.fl_str_mv	http://lattes.cnpq.br/7150300826608941
dc.contributor.referee5.fl_str_mv	Souza, Jos? Jo?o Lelis Leal de
dc.contributor.referee5ID.fl_str_mv	https://orcid.org/0000-0003-4670-6626
dc.contributor.referee5Lattes.fl_str_mv	http://lattes.cnpq.br/4029385395680758
dc.contributor.authorID.fl_str_mv	098.401.516-73 https://orcid.org/0000-0001-6986-1376
dc.contributor.authorLattes.fl_str_mv	http://lattes.cnpq.br/4988225711834196
dc.contributor.author.fl_str_mv	Silva Neto, Eduardo Carvalho da
contributor_str_mv	Pereira, Marcos Gervasio Anjos, L?cia Helena Cunha dos Pereira, Marcos Gervasio Oliveira, F?bio Soares de Valladares, Gustavo Souza Terra, Ingrid Hor?k Souza, Jos? Jo?o Lelis Leal de
dc.subject.por.fl_str_mv	Organossolos Rela??o solo-paisagem Mudan?as clim?ticas Quatern?rio
topic	Organossolos Rela??o solo-paisagem Mudan?as clim?ticas Quatern?rio Histosols Soil-landscape relationship Climate change Quaternary Agronomia
dc.subject.eng.fl_str_mv	Histosols Soil-landscape relationship Climate change Quaternary
dc.subject.cnpq.fl_str_mv	Agronomia
description	The research developed in this thesis aims to contribute to the understanding of the formation of non-hydromorphic organic soils in upper montane environments in the southeastern Brazil. The thesis was organized in two chapters, in Chapter I ?Organic soils - definitions and use as record of paleoenvironmental changes?, a theoretical framework based on relevant bibliographical sources is presented and discussed. In addition to the environmental relevance, organic soils are important natural archives of paleoenvironmental changes, providing data for inferences about the climate and vegetation of the past and future. They have great relevance for climate regulation, water storage and maintaining biodiversity. In the Chapter II, entitled - Organic soils in upper montane environments in Southeastern Brazil: formation, classification and relations with the history of vegetation, the results obtained from the characterization of 14 soil profiles, described and collected in upper montane environments in southeastern Brazil, are presented. The following hypotheses were set: (i) the formation of organic soils under free drainage conditions is related to the history of vegetation and variations in climatic conditions in the past; (ii) the cold and humid climate of the upper montane environments in the Southeastern region of Brazil results in soils with andic (non-allophanic) properties. The objective of this research was to propose a general scheme for the formation of these soils, based on the understanding of the soil-landscape relationship and on the reconstitution of the vegetation history. As for the first hypothesis, based on records of phytoliths, ? 13C, carbon stocks derived from C3 and C4 plants, and 14C dating, it was possible to infer four environmental conditions: Phase I (before ~18,9k yr BP), markedly colder climate and drier than current one, with a predominance of subtropical grassland vegetation and the occurrence of fires; Phase II (~18,9k yr BP to ~11,1k yr BP), slight increase in humidity, decrease in fires and expansion of forest formations, with rare presence of Araucaria angustifolia; Phase III (from ~11,1k years BP) increase in humidity, with the establishment of current conditions (cold and humid climate, typical of southeastern Brazilian highlands), and marked presence of Araucaria in upper- montane forests; Phase IV (present) environmental changes related to increased occurrence of fires, reduction of Araucaria individuals and increase of Bambusoid, Arecaceae and C4 plants, possibly linked to human activities. On the second hypothesis, Organossolos F?licos (Folists) in the upper montane environments of Serra da Mantiqueira are formed by the accumulation of litter (vegetation residues) and can occur in two soil environments: (i) directly on rocks in the high-altitude fields, by the processes of addition and transformation of litter, which constitute the main parental material of these soils; and (ii) in upper montane forests, with histic horizons formed over mineral horizons. In both cases, the cold and humid climate and the vegetation (organisms) are the main soil formation factors, not only reducing the decomposition of the organic matter, but influencing the physical and chemical properties of the soils. The cold and humid climate of the upper montane environments in southeastern Brazil also results in soils with andic (non-allophanic) properties.
publishDate	2022
dc.date.issued.fl_str_mv	2022-08-23
dc.date.accessioned.fl_str_mv	2023-09-11T11:38:53Z
dc.type.status.fl_str_mv	info:eu-repo/semantics/publishedVersion
dc.type.driver.fl_str_mv	info:eu-repo/semantics/doctoralThesis
format	doctoralThesis
status_str	publishedVersion
dc.identifier.citation.fl_str_mv	SILVA NETO, Eduardo Carvalho da. Solos org?nicos em ambientes altomontanos no Sudeste do Brasil: forma??o, classifica??o e rela??es com a hist?ria da vegeta??o. 2022. 105 f. Tese (Doutorado em Agronomia - Ci?ncia do Solo) - Instituto de Agronomia, Universidade Federal Rural do Rio de Janeiro, Serop?dica, 2022.
dc.identifier.uri.fl_str_mv	https://tede.ufrrj.br/jspui/handle/jspui/6908
identifier_str_mv	SILVA NETO, Eduardo Carvalho da. Solos org?nicos em ambientes altomontanos no Sudeste do Brasil: forma??o, classifica??o e rela??es com a hist?ria da vegeta??o. 2022. 105 f. Tese (Doutorado em Agronomia - Ci?ncia do Solo) - Instituto de Agronomia, Universidade Federal Rural do Rio de Janeiro, Serop?dica, 2022.
