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RELATÓRIO PARA AUXÍLIO DE PARTICIPAÇÃO EM EVENTO
Projeto Agrisus No: 922/12
Nome do Evento: "The 16th Meeting of the International Humic Substances Society"
Interessado : Josiane Millani Lopes
Instituição: ESALQ / USP – Depto de Ciência do SoloEndereço: Av. Pádua Dias, 11CEP: 13418-900 Cidade: Piracicaba Estado: SPFone: (19) 3417-2141 Ramal: 2141E-mail: jo.millani@bol.com.br
Local do Evento: Zijingang Campus of Zhejiang University, Hangzhou, China.
Valor financiado pela Fundação Agrisus: R$4.500,00
Vigência: 09/09/2012 à 14/09/2012
RESUMO DE SUA PARTICIPAÇÃO:
O 16º Encontro Internacional de Substâncias Húmicas foi extremamente interessante,
pois trouxe discussões e novidades a respeito de temas como o conhecimento da formação e das
características da matéria orgânica, que é de vital importância para a compreensão das suas
propriedades e consequentes interações existentes no solo, sendo fundamental para a área da
sustentabilidade, afinal só é possível preservar efetivamente quando detemos o conhecimento
adequado. O evento reuniu vários especialistas no assunto que apresentaram de forma simples e
direta as novidades em relação ao tema e pontos sobre a conservação da matéria orgânica no
ambiente. Positivamente, minha participação nesse evento foi de grande importância para o
aprimoramento da minha formação acadêmica, estabelecimento de contato com pesquisadores
renomados nesta área, além de me proporcionar uma proveitosa experiência no exterior.
RELATÓRIO DA PARTICIPAÇÃO NO EVENTO:
1. INTRODUÇÃO:
Em condições de clima tropical, o Brasil acumula um volume expressivo de resultados
gerados por grupos de pesquisa em solos, o qual confere ao país uma posição de destaque na
área. Porém a maior parte desses estudos está quase sempre voltada para a fração inorgânica do
solo, ficando a fração orgânica quase sempre em segundo plano.
É de conhecimento geral que a matéria orgânica é responsável por uma série de
benefícios para o solo, seja química, física ou biologicamente. É sabido ainda que a busca
incessante por sistemas sustentáveis e produtivos pode ocorrer através do manejo adequado dos
recursos disponíveis ao mesmo tempo em que satisfaz as necessidades humanas, mantém ou
melhora a qualidade ambiental e conserva os recursos naturais. Gerenciar adequadamente o
ambiente em que vivemos e simultaneamente mantê-lo é um grande desafio que depende, em
escalas distintas, principalmente da compreensão da dinâmica da interação existente entre a
matéria orgânica e o papel que esta desempenha sobre o aproveitamento dos recursos naturais
renováveis, através da ciclagem do carbono, dos nutrientes e da energia presente nos sistemas
agrícolas.
Ainda hoje muito pouco se sabe sobre a natureza e as características da matéria orgânica
nos solos tropicais e subtropicais. Os efeitos das práticas de cultivo, manejo e conservação sobre
a matéria orgânica e, mais especificamente, sobre a formação e distribuição das substâncias
húmicas no solo não se encontram suficientemente estabelecidos Desta forma o conhecimento
aprofundado das características e das condições dessa matéria orgânica é de suma importância
para a compreensão e consequente conservação do solo.
O 16º Encontro Internacional de Substâncias Húmicas trouxe com as seções propostas,
discussões e novidades a respeito de temas como o conhecimento da formação, estrutura e
características da matéria orgânica, que é de vital importância para a compreensão das suas
propriedades e consequentes interações existentes no solo, entre outros temas relevantes já
listados acima.
2. PROGRAMA DO EVENTO:
Em anexo (Anexo 1).
3. RESUMO DE SEU TRABALHO APRESENTADO
Os solos de maior ocorrência nos ambientes genericamente chamados de restinga são os
Espodossolos, caracterizados pela presença de horizonte espódico (Bh ou Bhm). São poucos os
estudos científicos relacionadas à gênese destes solos em regiões tropicais, assim como há
poucos estudos detalhados avaliando as características e a composição química da matéria
orgânica (MO) presente nestes solos, bem como as suas relações com a transcorrência do tempo.
Os municípios paulistas de Cananéia e Bertioga foram selecionados para o desenvolvimento
desta pesquisa devido à presença de diferentes unidades sedimentares e de vegetação
remanescente. A caracterização dos ácidos húmicos (AH) extraídos dos horizontes dos diferentes
perfis de Espodossolos com o emprego de técnicas espectroscópicas como Espectroscopia de
Infravermelho com Transformada de Fourier (FTIR) e Fluorescência, foram realizadas com o
objetivo de se conseguir um maior detalhamento da matéria orgânica (MO) presente nesses solos
e, a partir daí, relacionar os resultados com a estabilidade do carbono e o tempo de residência
médio (TRM) da MO. A principal hipótese testada foi a de que os perfis com a MO com maior
TRM teriam os maiores conteúdos de compostos mais recalcitrantes. Neste âmbito, os principais
resultados relacionados com os objetivos foram: os perfis mais antigos foram os que
apresentaram as maiores concentrações de compostos mais recalcitrantes, principalmente nos
horizontes subsuperficiais (Bh e Bhm), essa inferência pode indicar que com a transcorrência do
tempo a MO presente tende a sofrer alterações na sua composição e se tornar mais recalcitrante.
O resumo expandido apresentado no evento está em anexo (Anexo 2).
4. CONCLUSÕES:
O evento foi muito importante para a minha formação acadêmica, pois possibilitou o
aprimoramento do meu conhecimento em relação ao tema, bem como uma interação direta com
alguns renomados pesquisadores da área. Pude interagir com outros estudantes, de partes
diferentes do mundo, que também estão se formando nessa área do conhecimento. A troca de
experiências, bem como o acúmulo de informações geradas durante o evento foi muito
importante para o meu crescimento acadêmico e pessoal. Dentre os diferentes temas que foram
abordados, houve uma sessão dedicada à área de Estrutura, Formação e Características das
Substâncias Húmicas e Matéria Orgânica, enfocando temas atuais e apresentando perspectivas
futuras da pesquisa, na qual participei por meio de uma apresentação de resumo expandido do
projeto que desenvolvi durante o mestrado e também na forma de pôster.
