Return to search

Din?mica do b?rio em solos contaminados por res?duos oriundos da perfura??o de po?os de petr?leo. / The dyamics of barium in soil contaminated by the waste generated from oil well drilling.

Submitted by Sandra Pereira (srpereira@ufrrj.br) on 2016-09-28T13:47:04Z
No. of bitstreams: 1
2011- Marcio Osvaldo Lima Magalhaes.pdf: 4632406 bytes, checksum: 8ccefc16f724417fcb426aaf9aac9f4a (MD5) / Made available in DSpace on 2016-09-28T13:47:04Z (GMT). No. of bitstreams: 1
2011- Marcio Osvaldo Lima Magalhaes.pdf: 4632406 bytes, checksum: 8ccefc16f724417fcb426aaf9aac9f4a (MD5)
Previous issue date: 2011-12-19 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior - CAPES / Despite the known problems caused by the by-products generated from the exploration of oil,
this activity will be a part of our reality for the next 50 years. The oil drilling and exploration
industry creates a substantial amount of waste that, if not adequately disposed of, could cause
environmental problems. One of the main contaminates found in the waste related to oil
drilling is the element barium. The purpose of this study was to evaluate the contamination of
soil containing barium, its impact on the growth of rice plants (Orysa sativa) and potential
risk of contaminating groundwater. This paper was divided into four chapters. The goal of the
first chapter was to evaluate the spatial variability of barium levels found in former oil well
drilling waste disposal sites. For this study, soil was collected from georeferenced points,
analyzed in terms of its pseudo total levels, and prepared for the geochemical fractionation of
barium, classifying the material in accordance with resolution 420 of CONAMA [Brazilian
National Counsel on the Environment] (2009). In the second chapter, the effect of redox
potential in soil on the mobility and absorption of barium by rice, having barium sulfate P.A.
as the element?s source, was assessed. The effect was evaluated by performing rice culture pot
and column leaching tests. The aim of the third chapter was the characterization and
traceability of heavy metals in waste generated during the recovery of oil well drilling fluids.
The waste was collected during the drilling of well 7-MGP-98D-BA, where the material was
separated by composite sample, based on depth and equipment. In the fourth chapter, the
effects of redox potential in soil interaction and heavy metals coming from the waste
generated from onshore oil well drilling were analyzed. This chapter was similar to chapter
two, with the main difference being the waste generated from well 7-MGP-98D-BA, which
supplied the source of barium. The waste materials selected were those that displayed the
lowest levels of arsenic, cadmium, barium, lead, and sodium. The obtained results showed
that waste generated from oil well drilling contains high levels of barium, and that when
disposed of in soil can significantly contribute to site contamination, having used the guiding
values of CONAMA (2009) as a reference. As such, the barium present in this area was in the
form of low solubility, as evidenced by the geochemical fractionation of the element. It was
also observed that the conditions of low values of redox potential (-200 mV) promoted an
increase of barium in fractions of greater mobility, causing major losses of the element by
leaching, and increased absorption by plants. Among the studied waste materials, the waste
from the dehydrator and the centrifuge 1 presented high levels of sodium as its greatest
limitation, which affected the development of plants. / Apesar da verifica??o de problemas ocasionados pelo uso de produtos gerados a partir da
explora??o do petr?leo, essa atividade ? uma realidade nos pr?ximos 50 anos. A industria de
perfura??o e explora??o de petr?leo ? uma atividade que gera muitos residuos que, caso