url	https://tede.ufrrj.br/jspui/handle/jspui/6908
dc.language.iso.fl_str_mv	por
language	por
dc.relation.references.por.fl_str_mv	ABBOTT, G.D., SWAIN, E.Y., MUHAMMAD, A.B., ALLTON, K., BELYEA, L.R., LAING, C.G., COWIE, G.L. Effect of water-table fluctuations on the degradation of Sphagnum phenols in surficial peats. Geochim. Cosmochim. Acta 106, 177?191, 2013. Ab'SABER, A.N. Espa?os ocupados pela expans?o dos climas secos da Am?rica do Sul, por ocasi?o dos per?odos glaciais quatern?rios. Instituto de Geografia. Paleoclimas, 3:1-19, 1977. AHR, S. W.; NORDT, L.C.; SCHAETZL, R.J. Lithologic discontinuities in soils. International Encyclopedia of Geography: People, the Earth, Environment and Technology: People, the Earth, Environment and Technology, 1:1-8, 2016. ALBERT, R.M.; BAMFORD, M.K.; CABANES, D. Palaeoecological significance of palms at Olduvai Gorge, Tanzania, based on phytolith remains. Quaternary International, 193(2):41-48, 2009. ALBERT, R.M.; WEINER, S. Study of phytoliths in prehistoric ash layers using a quantitative approach. In: MEUNIER, J.D., COLINE, F. (Eds.), Phytoliths: Applications in Earth Sciences and Human History. A.A. Balkema Publishers, Lisse, p. 251-266, 2001. ALEMAN, J. C.; CANAL-SUBITANI, S.; FAVIER, C.; BREMOND, L. Influence of the local environment on lacustrine sedimentary phytolith records. Palaeogeography, Palaeoclimatology, Palaeoecology, 414:273-283, 2014. ALEXANDRE, A.; MEUNIER J.D.; COLIN, F.; KOUD, J.M. Plant impact on the biogeochemical cycle of silicon and related weathering processes. Geochimica et Cosmochimica Acta, 61(3):677-682, 1997. ALEXANDRE, A.; MEUNIER, J.D.; MARIOTTI, A., SOUBIES, F. Late Holocene phytolith and carbon isotope record from a latosol at Salitre, south-central Brazil, Quaternary Research, 51:187-194, 1999. ALMEIDA, F.F.M., HASUI, Y., DE BRITO NEVES, B.B., FUCK, R.A., Brazilian structural provinces: an introduction. Earth-Sci. Rev. 17, 1?29, 1981. ANJOS, L.H.C.; JACOMINE, P.K.T.; SANTOS, H.G.; OLIVEIRA, V.A.; OLIVEIRA, J.B. Sistema Brasileiro de Classifica??o de solos. In: KER, J.C.; CURI N.; SCHAEFER, C.E.G.R.; VIDAL-TORRADO, P. (Eds.), Pedologia: Fundamentos. Vi?osa: Sociedade Brasileira de Ci?ncia do Solo, p. 303-343, 2012. AUGUSTIN, C.H.R.R., COE, H.H.G., CHUENG, K.F., GOMES, J.G., Analysis of geomorphic dynamics in ancient quartzite landscape using phytolith and carbon isotopes, Espinha?o Mountain Range, Minas Gerais, Brazil. G ?eomorphologie 4, 355?376, 2014. BALIEIRO, F.C., DE MELO BENITES, V., ALVES, B. J. R., FONTANA, A., CANELLAS, L. P. Vegetation influence on organic matter source of black soils from high altitude rocky complexes traced by 13C and 15N isotopic techniques. Catena, 99, 97-101, 2012. BARBONI, D.; BREMOND, L.; BONNEFILLE, R. Comparative study ofmodem phytolith assemblages frominter-tropical Africa. Palaeogeography, Palaeoclimatology, Palaeoecology, 246: 454-470, 2007. 61 BATJES, N.H. Total carbon and nitrogen in the soils of the world. European Journal of Soil Science, 65(1): 10?21, 2014. BECKER, C. G., RODRIGUEZ, D., ZAMUDIO, K. R. The Brazilian Adirondacks. Science (New York, NY), 340(6131), 428. 2013. BEHLING, H. 2003. Late glacial and Holocene vegetation, climate and fire history inferred from Lagoa Nova in the southeastern Brazilian lownland. Vegetation History Archeobotany, 12:263?270, 2003. BEHLING, H. A high-resolution Holocene pollen record from Lago do Pires, SE Brazil: Vegetation, climate and fire history. Journal of Paleolimnology, 14:253-268, 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(3-4), 407-422, 1997. BEHLING, H. Late Quaternary vegetational and climatic changes in Brazil. Review of palaeobotany and palynology, 99(2), 143-156, 1998. BEHLING, H. South and southeast Brazilian grasslands during Late Quaternary times: A synthesis. Palaeogeography, Palaeoclimatology, Palaeoecology, 177:19-27, 2002. BEHLING, H., DUPONT, L., SAFFORD, H.D., WEFER, G. Late Quaternary vegetation and climate dynamics in the Serra da Bocaina, southeastern Brazil. Quat. Int. 161, 22?31, 2007. BEHLING, H., LICHTE, M. Evidence of dry and cold climatic conditions at glacial times in tropical SE Brazil. Quat. Res. 48, 348?358, 1997. BEHLING, H.; SAFFORD, H.D. Late-glacial and Holocene vegetation, climate and fire dynamics in the Serra dos ?rg?os, Rio de Janeiro State, SE Brazil. Global Change Biology, 16:1661-1671, 2010. BENITES, V. D. M., CAIAFA, A. N., MENDON?A, E. D. S., SCHAEFER, C. E., KER, J. C. Solos e vegeta??o nos complexos rupestres de altitude da Mantiqueira e do Espinha?o. Floresta