5. DEMOSTRAÇÃO FINANCEIRA DOS RECURSOS DA FUNDAÇÃO AGRISUS.
O recurso liberado pela Fundação Agrisus (R$4.500,00) foi utilizado inteiramente na
compra das passagens aéreas internacionais, as quais excederam o valor liberado, sendo a
diferença paga à parte. Segue em anexo o recibo da compra (Anexo 3).
6. DATA E NOME DO PARTICIPANTE.
12 de Outubro de 2012,
Josiane Millani Lopes
Anexo 1: Tentative Program of IHSS 16
Sunday, September 9th, 2012 Zhejiang Zijingang International
Hotel
8:00 18:00 Registration and pickup of materials: Reception HallSet‐up posters: Authors are expected to have your poster ready by 18:00pm on September 10
12:00 14:00 Lunch18:00 20:00 Reception‐Welcome cocktail
Monday, September 10th, 2012 International Conference
Center, Zijingang Campus, Zhejiang University
Morning HalfChair Person: Jianming XuOpening Session8:30 9:30 Opening Ceremony
Welcome address: Governative and Academic Authorities
9:30 9:50
Photographing
Coffee/Tea Break
Chair Persons: Ladislau Martin‐Neto and Renfang ShenKeynote lectures9:50 10:20 W i lliam T. Cooper a,*, Malak M.Tfailya,b, Jane E. Corbetb,
Jeffrey P. Chantonb
a Department of Chemistry & Biochemistryb Department of Earth, Ocean and Atmospheric Science; Florida StateUniversity, Tallahassee, FL 32306‐4390, USACorrelating bulk optical spectroscopy and ultrahigh resolution massspectrometry to determine the molecular composition of dissolvedorganic matter in Northern Peatlands
10:20 10:50 Donald L. S p ar k s , Chunmei ChenDelaware Environmental Institute, University of Delaware, Delaware,USA, 19711The role of mineral complexation and metal redox coupling in carboncycling and stabilization
1
10:50 11:20 La r s T r a n v i k Uppsala University, SwedenSequestration and loss of NOM in inland waters ‐ from micro‐scale to global scale
11:20 11:50 Joseph J. Pig n a t ello The Connecticut Agricultural Experiment Station, 123 Huntington St., New Haven, CT, USARole of natural organic matter as sorption suppressant in soil
12:00 14:00 Lunch
Afternoon HalfSession 1 Formation, structure and characteristics of HS and NOMChair Person: Jerzy WeberKeynote lectures14:00 14:30 J .A . Gon z ál e z P é re z a, F. J. González Vilaa, G. Almendrosb, H.
Knickera, J.M. de la Rosaa, Z. Hernándezb
a IRNAS CSIC. Avda. Reina Mercedes, 10, 41012Seville, Spain
b MNCN CSIC. Serrano 115bis, 41080‐Madrid, SpainRevisiting structural insights provided by analytical pyrolysis about humic substances and related bio and geopolymers
14:30 15:00 Xudong ZhangInstitute of Applied Ecology, CAS, ChinaMicrobial derived soil organic matter (or Humus): Significance, technology and perspective
Oral 15:00
presentation15:20 Hernand e z Soriano M C , Horemans B, Smolders E
Division of Soil and Water Management, Katholieke Universiteit Leuven,Kasteelpark Arenberg 20, 3001 Heverlee, BelgiumFTIR analysis of soil organic matter to link the turnover of organicinputs with carbon respiration rates
15:20 15:40 Michael H.B. Hayesa, R o g er S. S w if t baChemical and Environmental Sciences, University of Limerick, IrelandbQueensland Alliance for Agriculture and Food Innovation, The University of Queensland, AustraliaLumping or splitting: Holistic or fractionation approaches to studies of humic substances
15:40 16:00 Zaccone C a,*, Pabst S b,c, Miano TM d, Shotyk W ea Department of Agro Environmental Sciences, Chemistry and Plant
b Institute of Earth Sciences, University of Heidelberg, 69120 Heidelberg, Germanyc BHP Billiton Iron Ore, Exploration Area C, Newman 6753, WesternAustraliad Department of Biology and Chemistry of Agro Forestry andEnvironment, University of Bari, 70126 Bari, Italy; e Department ofRenewable Resources, University of Alberta, Edmonton, Alberta, T6G2H1, CanadaThe fate of mineral particles in bulk peat and corresponding humicacids throughout an ombrotrophic bog profile: atmospheric dust
16:00 16:10
depositions vs. mineralization processes
Coffee/Tea Break
Chair Person: Fusuo ZhangOral presentation16:10 16:30 Oleg Trubetsko j a,*, Lubov Shaloikob, Dmitrii Demina, Victor
Marchenkovc, Olga Trubetskayab
a Institute of Basic Biological Problems, Russian Academy ofSciences, 142290, Pushchino, Moscow region, Russiab Branch of Shemyakin and Ovchinnikov Institute of BioorganicChemistry, Russian Academy of Sciences, 142290, Pushchino, Moscow region, Russia; cInstitute of Protein Research, RussianAcademy of Sciences, 142290, Pushchino, Moscow region, RussiaSplitting of soil humic acid fluorescence on different fluorophores
16:30 16:50 E. Michael P e r due Department of Chemistry, Ball State University, Muncie, IN 47306 U.S.AStandard and reference samples of humic acids, fulvic acids, andnatural organic matter from the Suwannee River, Georgia – Thirtyyears of isolation and characterization
