Risks of soil chemical degradation from atmospheric gypsum plumes around selected extraction and processing enterprises, Northeast Brazil.

Gypsum plays a prominent role in agriculture, being considered an effective alternative to alleviate subsurface acidity due to its higher solubility and containing sulfur. However, another significant aspect is which pose long-term risks of groundwater contamination due to excessive applications of salts, pesticides, and other chemicals that will be leached, or even soil chemical depletion. So far, no study has focused on understanding the impacts of the atmospheric gypsum plume originating from gibbsite mining and processing on the leaching of soil bases and chemical degradation surrounding these sites. In this study, we evaluated the behavior of chemical characteristics in soil profiles distributed along the dispersion of the atmospheric plume and in areas without interference from the industrial sector in the state of Maranhão, Northeast Brazil. Fifty-three sampling points were collected at 7 locations based on the dispersion of the dust plume through wind drift. Each sampling point was represented by three composite soil samples at depths of 0.0-0.20, 0.40-0.60, and 1.00-1.20 m, where the chemical soil characteristics were evaluated. The average levels of Ca, Mg, and K in the studied layers are classified as low, with minimum values below the method's detection limit, and they also show imbalance due to higher concentrations of Ca in the surface layer in areas affected by atmospheric dispersion. The sum and saturation of bases at all depths are classified as low. Higher aluminum saturation values were observed in the deeper soil layers. The gypsum dust altered the soil's chemical characteristics at the evaluated depths; therefore, it is necessary to seek means to mitigate gypsum dust release during gibbsite extraction and processing and ensure that the soils in areas near these enterprises maintain their natural characteristics.

Phytoremediation of metals by colonizing plants developed in point bars in the channeled bed of the Dilúvio Stream, Southern Brazil.

Urban rivers are intensely impacted by pollution with metals resulting from anthropogenic activities, and these elements present in water and sediments can be ecofriendly phytoremediated. This study aimed to evaluate the levels of metals in the sediments and colonizing plants growing in point bars in the channeled bed of the Dilúvio Stream, Southern Brazil. Sediment and plants were sampled at five-point bars with consolidated vegetation. These point bars are formed mainly by sand, with increasing concentrations of clay plus silt, carbon, nitrogen, and metals (Zn, Cu, Cr, Ni, Pb, and Cd) downstream. The concentration of Zn (338 µg/g) and Cu (219 µg/g) in sediments were 1.6 and 1.11 above the probable effect level at the most downstream site. The translocation factor was low in all sites and for all potentially toxic metals evaluated (ranging from 0.01 to 0.63). However, bioaccumulation factor exhibited high values, especially for Cd (average of 2.51), Ni (1.62), Zn (1.49), and Cr (1.25), suggesting that the colonizing plants have more potential for phytostabilization and phytoaccumulation than phytoextraction. These plants can be considered as natural filtering reducing the environmental contamination and the flow of these contaminants in the drainage network. Statement of novelty: Colonizing plants growing in point bars of urban rivers are common around the world; however, their phytoremediation potential is poorly studied. Colonizing plants may be useful for phytoremediation of water, effluents, and sediments of the Dilúvio Stream (Southern Brazil), polluted by potentially toxic metals that originated from the urbanization.

Whole Plastome Sequences of Two Drug-Type Cannabis: Insights Into the Use of Plastid in Forensic Analyses.

DNA is one of the fastest growing tools in forensic sciences, increasing reliability in forensic reports and judgments. The use of DNA has increased in different areas of the forensic sciences, such as investigation of plant species, where plastid DNA has been used to elucidate and generate evidence in cases of traceability of genetically modified and controlled plants. Even with several advances and the practice of using DNA in forensic investigations, there are just few studies related to the identification of genetic tools for the characterization of drug and nondrug-types of Cannabis. Herein, the whole plastomes of two drug-type Cannabis are presented and have their structures compared with other Cannabis plastomes deposited in the GenBank, focusing in the forensic use of plastome sequences. The plastomes of Cannabis sativa "Brazuka" and of the hybrid Cannabis AK Royal Automatic presented general structure that does not differs from the reported for other C. sativa cultivars. A phylogenomic analyses grouped C. sativa "Brazuka" with the nondrug C. sativa cultivars, while the hybrid Cannabis AK Royal Automatic placed isolated, basal to this group. This suggests that the analysis of plastomes is useful toward genetic identification of hybrids in relation to C. sativa.