dispostos de forma inadequada, podem ocasionar problemas ambientais. Um dos principais
contaminantes relacionados aos res?duos de perfura??o de po?os de petr?leo ? o elemento
b?rio. A proposta desse estudo foi de avaliar a contamina??o dos solos com b?rio e seu
impacto no desenvolvimento de plantas de arroz (Orysa sativa) e o risco de contamina??o do
len?ol fre?tico. Para isso o trabalho foi dividido em quatro cap?tulos. O primeiro cap?tulo teve
como objetivo avaliar a variabilidade espacial dos teores de b?rio em antiga ?rea de
disposi??o de res?duo de perfura??o de po?os de petr?leo. Nesse estudo foram coletados solos
em pontos georreferenciados e analisados quanto aos teores pseudototais e feito o
fracionamento geoqu?mico do b?rio, classificando o material de acordo com a resolu??o 420
do Conama (2009). No segunto cap?tulo foi avaliado o efeito do potencial redox do solo na
mobilidade e absor??o de b?rio por arroz, tendo como fonte do elelmento o sulfato de b?rio
P.A. Esse efeito foi avaliado atrav?s de ensaios em vasos com cultivo de arroz e em colunas
de lixivia??o. O terceiro cap?tulo teve como objetivo a caracteriza??o e rastreabilidade de
metais pesados em res?duos gerados na recupera??o do fluido de perfura??o de po?os de
petr?leo. O res?duo foi coletado durante a perfura??o do po?o 7-MGP-98D-BA, onde os
materiais foram separados em amostras compostas em fun??o da profundidade e do
equipamento. No quarto cap?tulo foi analisado o efeito do potencial redox na intera??o solo e
metais pesados provenientes de res?duos oriundos da perfura??o de po?os de petr?leo
?onshore?. Esse cap?tulo foi semelhante ao cap?tulo 2, diferindo principalmente na fonte de
b?rio que foi o res?duo gerado no po?o 7-MGP-98D-BA. Os res?duos selecionados foram os
que apresentaram como os mais restrit?vos com rela??o aos teores de ars?nio, c?dmio, b?rio,
chumbo e s?dio. Os resultados obtidos evidenciaram que os res?duos oriundos da perfura??o
de po?os de petr?leo possuem altos teores de b?rio, que quando dispostos nos solos podem
contribuir significativamente para a contamina??o das ?reas, tendo como refer?ncia os valores
orientadores do Conama (2009). Entretanto, o b?rio presente nessa ?rea estava sob forma de
baixa solubilidade, evidenciada pelo fracionamento geoqu?mico do elemento. Tamb?m foi
observado que a condi??o de baixos valores de potencial redox (-200 mV) promoveu o
aumento do b?rio nas fra??es de maior mobilidade, ocasionando maiores perdas do elemento
por lixivia??o e maior absor??o pelas plantas. Dentre os res?duos estudados, os res?duos do
secador e da centr?fuga 1 apresentaram como maior limita??o os altos teores de s?dio, o que
afetou o desenvolvimento das plantas.

Identiferoai:union.ndltd.org:IBICT/oai:localhost:jspui/1222
Date19 December 2011
CreatorsMagalh?es, Marcio Osvaldo Lima
ContributorsAmaral Sobrinho, Nelson Moura Brasil do, Zonta, Everaldo, Mazur, Nelson, Santos, Fabiana Soares dos, Perez, Daniel Vidal, Iorio, Alicia Fabrizio de
PublisherUniversidade 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 SetsIBICT Brazilian ETDs
LanguagePortuguese
Detected LanguageEnglish
Typeinfo:eu-repo/semantics/publishedVersion, info:eu-repo/semantics/doctoralThesis
Formatapplication/pdf
Sourcereponame:Biblioteca Digital de Teses e Dissertações da UFRRJ, instname:Universidade Federal Rural do Rio de Janeiro, instacron:UFRRJ
Rightsinfo:eu-repo/semantics/openAccess