16:50 17:10 A nt onio Nebbioso , Alessandro PiccoloCentro di Ricerca Interdipartimentale sulla Risonanza MagneticaNucleare (NMR) per l'Ambiente, l'Agro‐Alimentare ed i Nuovi Materiali
(CERMANU), Università degli Studi di Napoli Federico II, Portici, ItalyMolecular understanding of a humic acid by “humeomic” fractionationand benefits from preliminary HPSEC separation
17:10 17:30 Gui x ue Son g a, Rajaa Mesfioub, Aaron Dotsona,b, Paul Westerhoffa,b*, Patrick Hatcherb
a School of Sustainable Engineering and The Built Environment, ArizonaState University, Tempe, AZ 85287,USA
b Department of Chemistry and Biochemistry, Old Dominion University, Norfolk, VA 23529, USASulfur containing molecules observed in hydrophobic and amphiphilic fractions of dissolved organic matter by Fourier transform ion cyclotron resonance mass spectrometry
17:30 17:50 Du Chang w en a ,*, He Zhongqib, Zhou Jianmina
a Institute of Soil Science, Chinese Academy of Sciences, Nanjing 210008,Chinab USDA ARS, New England Plant, Soil, and Water Laboratory, Orono, ME04469, USACharacterization of soil humic substances using mid infraredphotoacousctic spectroscopy
17:50 18:10 Xiaomin Li a,b, Liang Liua, Tong Xu Liua, Tian Yuana, Wei Zhanga, FangbaiLia,*, Shungui Zhoua, Yongtao Lib
a Guangdong Key Laboratory of Agricultural Environment PollutionIntegrated Control, Guangdong Institute of Eco‐Environmental and SoilSciences, Guangzhou 510650, Chinab College of Natural Resources and Environment, South China AgriculturalUniversity, Guangzhou 510642, ChinaEffects of synthetic quinones as electron shuttles on geothite reductionand current generation by Klebsiella pneumoniae L17
18:10 20:00 Dinner
Tuesday, September 11th, 2012 International Conference
Center, Zijingang Campus, Zhejiang University
Morning HalfChair Person: Paul BloomKeynote lectures8:00 8:30 N Hert k orn a,*, M Harira, BP Koch b, B Michalkea, Ph Schmitt
Kopplin aaHelmholtz Zentrum Muenchen, German Research Center forEnvironmental Health, Institute of Ecological Chemistry, IngolstädterLandstrasse 1, D 85764 Neuherberg, GermanybAlfred Wegener Institute, AWI, Am Handelshafen 12, D 27570Bremerhaven, (Building Co 5), GermanyElucidating the biogeochemical memory of the oceans by means ofHigh resolution organic structural spectroscopy
Oral presentation
8:30 8:50 Cher n y sh e v a M . G., Badun G.A.Lomonosov Moscow State University Dpt. Chemistry, Moscow 119991, RussiaHS protein associates in the aqueous/oil system: composition and colloidal properties
8:50 9:10 Sen Dou a, Song Guana, Guang Chenb, Gang Wangb
aDepartment of Resource Science, College of Resource andEnvironmental Science, Jilin Agricultural University, Changchun 130118,China andbCollege of Life Science, Jilin Agricultural University, Changchun 130118,ChinaDynamics of formed humic acid and fulvic acid newly in aggregateswith the addition of 14C labelled wheat straw in a Typic Hapludoll ofnortheast China
9:10 9:30 Coffee/Tea Break
Session 2 HS/NOM and carbon sequestrationChair Person: Gudrun Abbt BraunKeynote lectures9:30 10:00 Debo r ah P. Dick a,b, Cecília S. Reisb, Cimélio Bayerb, Jennifer S.
Caldasb
aInstitute of Chemistry, Federal University of Rio Grande do Sul Ave. Bento Gonçalves, 9500, 91501‐970 Porto Alegre, BrazilbSoil Science Department, UFRGS, BrazilCarbon sequestration in subtropical Oxisols profiles: retention capacityand effect of soil management
10:00 10:30 Jinshui Wu Key Laboratory for Agro ecological Processes in Subtropical Regions,Institute of Subtropical Agriculture, CAS, Changsha, Hunan, 410125,ChinaDynamics in the microbial transformation of soil organic carbon
Oral 10:30
presentation10:50 Agni e s z k a M e dyńs k a Ju r as z ek a, Leszek Kucharb
aWroclaw University of Environmental and Life Sciences, Institute of SoilScience and Environmental ProtectionbDepartment of Mathematics, Grunwaldzka 53, 50 357 Wroclaw, PolandCarbon sequestration rates in organic layers of soils under the Greypoplar (Populus x canescens) stands impacted by heavy metal pollution
10:50 11:10 Liebne r , F . ,* Wieland, M., Hosoya, T., Pour, G., Potthast, A., Rosenau, TUniversity of Natural Resources and Life Sciences, Vienna, Department of
Chemistry, Muthgasse 18, A 1190 Vienna, Austria
CO2 sequestration by humic substances and the contribution of quinones and quinone imines: Consideration on the molecular scale
11:10 11:30 Raymond Li u a, Jianming Xub, C. Edward Clappc
a Retired Scientist, St. Paul, MN, USAb College of Environmental and Natural Resource Sciences,, ZhejiangUniversity, Hangzhou, 310029 ChinacResearch Chemist & Professor, USDA ARS & U MN,St. Paul, MN, USACarbon sequestration in organic farming