How different soil moisture levels affect the microbial activity / Como diferentes níveis de umidade do solo afetam a atividade microbiana de um solo de terras baixas usado para cultivo do arroz?

ABSTRACT: The lowland soils are characterized by high susceptibility to water saturation. This anaerobic condition is usually reported in paddy fields and alters the decomposition process of soil organic compounds. The aim of this study was to evaluate the soil microbial and enzymatic activity of a lowland soil at different soil moisture contents. A poorly drained Albaqualf cultivated with irrigated rice was used to evaluate microbial and enzymatic activity in treatments with different levels of soil moisture, being: i) 60% of field capacity (FC) (60%FC); ii) 100% of FC (100%FC); iii) flooded soil with a 2 cm water layer above soil surface, and iv) soil kept at 60%FC with late flood after 29 days the incubation. The greater soil microbial activity was observed in the 100%FC treatment, being 41% greater than 60%FC treatment and only 2% higher than flooded treatment. The enzymatic activity data by fluorescein diacetate (FDA) hydrolysis corroborated the higher CO2 release in treatments with higher soil moisture content. Differently from the results reported, the main methodologies to evaluate microbial activity still recommend maintenance of the soil with a moisture content close to 60% of the FC. However, in lowland soil with history of frequent paddy fields, the maintenance of moisture close to 60% of the FC can limit the microbial activity. The soil respiration technique can be used to evaluate the microbial activity in flooded soil conditions. However, further studies should be conducted to understand the effect of the cultivation history on the microbial community of these environments.

RESUMO: Os solos de várzea são caracterizados pela alta suscetibilidade à saturação por água. Esta condição anaeróbica é geralmente encontrada em solos arrozeiros e altera o processo de decomposição dos compostos orgânicos do solo. O objetivo deste estudo foi avaliar a atividade microbiana e enzimática de um solo de várzea sob diferentes teores de umidade no solo. Um Planossolo historicamente cultivado com arroz irrigado foi utilizado para avaliar a atividade microbiana e enzimática em tratamentos com diferentes níveis de umidade do solo, sendo: i) 60% de capacidade de campo (CC) (60%CC); ii) 100% da CC (100%CC); iii) solo inundado com uma camada de água de 2 cm acima da superfície do solo; e iv) solo mantido a 60%CC com inundação após 29 dias da incubação. A maior atividade microbiana do solo foi observada no tratamento 100%CC, sendo 41% maior que o tratamento 60%CC e 2% maior que tratamento inundado. Os dados da atividade enzimática pela hidrólise do diacetato de fluoresceína (FDA) corroboraram a maior liberação de CO2 nos tratamentos com maior umidade do solo. Diferentemente dos resultados encontrados, as principais metodologias para avaliação da atividade microbiana ainda recomendam manter o solo com umidade próxima a 60% da CC. No entanto, em solos de várzea com históricos de cultivos de arroz, a manutenção de umidade próxima a 60% da CC pode limitar a atividade microbiana. A técnica de respiração do solo pode ser usada para avaliar a atividade microbiana em condições de solo inundado. No entanto, mais estudos devem ser realizados para entender o efeito do histórico de cultivo na comunidade microbiana nesses ambientes.

Crescimento e teor de cromo em mamoneira cultivada em solo receptor de resíduos de curtume e carboníferos / Growth and chrome content of castor bean plants cultivated in soil with application of tannery residues and coal mining waste