Relation7 REFER?NCIAS BIBLIOGR?FICAS ABNT ? ASSOCIA??O BRASILEIRA DE NORMAS T?CNICAS. NBR 10005: Lixivia??o de res?duos. Rio de Janeiro, 2004. 16 p. ABNT ? ASSOCIA??O BRASILEIRA DE NORMAS T?CNICAS. NBR 10006: Solubilidade de res?duos. Rio de Janeiro, 2004. 3p. ABNT ? ASSOCIA??O BRASILEIRA DE NORMAS T?CNICAS. NBR-10004: Classifica??o de res?duos. Rio de Janeiro, 2004. 71p. ACCIOLY, A. M. A.; FURTINI NETO, A. E.; MUNIZ, J. A. P? de forno el?trico de siderurgia como fonte de micronutrientes e de contaminantes para plantas de milho. Pesq. agropec. bras., v. 35, p. 1483-1491, 2000. ALBERTA ENVIRONMENT. Soil Remediation Guidelines For Barite: Environmental Health And Human Health. 2009. Dispon?vel em: http://www.environment.gov.ab.ca/info/library/6298.pdf ANSARI, T.M; MAR, I.L; COATSA.M. Characterization of mineralogical forms barium and trace heavy metalimpurities in commercial barytes by EPMA, XRD and ICP-MS. J. Environ. Monit., 2001, v. 3, p. 133-138. ARF, O.; RORIGUES, R.A.F.; S?, M.E.; CRUSCIOL, C.A.C. Resposta de cultivares de arroz de sequeiro ao preparo do solo e ? irriga??o por aspers?o. Pesq. agropec. bras., Bras?lia, v. 36, p. 871-879, 2001. ASCH, F. & WOPEREIS, M.C.S. Responses of field-grown irrigated rice cultivars to varying levels of floodwater salinity in a semi-arid environment. Field Crops Res. v. 70, p. 121?137, 2001. AYERS, R.C., JR. The Fate and Effects of Drilling fluid Discharges. In: PRODANOVIC, A.; VELIKANOV, A.Y. Mobil and SakhTINRO International Meeting - Theme: Drilling Discharges and Environmental Protection Exploration Drilling Offshore Sakhalin Island. Proceedings of Meeting in Yuzhno-Sakhalinsk, Russia. 1994. BALDI, F.; PEPI, M.; BURRINI, D.; KNIEWALD, G.; SCALI, D.; LANCIOTTI, E. Dissolution of Barium from Barite in Sewage Sludges and Cultures of Desulfovibrio desulfuricans. Applied and environmental microbiology, v. 62, p. 2398?2404, 1996. BAUDER, T.A.; BARBARICK, K.A.; IPPOLITO, J.A.; SHANAHAN, J.F.; AYERS, P.D. Soil properties affecting wheat yields following drilling-fluid application. Journal of Environmental Quality. v. 34, p.1687?1696, 2005. BEHLING, M. Avalia??o do potencial agr?cola e dos impactos provocados pela aplica??o de res?duos industriais num Planossolo. 163p. 2005. Disserta??o (Mestrado em Agronomia - Ci?ncia do Solo) - Curso de p?s-Gradua??o em Agronomia - Ci?ncia do solo, Universidade Federal Rural do Rio de Janeiro, Serop?dica. 153 BEZERRA, E. M.; RIBEIRO, P. R.; LOMBA, R. F. T.; SANTOS, O. L. A.; Aspectos Te?ricos e Experimentais Sobre o Controle de Po?os com Fluidos de Perfura??o Sint?ticos ( ENAHPE). In: Encontro Nacional de Hidr?ulica de Perfura??o e Completa??o de Po?os de Petr?leo e G?s Pedra Azul, Domingos Martins ? ES, 2006. BINMERDHAH, A.B.; YASSIN, A.A.M.; MUHEREI,M.A. Laboratory and prediction of barium sulfate scaling at high-barium formation water. Journal of Petroleum Science and Engineering, v.70 p. 79?88, 2010. BODEK, L.; LYMAN, W.J.; REEHI, W.F.; ROSENBLATT, D.H. Environmental Inorganic Chemistry: Properties, Processes, Estimation Methods. Pergamon Press, Elmsford, New York. 1988. 1280p. BOHN, H. L.; McNEAL, B. L. & O?CONNOR, G. A. Soil chemistry. New York, John Wiley, 1979. 329 p. BOLZE, C. E.; MALONE, P.G.; SMITH, M.J. Microbial mobilization of barite. Chem. Geol. v. 13, p.141?143. 1974. BOUMAN, B.A.M.; PENG, S.; CASTANEDA, A.R.; VISPERAS, R.M. Yield and water use of irrigated tropical aerobic rice systems. Agricultural Water Management, v. 74, p. 87?105. 2005. CABRAL, F.; RIBEIRO, H.M.; HIL?RIO, L.; MACHADO L.; VASCONCELOS, E. Use of pulp mill inorganic wastes as alternative liming materials. Bioresource Technology, v. 99, p. 8294?8298. 2008. CAMARGO, F. N.O.; ARAUJO, G.S.; ZONTA, E. Altera??es eletroqu?micas de solos alagados. Ci?ncia Rural, v. 29, p. 171-180. 1999. CAMARGO, O.A.; ALLEONI, L.R.F.; CASAGRANDE, J.C. Rea??es dos micronutrientes e elementos t?xicos no solo. In: FERREIRA, M.E.; CRUZ, M.C.P; RAIJ, B. van; ABREU, C.A. Micronutrientes e elementos t?xicos na agricultura. Jaboticabal: CNPq/FAPESP/POTAFOS, 2001. p.89-124. CARLS, E.G.; DENNIS, B.F.; CHAFFEY, S.A. Soil contamination by oil and gas drilling and production operations in Padre Island National Seashore, Texas, USA. Journal of Environmental Managment. v. 45, p. 273?286. 