11:30 11:50 Ran Bia,b, Yong Yuana, Li Zhuanga, Shungui Zho u a,*aGuangdong Institute of Eco‐environmental and Soil Sciences,Guangzhou 510650, ChinabGuangzhou Institute of Geochemistry, Chinese Academy of Sciences,Guangzhou 510640, ChinaElectron transfer capacity as a rapid index for soil organic carbonstability
12:00 14:00 Lunch
Afternoon HalfSession 4 HS/NOM and the environmental processes of toxic elements and anthropogenic organicsChair Person: Irina PerminovaKeynote lectures14:00 14:30 W i lliam C. K oskinen a,*, Alegria Cabrerab, Kurt A. Spokasa, Lucia
Coxb, Jennifer L. Rittenhousea, Pamela J. Ricea
aUSDA Agricultural Research Service, 1991 Upper Buford Cir., Rm. 439,St. Paul, MN, USAbInstituto de Recursos Naturales y Agrobiología de Sevilla (IRNASE CSIC),P.O. Box 1052, 41080 Sevilla , SpainEffect of carbonaceous soil amendments on potential mobility of weakacid herbicides in soil
Oral presentation14:30 14:50 Haizhen W an g , Zhongzhen Liu, Yan He, Jianming Xu*
College of Environmental and Natural Resource Sciences, ZhejiangProvincial Key Laboratory of Subtropical Soil and Plant Nutrition,Zhejiang University, Hangzhou, 310058, P.R. ChinaContribution of soil organic and inorganic components to butachlorsorption in soils
14:50 15:10 M a sami Fu k ushim a a,*, Ryo Okabea, Ryo Nishimotoa, Shigeki Fukuchia,Tsutomu Satoa, Motoki Terashimab
aLaboratory of Chemical Resource, Division of Sustainable ResourceEngineering, Graduate school of Engineering of Hokkaido University, Sapporo 060 8628, JapanbGeological Isolation Research and Development Directorate, JapanAtomic Energy (JAEA), 433 Muramatsu, Tokaimura, Nakagun, Ibaraki3191194, JapanSorption of pentachlorophenol to organo clay complexes prepared bypolycondensation reactions of humic precursors
15:10 15:30 Louloudi, M a,*, Papastergiou, M.a, Perlepes, S.P.ba University of Ioannina, Department of Chemistry, 45100 Ioannina,Greeceb University of Patras, Department of Chemistry, 26504 Patras, GreeceMechanisms of co catalytic action of humic Like additives onpentachlorophenol oxidation by a Fe porphyrin catalyst
15:30 15:50 Coffee/Tea Break
Chair
15:50
Person:
16:10
Claudio CiavattaI r ena T w a r do w s k a a,*, Ewa Miszczaka, Sebastian Stefaniaka, PhilippeSchmitt‐Kopplinb, Mourad Harirb
a Polish Academy of Sciences, Institute of Environmental Engineering,34, M. Sklodowska Curie St., 41819 Zabrze, PolandbGerman Research Center for Environmental Heath, Helmholtz ZentrumMünchen, Institut für Ökologische Chemie, Neuherberg, GemanyEffect of humification and temporal alterations of organogenicwaste(sewage sludge) properties on its sorption capacity for metals
16:10 16:30 N. S. K udr y a s h e v a a, b, A.S. Tarasovaa, E.S. Fedorovab
aSiberian Federal University, Krasnoyarsk, 660041, Russia bInstitute of Biophysics SB RAS, Krasnoyarsk, 660036, RussiaMechanisms of detoxification by humic substances
16:30 16:50 Z. Mata r a, G. Chebbob,c, M. Troupela, L. Boudhamanea, E. Parlantid, E. Uhere, C. Gourlaye and G.Varraulta*aUniversité Paris Est, LEESU MA 102 – 61 av. du Gal de Gaulle, 94010Créteil Cedex, France
bUniversité Paris Est, LEESU UMR MA 102 ‐ F‐77455 Marne La ValleFrancecLebanese Univesity, Faculty Enginering, Lebanon, NH USAd Université de Bordeaux, CNRS, UMR 5805, EPOC‐LPTC, 351 cours de laLibération, 33405 Talence Cedex, Francee IRSTEA, Unité Rech Hydrosyst & Bioprocédés, F‐92613 Antony, France
Influence of organic matter from urban effluents on trace metalspeciation and bioavailability in river under strong urban pressure
16:50 17:10 M. Elisabete F. Silvaa,b, L. Teixeira de Lemosa, O.C. Nunesc, A . C. Cunha Qu e d a b,*
aDepartamento de Ambiente, Escola Superior de Tecnologia e Gestão eViseu; bUIQA/Departamento de Ciências e Engenharia de Instituto Superior de Agronomia, Universidade Técnica de Lisboa;cLEPAE Departamento de Engenharia Química, Faculdade de Engenharia,Universidade do PortoCorrelation between humic like substances and heavy metals incomposts
17:10 17:30 Martina Klu čá k o v á *, Kristýna NováčkováMaterials Research CentreCZ.1.05/2.1.00/01.0012, Brno University ofTechnology, Faculty of Chemistry, Purkynova 118, 612 00, Brno, CzechRepublicComparison of thermal and chemical stability of Cu‐humic complexes
18:00 21:00 Banquet
Wednesday, September 12th, 2012 International Conference
Center, Zijingang Campus, Zhejiang University
Morning halfSession 8 Characterization and function of biochar in the environmentChair Person: Jinshui WuKeynote lectures8:00 8:30 Jeff re y No v a k a,*, Keri Cantrella, Don Wattsa, Mark Johnsonb aUSDA
ARS CPRC, 2611 West Lucas Street, Florence, SC, 29501, USA,
bUSEPA‐NHEERL, 200 Southwest 35th Street, Corvallis, OR, 97333, Designing relevant biochars to revitalize soil quality: Current status and advances