RESUMO A produção de resíduos tem aumentado em proporção direta com a industrialização dos países. Sendo assim, a disposição adequada desses resíduos é uma questão largamente discutida entre os órgãos ambientais. Por isso, o objetivo deste trabalho foi estudar o efeito residual de adições sucessivas de resíduos de curtume e da mineração de carvão sobre as propriedades químicas do solo e o acúmulo de cromo (Cr) em mamoneira. Os tratamentos aplicados em condições de campo foram: T1 - controle, ou seja, solo sem adubação; T2 - solo adubado com nitrogênio-fósforo-potássio (NPK) + calcário para atingir pH 6,0; T3 - solo misturado com lodo de curtume em dose adequada para se atingir pH 6,0 + PK; T4 - solo receptor de duas vezes a dose de lodo de curtume utilizada no T3 + PK; T5 - solo misturado com resíduo carbonífero + NPK + calcário em quantidade adequada para atingir pH 6,0; T6 - solo misturado com resíduo carbonífero + lodo de curtume em dose adequada para atingir pH 6,0 + PK; T7 - solo misturado com serragem cromada + NPK + calcário em quantidade adequada para atingir pH 6,0; T8 - solo misturado com Cr mineral + lodo de curtume em dose adequada para se atingir pH 6,0 + PK. Em campo, o solo recebeu os diferentes tratamentos. Posteriormente, amostras desse solo foram acondicionadas em vasos e o experimento com as plantas foi conduzido em delineamento inteiramente ao acaso, com três repetições por tratamento. O rendimento de matéria seca mostrou que a aplicação de serragem cromada (T7) proporcionou o maior crescimento da mamoneira, bem como os maiores teores de P no seu tecido. Os teores de Cr na parte aérea das plantas não atingiram níveis que podem ser considerados de contaminação desses vegetais. A distribuição desse elemento nas diferentes partes das plantas de mamoneira demonstrou a possibilidade de utilização futura dos grãos para produção de biodiesel.

ABSTRACT The production of waste has been increasing in direct proportion to the industrialization of the countries. Therefore, the adequate disposal of these wastes is an issue widely discussed among environmental agencies. Thus, the aim of this work was to study the residual effect of successive additions of tannery and coal mining waste on the chemical properties of the soil and the accumulation of chromium in castor bean plants. The treatments applied under field conditions were: T1 - control, that is, soil without fertilization; T2- soil fertilized with nitrogen-phosphorus-potassium (NPK) + limestone to reach pH 6.0; T3 - soil mixed with tannery sludge at a dose adequate to reach pH 6.0 + PK; T4 - soil receptor of twice the dose of tannery sludge used in treatment 3 + PK; T5 - soil mixed with coal residue + NPK + limestone in an amount adequate to reach pH 6.0; T6 - soil mixed with coal residue + tannery slurry at a dose adequate to reach pH 6.0 + PK; T7 - soil mixed with chrome sawdust + NPK + limestone in adequate quantity to reach pH 6.0; T8 - soil mixed with mineral Cr + tannery sludge at a dose adequate to reach pH 6.0 + PK. In the field, the soil received the different treatments. Subsequently, samples of this soil were conditioned in pots and the experiment with the plants was conducted in a completely randomized design, with three replicates per treatment. Subsequently, samples of this soil were placed in pots and the experiment with plants was conducted in a completely randomized design, with three replications per treatment. The dry matter yield showed that the application of chrome sawdust (T7) provided the highest growth of the castor bean, as well as the higher levels of P in its tissue. Chromium content in the aerial part of the plants did not reach levels that can be considered as contamination of these plants. The distribution of chromium in the different parts of the castor bean plants demonstrated the possibility of future use of the grains to produce biodiesel.

Phytoremediation of heavy metals and nutrients by the Sagittaria montevidensis into an anthropogenic contaminated site at Southern of Brazil.

The evaluation of plants occurring naturally at contaminated environments are essential for applying this species in remediation techniques. In this context, the Sagittaria montevidensis with potential for phytoremediation was studied at an anthropogenic polluted stream in southern Brazil. The nutrients and heavy metal content were determined in the phytomass. The phytoremediation indexes were evaluated such as bioconcentration factor (BCF), translocation factor (TF), plant effective number (PEN), and potential phytoremoval (mg m-2). The S. montevidensis was then detected as presenting natural phytoextraction ability for potassium and calcium elements and also demonstrated rhizofiltration potential for phosphorus, manganese, aluminum, vanadium, sulfur, iron, arsenic, copper, magnesium, zinc, sodium, lead, cadmium, nickel, chromium, considering its ability of bioaccumulating these contaminants and retain high levels in the roots. The highest potential for bioremoval (mg m-2) of the S. montevidensis was detected for potassium and calcium (recommending thus the use for phytoextraction) and for aluminum, phosphorus, iron, magnesium, sulfur, and sodium, along with heavy metals (recommended for rhizofiltration). The S. montevidensis decontamination ability, along with its biomass production and its adaptability represents a great advance in order to the recovery of this degraded area and possible application in other contaminated watercourses in Brazil.