1995. CETESB. Companhia de Tecnologia de Saneamento Ambiental. Relat?rio Estabelecimento de Valores Orientadores para Solos e ?guas Subterr?neas no Estado de S?o Paulo. S?o Paulo: CETESB; 2006. Dispon?vel em < http://www.cetesb.sp.gov.br/Solo/relatorios/ tabela_valores_2005.pdf>. CETESB. Companhia de Tecnologia de Saneamento Ambiental. Relat?rio Estabelecimento de Valores Orientadores para Solos e ?guas Subterr?neas no Estado de S?o Paulo. S?o Paulo: CETESB; 2006. Dispon?vel em < http://www.cetesb.sp.gov.br/Solo/relatorios/ tabela_valores_2005.pdf>. CHAUDHRY, F. M.; WALLACE, A.; MUELLER, R. T. Barium Toxicity in Plants. Commun.Soil Sci.Plant Anal. v. 8, p. 795-797. 1977. CHIBA, M. K.; MATTIAZZO, M.E.; OLIVEIRA, F.C. Cultivo de cana-de-a??car em Argissolo tratado com lodo de esgoto. I - Disponibilidade de nitrog?nio no solo e componentes de produ??o. Revista Brasileira de Ci?ncia do Solo, v. 32 p. 643-652, 2008. 154 CHLOPECKA, A. Assessment of form of Cd, Zn and Pb in contaminated calcareous and gleyed soils in southwest Poland. Sci. Total Environ. 188, 253?262. 1996. CIPOLLINI, M. L. & PICKERING, J. L. Determination of the Phytotoxicity of Barium in Leach-Field Disposal of Gas Well Brines. Plant Soil. v. 92, p. 159-169, 1986. CONSELHO NACIONAL DE MEIO AMBIENTE. Resolu??o CONAMA n. 375, de 29 de agosto de 2005. Bras?lia, 2005. 32 p. CONSELHO NACIONAL DE MEIO AMBIENTE. Resolu??o CONAMA n. 420, de 28 de dezembro de 2009. Bras?lia, 2009. 16 p. CONSELHO NACIONAL DE MEIO AMBIENTE-CONAMA. Resolu??o CONAMA N? 357. Disp?e sobre a classifica??o dos corpos de ?gua e diretrizes ambientais para o seu enquadramento, bem como estabelece as condi??es e padr?es de lan?amento de efluentes. 2005. 24p. CRECELIUS, E. J.; TREFRY, J.; MCKINLEY, B.; LASORSA, D.; TROCINE, R.. Study of barite solubility and the release of trace components to the marine environment. U.S. Dept. of the Interior, Minerals Management Service, Gulf of Mexico OCS Region, New Orleans, LA. OC5 Study MMS 2007-061. 2007. 176 p. DAKER, A. A ?gua na agricultura: irriga??o e drenagem. Rio de Janeiro: Freitas Bastos, 1970. v.3, 453p. DANG, Z.; LIU, C.; HAIGH, M.J. Mobility of heavy metals associated with the natural weathering of coal mine spoils. Environ. Pollut. v. 118, p. 419?426. 2002. DAVIES, S. H. R. Mn (II) oxidation in the presence of lepidocrecite: The influence of other ions. In: DAVIS, J. A. & HAYES, K. F. (Ed.). Geochemical processes at mineral surfaces. Washington, ACS. p. 487-502. 1986. DAYANI, M. & MOHMMADI, J. Geostatistical Assessment of Pb, Zn and Cd Contamination in Near-Surface Soils of the Urban-Mining Transitional Region of Isfahan, Iran. Pedosphere, v. 20, p. 568?577, 2010. DIAS, G.J; COUTINHO, A.L.G.A.; MARTINS, R. P. Modelagem tridimensional do lan?amento de cascalhos de perfura??o de po?os de petr?leo em ?guas profundas. In: 3? Congresso Brasileiro de P&D em Petr?leo e G?s. Rio de Janeiro. 2004. EINAX, W.J.; SOLDT, U. Geostatistical and multivariate statistical methods for the assessment of polluted soils?merits and limitations. Chemometrics and Intelligent Laboratory Systems,v. 46, p. 79-91, 1999. EMBRAPA - Empresa Brasileira de Pesquisa Agropecu?ria. Centro Nacional de Pesquisa Agropecu?ria de Solos (Rio de Janeiro). 2? ed. Rio de Janeiro, 1997, 212p. FAGERIA, N.K. OTIMIZA??O DA EFICI?NCIA NUTRICIONAL NA PRODU??O DAS CULTURAS. R. Bras. Eng. Agr?c. Ambiental. v. 2, p. 6-16, 1998. FAM, M.A; DUSSEAULT, M.B; FOOKS, J.C. Drilling in mudrocks: rock behavior issues. Journal of Petroleum Science and Engineering, v.38, p. 155?166. 2003. FILGUEIRAS, A.V.; LAVILLA, I.; BENDICHO, C. Evaluation of distribution, mobility and binding behaviour of heavy metals in surficial sediments of Louro River (Galicia, Spain) using chemometric analysis: a case study. Sci. Total Environ. v.330, p. 115?129, 2004. 