8:30 9:00 Michael H.B. H a y e s Carbolea Research Group, Chemical and Environmental Sciences, University of Limerick, IrelandRelationships between biochar and soil humic substances
9:00 9:30 R en k ou Xu Institute of Soil Science, CAS, ChinaEffect of biochar incorporation on chemical properties of variable charge soils from tropical and subtropical regions
9:30 9:50 No v o t n y E H a,*, Auccaise Ra, Lima LBbc, Madari BEb
a Embrapa Soils, Rua Jardim Botânico, 1024, CEP 22460 000, Rio deJaneiro RJ, Brazil
Antônio de Goiás – GO, Brazilc Federal University of Goiás, Caixa Postal 131, CEP 74690 900, Goiânia – GO
Characterisation of humic substances extracted from soil treated with charcoal (biochar)
9:50 10:00 Coffee/Tea Break
Oral presentation
b Embrapa Rice and Beans, Caixa Postal 179, CEP 75375 000, Santo
Session 3 HS/NOM and biogeochemical cycling of nutrientsChair Persons: Raymond HozalskiKeynote lectures10:00 10:30 Fusuo Zhang
China Agricultural University, Beijing ChinaImproving soil quality in intensive agriculture to ensure food security and environmental quality simultaneously
10:30 11:00 S t e v e Ban w art University of Sheffield, UK
Soil carbon flux and biological weathering from nanometric‐ toPlanetary scale
Oral 11:00
Presentation11:20 CR Butterlya, JA Baldockb, C Ta ng a
a Department of Agricultural Sciences, La Trobe University, Melbourne3086, Australiab CSIRO Sustainable Agriculture Flagship, CSIRO Land & Water, PMB 2,Glen Osmond 5064, AustraliaAlkalinity generation by agricultural residues under field conditions
11:20 11:40 O. O. A d e sa n w o a,b, M. T. Adetunjia, S. Diattaa
aAfrican Rice Center, International Institute of Tropical Agriculture,Ibadan, NigeriabDepartment of Soil Science & Land Resources Management, Faculty ofAgriculture, Obafemi Awolowo University, Ile IfeField assessment of humic substances effect on phosphate rocksolubilzation
11:40 12:00 Dhan a se k a r a n. K , Priyarani. RDepartment of Soil Science and Agricultural Chemistry, Faculty of
9
Agriculture, Annamalai University Annamalai nagar‐608002, Tamilnadu,IndiaEffect of calcium boro humate application on the yield performance of
12:00 14:00
cotton
Lunch
Afternoon HalfSession 5 HS/NOM, naturally occurring and engineered nanoparticlesChair Persons: Baoshan Xing (Coordinator of Section 5) and Nicola SenesiKeynote lectures14:00 14:30 Baoshan Xing
The University of Massachusetts, Amherst, MA 01003, USAEnvironmental processes and biotoxicity of engineered nanoparticles
14:30 15:00 P ermino v a IV Department of Chemistry, Lomonosov Moscow State University, Moscow,RussiaHumic substances assisted synthesis of nanoparticles in the nature andin the lab
Oral 15:00
Presentation15:20 Ilya Lerman, Yona Chen, Ben n y C he f e tz
Department of Soil and Water Sciences, Faculty of Agriculture, Food andEnvironment, The Hebrew University of Jerusalem, P.O. Box 12, Rehovot76100, IsraelAdsorption of contaminants of emerging concern by carbonnanotubes: influence of dissolved organic matter
15:20 15:40 Di Zhanga, Bo P an a*, Hao Lia, Baoshan Xingb
a Faculty of Environmental Science & Engineering, Kunming University ofScience & Technology, Kunming, China, 650093b Department of Plant, Soil and Insect Sciences, University ofMassachusetts, Amherst, MA 01003Adsorption of sulfamethoxazole on DOM suspended carbonnanotubes
15:40 16:00 Vidali M Sa, Vlastos Da, Bletsa Eb, Deligia n nakis Y aaDepartment of Environmental and Natural Resources Management,University of Western Greece, 30100 Agrinio, GreecebDepartment of Materials Science and Engineering University ofIoannina GreeceGenotoxicity study of multi walled carbon nanotubes in the presenceof humic acids
16:00 16:20 G r a z iele da Co st a Cunh a a,*, Daniel Felix Dias dos Santosa, Luciane Pimenta Cruz Romão b, Zélia Soares Macedo
Química; c Departamento de Física, Universidade Federal de Sergipe,49100 000 São Cristóvão, SE, BrazilApplication of natural organic matter in the biosynthesis of α-aluminananoparticles: the humic sol gel route
16:20 16:40 Xiaoli Tiana, Kun Yanga,b, Yong Xua, Huifeng Lua, Daohui Li n a,b,*
aDepartment of Environmental Science, Zhejiang University, Hangzhou310058, ChinabZhejiang Provincial Key Laboratory of Organic Pollution Process andControl, Zhejiang University, Hangzhou 310058, China.Effect of humic acids on the physicochemical property and Cd(II)sorption of multiwalled carbon nanotubes
16:40 16:50 Coffee/Tea Break
a Departamento de Engenharia de Materiais; b Departamento de
Special Performance for Student Travel Award GranteesChair Persons: Teodoro MianoOral presentation16:50 17:05 H.M . Abdel r a h ma n a,b*, D.C.Olkb, C.Cocozzaa, D.