Lago Guaíba: uma análise histórico-cultural da poluição hídrica em Porto Alegre, RS, Brasil / Lake Guaíba: a historical and cultural analysis of water pollution in Porto Alegre, RS, Brazil

RESUMO A qualidade de vida é intrinsecamente ligada à disponibilidade de água, e a poluição desse recurso afeta diretamente as populações. O Lago Guaíba possui importância histórica, econômica e cultural para Porto Alegre (RS) e região metropolitana. Este trabalho discute o contexto histórico-cultural da poluição do Lago Guaíba. Com grande região hidrográfica, o lago sofre diversos impactos ambientais e, ao mesmo tempo, possui múltiplos usos para suas águas. Apesar da grande importância do Lago Guaíba para a região metropolitana de Porto Alegre, há um histórico descaso com sua qualidade. O lago apresenta-se poluído, com percepção pública dessa realidade e limitação de usos diretos de suas águas.

ABSTRACT The quality of life is intrinsically linked to water availability; however, pollution on this resource directly affects people. Lake Guaíba has a historical, economic and cultural importance to Porto Alegre (RS, Brazil) and its metropolitan region. This report discusses the historical and cultural context of Lake Guaíba's pollution. With a large watershed, Lake Guaíba suffers many environmental impacts and, at the same time, has multiple uses for its waters. Despite the great importance of Lake Guaíba to Porto Alegre metropolitan region, there is a historical disregard with its quality. The lake is polluted and there is a public perception of this reality with direct limitation of its water's use.

Atividade microbiana em solos sob doses de lodo de estação de tratamento de efluentes de um aterro industrial / Soil microbial activity under wastewater treatment plant sludge doses from an industrial landfill

RESUMO: A destinação final adequada dos resíduos sólidos industriais é um dos principais problemas ambientais. A disposição de resíduos orgânicos em solos pode ser recomendada, dado o potencial corretivo e fertilizante deste. Assim, o objetivo deste estudo foi avaliar o efeito em solos da adição de doses de lodo de estação de tratamento de efluentes (ETE) de um aterro industrial na atividade microbiana, avaliada pela mineralização de carbono. Foi desenvolvido experimento em frascos respirométricos, analisando a mineralização de carbono em três solos, com cinco doses de lodo durante 91 dias de incubação. A aplicação de lodo com 2Mg ha-1 causou menores impactos à microbiota do solo, não apresentando diferenças em relação ao tratamento controle. Os valores de carbono mineralizado aumentaram com o tempo de incubação em função da adição do lodo, proporcionalmente ao aumento das doses de lodo. A atividade microbiana aumentou com a aplicação de doses de lodo de ETE de aterro industrial, sendo a mineralização de carbono proporcional às doses adicionadas.

ABSTRACT: The final disposal of industrial solid waste is a major environmental problem. Disposal of organic wastes in soils can be recommended as corrective and fertilizer. The objective of this study was to evaluate the effect of different doses of wastewater treatment plant sludge (WWTP) from an industrial landfill on soils based in microbial activity measured by carbon mineralization. The experiment was developed in respirometric flasks, analyzing carbon mineralization in three soils with five doses of sludge during 91 days of incubation. Application of sewage sludge with 2 Mg ha-1 caused minor impacts on soil microorganisms, without statistical differences to the control treatment. Amounts of mineralized carbon increased with the time course due to the addition of sludge, proportional to the doses of sludge. Microbial activity increased with the application of WWTP sludge doses of industrial landfill, with mineralization proportional to the increase in carbon added doses.

Accumulation and translocation of heavy metal by spontaneous plants growing on multi-metal-contaminated site in the Southeast of Rio Grande do Sul state, Brazil.