155 GAY, F.; MARAVAL, I.; ROQUES, S.; GUNATA,, Z. BOULANGER, R.; AUDEBERT, A.; MESTRES, C. Effect of salinity on yield and 2-acetyl-1-pyrroline content in the grains of three fragrant rice cultivars (Oryza sativa L.) in Camargue (France). Field Crops Research. v. 117, p. 154?160, 2010. GOLDEMBERG, J.; VILLANUEVA, L.D. Energia, Meio Ambiente e Desenvolvimento. 2 ed. S?o Paulo, 2003. 232 p. GONCALVES, G. K.; SOUSA, R. O.; VAHL, L. C.; BORTOLON, L. Solubiliza??o dos fosfatos naturais Patos de Minas e Arad em dois solos alagados. Rev. Bras. Ci?nc. Solo [online]., v. 32, p. 2157-2164. 2008. Available from: <http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0100- 06832008000500036&lng=en&nrm=iso>. ISSN 0100-0683. doi: 10.1590/S0100- 06832008000500036. GRATTAN, S.R.; ZENG, L.; SHANNON, M.C.; ROBERTS, S.R. Rice is more sensitive tosalinity than previously thought. Calif. Agric. v. 56, p. 189?195, 2002. GUEDES, J. N. G. Diagn?stico e estudo da variabilidade espacial da contamina??o por metais pesados em solos e ?guas superficiais de ?rea de destrui??o de muni??o. 68f. 2009. Disserta??o (Mestrado em Agronomia, Ci?ncia do Solo). Curso de p?s-Gradua??o em Agronomia - Ci?ncia do solo, Universidade Federal Rural do Rio de Janeiro, Serop?dica. HARTLEY, J; TRUEMAN, R; ANDERSON, S; NEFF, J; FUCIK,K; DANDO,P. Drill Cuttings Initiative: Food Chain Effects Literature Review. United Kingdom Offshore Operators Association, Aberdeen, Scotland, 2003. 118 p. HE, Z.L.; YANGA, X.E.; STOFFELLAB, P.J. Trace elements in agroecosystems and impacts on the environment. Review. J. Trace Elem. Med. Biol. v. 19, p.125?140. 2005. HENRY, G.A.F.; GRIME, J.P. Methods in Comparative in Plant Ecology. A Laboratory Manual. Chapman & Hall, 1? ed. London. 1993. 272 p. ISAAKS, E. H.; SRIVASTAVA, R. M. An introduction to applied geostatistics. New York. 1989. 561p. ISO 11466 International Standard: Soil quality? Extraction of trace elements soluble in aqua regia, 1995. 24 p. KABATA-PENDIAS, A. Trace elements in soils and plants. 4? ed. Boca Raton - Florida, 2010, 315 p. KISIC, I.; MESIC, S.; BASIC,F.; BRKIC, V.; MESIC, M.; DURN, G.; ZGORELEC, Z.; BERTOVIC, L. The effect of drilling fluids and crude oil on some chemical characteristics of soil and crops. Geoderma, v. 149, p. 209?216. 2009. LICHT, O.A. Atlas Geoqu?mico do Estado do Paran?. Curitiba (PR): Minerais do Paran?; 2001. LIESACK, W.; SCHNELL, S.; REVSBECH, N.P. Microbiology of flooded rice paddies. FEMS Microbiology Reviews, v. 24, p. 625- 645. 2000. LIMA, E.N.; MELLO, J.W.V.; SCHAEFER,C.E.G.R.; KER, J.C. Din?mica da mobiliza??o de elentos em solos da Amaz?nia submetidos ? inunda??o. Acta Amaz?nica, v. 35, p. 317 ? 330. 2005 156 LLUGANY, M.; POSCHENRIEDER, C; BARCELO, L. Assessment of barium toxicity in bush beans. Arch Environ Contam Toxicol, v. 39, p. 440?444. 2000. MAGALH?ES, M.O.L.; AMARAL SOBRINHO, N.M.; MAZUR, N. Uso de res?duos industriais na remedia??o de solo contaminado com c?dmio e zinco. Ci?ncia Florestal, v. 21, p. 253-261. 2011a. MAGALH?ES, M. O. L.; AMARAL SOBRINHO, N. M. B.; ZONTA, E.; LIMA, L. S.; PAIVA, F. S. D. Mobilidade de B?rio em Solo Tratado com Sulfato de B?rio Sob Condi??o de Oxida??o e Redu??o. Qu?mica Nova, v. 34, p. 1544-1549. 2011b. MARIN, B.; VALLADON, M.; POLVE, M.; MONACO, A. Reproducibility testing of a sequential extraction scheme for the determination of trace metal speciation in a marine reference sediment by inductively coupled plasma-mass spectrometry. Anal. Chim. Acta, v. 342, p. 91?112. 1997. McBRIDE, M. B. Environmental chemistry of soils. New York, 1994. 416 p. McCARTHY, E.D.; DUNK W.A.E.; BOODHOO, K.V.K. Application of an intensified narrow channel reactor to the aqueous phase precipitation of barium sulphate, J. Colloid Interf. Sci. v. 305, p. 72?87. 2007. McCREADY, R. G. L.; & KROUSE, H.R. Sulfur isotope fractionation by Desulfovibrio vulgaris during metabolism of BaSO4. Geomicrobiol. J. v. 2, p. 55?62. 