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Previous issue date: 2010-08-27 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico, CNPq, Brasil. / The Histosols have a small geographic extension in the Brazilian territory; however, they are
intensively used in family agriculture systems and have a great environmental importance.
The drainage of Histosols leads to the subsidence process and other changes in the soil
organic matter (SOM), with consequences in their characteristics and potential. The nature of
humic substances (HSs) is determinant in the alterations of the Histosols. The characterization
of the HSs allows the understanding of processes of SOM transformation in the Histosols, and
their environmental impact. The objectives of this study were: to characterize Histosols from
different environments and land usage intensity; and to evaluate alterations in humic fractions
of SOM, by using elemental composition analyses, spectroscopic, thermal degradation, and
nuclear magnetic resonance (NMR) techniques. The study was developed in eight Histosols,
from the States of Rio de Janeiro, Maranh?o and Paran?, in Brazil. Their chemical properties:
total organic carbon (TOC), pH, sum of bases (SB), H+, Al3+, cation exchange capacity
(CEC), and V%; and physical properties: bulk density (BD), MR, MM, and OMD, were
evaluated. Also, the quantitative fractionating of the HSs: fulvic acid (C-FAF), humic acid (CHAF),
and humin (C-HUM), and C-FAH/C-FAF relations, C-EA/C-HUM (C-EA = C-FAF +
C-FAH). The humic acids were extracted using the method of the International Humic
Substances Society (IHSS), and evaluated by different techniques. The chemical attributes
varied with the intensity of burning and agricultural usage. Though, in general, the Histosols
presented low natural fertility, and it was related to the humic acid fraction (high ratio CFAH/
C-FAF). Amongst the SOM fractions the HUM predominated, with an average value of
59.98% of total carbon determined by the CHN; followed by the FAH. The C-FAH/C-FAF
ratio diminished with the increase of agriculture usage intensity. The results of the TGI
(Thermal Gravimetric Index) suggested strong resistance to thermal degradation of majority
of the organic horizons. The elemental composition (%C, %H, %N, %O) of the humic acids
showed large amplitude of variation between the horizons, but no pattern was observed
between the Histosols. The increase of carbon content, the high values of TGI, and the
reduction of oxygen content in the humic acids (HA) might explain the high thermal
decomposition resistance found in the HA extracted form the Histosols. A correlation between
H/C and TGI was observed, where the lower values of H/C were related to the highest
resistance of the humic acids to thermal degradation. The spectroscopic and NMR techniques
allowed characterizing compounds and groups of substances in the HA, showing the great
potential of these tools in studies of HS from Histosols. The multivariate methods allowed a
combined analysis of techniques applied in the study, showing a group of labile and
recalcitrance materials in the soils. The results, in general, indicated the fragility of the
Histosols areas, in terms of agricultural management and the formation environment. Their
importance for the environment should be priority in comparison to agricultural usage, mainly
due to their relevant part in the aquifers preservation. / Os Organossolos t?m pequena representatividade geogr?fica no Brasil, entretanto, s?o
utilizados intensamente em modelos de agricultura familiar e t?m grande import?ncia
ambiental. Por?m, a sua drenagem conduz ao processo de subsid?ncia e outras modifica??es
na mat?ria org?nica do solo (MOS), com implica??es nas caracter?sticas dos Organossolos e
em sua potencialidade. A natureza das subst?ncias h?micas (SHs) ? determinante nessas
altera??es nos Organossolos. A caracteriza??o das SHs permite a compreens?o dos processos
de transforma??o da MOS nos Organossolos e seu impacto no ambiente. Os objetivos deste
trabalho foram: caracterizar Organossolos em v?rios ambientes e intensidade de uso agr?cola e
avaliar altera??es nas fra??es humificadas da MO, atrav?s de t?cnicas de an?lise da
composi??o elementar, espectrosc?picas, termodegradativas e de resson?ncia magn?tica
nuclear (RMN). Foram estudados oito perfis de solos, nos Estados do Rio de Janeiro,
Maranh?o e Paran?. Foram avaliadas as suas propriedades qu?micas: carbono org?nico total
(COT), pH, soma de bases (SB), H+, Al3+, CTC e V%; e propriedades f?sicas: densidade do
solo (Ds), RM, MM e DMO. Al?m do fracionamento quantitativo das SHs: ?cidos f?lvicos
(C-FAF), ?cidos h?micos (C-FAH) e humina (C-HUM), e rela??es C-FAH/C-FAF, C-EA/CHUM
(C-EA = C-FAF + C-FAH). Os ?cidos h?micos (AH) foram extra?dos pelo m?todo da
Sociedade Internacional de Subst?ncias H?micas (IHSS) e avaliados por distintas t?cnicas. Os
atributos qu?micos variaram com o efeito das queimadas e da intensidade de uso agr?cola;
por?m, em geral, os Organossolos apresentaram baixa fertilidade natural, a qual, em geral,
esteve relacionada ? fra??o ?cido h?mico (maior raz?o C-FAH/C-FAF). Dentre as fra??es da
MO, a HUM predominou, com valor m?dio de 59,98% do carbono total determinado pelo
CHN, seguida da FAH. A rela??o C-FAH/C-FAF diminuiu a medida que o uso agr?cola ?
intensificado. Os dados do ITG (?ndice Termogravim?trico) sugeriram forte resist?ncia ?
termodegrada??o para a maioria dos horizontes org?nicos. A composi??o elementar (%C,
%H, %N, %O) dos ?cidos h?micos apresentou grande amplitude entre os horizontes, por?m
sem padr?o diferenciado entre os Organossolos. O aumento do conte?do de carbono, os altos
valores de ITG e a diminui??o do conte?do de oxig?nio nos ?cidos h?micos podem explicar a
maior resist?ncia a termodecomposi??o dos AH extra?dos dos Organossolos. Foi observada
correla??o entre a raz?o H/C e o ITG, onde os menores valores de H/C estiveram relacionados
a maior resist?ncia dos AH ? termodegrada??o. As t?cnicas espectrosc?picas e de RMN
permitiram caracterizar compostos e grupamentos nos AH, demonstrando o potencial dessas
ferramentas nos estudos de SHs provenientes de Organossolos. Os m?todos de an?lise
multivariada permitiram uma avalia??o conjunta das t?cnicas utilizadas, mostrando um grupo
de amostras l?beis e recalcitrantes nos solos. Os resultados encontrados, em geral, indicam a
fragilidade das ?reas de Organossolos, em fun??o do manejo para agricultura e do seu
ambiente de forma??o. A sua import?ncia em termos ambientais deveria ser priorizada em
rela??o ao uso agr?cola, principalmente pelo papel relevante na preserva??o de aqu?feros.