Ventrellac, F.Montemurrod, T. Mianoa
aDepartment of Biology and Chemistry of Agro Forestry andEnvironment, University of Bari, ItalybUSDA ARS National Laboratory for Agriculture and the Environment,Ames, IA, USAcResearch Unit for Cropping Systems in Dry Environments (CRA SCA).Bari, ItalydResearch Unit for the Study of Cropping Systems (CRA SSC). Metaponto,ItalyIntegrated physical chemical procedure for soil organic carbonfractionation and characterization during transition to organic farming
17:05 17:20 Olena Samsoni To do r o v a *, Natalia Klymenko, Liudmyla SavchynaInstitute of Colloid Chemistry and Chemistry of Water, National Academyof Science of Ukraine, 42 Vernadsky Avenue, Kyiv, 03680, UkraineProduction of biologically stable safe drinking water from pollutedsurface water sources
17:20 17:35 Ta o Jiang a,b,c, Shiqiang Weia,b,c,*, Xuemei Lia, Song Lud, Meijie Lia
aChongqing Key Laboratory of Agricultural Resources and Environment,Chongqing 400715, China
bCollege of Resource and Environment, Southwest University, Chongqing400715, ChinacEngineering Research Center for Agricultural Non‐Point Source PollutionControl in the Three Gorges Reservoir Area, Chongqing 400715, ChinadDepartment of Applied Chemistry, Chongqing Vocational Chemical andIndustry School, Chongqing 400020, ChinaDetermination and characterization on the capacity of humic acid forthe reduction of divalent mercury
17:35 17:50 T a dini, A. M . , Moreira, A.B., Bisinoti, M.C.Instituto de Biociências, Letras e Ciências Exatas, Department ofChemistry and Environmental Sciences, Universidade Estadual Paulista“Júlio de Mesquita Filho” São José do Rio Preto, São Paulo, BrazilInfluence of Aquatic Humic Substances from a sugarcane area andorange in the dynamics of chromium ions in the environment
17:50 18:05 Anna S. Ta r a s o v a a, Nadezhda S. Kudryashevaa,b
aSiberian Federal University, Krasnoyarsk, 660041, RussiabInstitute of Biophysics SB RAS, Krasnoyarsk, 660036, RussiaReaction rates in enzymatic assay system in solutions of metal saltsand humic substances
18:05 19:30 Dinner
Zhejiang Zijingang International HotelChair Persons: Teodoro Miano and Ladislau Martin Neto19:30 21:30 Celebrating 30th IHSS Anniversary
Thursday, September 13th, 2012
Conference Tour: Field trip and West Lake
Friday, September 14th, 2012 International Conference Center,
Zijingang Campus, Zhejiang University
Morning halfSession 7 HS/NOM in water and water treatmentChair Persons: Fritz Frimmel
12
Keynote lectures8:00 8:30 Itamar Nadav, Jorge Tarchitzky, Yo na Che n *
Faculty of Agriculture, Food and Environment Hebrew University ofJerusalem, POB 12, Rehovot, IsraelWater repellency induced by organic matter (OM) in treatedwastewater (TWW) infiltration ponds and irrigation
Oral presentation8:30 8:50 V i r ender K. Sharm a a,*, Jia Qian Jiangb, and Hyunook Kimc
aCenter of Ferrate Excellence and Chemistry Department, 150 WestUniversity Boulevard, Melbourne, Florida, USAbSchool of Engineering and Built Environment, Glasgow Caledonian University, Cowcaddens Road, Glasgow, Scotland, G4 0BA, United KingdomcUniversity of Seoul, Dept. of Environmental Engineering, 90Jeonnong dong Dongdaemun gu, Seoul 130‐743, KoreaFerrate(VI): Novel compound for removal of natural organic matter inwater
8:50 9:10 R olf D. V o gt *, Alexander Engebretsen, Christian MohrDepartment of Chemistry, University of Oslo, NorwayThe effect of increased Dissolved natural organic matter oneutrophication
9:10 9:30 Fuqiang Liu Nanjing University, Nanjing, 210046, ChinaEfficient removal of DOM and high purification of wastewater by anovel magnetic polymer microspheres technology: Investigation andapplication
9:30 9:50 Lingling Wanga, Long f ei W ang a, Xuemei Renc, Xiaodong Yeb, Wenwei Lia, Shijie Yuana, Min Suna, Guoping Shenga, Hanqing Yua, Xiangke Wangc aDepartment of ChemistrybDepartment of Chemical Physics, University of Science & Technology ofChinacInstitute of Plasma Physics, Chinese Academy of Sciences, Hefei, 230026,ChinapH dependence of configurations and surface properties of microbialextracellular polymeric substances (EPS)
9:50 10:00 Coffee/Tea Break
Session 6 HS/NOM, biodiversity and ecosystem healthChair Persons: Roger Swift
Keynote lectures10:00 10:30 Ph i l B r oo k e s a,*, Sarah Kemmittb
*Sustainable Soils and Grassland Systems, Rothamsted Research,Harpenden, Herts AL5 2JQ UK.bCurrent address: FSA, London, E14 5HS.How important is microbial biodiversity in controlling themineralization of soil organic matter?
10:30 11:00 F en g chang Wu Chinese Research Academy of Environmental Sciences, Beijing, ChinaNatural organic matter and its environmental effects in Chinese lakes
Oral 11:00
Presentation11:20 Yan Lia, W e n f eng Ta n a,b,*, Luuk K. Koopala, c
aCollege of Resources and Environment, Huazhong Agricultural University,Wuhan 430070, China.bState Key Laboratory of Soil Erosion and Dryland Farming on the LoessPlateau, Institute of Soil and Water Conservation, Chinese Academy ofSciences & Ministry of Water Resources, Yangling, Shanxi 712100, P.R.Chin.cLaboratory of Physical Chemistry and Colloid Science, WageningenUniversity, 6703 HB Wageningen, The Netherlands.The influence of humic acids on the activities of lysozyme and urease
11:20 11:40 Millour M., Gagné J . P . *
Institut des sciences de la mer de Rimouski, Université du Québec àRimouski, 310 Allée des Ursulines, G5L 3A1, Rimouski, Québec, CanadaSorption between humic substances and marine microalgae inestuaries: effects of microalgae species, pH and salinity
11:40 12:00 P r abh a t P r a m an i k , Pil Joo Kim*
Division of Applied Life Science, Gyeongsang National University, Jinju,660701, South KoreaFeasibility of chelating agent utilization for suppressing methaneproduction during soil organic matter decomposition
12:00 14:00 Lunch
Afternoon halfSession 9 Industrial products and application of HSChair Persons: Dan Olk (Coordinator of Section 9) and Xuedong ZhangKeynote lectures14:00 14:30 Dan C. Ol k a, Dana L. Dinnesa, Chad Callawayb, Mike Raskeb
aUSDA ARS, National Laboratory for Agriculture and the Environment,