e ambiente, 10(1), 76-85, 2012. BENITES, V. D. M., DE S? MENDON?A, E., SCHAEFER, C. E. G., NOVOTNY, E. H., REIS, E. L., KER, J. C. Properties of black soil humic acids from high altitude rocky complexes in Brazil. Geoderma, 127(1-2), 104-113, 2005. BENITES, V. M., SCHAEFER, C. E. G., SIMAS, F. N., SANTOS, H. G. Soils associated with rock outcrops in the Brazilian mountain ranges Mantiqueira and Espinha?o. Brazilian Journal of Botany, 30(4), 569-577, 2007. BENITES, V.C.; CAIAFA, A.N.; MENDON?A, E.S.; SHAEFER, C.E.G.R.; KER, J. C. Solos e vegeta??o nos complexos rupestres de altitude da Mantiqueira e do Espinha?o. Floresta e Ambiente, 10(1):76-85, 2003. BENITES, V.M., DE S? MENDON?A, E., SCHAEFER, C. E. G., NOVOTNY, E. H., REIS, E. L., KER, J. C. Properties of black soil humic acids from high altitude rocky complexes in Brazil. Geoderma, 127(1-2), 104-113, 2005. 62 BENITES, V.M.; SCHAEFER, C.E.G.R.; SIMAS, F.N.B.; SANTOS, H.G. Soils associated with rock outcrops in the Brazilian mountain ranges Mantiqueira and Espinha?o. Brazilian Journal of Botany, 30:569-77, 2007. BISPO, D.A., SILVA, A.C., CHRISTOFARO, C., SILVA, M.L.N., BARBOSA, M.S., SILVA, B.P.C., BARRAL, U.MCharacterization of headwaters peats of the Rio Ara?ua?, Minas Gerais state, Brazil. Rev. Bras. Ci. Solo 39, 475?489, 2015. BISPO, D.F.A.; SILVA, A.C.; MATOSINHOS, C.C.; SILVA, M.L.N.; BARBOSA, M.S.; SILVA, B.P.C.; BARRAL, U.M.; FABRIS, J.D. Hydrology and carbon dynamics of tropical peatlands from Southeast Brazil. Catena, 143:18-25, 2016. BOCKHEIM, J.G. Soil endemism and its relation to soil formation theory. Geoderma 129, 109? 124, 2005. BORBA-ROSCHEL, M.; ALEXANDRE, A.; VARAJAO, A.F.D.C.; MEUNIER, J.D.; VARAJAO, C.A.C.; COLIN, F. Phytoliths as indicators of pedogenesis and paleoenvironmental changes in Brazilian cerrado. Journal of Geochemical Exploration, 88(1):172-176, 2006. BOUTTON, T.W. Stable carbon isotope ratios of soil organic matter and their use as indicators of vegetation and climate change. In: BOUTTON, T.W., YAMAZAKI, S.I. (Eds.), Mass Spectrometry of Soils. Marcel Dekker, New York, p. 47-82, 1996. BOUTTON, T.W.; ARCHER, S.R.; MIDWOOD, A.J.; ZITZER, S.F.; BOL, R. ? 13C values of soil organic carbon and their use in documenting vegetation change in a subtropical savanna ecosystem. Geoderma 82:5-41, 1998. BREEMEN, N.; BUURMAN, P. Soil formation. 2 ed. Dordrecht: Kluwer Academic, p. 404, 2002. BREMOND, L.; ALEXANDRE, A.; H?LY, C.; GUIOT, J. A phytolith index as a proxy of tree cover density in tropical areas: calibration with Leaf Area Index along a forest-savanna transect in southeastern Cameroon. Global and Planetary Change, 45:277-293, 2005a. BREMOND, L.; ALEXANDRE, A.; PEYRON, O.; GUIOT, J. Grass water stress estimated from phytoliths in West Africa. Journal of Biogeography, 32, 311- 327, 2005b. BREMOND, L.; ALEXANDRE, A.; V?LA, E.; GUIOTA, J. Advantages and disadvantages of phytolith analysis for the reconstruction of Mediterranean vegetation: an assessment based on modern phytolith, pollen and botanical data (Luberon, France). Review of Palaeobotany and Palynology, 129(4), 213-228, 2004. BREMOND, L.; ALEXANDRE, A.; WOOLLER, M.J.; H?LY, C.; SCH?FER, P.A.; MAJULE, A.; GUIOT, J. Phytolith indices as proxies of grass subfamilies on East African tropical mountains. Global and Planetary Change, 61:209-224, 2008. BREMOND, L.; FAVIER, C.; FICETOLA, G.F.; TOSSOU, M.G.; AKOU?GNINOU, A.; GIELLY, L.; SALZMANN, U. Five thousand years of tropical lake sediment DNA records from Benin. Quaternary Science Reviews, 170:203-211, 2017. 63 BROOKS, T. M., MITTERMEIER, R. A., DA FONSECA, G. A. B., GERLACH, J., HOFFMANN, M., LAMOREUX, J. F., RODRIGUES, A. S. L. (2006). Global Biodiversity Conservation Priorities. Science, 313(5783), 58?61. BUOL, S. W.; SOUTHARD, R. J.; GRAHAM, R. C.; MCDANIEL, P. A. Soil genesis and classification. John Wiley Sons. 544 p. 2011. BUOL, S.W.; HOLE, F.D.; MC CRACKEN, R.J. Soil genesis and classification. 3 ed. Ames, Iowa State University Press, p. 404, 1980. BUOL, S.W.; HOLE, F.D.; McCRACKEN, R.J.; SOUTHARD, R.J. Soil genesis and classification. 4 ed. Ames, Iowa State University Press, p. 527, 1997. BUURMAN, P. Classification of paleosols - a comment. Quaternary International, 51(7) 17- 33, 1998. CABANES, D.; BURJACHS, F.; EXP?SITO, I.; RODR?GUEZ, A.; ALLU?, E.; EUBA, I.; VERG?S, J.M. Formation processes through archaeobotanical remains: the case of the Bronze Age levels in El Mirador cave, Sierra de Atapuerca, Spain. Quaternary International, 193:160- 173, 2009. CALEGARI, M.R. Ocorr?ncia e significado paleoambiental do horizonte A h?mico em latossolos. 