In recent years, the number of cases of heavy metal contamination has increased worldwide, leading to reports on environmental pollution and human health problems. Phytoremediation can be potentially used to remove heavy metal from contaminated sites. This study determined heavy metal concentrations in the biomass of plant species growing on a multi-metal-contaminated site. Seven plant species and associated rhizospheric soil were collected and analyzed for heavy metal concentrations. While plant Cu, Zn, Cd, Ni, Pb, As, and Ba concentrations ranged from 8.8 to 21.1, 56.4 to 514.3, 0.24 to 2.14, 1.56 to 2.76, 67.8 to 188.2, 0.06 to 1.21, and 0.05 to 0.62 mg kg(-1), respectively, none of the plants was identified as hyperaccumulators. Those in the rhizospheric soil ranged from 10.5 to 49.1, 86.2 to 590.9, 0.32 to 2.0, 3.6 to 8.2, 19.1 to 232.5, 2.0 to 35.6, and 85.8 to 170.3 mg kg(-1), respectively. However, Zn, Cd, Pb, and As concentrations in the soil outside the rhizosphere zone were 499.0, 2.0, 631.0, and 48.0 mg kg(-1), respectively. Senecio brasiliensis was most effective in translocating Cu, Cd, and Ba. The most effective plant for translocating Zn and Pb was Baccharis trimera and, for element As, Dicranopteris nervosa and Hyptis brevipes. Heavy metal and metalloid levels in spontaneous plants greatly exceeded the upper limits for terrestrial plants growing in uncontaminated soil, demonstrating the higher uptake of heavy metal from soil by these plants. It is concluded that naturally occurring species have a potential for phytoremediation programs.

Bioremediation assessment of diesel-biodiesel-contaminated soil using an alternative bioaugmentation strategy.

This study investigated the effectiveness of successive bioaugmentation, conventional bioaugmentation, and biostimulation of biodegradation of B10 in soil. In addition, the structure of the soil microbial community was assessed by polymerase chain reaction-denaturing gradient gel electrophoresis. The consortium was inoculated on the initial and the 11th day of incubation for successive bioaugmentation and only on the initial day for bioaugmentation and conventional bioaugmentation. The experiment was conducted for 32 days. The microbial consortium was identified based on sequencing of 16S rRNA gene and consisted as Pseudomonas aeruginosa, Achromobacter xylosoxidans, and Ochrobactrum intermedium. Nutrient introduction (biostimulation) promoted a positive effect on microbial populations. The results indicate that the edaphic community structure and dynamics were different according to the treatments employed. CO2 evolution demonstrated no significant difference in soil microbial activity between biostimulation and bioaugmentation treatments. The total petroleum hydrocarbon (TPH) analysis indicated a biodegradation level of 35.7 and 32.2 % for the biostimulation and successive bioaugmentation treatments, respectively. Successive bioaugmentation displayed positive effects on biodegradation, with a substantial reduction in TPH levels.

Biomassa e atividade microbiana do solo em sistemas de produção olerícola orgânica e convencional / Biomass and soil microbial activity on horticulture organic and conventional crop systems

O cultivo de olerícolas pode ser produzido no sistema convencional utilizando defensivos agrícolas e fertilizantes sintéticos, ou no sistema orgânico, quando não há a utilização de defensivos sintéticos e tem como principal fonte de adubação, resíduos orgânicos. Este trabalho teve como objetivo avaliar a biomassa e a atividade microbiana do solo em sistemas de cultivo orgânico e convencional com suas respectivas áreas de referência. Para isso, foram coletadas amostras de solo em três propriedades agrícolas com sistema de cultivo convencional e outras três com sistema de cultivo orgânico, além de suas respectivas áreas de referência. Foram determinados o carbono e nitrogênio microbiano e total, e a respiração basal após 57 dias de incubação. A maior variação na taxa de respiração basal entre a área de produção e a área de referência foi observada no sistema orgânico. Os teores de nutrientes no solo, carbono e nitrogênio microbianos foram maiores nas áreas de produção do que os encontrados nas áreas de referência.

The horticultural crops can be produced with the conventional system using pesticides and synthetic fertilizers, or organic system where there is no use of synthetic pesticides and its main source of nutrients are organic wastes. This study aimed to assess the biomass and soil microbial activity in organic production systems and conventional with their respective reference areas. In this study, soil samples were sampled in three farms with conventional tillage and three other with organ system, and their respective reference areas. It was determined total carbon and nitrogen and microbial, and microbial activity after 57 days of incubation. The greatest variation in basal respiration rate between the respective production area and reference area was observed in the organic system. The nutrients in the soil microbial carbon and nitrogen were higher in the production areas than those in the reference areas.