1980. McFARLAND, M.L.; UECKERT, D.N.; HONS, F.M.; HARTMANN, S. Selectiveplacement burial of drilling fluids: I. Effects on soil chemiyield for similar soils and management systems when cal properties. J. Environ. Qual.v. 21, p.135?139. 1992. MELLO, J.W.V.; FONTES, M.P.F.; RIBEIRO, A.C.; ALVAREZ V., V.H. Inunda??o e calagem em solos de v?rzea: I. altera??es em pH, Eh e teores de Fe2+ e Mn2+ em solu??o. R. Bras. Ci. Solo, v. 16, p. 309-317. 1992. MELTON, H.R.; SMITH, J.P.; MARTIN, C.R.; NEDWED, T.J.; MAIRS, H.L., RAUGHT, D.L. Offshore discharge of drilling fluids and cuttings?a scientific perspective on public policy. Rio oil and gas expo and confer?nce. Boletim do Instituto Brasileiro do Petr?leo; 2000. IBP 44900, p. 1?13. MILLER, R.W.; PESARAN, P. Effects of drilling fluids on soils and plants: Complete drilling fluid mixtures. J. Environ. Qual. v. 9, p. 552?556. 1980. MILLER, R.W.; HONARVAR, S.; HUNSAKER, B. Effects of drilling fluids on soils and plants: Individual fluid components. J. Environ. Qual. v. 9, p. 547?552. 1980. MONNIN, C; DUPRE,C.G; ELDERFIELD, H; MOTTL,M.M. Barium geochemistry in sediment pore waters and formation waters of the oceanic crust on the eastern flank of Juan de Fuca Ridge (ODP Leg 168). Geochem. Geophys. Geosyst. v. 2, p 15-18. 2001. NEFF, J. M. Composition, environmental fates, and biological effect of water based drilling muds and cuttings discharged to the marine environment: A synthesis and annotated bibliography. Report prepared for the Petroleum Environmental Research Forum (PERF) Washington DC American Petroleum Institute. 2005. 73 p. NEFF, J.M.; MCKELVIE, S.; AYERS Jr, R.C. Environmental Impacts of Synthetic Based Drilling Fluids. OCS Study MMS 2000-64. U.S. Dept. of the Interior, Minerals Management Service, Gulf of Mexico OCS Program, New Orleans, LA. 2000. 118 p. 157 NOGUEIRA,T.A.R.; DEMELO, W.J.; FONSECA, I.M.; MARQUES, M.O.; HE, Z. Bariun uptake by maize plants as effected by sewage sludge in long-term fild study. Journal of Hazardous Materials. v. 181, p. 1148-1157. 2010. NOWKA, R.; MARR, I.L.; ANSARI T.M.; M?LLER, H. Direct analysis of solid samples by GFAAS ? determination of trace heavy metals in barytes. Fresenius J. Anal. Chem. v. 364, p. 533?540. 1999. NUNES, C.C.; CORSEUIL, H.X. A Import?ncia da biodegrada??o Anaer?bica em Aqu?feros Impactados por Gasolina e Etanol. In: 23? Congresso Brasileiro de engenharia Sanit?ria e Ambiental, Campo Grande - MS. 2007. OLIVEIRA, D.Q.L de.; CARVALHO, K.T.G.; BASTOS, A.R.R.; ALVES DE OLIVEIRA, L.C.; MELO MARQUES, J.G.S.; NASCIMENTO, R.S.M.P. Utiliza??o de res?duos da ind?stria de couro como fonte nitrogenada para o capim-elefante. Revista Brasileira de Ci?ncia do Solo, v. 32, p. 417-424, 2008. PATEL, D.P.; DAS, A.; MUNDA, G.C.; GHOSH, P.K.; BORDOLOI, J.S.; KUMAR, M. Evaluation of yield and physiological attributes of high-yielding rice varieties under aerobic and flood-irrigated management practices in mid-hills ecosystem. Agricultural Water Management, v. 97, p. 1269?1276. 2010. PENG, S.; BOUMAN, B.; VISPERAS, R.M.; CASTENEDA, A.; NIE, L., PARK, H.K. Comparison between aerobic and flooded rice in the tropics: agronomic performance in an eight season experiment. Field Crops Research, v. 96, p. 252?259, 2006. PENNA-FRANCA, E., FISZMAN, M., LOBOA, N., COSTA-RIBEIRO, C., TRINDADE, H., DOS SANTOS, P.L., BATISTA, D. Radioactivity of Brazil nuts. Health Physics, v. 14, p. 95?99, 1968. PHILLIPS, E.J.P.; LOVLEY, D.R.; RODEN, E.E. Composition of non-microbially reducible Fe(III) in aquatic sediments. Appl. Environ. Microbiol., v. 59, p. 2727-2729. 1993. PHILLIPS, E.J.P; LANDA, E.R; KRAEMER, T; ZIELINSKI,R. Sulfate-reducing bacteria release barium and radium from naturally occurring radioactive material in oil-field barite. Geomicrobiol. J., v. 18, p. 167-182. 2001. PICHTEL, J.; KUROIWA, K.; SAWYERR, H.T. Distribution of Pb, Cd and Ba in soils and plants of two contaminated soils. Environ. Pollut., v. 110, p. 171?178. 