259p. Tese (Doutorado em Solos e Nutri??o Mineral de Plantas). Universidade de S?o Paulo, Piracicaba, 2008. CALEGARI, M.R.; MADELLA, M.; BRUSTOLIN, L.T.; PESSENDA, L.C.R.; BUSO, A.A.; FRANCISQUINI, M.; VIDAL-TORRADO, P. Potential of soil phytoliths, organic matter and carbon isotopes for small-scale differentiation of tropical rainforest vegetation: A pilot study from the campos nativos of the Atlantic Forest in Esp?rito Santo State (Brazil). Quaternary International, 437:1-17, 2017. CALEGARI, M.R.; MADELLA, M.; BUSO JUNIOR, A.A.; OSTERRIETH, M.; LORENTE, F.L.; PESSENDA, L.C.R. Holocene Vegetation and Climate inferences from Phytoliths and Pollen from Lagoa do Macuco, North Coast of Esp?rito Santo State (Brazil). Quaternary and Environmental Geosciences, 6:41-50, 2015. CALEGARI, M.R.; MADELLA, M.; VIDAL-TORRADO, P.; OTERO, X.L.; MACIAS, F.; OSTERRIETH, M. Opal phytolith extraction in oxisols. Quaternary International, 287, 56-62, 2013a. CALEGARI, M.R.; MADELLA, M.; VIDAL-TORRADO, P.; PESSENDA, L.C.R.; MARQUES, F.A. Combining phytoliths and soil organic matter in Holocene palaeoenvironmental studies of tropical soils: the example of an oxisol in Brazil. Quaternary International, 287:47-55, 2013b. CALEGARI, S. S., PEIFER, D., NEVES, M. A., DE ANDRADE CAXITO, F. Post-Miocene topographic rejuvenation in an elevated passive continental margin not characterized by a sharp escarpment (northern end of the Mantiqueira Range, Brazil). Geomorphology, 393, 107946, 2021. CAMPBELL, C.A.; PAUL, E.A.; RENNIE, D.A.; McCALLUM, R.J. Applicability of the carbon dating method of analysis to soil humus studies. Soil Science, 104:217-224, 1967. 64 CAMPOS, J.R.R., SILVA, A.C., NANNI, M.R., DOS SANTOS, M., VIDAL-TORRADO, P. Influence of the structural framework on peat bog distribution in the tropical highlands of Minas Gerais, Brazil. Catena 156, 228?236. 2017 CAMPOS, J.R.R., SILVA, A.C., SLATER, L., NANNI, M.R., VIDAL-TORRADO, P. Stratigraphic control and chronology of peat bog deposition in the Serra do Espinha?o Meridional, Brazil. Catena 143, 167?173, 2016. CAMPOS, J.R.R.; SILVA, A.C.; FERNANDES, J.S.C.; FERREIRA, M.M.; SILVA, D. V. Water retention in a peatland with organic matter in different decomposition stages. Revista Brasileira de Ci?ncia do Solo, 35:1217-1227, 2011. CAMPOS, J.R.R.; SILVA, A.C.; VASCONCELLOS, L.L.; SILVA, D.V.; ROMAO, R.V.; SILVA, E.B.; GRAZZIOTTI, P.H. Pedochronology and development of peat bog in the environmental protection area pau-de-fruta - Diamantina, Brazil. Revista Brasileira de Ci?ncia do Solo, 34:1965-1975, 2010. CANELLAS, L.P.; SANTOS, G.A.; AAMARAL-SOBRINHO; N.M.B. Rea??es da mat?ria org?nica. IN: SANTOS, G.A.; CAMARGO, F.A.O. (Eds.), Fundamentos da mat?ria org?nica do solo: ecossistemas tropicais e subtropicais. G?nesis, Porto Alegre, Rio Grande do Sul. p. 69- 90, 1999. CASTRO, D.F.; ROSSETTI, D.F.; COHEN, M.C.L.; PESSENDA, L.C.R.; LORENTE, F.L. The growth of the Doce River Delta in northeastern Brazil indicated by sedimentary facies and diatoms. Diatom Research, 28:455-466, 2013. CATT, J. A. Paleopedology manual. Quaternary International, 6:1-95, 1990. CHARMAN, D. Peatlands and Environmental Change. Chichester: John Wiley Sons, Ltd. P. 320 p. 2002. CHESWORTH, W. Encyclopedia of soil science, Encyclopedia of earth sciences series. Dordrecht, The Netherlands Springer XXVI. 902 p. 2008. CHESWORTH, W., CORTIZAS, A. M., GARC?A-RODEJA, E. The redox?pH approach to the geochemistry of the Earth's land surface, with application to peatlands. Developments in Earth surface processes, 9, 175-195, 2006. CHUENG, K. F., COE, H. H. G., AUGUSTIN, C. H. R. R., MACARIO, K. D., RICARDO, S. D. F., VASCONCELOS, A. M. C. Landscape paleodynamics in siliciclastic domains with the use of phytoliths, sponge spicules and carbon isotopes: The case of southern Espinha?o Mountain Range, Minas Gerais, Brazil. Journal of South American Earth Sciences, 95, 102232, 2019. CHURCHILL, S.P.; BALSLEV, H.; FORERO, E.; LUTEYN, J.L. (Eds.), 1995. Biodiversity and Conserva- tion of Neotropical Montane Forests. The New York Botanical Garden, Bronx, New York. 550 p., 1995. COE H.H.G. Fit?litos como indicadores de mudan?as na vegeta??o xerom?rfica da regi?o de B?zios/Cabo frio, RJ, durante o Quatern?rio. 340p. Tese (Doutorado em Geologia e Geof?sica Marinha). Universidade Federal Fluminense, Niter?i, 2009. 65 COELHO, R.M.; ROSSI, M.; MATTOS, I.F.A. Solos da Mata Atl?ntica. In: CURI et al. (Ed). Pedologia: solos dos Biomas Brasileiros. 