| Identifer | oai:union.ndltd.org:IBICT/oai:localhost:jspui/1838 |
| Date | 27 August 2010 |
| Creators | Ebeling, Adierson Gilvani |
| Contributors | Anjos, L?cia Helena Cunha dos, Perez, Daniel Vidal, Pereira, Marcos Gervasio, Valladares, Gustavo Souza, Giarola, Neyde Fabiola Balarezo, Campos, David Vilas Boas de |
| Publisher | Universidade Federal Rural do Rio de Janeiro, Programa de P?s-Gradua??o em Agronomia e Ci?ncia do Solo, UFRRJ, Brasil, Instituto de Agronomia |
| Source Sets | IBICT Brazilian ETDs |
| Language | Portuguese |
| Detected Language | English |
| Type | info:eu-repo/semantics/publishedVersion, info:eu-repo/semantics/doctoralThesis |
| Format | application/pdf |
| Source | reponame:Biblioteca Digital de Teses e Dissertações da UFRRJ, instname:Universidade Federal Rural do Rio de Janeiro, instacron:UFRRJ |
| Rights | info:eu-repo/semantics/openAccess |
| Relation | ADHIKARI, M.; CHAKRABARTI, G. Contribution of natural and microbial humic acids to water repellency in soil. J. Ind. Soc. Sci., v.24, p.217-219, 1976. AIKEN, G. R.; MCKNIGHT, D. M.; WERSHAW, R. L.; MACCARTHY, P. An introduction to humic substances in soil, sediment, and water. In: AIKEN, G. R.; McKNIGHT, R. L.; WERSHAW, P. J.; MacCARTHY, P. J. (Ed.). Humic substances in soil, sediment and water. John Wiley & Sons-Interscience New York. p.1-9. 1985. 692p. AJWA, H. A.; TABATABAI, M. A. Decomposition of different organic materials in soils. Biology and Fertility of Soils. Berlin, v.18, p.175-182, 1994. ALM, J. CO2 and CH4 fluxes and carbon balance in the atmospheric interaction of boreal Peatlands. - University of Joensuu, Publications in Science, v.44, p.1-34, 1997. ALMENDROS, G.; POLO, A.; VIZCAYNO, C. Application of thermal analysis to the study of several Spanish peats. Journal Thermal Analysis. Wiley, Chicheste. ROYAUME-UNI. v.24, n.2, p.175-182, 1982. ALPERN, B. Combust?veis f?sseis s?lidos. V.4, tradu??o de Santo & Barradas. CPRM. Rio de Janeiro. 1981. 85p. AMBAK, K.; MELLING, L. Management practices for sustainable cultivation of crop plants on tropical peatland. Proceedings of the International Symposium on Tropical Peatlands Bogor, Indonesia, Hokkaido University & Indonesian Institute of Sciences, p.119-134, 2000. ANDERSON, J. A. R. The tropical peat swamps of western Malaysia. In: Gore, A.J.P. (Ed.), Mires: swamp, bog, fen and moor. B. Regional studies. Elsevier, Amsterdam, p.181?199. 1983 ANDRIESSE, J. Uso de solos org?nicos em condi??es tropicais e subtropicais aliado ?s possibilidades brasileiras. In: ANDRIESSE, J. SIMP?SIO NACIONAL DE SOLOS ORG?NICOS, 1984. Curitiba, Anais. Curitiba: MA / Prov?rzeas Nacional, Embrater, SEAG - Paran? e Acarpa / Emater ? Paran?. v.1. 1984. p.11-34 ANDRIESSE, J. P. Nature and management of tropical peat soils. Soil Bulletins n.59, FAO. Rome. 1988. 178p. ARMENTANO, T. V.; MENGES, E.S. Patterns of change in the carbon balance of organic soil-wetlands of the temperate zone. Journal of Ecology, v.74, p.755-774, 1986 ARMENTANO, T. V. Drainage of organic soils as a factor in the world carbon cycle. Bio Science, v.30, p.825-830, 1980 BAES, A. U.; BLOOM, P. R. Diffuse reflectance and transmission Fourier transformation infrared (DRIFT) spectroscopy of humic and fulvic acids. Soil Science Society of America Journal. Madison. v.53, p.695-700, 1989. BALDOCK, J. A.; OADES, J. M.; VASSAL, A. M.; WILSON, M. A. Solid-state CP/MAS 13C NMR analysis of bacterial and fungal cultures isolated from soil incubated with glucose. Australian Journal of Soil Resource, v. 28, p.213-225, 1990. BALDOCK, J. A.; OADES, J. M.; WATERS, A. G.; PENG, X.; VASSAL, A. M.; WILSON, M. A. Aspect of the chemical structure of soil organic material as revealed by solid-state 13C NMR spectroscopy. Biogeochemistry, v.16, p.1-42, 1992. BARANCIKOVA, G.; SENESI, N.; BRUNETTI, G. Chemical and spectroscopic characterization of humic acids isolated from different Slovak soil types. Geoderma, v.78, p.251-266, 1997. BARTON, D. H. R.; SCHNITZER, M. A new experimental approach to the humic acid problem. Nature, V.198, p.217-218, 1963. BELZILE, N.; JOLY, H. A.; LI, H. Characterization of humic substances extracted from Canadian lake sediments. Canadian Journal Spectroscopy, v.75, p.14-27, 1997. BENITES, V. M.; SCHAEFER, C. E. R. G.; MENDON?A, E. S.; MARTIN NETO, L. Caracteriza??o da mat?ria org?nica e micromorfologia de solos sob Campos de Altitude no Parque Estadual da Serra do Brigadeiro. Revista Brasileira de Ci?ncia do Solo, v.25, p.661- 674. 2001 BENITES, V. M. Caracteriza??o de solos e de subst?ncias h?micas em ?reas de vegeta??o rupestre de altitude. 2002. 