2000. PONNAMPERUMA, F.N. Electrochemical changes in submerged soils and the growth of rice. In: Soils and Rice. Los Ba?os, 1978. p. 421-441. PONNAMPERUMA, F.N. The chemistry of submerged soils. Adv. Agron., v. 24, p. 29-96. 1972. PONNAMPERUMA, F.N.; TIANCO, E.M.; LOY, T. Redox equilibria in flooded soils: I. the iron hydroxide systems. Soil Science, v. 103, p.374-382. 1967. POZEBON, D.; LIMA, E.C.; MAIA, S.M.; FACHEL, J.M.G. Heavy metals contribution of non-aqueous fluids used in offshore oil drilling. Fuel, v. 84, p. 53-61. 2005. PRADO, R.M. & NATALE, W. Development and nutritional status of passion fruit cuttings in response to application of textile sludge. Pesq. agropec. bras., v. 40, p. 621-626. 2005. 158 RAGHU, V. Accumulation of elements in plants and soils in and around Mangampeta and Vemula barite mining areas, Cuddapah District, Andhra Pradesh, India. Environ Geol., v. 40, p.1265?1277. 2001. RODEN, E.E.; ZACHARA, J.M. Microbial reduction of crystalline iron(III) oxides: Influence of oxide surface area and potential for cell growth. Environ. Sci. Technol., v. 30, p. 1618- 1628. 1996. RODRIGUEZ, L.; RUIZ, E.; ALONSO-AZCARATE, J.; RINCON, J. Heavy metal distribution and chemical speciation in tailings and soils around a Pb?Zn mine in Spain. Journal of Environmental Management. v. 90, p. 1106?1116. 2009. ROMER, R.; & SCHWARTZ, W. Geomikrobiologische untersuchungen V. Verwertung von sulfatmineralien und schwermetall-toleranz bei desulfurizierern. Z. Allg. Mikrobiol., v. 5, p. 122?135. 1965. RORISON, I.;H. Ecophysiological aspects of nutrition. In: PORTER , J.R.; LAWLOR, D.W. Plant Growth: Interactions with nutrition and environment. Cambrige University, 1991. p. 157 ? 176. SAHUQUILLO, A.; L?PEZ-S?NCHES, J.F.; RUBIO, R.; RAURET, G.; THOMAS, R. P.; DAVIDSON, C. M.; URE, A.. Use of certified reference material for extractable trace metals to asses sources of uncertainty in the BCR three-stage sequencial extraction procedure. Analytica Chemical Acta, v. 382, p.317-327, 1999. SANTOS, A. C. Pedog?nese e altera??es geoqu?micas em litosseq??ncia do Grupo Para?ba do Sul na Regi?o do M?dio Vale do Para?ba, RJ. 2009. 210f. Tese (Doutorado em Agronomia, Ci?ncia do Solo). Curso de p?s-Gradua??o em Agronomia - Ci?ncia do solo, Universidade Federal Rural do Rio de Janeiro, Serop?dica. SANTOS, F.S.; MAGALH?ES, M.O.L.; MAZUR, N.; AMARAL SOBRINHO, N.M.B.. Chemical amendment and phytostabilization of an industrial residue contaminated with Zn and Cd. Scientia Agricola. Piracicaba, v. 64, p.506-512, 2007. SASTRE, I.; VICENT, M.A; LOBO, M.C. Behavior of cadmium and nickel I a soil amended with sewage sludge. Land degradation and development, v.12, p. 27-33, 2001. SEYBOLD, C.A.; MERSIE, W.; HUANG, J.; McNAMEE, C. Soil redox, ph, temperature, and water-table patterns of a freshwater tidal wetland. WETLANDS, v. 22, p. 149-158. 2002. SILVA, R.L.B. Contamina??o de po?os rasos no bairro Brisamar, Itagua?, RJ, por derramamento de gasolina; concentra??o de BTEX e avalia??o da qualidade da ?gua consumida pela popula??o. 2002. 182p. Tese (Doutorado em Saneamento Ambiental). Funda??o Oswaldo Cruz, Rio de Janeiro. SIMONETE, M.A.; KIEHL, J.C.; ANDRADE, C.A.; TEIXEIRA, C.F.A. Efeito do lodo de esgoto em um Argissolo e no crescimento e nutri??o de milho. Pesq. Agropec. Bras., v. 38, p. 1187-1195, 2003. SMEDA, A.; ZYRNICKI, W. Application of sequential extraction and the ICP-AES method for study of the partitioning of metals in fly ashes, Microchem. J., v.72, p. 9?16, 2002. SNYDER,G.T.; DICKENS, G.R.; CASTELLINI D.G. Labile barite contents and dissolved barium concentrations on Blake Ridge: New perspectives on barium cycling above gas hydrate systems. Journal of Geochemical Exploration. v, 95,p. 48-65. 2007. 