1a ed. Vi?osa, MG: Sociedade Brasileira de Ci?ncia do Solo, 2017. 261-302 p. CONANT, R. T., RYAN, M. G., ?GREN, G. I., BIRGE, H. E., DAVIDSON, E. A., ELIASSON, P. E., BRADFORD, M. A. Temperature and soil organic matter decomposition rates?synthesis of current knowledge and a way forward. Global change biology, 17(11), 3392- 3404, 2011. COSTA, C. R., HOR?K?TERRA, I., COE, H. H. G., CHUENG, K. F., MACHADO, D. O. B. F., DE CAMARGO, P. B., SILVA, A. C. Multi-proxy analysis of a Holocene records from a high-altitude tropical peatland in the Serra do Espinha?o Meridional, Brazil. Journal of South American Earth Sciences, 116, 103795, 2022. DE OLIVEIRA, P.E. A palynological record of Late Quaternary vegetational and climatic change in southeastern Brazil. 244p. Tese. The Ohio State University Columbus, Ohio. 1992. DELHON, A.A.; BERGER, J.F.; THI?BAULT, S.; BROCHIER, J.L.; MEUNIER, J.D. Phytolith assemblages as a promising tool for reconstructing Mediterranean Holocene vegetation, Quaternary Research, 59:48-60, 2003. DELHON, C. Phytolith and pedoanthracology analysis of ?off-site? Holocene sequences from Mondragon (Middle Rhone Valley, south of France). In: ZURRO, D. MADELLA, M. (Eds.), Recent Studies in Phytolith Analysis, Oxbow Books, Plants People and Places, p. 175-188, 2007. D?MIG, A., SCHAD, P., KOHOK, M., BEYERLEIN, P., SCHWIMMER, W., K?GEL- KNABNER, I. A mosaic of nonallophanic Andosols, Umbrisols and Cambisols on rhyodacite in the southern Brazilian highlands. Geoderma, 145(1-2), 158-173, 2008a. D?MIG, A., SCHAD, P., RUMPEL, C., DIGNAC, M. F., K?GEL-KNABNER, I. Araucaria forest expansion on grassland in the southern Brazilian highlands as revealed by 14C and ?13C studies. Geoderma, 145(1-2), 143-157, 2008b. EBELING, A.G.; ANJOS, L.H.C.; P?REZ, D.V.; PEREIRA, M.G.; VALLADARES, G.S. Rela??o entre acidez e outros atributos qu?micos em solos com teores elevados de mat?ria org?nica. Bragantia, 67:261-271, 2008. EBELING, A.G.; ANJOS, L.H.C; P?REZ, D.V.; PEREIRA, M.G.; GOMES, F.W.F. Atributos qu?micos, carbono org?nico e susbt?ncias h?micas em Organossolos H?plicos de v?rias regi?es do Brasil. Revista Brasileira de Ci?ncia do Solo, 35:325-336, 2011. EMBRAPA, Empresa Brasileira de Pesquisa Agropecu?ria. Sistema Brasileiro de Classifica??o de Solos. Bras?lia, DF: Embrapa Produ??o de Informa??o; Rio de Janeiro: Embrapa Solos, 412 p. 1999. ERLANK, A.J.; SMITH, H.S.; MARCHANT, J.W.; CARDOSO, M.P.; AHRENS, L.H. Zirconium. In: WEDEPOHL, K.H. (Ed.), Handbook of Geochemistry. Springer-Verlag, Berlim, p. 102-143, 1978. FANNING, D.S.; FANNING, M.C.B. Soil Morphology, Genesis, and Classification. New York, John Wiley, p. 544, 1989. 66 FARQUHAR, G.D.; EHLERINGER, J.R.; HUBICK, K.T. Carbon isotope discrimination and photosynthesis. Annual Review of Plant Physiology and Plant Molecular Biology, Palo Alto, 40:503-537, 1989. FONTANA, A.; SOARES, P.F.; ANJOS, L.H.C.; VALLADARES, G.S. Solos com altos teores de mat?ria org?nica. In: TEIXEIRA, P. C.; DONAGEMMA, G. K.; FONTANA, A.; TEIXEIRA, W. G. (Eds.), Manual de m?todos de an?lise de solo. Bras?lia: Embrapa, p. 426- 437, 2017. FRANCHI, J. G., S?GOLO, J. B., & MOTTA, J. F. M. Diagn?tico das turfas no Brasil: hist?rico da utiliza??o, classifica??o, geologia e dados econ?micos. Revista Brasileira de Geoci?ncias, 36(1), 179-190, 2006. GIBBS, H. K., A. S. RUESCH, F. ACHARD, M. K. CLAYTON, P. HOLMGREN, N. RAMANKUTTY, AND J. A. FOLEY. Tropical forests were the primary sources of new agricultural land in the 1980s and 1990s. Proc. Natl Acad. Sci. USA 107: 16732?16737, 2010. GON?ALVES, T. S. origem e evolu??o fitogeogr?fica dos cap?es de mata associados aos ecossistemas de turfeiras da Serra do Espinha?o Meridional ? MG. Tese. Programa de P?s- Gradua??o em Produ??o Vegetal. UFVJM, 274 p. 2021. GOUVEIA, S.E.M.; PESSENDA, L.C.R.; ARAVENA, R.; BOULET, R.; SCHEEL-YBERT, R.; BENDASSOLI, J.A.; RIBEIRO, A.S.; FREITAS, H.A. Carbon isotopes in charcoal and soils in studies of paleovegetation and climate changes during the late Pleistocene and the Holocene in the southeast and centerwest regions of Brazil. Global Planetary Change, 33: 95- 106, 1999. GRIMM, E.C. CONISS: A Fortran 77 program for stratigraphically constrained cluster analysis by the method of the incremental sum of squares. Computers Geosciences,13:13-35, 1987. HALLETT, R.B.; KYLE, P.R. XRF and INAA determinations of major and trace elements in geological survey of Japan igneous and sedimentary rock standards. Geostandards Newsletter 17, 127?133, 1993. HART, G.; LEONARD, R.E.; R.S. PIERCE. Leaf fall, humus depth, and soil frost in a northern hardwood forest. US Forest Service Research, Note NE-131. 