83f. Tese (Doutorado em Solos e Nutri??o de Plantas)- Universidade Federal de Vi?osa, Vi?osa, 2002. BENITES, V. M. Caracteriza??o qu?mica e espectrosc?pica da mat?ria org?nica e suas rela??es com a g?nese de solos da Serra do Brigadeiro, Zona da Mata Mineira. 1998. 125f. Disserta??o (Mestrado em Solos e Nutri??o de Plantas), Universidade Federal de Vi?osa, Vi?osa - MG, 1998. BENITES, V. M.; KER, J. C.; MENDON?A, E. S. Fracionamento quantitativo de subst?ncias h?micas como auxiliar na identifica??o de diferentes solos da regi?o Sul do Brasil ? VI RCC. p.184-192, In: CURCIO, G. (Eds.).Guia de excurs?o de estudos de solos nos estados do Rio Grande do Sul, Santa Catarina e Paran?. EMBRAPA Florestas, Colombo, 2000 BENITES, V. M.; MADARI, B.; MACHADO, P. L. O. A. Extra??o e fracionamento quantitativo de subst?ncias h?micas do solo: um procedimento simplificado de baixo custo. Rio de Janeiro: Embrapa Solos, 2003. 7p. (Embrapa Solos. Comunicado T?cnico, n.16). BENITES, V. M.; MENDON?A, E. S.; SCHAEFER, C. E. G. R.; NOVOTNY, E. H.; REIS, E. L.; KER, J. C. Properties of black soil humic acids from high altitude rocky complexes in Brazil. Geoderma, v.127, p.104?113, 2005. BERGNER, K.; BOHLIN, E.; ALBANO, A. A compilation of botanical physical and chemical data of peat. Center for Peat Research. Technical Report. Umea, Su?cia. 1990. 123p. BLOMB?CK, K.; ECKERSTENB, H.; LEWANA, E.; ARONSSONA, H. Simulation of soil carbon and nitrogen dynamics during seven years in a catch crop experiment. Agricultural Systems. v.76, p.95?114, 2003. BLOOM, P. R.; LEENHEER, J. A. Vibrational, electronic, and high-energy spectroscopic methods on characterizing humic substances. In: HAYES, M.H.B. et al. (Eds.). Humic substances II. In search for the structure. Chicheste: John Wiley. p.409-446, 1989. BOELTER, D. H. Physical properties of peats as related to degree of decomposition. Soil Science Society of American Journal, Proceeding, v.33, p.606?609. 1969. BOND, R. D. Factors responsible for water repellence of soil. In: SIMPOSIUM ON WATER REPELLENT SOIL, Riverside, 1969. Proceedings. Riverside: University of California, 1969. p.259-264. BOND, R. D. Germination and yield of barley when grown in a water-repellence sand. Agronomy Journal, v.64, p.402-403, 1972. BOND, R. D. Water repellent soil sands. In: INTERNATIONAL CONGRESS OF SOILS SCIENCE, Adelaide. Transactions. Amsterdam, International Society of Soil Science, p.339- 347. 1968. BONIFACIO, E.; SANTONI, S.; CELI, L.; ZANINI, E. Spodosol Histosol evolution in the Krkonose National Park (CZ). Geoderma, v.131, p.237?250. 2006 BOTERO, W. G.; OLIVEIRA, L. C.; ROCHA, J. C.; ROSA, A. H.; SANTOS, A. Peat humic substances enriched with nutrients for agricultural applications: Competition between nutrients and non-essential metals present in tropical soils. Journal of Hazardous Materials, v.177, p.307?311, 2010 BRADY, N. C. Natureza e Propriedades dos Solos. 7. Eds. Rio de Janeiro: Freitas Bastos, 1989. 554p. BRADY, N. C.; WEIL, R. R. The nature and properties of Soils, 12th edition. Prentice-Hall, Upper Saddle River, NJ. 1999, 881p. BRAVARD, S.; RIGHI, D. Characterization of fulvic and humic acids from and Oxisol- Spodosol toposequence of Amazonia, Brazil. Geoderma, v.48, p151-162. 1991 BROWN, A.; MATHUR, S. P.; KUSHNER, D. J. An ombrotrophic bog as a methane reservoir. Global Biogeochemical Cycles. v.3, p.205-213, 1989. CAMARGO, O. A.; MONIZ A. C.; JORGE, J. A.; VALADARES, J. M. A. S. M?todos de an?lise Campinas. (Boletin T?cnico, 106) 94p. 1986. CAMERON, R. S.; THORNTON B. K.; SWIFT, R. S.; POSNER, A. M. Molecular weight and shape of humic acid from sedimentation and diffusion measurements on fractionated extracts. European Journal of Soil Science, Oxford. v.23, n.4, p.394-408, 1972. CAMPANELLA, L.; TOMASSETTI, M. Thermogravimetric and IR analysis of different extracts of humic substances. Thermochimica Acta, v.170, p.67-80, 1990 CANELLAS, L. P.; BERNER, P. G.; SILVA, S. G.; SILVA, M. B.; SANTOS, G. A. Fra??es da mat?ria org?nica em seis solos de uma toposseq??ncia no Estado do Rio de Janeiro. Pesquisa Agropecu?ria Brasileira, Bras?lia. v.35, p.133-143, 2000. CANELLAS, L. P.; MORAES, A. A.; RUMJANEK, V. M.; SANTOS, G. A. M?todos complementares. In SANTOS, G. A.; CAMARGO, F. A. O. Fundamentos da mat?ria org?nica do solo em ecossistemas tropicais e subtropicais. Genesis, Porto Alegre. 1999, p.413-439. CANELLAS, L. P.; SANTOS, G. A.; SOBRINHO, N. M. B. A. Rea??o da mat?ria org?nica. In SANTOS, G. A.; CAMARGO, F. A. O. Fundamentos da mat?ria org?nica do solo em ecossistemas tropicais e subtropicais. Genesis, Porto Alegre 1999, p.69-89. CANELLAS, L. P.; GURIDI, F.; VELLOSO, A. C. X.; SANTOS, G. A. Isolamento, purifica??o e m?todos qu?micos de an?lise de subst?ncias h?micas. In: CANELLAS, L. P.; SANTOS, G. A. (Eds.) Humosfera ? Tratado preliminar sobre a qu?mica das subst?ncias h?micas. Campos dos Goytacazes, UENF, 2005, 309p. CAPRIEL, P. Hydrophobicity of organic matter in arable soils: influence of management. European Journal of Soil Science.v.48, p.457-462. 