Ames, IA 50011, USAbInnovative Crop Solutions, Radcliffe, IA, 50230, USA.On farm evaluation of a humic product in Iowa (U.S.) maize production
Oral presentation14:30 14:50 Traversa Aa, Loffredo Ea, Palazzo AJb, Bashore TLc, Sen e si N a
aDipartimento di Biologia e Chimica Agro‐forestale e Ambientale,University of Bari, 70126 Bari, ItalybERDC CRREL, Hanover, NH 03755 1290, USA;cHQ ACC/A3A, Airspace, Ranges, Airfield Operations Division, Langley AFB,VA 23665 2789, USA.Enhancement of germination and early growth of different populationsof switchgrass (Panicum virgatum L.) by compost humic acids
14:50 15:10 Guido M e y er a, Renate Klöckinga,*
aInstitut für Verfahrensentwicklung, Torf und Naturstoff‐Forschung,
Friedrich Schneider‐Straße 26, D‐02763 Zittau, Germany; Zittau/Görlitz, Zittau, Germany.Humic acid quality: 2. Using oxalic acid as precipitating agent
15: 10 15:30 K a r aman M R a, Turan Mb, Tutar Ac, Dizman Mc, Şahin Sa
aDepartment of Soil Sci. and Plant Nutrition, Agri.Faculty,Gaziosmanpasa Univ, Tokat, Turkey
bDepartment of Soil Sci. and Plant Nutrition, Agri. Faculty, Ataturk Univ,Erzurum, TurkeycDepartment of Chemistry, Faculty of Sci., Sakarya Univ, Sakarya, TurkeyPossible use of leonardite based humate sources as a potentialorganic fertilizer
15:30 15:50 Jin g dong Mao a, Dan C. Olkb, Na Chena, Dana L. Dinnesb, Mark Chappellc
aDepartment of Chemistry and Biochemistry, Old Dominion University,Norfolk, VA, 23529, USAbUSDA ARS, National Laboratory for Agriculture and the Environment,Ames, IA 50011, USAcU.S. Army Corps of Engineers, 3909 Halls Ferry Rd., Vicksburg, MS 39180,USAChemical properties of humic and fulvic acid products and their ores oforigin
15:50 16:10 Richa r d Lamar a, Dan C. Olkb, Lawrence Mayhewc, Paul R. Bloomd
aEarthFax Development Corp., 1770 N. Research Park Way, North Logan,
UT 84341, USA
bUSDA‐ARS, National Laboratory for Agriculture and the 2110 University Blvd, Ames, IA, 50011, USA
c3899 Schreiner Rd, Spring Green, WI, 53588, USAdUniversity of Minnesota, 1991 Upper Buford Circle, St. Paul, MN 55108,USAEvaluation of a proposed standardized analytical method for the determination of humic and fulvic acids in commercial products
16:10 16:30 Mora, V., Jannin, L., Bacaicoa, E., Arkoun, M., Fuentes, M., Olaetxea, M., Baigorri, R., Garnica, M., San Francisco, S., Zamarreño, AM., Ourry, A., Etienne, P., Laîné, P., Yvin, JC., Ga r cía Mina, JM INRA, UMR 950 Ecophysiologie Végétale, Agronomie et nutritions N, C, S. Esplanade de la paix, 14032 Caen Cedex, FranceCIPAV Roullier Group Poligono de Arazuri Orcoyen, Calle C, n°32, E 31160Orcoyen, SpainDEPARTMENT of Chemistry and Soil Chemistry. University of Navarra. CRIAS Roullier Group 55 boulevard Jules Verger, 35800 Dinard, France Potential direct mechanisms involved in the action of humic substances on plant development
16:30 16:40 Steve AzzarelloHumic Products Trade AssociationThe humic products trade association: Its activities and plans
Closing Ceremony16:40 17:00 Concluding remarks by Jianming
Xu
18:00 20:00 Dinner
Anexo 2:Humic substances of spodic horizons in the coastal plain of São Paulo StateLopes JM a*, Vidal-Torrado Pa, Buurman Pb, Camargo PBa
a Departamento de Ciência do Solo, Escola Superior de Agricultura “Luiz de Queiroz”, Universidade de São Paulo. Av. Pádua Dias, 11, C.P. 9, Bairro Agronomia, Piracicaba, SP. CEP 13418-900, Brazil b Dept. of Environmental Sciences, Wageningen University. P.O. Box 47, 6700 AA Wageningen, The Netherlands.*Tel. No. +55-19 3417 2141; E-mail: josiane.lopes@usp.brKeywords coastal plain; humic substances; mean residence time; Podzol; soil organic matter; spodic horizons
Abstract The most common soils that occurred in environments generically called restinga are Podzol that are characterized by the presence of spodic horizon (Bh or Bhm). There are few scientific studies related to the genesis of these soils in tropical regions, and there are few detailed studies assessing the chemical characteristics and composition of organic matter (OM) present in these soils, as well their relations with time. The cities Cananéia and Bertioga were selected for this research due to the presence of different sedimentary units and remaining vegetation. The characterization of humic acids (HA) was realized using spectroscopic techniques like Fourier Transform Infrared spectroscopy (FTIR) and fluorescence. Samples were extracted from different Podzol horizons in order to achieve more details about the OM present in these soils and relate the results to the stability of carbon and the mean residence time (MRT) of OM. The main hypothesis tested was that the profiles were the OM has less TRM would have the highest contents of more recalcitrant compounds. In this context, the main results related to the objectives were: the older profiles were those with the highest concentrations of more recalcitrant compounds, especially in the subsurface horizons (Bh and Bhm). This inference may indicate that with transcurrent of time MO tends to undergo changes in its composition and become recalcitrant.
IntroductionThe OM plays a fundamental role in the Podzol formation process, consisting of humic substances (HS), that are products of oxidative degradation and subsequent humification of OM (Stevenson, 1994). The HS are organic substances chemically complex, amorphous, generally dark, hydrophilic, acidic or partially aromatic (Schnitzer, 1982) composed by compounds that have a wide variety of functional groups (carboxylic, hydroxyl, phenolic, carbonyl, etc.). Part of the HS present in the Bh horizons and Bhm comes from the superficial OM decomposition and some authors have suggested that the TMR estimated by 14C and, consequently, the stability of OM in the soil increases with depth (Paul et al, 1997). The study of SH is possible using spectroscopic techniques such as FTIR (González-Pérez et al., 2008), which permits the study of the structure of HS. Another technique widely used is the fluorescence, by which it is possible to estimate the humification degree (Milori et al., 2002), allowing the elucidation of different aspects of reactivity and chemical structure of OM.