12, 1962. HAYWARD, D.M.; PARRY, D.W. Electron-probe microanalysis studies of silica deposition in barley (Hordeum sativum L.). Annual Botany, 37:579-591, 1973. HEILBRON M, PEDROSA-SOARES AC, CAMPOS NETO MC, TROUW RAJ, JANASI VA Prov?ncia Mantiqueira. In: Mantesso-Neto et al. (eds) Geologia do Continente Sul-Americano. Evolu??o da obra de Fernando Fl?vio Marques de Almeida, Becca, S?o Paulo, pp 203?234, 2004. HEMPEL, J.; MICHELI, E.; OWENS, P.; MCBRATNEY, A. Universal Soil Classification System Report from the International Union of Soil Sciences Working Group. Soil Horizons, 54(2):0-13, 2013. HOR?K-TERRA, I.; CORTIZAS, A.M.; SILVA, A.C.; CAMARGO, P.B.; VIDAL- TORRADO, P. Characterization of properties and main processes related to the genesis and 67 evolution of tropical mountain mires from Serra do Espinha?o Meridional, Minas Gerais, Brazil. Geoderma, 234:183-197, 2014. HOR?K-TERRA, I.; MART?NEZ-CORTIZAS, A.; LUZ, C.F.P.; RIVAS-L?PEZ, P.; SILVA, A.C.; VIDAL-TORRADO, P. Holocene climate change in central-eastern Brazil reconstructed using pollen and geochemical records of Pau de Fruta mire (Serra do Espinha?o Meridional, Minas Gerais). Palaeogeography, Palaeoclimatology, Palaeoecology, 437, 117?131, 2015. HOR?K-TERRA, I.; VIDAL-TORRADO, P.; SILVA, A. C.; PESSENDA, L. C. R. Pedological and isotopic relations of a highland tropical peatland, Mountain Range of the Southern Espinha?o (Brazil). Revista Brasileira de Ci?ncia do Solo, 35:41-52, 2011. IBGE (Instituto Brasileiro de Geografia e Estat?stica). 1983. Folhas SF. 23/24. Rio de Janeiro/Vit?ria: geologia, geomorfologia, pedologia, vegeta??o e uso potencial da terra. Projeto Radambrasil, Rio de Janeiro. IBRAHIM, M.A.; LAL, R. Soil Carbon and Silicon Pools across a Drained Catena in Central Ohio, USA. Soil Horizons, 55(5):12-21, 2014a. IBRAHIM, M.A.; LAL, R. Soil carbon and silicon pools across an un-drained toposequence in central Ohio. Catena, 120, 57?63, 2014b. IUSS WORKING GROUP WRB. World Reference Base for Soil Resources 2014, update 2015. International soil classification system for naming soils and creating legends for soil maps. Rome: FAO, 192 p. 2015. JACKSON, R.B.; LAJTHA, K.; CROW, S.E.; HUGELIUS, G.; KRAMER, M.G.; PI?EIRO, G. The ecology of soil carbon: pools, vulnerabilities, and biotic and abiotic controls. Annual Review of Ecology, Evolution, and Systematics, 48, 419-45, 2017. JANZEN, H. Henry. The soil remembers. Soil Science Society of America Journal, v. 80, n. 6, p. 1429-1432, 2016. JENNY, H. Factors of Soil Formation: A system of quantitative pedology. McGraw-Hill, New York. p.144, 1941. JOLY, C. A., METZGER, J. P., TABARELLI, M. Experiences from the B razilian A tlantic F orest: ecological findings and conservation initiatives. New phytologist, 204(3), 459-473, 2014. JOOSTEN, H., TAPIO-BISTR?M, M. L., TOL, S. Peatlands: guidance for climate change mitigation through conservation, rehabilitation and sustainable use. Rome: Food and Agriculture Organization of the United Nations. 2012. JOOSTEN, H.; CLARKE, D. Wise use of mires and peatlands -Background and principles including a framework for decision-making. International Mire Conservation Group and International Peat Society. Saarij?rvi: International Mire Conservation Group and International Peat Society. 304 p. 2002. JUGGINS, S. C2 Version 1.5 User Guide. Software for Ecological and Palaeoecological Data Analysis and Visualisation. Newcastle University, Newcastle upon Tyne, UK, p. 73, 2007. 68 KAMPF, N.; CURI, N. Forma??o e evolu??o do solo (Pedog?nese). In: KER, J.C.; CURI N.; SCHAEFER, C.E.G.R.; VIDAL-TORRADO, P. (Eds.), Pedologia: Fundamentos. Vi?osa: Sociedade Brasileira de Ci?ncia do Solo, p. 207-302, 2012. KIRCHNER, A., NEHREN, U., BEHLING, H., HEINRICH, J. Mid-and late Holocene fluvial dynamics in the tropical Guapi-Macacu catchment, Southeast Brazil: the role of climate change and human impact. Palaeogeography, Palaeoclimatology, Palaeoecology, 426, 308-318, 2015. K?CHY, M.; HIEDERER, R.; FREIBAUER, A. Global distribution of soil organic carbon? part 1: Masses and frequency distributions of SOC stocks for the tropics, permafrost regions, wetlands, and the world. Soil,1,351-65, 2015. KOLKA, RANDALL K.; RABENHORST, MARTIN C.; SWANSON, DAVID. 2011. Histosols. In: Huang, P.M.; Li, Y.; Sumner, M.E., eds. Handbook of soil sciences properties and processes, 2nd edition. Boca Raton, FL: CRC Press: 33.8-33.39. LAL, R. 2013. Soil carbon management and climate change. Carbon Management, 4(4): 439? 