1997 CAPRIEL, P.; BECK, T.; BORCHERT, H.; GRONHOLZ, J.; ZACHMANN, H. Hydrophobicity of the organic matter in arable soil. Soil Biology & Biochemistry, Oxford, v.27, p.1453-1458. 1995. CARTER, R. M. Soil sampling and methods of analysis. Canadian Society of Soil Science. Lewis Publishers. p.423-471, 1993. CASTILLO, M. S.; WRIGHT, A. L. Soil phosphorus pools for Histosols under sugarcane and pasture in the Everglades, USA. Geoderma, v.145, p.130?135, 2008 CHEFETZ, B.; HATCHER, P.; HADAR, Y.; CHEN, Y. Chemical and biological characterization of organic matter during composting of municipal solid waste. Journal of Environmental Quality, v.25, p.776?785, 1996. CHEN, J.; SENESI, N.; SCHNITZER, M. Information provided on humic substances by E4/E6 ratios. Soil Science Society of America Journal. Madison. v.41, p.352-358, 1977. CHILDERS, D. L.; DOREN, R. F.; JONES, R.; NOE, G. B.; RUGGE, M.; SCINTO, L. J. Decadal change in vegetation and soil phosphorus patterns across the Everglades landscape. Journal of Environmental Quality, v.32, p.344?362, 2003 CHOW, A. T.; TANJI, K. K; GAO, S.; DAHLGREN, R. A. Temperature, water content and wet?dry cycle effects on DOC production and carbon mineralization in agricultural peat soils. Soil Biology & Biochemistry, v.38, p.477?488, 2006 CIESLEWICZ, J.; NIEDZWIECKI, E.; PROTASOWICKI, M.; GONET, S. S. Humus properties of bottom sediments from the Szczecin Lagoon (North-West Poland). In: DROZD, J.; GONET, S.; SENESI, N.; WEBER, J. (Eds.). The role of humic substances in the ecosystems and in environmental protection. Proc. 8th Meeting Intern. Humic Subst. Soc., Wroclaw, Poland, 1996. IHSS Polish, Soc. Humic Substances, Wroclaw, Poland, 1997. CONCEI??O, M. Natureza do h?mus e caracteriza??o de solos com elevado teor de mat?ria org?nica da regi?o de Itagua? - Santa Cruz, RJ. 1989. 169f. Disserta??o (Mestrado em Agronomia)-Universidade Federal Rural do Rio de Janeiro, Itagua?, 1989. CONCEI??O, M.; MANZATTO, C. V.; ARA?JO W. S.; MARTIN NETO, L.; SAAB, S. C.; CUNHA, T. J. F.; FREIXO, A. A. Caracteriza??o de solos org?nicos do Estado do Rio de Janeiro, propriedades f?sicas e morfol?gicas como subs?dios ? classifica??o. Rio de Janeiro: Pesquisa Andamento - Embrapa Solos, n.4, 1999b, p.6. CONCEI??O, M.; ARA?JO, W. S.; CUNHA, T. J. F.; MARTIN NETO, L.; SAAB, S. C. Estudo comparativo de m?todos de determina??o do teor de mat?ria org?nica em solos org?nicos do Estado do Rio de Janeiro. Pesquisa Andamento ? Embrapa Solos. n.3, 1999a, p.5. COSCIONE, A. R.; ANDRADE, J. C. de; RAIJ, B. van. Revisiting titrations procedures for the determination of exchangeable acidity and exchangeable aluminum in soils. Communications in Soils Science and Plant Analysis, New York, v.29, p.973 ?982, 1998. COUTO, E. G.; RESENDE, M. Caracteriza??o da mat?ria org?nica de alguns solos org?nicos e gleizados do sudoeste da Bahia. Rev. Br?s. Ci. Solo, v.9, p.185-1991. 1985 COUTO, E. G. Caracteriza??o, g?nese e uso de solos utilizados pelos agricultores do alto vale do Rio Arrojado, Bahia. 1984. 119f. Disserta??o (Mestrado em Solos e Nutri??o de Plantas)- Universidade Federal de Vi?osa, Vi?osa, 1984. CUNHA, T. J. F. ?cidos h?micos de solos escuros da Amaz?nia (Terra preta de ?ndia). 2005. 138f. Tese (Doutorado) - Universidade Federal Rural do Rio de Janeiro, Serop?dica, 2005. CUNHA, T. J. F.; MADARI, B. E.; BENITES, V. M.; CANELAS, L. P.; NOVOTNY, E. H.; MOUTTA, R. O.; TROMPOWSKY, P.; SANTOS, G. A. Fracionamento qu?mico da mat?ria org?nica e caracter?sticas de ?cidos h?micos de solos com horizonte A antr?pico da Amaz?nia (Terra Preta). Acta Amazonica, v.37, p.91-98, 2007. D?AMORE, D. V.; LYNN, W. C. Classification of forested Histosols in Southeast Alaska. Soil Science Society of American Journal, v.66, p.554?562, 2002. DACHNOWSKI, A. Peat deposits and bog vegetation. Journal of Ecology, v.1, n.4, p.286- 292, 1913. DEBANO, L. F.; MANN, L. D.; HAMILTON, D. A. Translocation of hydrophobic substances intro soil by burning organic litter. Soil Science Society of American, Proceeding, v.34, p.130-133, 1970. DEBSKA, B. The effect of green manure on the properties of soil humic acids. In: DROZD, J.; GONET, S.; SENESI, N.; WEBER, J. (Eds.). The role of humic substances in the ecosystems and in environmental protection. Proc. 8th Meeting Intern. Humic Subst. Soc., Wroclaw, Poland, 1996. IHSS Polish, Soc. Humic Substances, Wroclaw, Poland, 1997. DEKKER, L.W.; RITSEMA, C.J. Wetting patterns and moisture variability in water repellent Dutch soils. Journal of Hydrology, v.231-232, p.148-164. 