Materials and methodsThe profiles called P03, P10 and P30 are located in Cananéia, and the profile P04 in Bertioga. FTIR measurements were performed using methods well
established in the literature (Stevenson, 1994) using tablets with 1 mg of SH and 100 mg KBr. For preparation of the tablets, samples were ground with KBr, packed in a mold and pressed. The spectra were obtained using 16 scans in the range 4000-400 cm-1, with spectral resolution of 4 cm and a range of 1 cm-1.For fluorescence analysis, the HA extracted from the soil profiles were dissolved in NaHCO3 solution 0.05 mol L-1. The spectra were obtained according to the methodology proposed by Milori et al. (2002).For the dating of the soil source material (coastal sediments) by thermoluminescence (TL), the samples were collected with the aid of black PVC pipe inserted horizontally to the ground surface. Both the collection and the dating were performed according to the procedures cited by Tatumi et al. (2003).
Results and discussionThe FTIR spectra of HA extracted from different horizons (A, Bh and Bhm) from the profiles P03, P04, P10 and P30 are shown in Figure 1. Is possible to observe that the spectra of HA extracted from different soil profiles show similarities. There are no significant structural and chemical variations between samples in AH, but it is possible to observe changes in the intensities between the groups in each profile.
Fig. 1 FTIR spectra of HA extracted from the surface horizons (A) and subsurface (Bh and Bhm) from P03, P10, P30 and P04 profiles, respectively.
In the spectra of all profiles can be observed that samples of the soil surface have an absorption band between 1170 - 950 cm-1, the same being absent in the spectra obtained for the subsurface layers Bhm and Bh. This band is assigned to CO stretching of polysaccharides. This result is related to higher content of OM decomposed or even by the presence of microbial activity. It is well know that microorganisms produce polysaccharides during the decomposition of OM (Stevenson, 1994). Another region of the spectrum can be observed only for the samples of the soil surface is between 1660 - 1630 cm-1 which is attributed to stretching of C = O from amide, which can usually be associated with proteins.In the spectral region between 3400 - 3300 cm -1, the absorption due to stretching of the H-bound to OH and NH is stronger in samples from the surperficial horizons, and the lower intensity is observed for Bh horizons. Another variation in intensity is observed in the region between 2940 - 2900 cm-1, which is assigned to CH stretching of aliphatic groups, being observed a greater intensity of this band in the soil surface, showing a higher concentration of aliphatic.Another variation in depth may be observed in the spectral region between 1725 - 1720 cm-1 in which the absorption is due to stretching C = O of COOH, being observed a greater intensity in the subsurface horizons. A reverse trend can be observed in the region of the spectrum between 1280 - 1200 cm-1, in which absorption may be due to CO stretching of aryl-ethers and/or phenolic. The greater intensity of this band occurs in the spectra of samples from subsurface horizons, showing a higher concentration of phenolic compounds in depth. The intensities of the band assigned to aliphatic CH stretching region of the spectrum between 1460 - 1450 cm-1 showed a slight increase for the samples of surface horizons, with almost imperceptible difference in intensity of this band for the samples of Bh and Bhm horizons.In general, the results suggest an increasing degree of humification of OM in depth, as evidenced by the presence of more condensed compounds in the subsurface layers and the highest concentration of aliphatic compounds and the presence of polysaccharides in the surface horizons.The results of fluorescence showed that the greatest degree of AH humification were obtained for the Bh horizons of the profiles P03 and P30 in relation to the profiles P10 and P04. The lower degree of humification was determined in HA from the surface horizons of all profiles. The degree of humification is related to the presence of compounds with more complex structures such as aromatic compounds.Looking at Figure 2, the samples that have higher rates of humification are the ones with the higher content of more recalcitrant compounds. Some studies suggest good correlations between the humification rate obtained by fluorescence spectroscopy and other techniques to achieve results directly or indirectly related to the stage of humification of OM evaluated (Milori et al., 2002).The results obtained by fluorescence showed the same trend of humification was maintained for the different horizons of the different profiles. Comparison between the profiles showed the same results obtained by FTIR. The P30 is the profile that has the highest rates
of humification in relation to others.
Fig. 2 Index A465 obtained from fluorescence spectra of HA extracted from P03, P10, P30 and P04 profiles, according to Milori et al., (2002).
Tabela 1 – Age of the sediment by TL
Sample Depth (cm)
Age of material TL1 (years)
TRM(years B.P.) 2
P03 Bhm1 120-142 131.500 ± 15.100 9.600P10 Bhm 117-150 41.200 ± 3.400 4.260P30 Bhm 58-105 271.000 ± 85.300 18.500
1TL – Termoluminescência2B.P. – Before Present
By evaluating the results of fluorescence and comparisons made with the results of FTIR and dating was possible to establish a positive relationship between the transcurrent time and humification of the HS. Considering only the TRM of OM was possible to conclude that the older the profile, more stable the OM present in it.Further investigation about the stability of OM and its comparisons with other factors that influence this process should be made, since there is a need for greater understanding in the concentrations of OM as well its preservation in soil.
ReferencesGonzález-Pérez M, Vidal-Torrado P, Colnago LA,
Martin-Neto L, Otero XL, Milori DMBP, Gomes FH 2008 13C NMR and FTIR spectroscopy characterization of humic acids in spodosols under tropical rain forest in southeastern Brazil. Geoderma. 146, 425-433.
Milori DMBP, Martin-Neto L, Bayer C, Mielniczuk J, Bagnato VS 2002 Humification degree of soil humic acids determined by fluorescence spectroscopy. Soil Science. 167, 739-749.
Paul EA, Follett RF, Leavitt SW, Halvorson A, Peterson GA, Lyon DJ 1997 Radiocarbon dating for determination of soil organic matter pool sizes and dynamics. Soil Sci. Soc. of Am. J. 61, 1058–1067.
Schnitzer M 1982 Organic matter characterization. In: Methods of soil analysis: Chemical and microbiological properties. Madison: ASA-SSSA. 582-594.
Stevenson FJ 1994 Humus chemistry: genesis, composition, reactions. Jonh Wiley, New York, USA.
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