462. LAL, R.; GRIFIN, M.; APT. J.; LAVE, L.; MORGAN, M.G. Managing soil carbon. Science; 304-393, 2004. LEDRU, M. P., MONTADE, V., BLANCHARD, G., H?LY, C. Long?term spatial changes in the distribution of the Brazilian Atlantic Forest. Biotropica, 48(2), 159-169, 2016. LEDRU, M. P., MOURGUIART, P., RICCOMINI, C. Related changes in biodiversity, insolation and climate in the Atlantic rainforest since the last interglacial. Palaeogeography, Palaeoclimatology, Palaeoecology, 271(1-2), 140-152, 2009. LEDRU, M. P., ROUSSEAU, D. D., CRUZ, F. W., RICCOMINI, C., KARMANN, I., MARTIN, L. Paleoclimate changes during the last 100,000 yr from a record in the Brazilian Atlantic rainforest region and interhemispheric comparison. Quaternary Research, 64(3), 444- 450, 2005. LEDRU, M.P. 1993. Late Quaternary environmental and climatic changes in Central Brazil. Quaternary Research, 39:90-98, 1993. LEDRU, M.P.; SALGADO-LABOURIAU, M.L.; LORSCHEITTER, M.L. Vegetation dynamics in southern and central Brazil during the last 10,000 yr B.P. Journal Palaeobotany Palynology, 99:131-142, 1998. LEHMANN, J.; KLEBER, M. The contentious nature of soil organic matter. Nature, 528(7580):1-60, 2015. LEIFELD, J., MENICHETTI, L. The underappreciated potential of peatlands in global climate change mitigation strategies. Nature communications, 9(1), 1-7, 2018. LEIFELD, J., STEFFENS, M., GALEGO?SALA, A. Sensitivity of peatland carbon loss to organic matter quality. Geophysical Research Letters, 39(14), 2012. 69 LEIFELD, J., ZIMMERMANN, M., FUHRER, J., CONEN, F. Storage and turnover of carbon in grassland soils along an elevation gradient in the Swiss Alps. Global Change Biology, 15(3), 668-679, 2009. LOISEL, J., GALLEGO-SALA, A. V., AMESBURY, M. J., MAGNAN, G., ANSHARI, G., BEILMAN, D. W. WU, J. (2021). Expert assessment of future vulnerability of the global peatland carbon sink. Nature climate change, 11(1), 70-77, 2021. LU, H.Y.; LIU, K.B. Phytolith indicators of hurricane overwash and coastal environmental changes. Abstract of the 97th Annual Meeting of the Association of American Geographers, New York. 13p., 2001. LYNN, W. C.; MCKINZIE, W. E.; GROSSMAN, R. B. Field laboratory tests for characterization of Histosols. In: STELLY, M. (Ed.). Histosols: their characteristics, classification and use. Madison: Soil Science Society of America, p. 11-20. 1974. MACHADO, D. O. B. F., CHUENG, K. F., COE, H. H. G., SILVA, A. C., & COSTA, C. R. Paleoenvironmental reconstruction of the headwaters of the preto river, Minas Gerais state, Brazil, through siliceous bioindicators. Journal of South American Earth Sciences, 108, 103349, 2021. MADELLA, M., JONES, M.K., ECHLIN, P., POWERS-JONES, A., MOORE, M. Plant water availability and analytical microscopy of phytoliths: implications for ancient irrigation in arid zones. Quaternary International, 193(1-2):32-40, 2009. MADELLA, M.; ALEXANDRE, A.; BALL, T. International Code for Phytolith Nomenclature 1.0. Annals of Botany, Oxford, 96(2):253-260, 2005. MADELLA, M.; LANCELOTTI, C. Taphonomy and phytoliths: A user manual. Quaternary International, 275:76-83, 2012. MANTOVANI, L. E.; FRITZSONS, E.; PARANHOS FILHO, A. C.; MONTEIRO, C. da S. A evolu??o din?mica das savanas subtropicais sul americanas. Revista de Estudos Ambientais, v. 5, n.1, p. 42-55, 2003. MARQUES NETO, R., OLIVEIRA, T. A. D. Itatiaia Massif: morphogenesis of southeastern Brazilian highlands. In Landscapes and landforms of Brazil (pp. 299-308). Springer, 2015. MARTINELLI, G., BANDEIRA, J. Campos de Altitude. Index, Rio de Janeiro. 1989. MARTINI, I. P., MART?NEZ CORTIZAS, A., CHESWORTH, W. Peatlands: a concise guide to the volume. Developments in Earth Surface Processes, 9, 1-13, 2006. MEYERS, P. A preservation of elemental and isotopic source identification of sedimentary organic matter. Chemical Geology, 114:289-302, 1994. MILNE, G. Some suggested units of classification and mapping particularly for East African soils. Londres, Soil Research, 4(2):183-98, 1934. MILNES, A.R.; FITZPATRICK, R.W. Titanium and zirconium minerals. In: DIXON, J.B., WEED, S.B. (Eds.), Minerals in Soil Environment, 2 ed. Soil Science Society America, Madison, WI, p. 1131-1205, 1989. 