2000. DELL`ABATE, M. T.; BENEDETTI, A.; TRINCHERA, A.; DAZZI, C. Humic substances along the profile of two Typic Haploxerert. Geoderma, v.107, p.281-296, 2002. DEPORT, C.; LEM?E, L.; AMBLE`S, A. Comparison between humic substances from soil and peats using TMAH and TEAAc thermochemolysis. Organic Geochemistry, v.37, p.649? 664, 2006. DEVEREL, S. J.; ROJSTACZER, S. Subsidence of agricultural lands in the Sacramento San Joaquin Delta, California: role of aqueous and gaseous carbon fluxes. Water Resources Research. V.32 n.8, p.2359?2367. 1996. DICK, D. P.; MANGRICHB, A. S.; MENEZES, S. M. C.; PEREIRA B. F. Chemical and spectroscopical characterization of humic acids from two south Brazilian coals of different ranks. Journal of the Brazilian Chemical Society, v.13, p.177-182, 2002. DICK, P. D.; SANTOS, J. H. Z.; FERRANTI, E. M. Chemical characterization and infrared spectroscopy of soil organic matter from two Southern Brazilian soils. Revista Brasileira de Ci?ncia do Solo, Vi?osa, v.27, n.1, p.29-39, 2003. DIRKS, B. O. M.; HENSEN, A.; GOUDRIAAN, J. Effect of drainage on CO2 exchange patterns in an intensively managed peat pasture. Climate Research, v.14, p.57?63, 2000 DOLMAN, J. D.; BUOL, S. W. A study of organic soils (Histosols): in the tidewater region of North Carolina. North Carolina: North Carolina Agricultural Experimental Station, 1967. 47p. (Technical Bulletin, n.181) DRADJAD, M.; SOEKODARMODJO, S.; HIDAYAT, M. S.; NITISAPTO, M. Subsidence of peat soils the tidal swamplands of Barambai, south Kalimantan. Jurnal IImu Tanah dan Lingkungan. v.4, n.1, p32-40, 2003. DRIESSEN, P. Lecture notes on the major soils of the world. (Ed). Roma, It?lia: FAO, 2001. Dispon?vel em: <http://www.fao.org/DOCREP/003/Y1899E/Y1899E00.HTM>. Acesso em 10 set. 2006. (FAO. World Soil Resources Reports, 94). EBELING, A. G. Caracteriza??o anal?tica da acidez em Organossolos. 2006. 97f. Disserta??o (Mestrado em Agronomia ? Ci?ncia do Solo) Universidade Federal Rural Rio d Janeiro, Instituto de Agronomia - Departamento de Solos. Serop?dica RJ, 2006. EBELING, A. G.; ESPINDULA JUNIOR, A.; VALLADARES, G. S.; ANJOS, L. H. C.; PEREIRA, M. G. Propriedades qu?micas como indicadores ambientais em Organossolos do Estado do Rio de Janeiro. Revista Universidade Rural, S?rie Ci?ncias da Vida, Serop?dica, RJ, v.24, n.1, 2004. EBELING, A. G.; ANJOS, L. H. C.; PEREZ, 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, Campinas, v.67, n.2, p.261-266, 2008 EGGELSMAN, R. Peat consumption under influence of climate, soil condition, and utilization. In: Proceedings of the 5th International Peat Congress, International Peat Society, Poznan, Poland. v.1, p.233?247, 1976. EKMANN, E. Fractionation and characterization of extracts of peats and peat-forming plants. Technical Research Centre of Finland. Espoo, Finland, 28p. 1981. ELSASS, F.; OLIVIER, D. Infra red and electron spin resonance studies of clays representative of the sedimentary evolution of the basin of Autun. Clay Miner. v.13, p.299- 308, 1978. EMPRESA BRASILEIRA DE PESQUISA AGROPECU?RIA - EMBRAPA, Servi?o Nacional de Levantamento e Conserva??o de Solos (Rio de Janeiro, RJ). Sistema Brasileiro de Classifica??o de Solos: 3? Aproxima??o, Rio de Janeiro, 1988, 105p. EMPRESA BRASILEIRA DE PESQUISA AGROPECU?RIA - EMBRAPA. Centro Nacional de Pesquisa de Solos. Manual de m?todos de an?lises de solos. 2 ed. Rio de Janeiro: Embrapa Solos, 1997. 212p. EMPRESA BRASILEIRA DE PESQUISA AGROPECU?RIA - EMBRAPA. Centro Nacional de Pesquisa de Solos. Sistema brasileiro de classifica??o de solos. 2?ed. Bras?lia: Embrapa Produ??o da Informa??o; Rio de Janeiro: Embrapa Solos, 2006. 306p. EMPRESA BRASILEIRA DE PESQUISA AGROPECU?RIA - EMBRAPA. Servi?o Nacional de Levantamento e Conserva??o de Solos. Manual de m?todos de an?lise de solo. Rio de Janeiro: SNLCS, 1979. 1v. pagina??o irregular. ESPINDULA JUNIOR, A. Identifica??o e caracteriza??o da repel?ncia ? ?gua em Organossolos. Bolsista Balc?o do CNPq ? Processo 500868/2004-2 (dados n?o publicados). ESSAVES, V. I.; DUARTE, A. C. Thermogravimetric properties of aquatic humic substances. Marine Chemistry 63: 225-233, 1999. EVERETT, K. R. Histosols. In: WILDING, L. P. Pedogenesis and soils taxonomy. Amsterdam: Elsevier. v.2, p1-53, 1983. EWING, J. M.; VEPRASKAS, M. J. Estimating primary and secondary subsidence in an organic soil 15, 20, and 30 years after drainage. Wetlands, v.26, n.1, p.119-130, 2006 FAO. Dispon?vel em http://www.fao.org/ag/agl/agll/wrb/wrbmaps/htm/hissos.htm Acesso em 10/09/2006. FIDENCIO, P. H. Avalia??o potenciom?trica de misturas de ?cidos fracos atrav?s de calibra??o multivariada. 