159 SOARES, C.R.F.S.; SIQUEIRA, J. O.; CARVALHO, J.G.; MOREIRA, F. M. S. Fitotoxidade de c?dmio para Eucalyptus maculata e E. urophylla em solu??o nutritiva. R. ?rvore, v.29, p. 175-183, 2005. SOUSA, R.O.; BOHNEN, H.; MEURER, E.J. Composi??o da solu??o de um solo alagado conforme a profundidade e o tempo de alagamento, utilizando novo m?todo de coleta. R. Bras. Ci. Solo, v. 26, p. 343-348, 2002. SOUZA, P.J.B de.; LIMA, V. L. de. Avalia??o das T?cnicas de Disposi??o de Rejeitos da Perfura??o Terrestre de Po?os de Petr?leo. Universidade Federal da Bahia Escola Polit?cnica Departamento de Hidr?ulica e Saneamento. Salvador, BA. 2002. SPARKS, D.L. Environmental soil chemistry. 2? ed. San Diego, 2002, 352 p. SPOSITO, G. The Chemistry of Soils. 2? ed. New York, 2008, 330 p. SUWA, R; JAYACHANDRAN, K.; NGUYEN, N.T.; BOULENOUAR, A. FUJITA, K.; SANEOKA, H. Barium Toxicity Effects in Soybean Plants. Arch Environ Contam Toxicol., v. 55, p. 397?403, 2000. TEDESCO, M.J.; GIANELLO, C.; BISSANI, C.A.; BOHNEN, H.; VOLKWEISS, S.J. An?lise de solo, plantas e outros materiais. Universidade Federal do Rio Grande do Sul, Porto Alegre, Brasil. 188p. 1995. TIAN-YEN, Y. Soil and plants. In: TIAN-YEN, Y. Physical chemistry of paddy soils. Berlin, 1985, p. 197-214. TUBINO, Matthieu; SIMONI, Jos? de Alencar. Refletindo sobre o caso celobar?. Qu?m. Nova, v. 30, p. 505-506. 2007. . Available from <http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0100- 40422007000200048&lng=en&nrm=iso>. access on 20 Nov. 2009. doi: 10.1590/S0100- 40422007000200048. ULRICH, G.A; BREIT, G.N; COZZARELLI, I.M; SUFLITA,J.M. Sources of sulfate supporting anaerobic metabolism in a contaminated aquifer. Environ. Sci. Technol. v.37, p. 1093-1099, 2003. URE, A.; QUEVAUVILLER, P.H.; MUNTAU, H. & GRIEPINK, B, Speciation of heavy metals in soils and sediments, an account of improvement and harmonization of extraction techniques undertaken under the auspices of the BCR of the Commission of the Communities. Intern. J. Environ Anal. Chem., v.51, p.135-151, 1993. US EPA - United States Environmental Protection Agency. Toxicological Review of Barium and Compounds. 2005. Revised version of previous report dated 1999. In Support of Summary Information on the Integrated Risk Information System (IRIS). U.S. Environmental Protection Agency, Washington, DC. March 1998 with minor revisions January 1999, reference dose revised June 2005. Dispon?vel em <http://www.epa.gov/iris/toxreviews/0010tr.pdf>. Acesso em 04 de julho de 2011 US EPA - United States Environmental Protection Agency. Guidance for Developing Ecological Soil Screening Levels (Eco-SSLs). 2005. Office of Solid Waste and Emergency Response. p. 7- 63. VEPRASKAS, M. J.; S. P. FAULKNER. Redox chemistry of hydric soils. In: RICHARDSON, J. L.; VEPRASKAS, M. J. Wetland Soils: Genesis, Hydrology, Landscapes, and Classification. Boca Raton, Florida. 2001. p. 85?106 VIEIRA, S.R.; HATFIELD, J.L.; NIELSEN, D.R.; BIGGAR, J.W. Geostatistical theory and application to variability of some agronomical properties. Hilgardia, v.51, n.3, p.1-75, 1983. WALLACE, A.; ROMNEY, E. M. Some Interactions of Ca, Sr, and Ba in Plants. Agron. J., v. 63, p. 245-248, 1971. WHO - WORLD HEALTH ORGANIZATION. Environmental health criteria 107: barium. Sponsored by United Nations Environment Programme, International Labour Organisation. Geneva, Switzerland. 1990. YSART, G; MILLER, P; CREWS, H. Dietary exposure estimates of 30 elements from the UK total diet study. Food Addit Contam., v. 16, p.391-403. 1999. ZONTA, E.; LIMA, E.; BALIEIRO, F.; CEDDIA, M.B.; AMARAL SOBRINHO, N.M.B.; FREITAS, F.C.; VILLELA, A.L.O. Avalia??o de s?tios de disposi??o, no solo, de Res?duos da Explora??o& Produ??o, Relat?rio Parcial. PETROBRAS-PDP/TEP n? 005, 2005. ZONTA, E.; LIMA, E.; BALIEIRO, F.; CEDDIA, M.B.; AMARAL SOBRINHO, N.M.B.; FREITAS, F.C.; VILLELA, A.L.O. REAVALIA??O PARA DEVOLU??O DAS ?REA DE LOCA??O DOS PO?OS 1-RM-1-PR E 1-CS-1-PR, Relat?rio Parcial. PETROBRAS ? E&P ? EXP / SMS N? 001, 2007.

Page generated in 0.0074 seconds