70 MINASNY, B.; BERGLUND, ?.; CONNOLLY, H. C.; VRIES, F.; GIMONA, A.; KEMPEN, B.; KIDD, D.; LILJA, H.; MALONE, B.; McBRATNEY, A. Digital mapping of peatlands - a critical review. Earth Science Reviews, 196, 102-178, 2019. MITCHELL, P. B., HUMPHREYS, G. S. Litter dams and microterraces formed on hillslopes subject to rainwash in the Sydney Basin, Australia. Geoderma, 39(4), 331-357, 1987. MODENESI, M. C. 1983: Weathering and morphogenesis in a tropical plateau. Catena 10, 237?251. MODENESI, M. C. 1992: Dep?sitos de vertente e evolu??o quatern?ria do planalto do Itatiaia ? RJ. Revista do Instituto Geol?gico 13, 31?46. MODENESI, M. C. 2000: Hillslope deposits and the Quaternary evolution of the altos campos ? Serra da Mantiqueira, from Campos do Jord?o to the Itatiaia Massif. Revista Brasileira de Geoci?ncias 30, 508?514. MODENESI, M. C. TOLEDO, M. C. M. 1996: Weathering and the formation of hillslope deposits in the tropical highlands of Itatiaia ? Southeastern Brazil. Catena 27, 81?103. MODENESI, M. C., HIRUMA, S. T. RICCOMINI, C. 2002: Morphotectonics of a high plateau on the northwestern flank of the Continental Rift of southeastern Brazil. Geomorphology 43, 257?271. MODENESI, M. C., TOLEDO, M. C. M., HIRUMA, S. T., TAIOLI, F. SHIMADA, H. 2011: Deep weathering and landscape evolution in a tropical plateau. Catena 85, 221?230. MOURA, J.R.S.; PEIXOTO, M. N. O.; SILVA, T. M. Geometria do relevo e estratigrafia do quatern?rio como base ? tipologia de cabeceiras de drenagem em anfiteatro ? m?dio vale do rio Para?ba do Sul. Revista Brasileira de Geoci?ncias. v.21, n. 3, p.255-265. 1991. MULHOLLAND, S.C. Phytoliths shape frequencies in North Dakota grasses: a comparison to general patterns. Journal of Archaeological Science, 16:489-511, 1989. MULHOLLAND, S.C.; RAPP, JUNIOR. G. Phytolith Systematics. Emerging Issues, Advances in Archeological and Museum Science. Plenum Press, Berlim. p.350, 1992. MYERS, N.; MITTERMEIER, R.A.; MITTERMEIER, C.G.; DA FONSECA, G.A., KENT, J. Biodiversity hotspots for conservation priorities. Nature 403, 853?858, 2000. NEUMANN, K.; STR?MBERG, C.A.E.; BALL, T.; ALBERT, R.M.; VRYDAGHS, L.; CUMMINGS, L.S. International Code for Phytolith Nomenclature (ICPN) 2.0. Annals of Botany, 124(2), 189-199, 2019. OLIVEIRA, J.B. Solos do Estado de S?o Paulo: Descri??o das classes registradas no mapa pedol?gico. Campinas, Instituto Agron?mico, 1999. 108p. OLIVEIRA?FILHO, A. T., FONTES, M. A. L. Patterns of floristic differentiation among Atlantic Forests in Southeastern Brazil and the influence of climate 1. Biotropica, 32, 793-810, 2000. 71 OSTERRIETH, M.; MADELLA, M.; ZURRO, D.; ALVAREZ, M. F. Taphonomical aspects of silica phytoliths in the loess sediments of the Argentinean Pampas. Quaternary International, 193:70-79, 2009. PAGE, S. E., RIELEY, J. O., BANKS, C. J. Global and regional importance of the tropical peatland carbon pool. Global change biology, 17(2), 798-818, 2011. PEARSALL, D.M. Paleoethnobotany: A Handbo
dc.rights.driver.fl_str_mv	info:eu-repo/semantics/openAccess
eu_rights_str_mv	openAccess
dc.format.none.fl_str_mv	application/pdf
dc.publisher.none.fl_str_mv	Universidade Federal Rural do Rio de Janeiro
dc.publisher.program.fl_str_mv	Programa de P?s-Gradua??o em Agronomia - Ci?ncia do Solo
dc.publisher.initials.fl_str_mv	UFRRJ
dc.publisher.country.fl_str_mv	Brasil
dc.publisher.department.fl_str_mv	Instituto de Agronomia
publisher.none.fl_str_mv	Universidade Federal Rural do Rio de Janeiro
dc.source.none.fl_str_mv	reponame:Biblioteca Digital de Teses e Dissertações da UFRRJ instname:Universidade Federal Rural do Rio de Janeiro (UFRRJ) instacron:UFRRJ
instname_str	Universidade Federal Rural do Rio de Janeiro (UFRRJ)
instacron_str	UFRRJ
institution	UFRRJ
reponame_str	Biblioteca Digital de Teses e Dissertações da UFRRJ
collection	Biblioteca Digital de Teses e Dissertações da UFRRJ
bitstream.url.fl_str_mv	http://localhost:8080/tede/bitstream/jspui/6908/4/2022+-+Eduardo+Carvalho+da+Silva+Neto.Pdf.jpg http://localhost:8080/tede/bitstream/jspui/6908/3/2022+-+Eduardo+Carvalho+da+Silva+Neto.Pdf.txt http://localhost:8080/tede/bitstream/jspui/6908/2/2022+-+Eduardo+Carvalho+da+Silva+Neto.Pdf http://localhost:8080/tede/bitstream/jspui/6908/1/license.txt
bitstream.checksum.fl_str_mv	fcd0ad0f71b38b35fa67648be605257a 842d7ad8185632341f18b67a34124b18 191751093b0414b2fe51c4c242a94cd5 7b5ba3d2445355f386edab96125d42b7
bitstream.checksumAlgorithm.fl_str_mv	MD5 MD5 MD5 MD5
repository.name.fl_str_mv	Biblioteca Digital de Teses e Dissertações da UFRRJ - Universidade Federal Rural do Rio de Janeiro (UFRRJ)
repository.mail.fl_str_mv	bibliot@ufrrj.br\|\|bibliot@ufrrj.br
_version_	1800313579964989440

Solos org?nicos em ambientes altomontanos no Sudeste do Brasil: forma??o, classifica??o e rela??es com a hist?ria da vegeta??o

Registros relacionados