1998. 116f. Disserta??o (Mestrado), Universidade Federal de Vi?osa, 1998. FLAIG, W. A. J. Comparative chemical investigations of natural humic compounds and their model substances. Proceedings of Royal Dublin Society, Dublin, v.1, p.149, 1960. FLESSA, H., WILD, U., KLEMISCH, M., PFADENHAUER, J.. Nitrous oxide and methane fluxes from organic soils under agriculture. European Journal of Soil Science, v.49, p.327? 335, 1998. FONG, S. S.; MUHAMED, M. chemical characterization of humic substances occurring in the peats of sarawak, Malaysia. Organic Geochemistry v.38, p.967?976, 2007 FONTANA, A. Fracionamento da mat?ria org?nica e caracteriza??o dos ?cidos h?micos e sua utiliza??o no sistema brasileiro de classifica??o de solos. 2009. 81f. Tese (Doutorado) - Universidade Federal Rural do Rio de Janeiro, Serop?dica, 2009 FONTANA, A.; PEREIRA, M. G.; ANJOS, L. H. C.; BENITES, M. B. Distribution of organic carbon in the humic fractions of diagnostic horizons from Brazilian soils. Communications in Soil Science and Plant Analysis, v.39 p.951?971, 2008. FRANCIOSO, O.; CIAVATTA, C.; MONTECCHIO, D. TUGNOLI, V.; SANCHEZCORTES, S.; GESSA, C. Quantitative estimation of peat, brown coal and lignite humic acids using chemical parameters, 1H-NMR and DTA analyses. Bioresource Technology, v.88, p.189, 195, 2003. FREIXO, A. A.; CANELLAS, L. P.; MACHADO, P. L. O. Propriedades espectrais da mat?ria org?nica leve-livre e leve intra-agregado de dois Latossolos sob plantio direto e preparo convencional. Revista Brasileira de Ci?ncia do Solo, Vi?osa, v.26, p.445-453, 2002. FREIXO, A. A.; CONCEI??O, M.; CUNHA, T. J. F.; SAAB, S. C.; MARTIN-NETO, L. Estudo comparativo do h?mus de quatro solos org?nicos do Estado do Rio de Janeiro In: II ENCONTRO BRASILEIRO SOBRE SUBST?NCIAS H?I\IICAS S?o Carlos-SP, 1997 p.124 FRENCH, C. A. I.; PRYOR, F. M. M. The southwest fen dyke survey project. East Anglian Archaeology, v.59, p.1982?86, 1993. GALLOWAY, D.; JONES, D. R.; INGEBRITSEN, S. E. Land subsidence in the United States. U. S. Geological Survey Circular 1182, 1999. 177p. GALV?O F. A. D.; VAHL L. C. Calibra??o do m?todo SMP para solos org?nicos, Revista Brasileira de Agroci?ncia, Pelotas, v.2, n.2, p.121-131, 1996. GARCIA, M. J. Potencialidade e aplica??o de turfas. Revista UnG, Guarulhos, v.1, n.1, p.16- 30. 1996. GESCH, R. W.; REICOSKY, D. C.; GILBERT, R. A., MORRIS, D. R. Influence of tillage and plant residue management on respiration of a Florida Everglades Histosols. Soil & Tillage Research, v.92, p.156?166, 2007. GHOSH, K.; SCHNITZER, M. UV and visible absorption spectroscopic investigations in relation to macromolecular characteristics of humic substances. Journal of Soil Science, v.30, p.735-745, 1979. GIOVANELA, M. Caracteriza??o qu?mica e morfol?gica de subst?ncias h?micas de ambientes aqu?ticos. 2003. 140f. Tese (Doutorado). Universidade Federal de Santa Catarina, Florian?polis, 2003. GLENN, S.; HEYES, A.; MOORE, T. Carbon dioxide and methane fluxes from drained peat soils, Southern Quebec. Global Biogeochemical Cycles, v.7, n.2, p.247?57, 1993. GONDAR, D.; LOPEZ, R.; FIOL, S.; ANTELO, J. M.; ARCE, F. Characterization and acidbase properties of fulvic and humic acids isolated from two horizons of an ombrotrophic peat bog. Geoderma, v.126, 367-374, 2005. GONZ?LEZ-P?REZ, M.; TORRADO, P. V.; COLNAGO, L. A.; MARTIN-NETO, L.; OTERO, X. L.; MILORI, D. M. B. P.; GOMES, F. H. 13C NMR and FTIR spectroscopy characterization of humic acids in Spodosols under tropical rain forest in southeastern Brazil. Geoderma, v.146, p.425?433, 2008. GORHAM, E. Northern peatlands: Role in the carbon cycle and probable responses to climatic warming. Ecological Applications, v.1, n.2, p.182?195. 1991. GORHAM, E. Some chemical aspects of a peat profile. Journal of Ecology, v.37, p.24?27. 1949. G?TTLICH, K. H.; RICHARD, K. H.; KUNTZE, H.; EGGLESMANN, R.; G?NTHER, J.; EICHELSD?RFER, D.; BRIEMLE, D. G. Mire utilization. In: HEATHWAITE, A. L.; G?TTLICH, K. H. (eds.). Mires: Process, Exploitation and Conservation. John Wiley & Sons Ltd., Chichester. p.325-416. 1993. GRAHAM, S. A.; CRAFT, C. B.; MCCORMICK, P. V.; ALDOUS, A. Forms and accumulation of soil P in natural and recently restored Peatlands ? Upper Klamath Lake, Oregon, USA. Wetlands, v.25, p.594?606, 2005. GRIFFITHS, E.; BURNS, R. G. Interaction between phenolic substances and microbial polyssacharides in soil aggregation. Plant and Soil, v. 36, p. 599-612, 1983. GR?NLUND, A.; HAUGE, A.; HOVDE, A.; RASSE, D. P. Carbon loss estimates from cultivated peat soils in Norway: a comparison of three methods. Nutrient Cycling in Agroecosystems, v.81, p.157?167, 2008 GR?NLUND, A.; SVEISTRUP, T. E., S?VIK, A. K.; RASSE, D. P.; KL?VE, B. Degradation of cultivated peat soils in northern Norway based on field scale CO2, N2O and CH4 emission measurements. Archives of Agronomy and Soil Science, v.52, p.149?159, 2006 GUGGENBERGER, G.; CHRISTENSEN, B. T.; ZECH, W. Land-use effects on the composition of organic matter in particle-size separates of soil: 1. lignin and carbohydrate signature. European Journal of Soil Science, v.45, p.449-458, 1994. HAWORTH, R. D. The chemical nature of humic acid. Soil Science, v.111(1):71-79, 1971. HAYES, M. H. B.; CLAPP, C. E. Humic substances: considerations of compositions, aspects of structure, and environmental influences. Soil Science, Baltimore, v.166(11):723-727. 2001. HERNANDEZ, T.; MORENO, J. I.; COSTA, F. Infrared spectroscopic characterization of sewage sludge humic acids. Evidence of sludge organic matter-metal interactions. Agrochimica, v.37, p.12-17, 1993 HILBERT, D. W.; ROULET, N.; MOORE, T. Modeling and analysis of peatlands as dynamical system. Journal of Ecology, v.88, p.230-242, 2000. HU, W.; MAO, J.; XING, B.; SCHMIDT-ROHR, K. Poly (methylene) crystallites in humic substances detected by nuclear magnetic resonance. Environmental Science Technology, v.34, p. 530-534, 2000. HUTCHINSON, J. N. The record of peat wastage in the East Anglian Fenlands at Holme Post, 1848?1978 A.D. Journal of Ecology, v.68, p.229?249, 1980. IBARRA, J. V.; MOLINER, R.; BONET, A. J. Thermal alteration of coal humic acids simulating early coalification. In: Senesi, N.; Miano, T.M. (Eds) Humic substances in the global environment and implications on human health. Elsevier, 1994 p. 1325-1330 IBGE. Diretoria de Geoci?ncias; Embrapa. Centro Nacional de Pesquisa de Solos. Mapa de solos do Brasil, escala 1:5.000.000. Rio de Janeiro, 2001. 1 mapa color. INBAR, Y.; CHEN, Y.; HADAR, Y. Solid-state Carbon-13 Nuclear Magnetic Resonance and Infrared Spectroscopy of Composted Organic Matter. Soil Science Society of American Journal, v.53, p. 1695-1701, 1989. INCORA. Instituto Colombiano de la Reforma Agraria. Mapificacion caracterizacion y clasificacion de los suelos organicos del Valle de Sibundoy. INCORA. Bogot?. 1974. 148p. INUBUSHI, K.; HADI, A. Microbial biomass in tropical peat soil. In: PROCEEDINGS OF THE INTERNATIONAL SYMPOSIUM ON TROPICAL PEATLANDS, Bogor, Indonesia. Hokkaido University & Indonesian Institute of Sciences. p.55-60, 2000. INUBUSHI, K.; CHENG, W.; AONUMA, S.; HOQUE, M. M.; KOBAYAS, K.; MIURA, S.; KIM, H. Y.; OKADA, M. Effects of free-air CO2 enrichment (FACE) on CH4 emission from a rice paddy field. Global Change Biology, v.9, p.1458?1464, 2003 IOSELIS, P.; RUBINSZTAIN, Y.; IKAN, R.; AIZENSHTAT, Z.; FRENKEL, M. Thermal characterization of natural and synthetic humic substances. Organic Geochemistry, v.8, p.95- 101, 1985. IPCC. A report accepted by Working Group I of the IPCC but not approved in detail. Technical Summary. 2001b. <http://www.ipcc.ch/pub/wg1TARtechsum.pdf>. Acesso em 18 Fev. 2007. IPCC. Revised 1996 IPCC Guidelines for national greenhouse gas inventories: Reference Manual. 1996. Dispon?vel em: <http://www.ipcc-nggip.iges.or.jp/public/gl/invs1.htm>. Acesso em 18 Fev. 2007. IPCC. Summary for policymakers: A report of Working Group I of the Intergovernmental Panel on Climate Change. 2001a. Dispon?vel em: <http://www.ipcc.ch/pub/spm22-01.pdf>. Acesso em 18 Fev. 2007. JACQUIM, F.; VONG, P. C. Incorporation of a nitrogen fertilizer in the humified compounds of a Typic Hapludalf. The Science of the Total Environment, v.81-82, p.465-469, 1989. JOHNSTON, C.T.; DAVIS, W.M.; ERICKSON, C.; DELFINO, J.J.; COOPER, W.T. Characterization of humic substances using Fourier transform infrared spectroscopy. In: SENESI, N.; MIANO, T.M. (ed.) Humic substances in the global environment and implications on human health: Proceedings of the 6th IHSS, Monopoli, Italy, Elsevier, 1994. JONHSTON, C. T.; AOCHI, Y. O. Fourier transform infrared and ramam spectroscopy. In: SPARKS, D.L. (Ed). Methods of soil analysis. Madison: ASA:SSSA, 1996. p.269-321. KAISER, H. F. The application of electronic computers to factor analysis. Educ. Psychol. Meas. 20. p. 141-151, 1960. KAISER, H. F. An index of factorial simplicity. Psychometria, v. 39, p. 31-36, 1974. KALBITZ, K.; GEYER, S. Different effects of peat degradation on dissolved organic carbon and nitrogen. Organic Geochemistry, v.33, p.319-326, 2002. KAMPF, N.; SCHNEIDER, P. Caracteriza??o de solos org?nicos do Rio Grande do Sul: propriedades morfol?gicas e f?sicas como subs?dios ? classifica??o. Revista brasileira de Ci?ncia do Solo, Campinas, v.13, n.2, p.227-236, 1989. KASIMIR-KLEMEDTSSON, A.; KLEMEDTSSON, L.; BERGLUND, K. Greenhouse gas emissions from farmed organic soils: a review. Soil Use and Management, v.13, p.245?250, 1997. KENNEDY, G. W.; PRICE, J. S. A conceptual model of volume-change controls on the hydrology of cutover peats. Journal of Hydrology, v.302, p.13?27, 2005. KIEHL, E. J. Fertilizantes org?nicos. Editora Agron?mica Ceres Ltda. S?o Paulo. 1985. 492p. KINCHESH, P.; POWLSON, D.S.; RANDAIL, E.W. 13C NMR studies of organic matter in whole soils: I. Quantification possibilities. European J. of Soil Sci., v.46:125-138, 1995 KNIPLING, E.B.; SCHROEDER, V.N.; DUNCAN, W.O. Carbon dioxide evolution from Florida organic soils. Soil & Crop Sci. Soc. of Florida - Proceeding. v.30:320?326, 1970. K?EGEL-KNABNER, I. 13C and 15N NMR spectroscopy as a tool in soil organic matter studies. Geoderma, Amsterdam. v.80, p.243-279, 1997. K?EGEL-KNABNER, I.; ZECH, W.; HATCHER, P. G. Chemical structural studies of forest soil humic acids: aromatic carbon fraction. Soil Sci. Soc. of Am. J., v.55, p.241-147, 1991. KONONOVA, M. M. Materia org?nica del suelo: su naturaleza, propiedades y m?todos de investigaci?n. Barcelona: Oikos-tau, 1982. 364p. KUDER, T.; KRUGE, M. A.; SHEARER, J. C. Environmental and botanical controls on peatification ? a comparative study of two New Zealand rested bogs using Py-GC/MS, petrography and fungal analysis. International Journal of Coal Geology, v.37, p.3?27, 1998. KUMADA, K. Chemistry of soil organic matter. Tokyo, Japan. Scientific Societies Press. 1987. 241p. KUWATSUKA, S.; TSUTSUKI, K.; KUMADA, K. Chemical studies on soil humic acids. Soil Science and Plant Nutrition, Tokyo. v.24, p.337-347, 1978. LANDIM, P. M. B. An?lise estat?stica de dados geol?gicos multivariados. La. Geomatem?tica, DGA, IGCE, UNESP/Rio Claro. Texto Did?tico 03, 128p. 2000. LANI, J. L. Deltas dos rios Doce e Itapemirim: solos, com ?nfase nos Tiom?rficos, ?gua e impacto ambiental do uso. 1998. 169f. Tese (Doutorado) Universidade Federal de Vi?osa MG. 1998. LEPSCH, I. F.; QUAGGIO, J. A.; SAKAI, E.; CAMARGO, O. A.; VALADARES, J. M. A. S. Caracteriza??o, classifica??o e manejo agr?cola de solos org?nicos do vale do Rio Ribeira de Iguape, SP. Boletim T?cnico, n.131, Campinas - Instituto Agron?mico. 1990. 58p. LEVENQUE, M.; DINEL, H. Fiber content, particle-size distribution and some related properties of four peat materials in Eastern Canada. Can. J. of Soil Sci., v.57:187-195, 1977. LIMA, L. A. Drenagem de solos agr?colas (Eng. 158 ? UFLA) 20p 2008. http://www.lalima.com.br/lalima/arquivos/drenagem.pdf acessado em 10/09/2008 LIMIN, S. H.; JAMAL, L.; JAMAL, Y. M. Utilization of inland peat for food crop commodity development requires high input and is detrimental to peat swamp forest ecosystem. In: PROCEEDINGS OF THE INTERNATIONAL SYMPOSIUM ON TROPICAL PEATLANDS. Bogor - Indonesia, Hokkaido University & Indonesian Institute of Sciences. p.135-143, 2000 LINDSAY, W. L.; WALTHALL, P. M. The solubility of aluminum in soils. In: SPOSITO, G. (ed.) The Environmental Chemistry of Aluminum. Boca Raton, FL: CRC Press, 1996. p.333? 361. LING, T. Y.; SIONG. K. H. A review of lowland organic soils of Sarawak: research Branch Departament of Agriculture Sarawak. (Technical Paper. 4). 49p. 1979. LOHILA, A.; AURELA, M.; REGINA, K.; LAURILA, T. Soil and total ecosystem respiration in agricultural fields: effect of soil and crop type. Plant and Soil, v.251:303?317, 2003. LUCAS, R. E. Organic soils (Histosols): Formation, distribution, physical and chemical properties and management for crop production. Michigan: Michigan State University, 1982. 80p. (Farm Science Research Report, n.435). LUOMALA, E. Y.; KETOLA, M. Vertical distribution of peat sterols in a field of a productive Peatlands in western Finland. In: PROCEEDING. 7TH INTERNATIONAL PEAT CONGRESS. Dublin, Eire, v.4, p.307-316. 1984. LYNN, W. C.; MC KINZIE, W. E.; GROSSMAN, R. B. Field laboratory tests for characterization of Histosols. In: AANDAHL, A. R.; BUOL, S. W.; HILL, D. E.; BAILEY, H. H. (eds). Histosols their characteristics, classification, and use. Special publication, n.6. Soil Science Society of America. Madison ? Wisconsin. 1974. p.11-20. MACCARTHY, P. The principles of humic substances. Soil Sci., v.166(11):738-751. 2001. MAcCARTY, P. E.; RICE, J. A. Spectroscopic methods for determining functionality in humic substances. In: AIKEN, G. R.; McKNIGHT, R. L.; WERSHAW, P. J.; MacCARTHY, P. J. (Eds.). Humic substances in soil, sediment and water: geochemistry, isolation and characterization. New York: John Wiley & Sons. p.527-560 |
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