Rizóbios nativos do Rio Grande do Sul simbioticamente eficientes em Lotus glaber / Rhizobia native from Rio Grande do Sul simbiotically efficient in Lotus glaber

As leguminosas forrageiras, além de contribuírem para o aumento da oferta de forragem com alto teor de proteína, também são importantes como cobertura vegetal de solos. Entre as leguminosas com grande potencial forrageiro, espécies do gênero Lotus têm se destacado. Este trabalho visou à seleção de rizóbios nativos eficientes em Lotus glaber a partir de amostras de solo de cinco localidades do Rio Grande do Sul. Obtiveram-se 259 isolados de rizóbios, que foram avaliados quanto à morfologia colonial e produção de melanina. Destes, 15 isolados foram selecionados para avaliação da eficiência na fixação simbiótica de nitrogênio em experimento em casa de vegetação e caracterizados geneticamente por comparação do perfil eletroforético dos produtos de amplificação do DNA genômico, por PCR com os oligonucleotídeos iniciadores BOX e ERIC. Apenas cinco isolados produziram melanina. Nove isolados foram mais eficientes do que a estirpe SEMIA 830, que é autorizada para a produção de inoculante para L. glaber no país. Na caracterização genética, observou-se que nenhum isolado apresentou identidade com as estirpes recomendadas, o que demonstra que, nos solos do Rio Grande do Sul, existem rizóbios autóctones eficientes na fixação simbiótica de nitrogênio com L. glaber, podendo ser recomendados para estudos a campo, visando a uma futura produção de inoculantes para estas leguminosas no Brasil.

Forage legumes besides contributing to increase the supply of high protein content forage are also good cover for the soil surface. Among the legumes with high potential forage, the genus Lotus has been outstanding. This research aimed to selectnative rhizobia efficient in fixing nitrogen with Lotus glaber, from soil samples of five localities of Rio Grande do Sul. A total of 259 rhizobia isolates were obtained, which were evaluated based on colony morphology and in vitro melanin production. Among them, 15 isolates were selected for the evaluation of the symbiotic nitrogen fixation efficiency in greenhouse experiments and genetically characterized by genomic DNA fingerprinting, PCR amplification with BOX and ERIC primers. Only five isolates produced melanin. Nine isolates were more efficient than strain SEMIA 830, which is authorized for the production of commercial inoculants of L. glaber in Brazil. In relation to the genetic characterization, the isolates have shown no similarity with the commercial strains, indicating that in the soils of Rio Grande do Sul there are autochthonous rhizobia capable of efficient symbiotic nitrogen fixation with L. glaber, which might be recommended for field evaluations, aiming a future production of inoculants for this legume in Brazil.

Propriedades químicas de um Argissolo tratado sucessivamente com composto de lixo urbano / Chemical properties of an Ultisol successively treated with municipal waste compost

Com o objetivo de avaliar as alterações em algumas propriedades químicas do solo sob adição sucessiva de composto de lixo urbano, conduziu-se um experimento a campo, em um solo Argissolo Vermelho de textura média na Estação Experimental Agronômica da UFRGS. Os tratamentos constaram de cinco doses de composto (0, 20, 40, 80 e 160t ha-1), de um tratamento com adubo mineral e uma testemunha (Calagem e NPK), com aplicações sucessivas por um período de quatro anos. A adição de composto no solo aumentou o pH, CTC, C orgânico, N total, P e Na extraíveis, bem como da relação de adsorção de sódio (RAS), Ca e Mg trocáveis e o teor de K extraível após a terceira aplicação. O Al trocável teve os seus teores diminuídos após aplicações sucessivas de composto. Os resultados permitiram concluir que aplicação de até 80t ha-1 por ano de composto de lixo urbano pode ser considerada como adequada para melhorar e, ou, manter as propriedades químicas do solo.

In order to assess the changes in some chemical properties of soil under the successive addition of urban waste compost, it was conducted a field experiment in an Ultisol soil at Agronomic Experimental Station of UFRGS. The treatments consisted of five successive applications of different doses of municipal solid waste compost (0, 20, 40, 80 and 160t ha-1) for a period of four years and a comparative treatment with mineral fertilizer and a control (without compost and fertilization). The addition of the compost increased soil pH, CEC, organic C, total N, extractable P and Na and the sodium adsorption ratio (SAR), calcium, and magnesium and extractable K after the third application. The exchangeable Al had their levels reduced by successive applications of compost. The results showed that application of up to 80t ha-1 yr-1 of urban waste compost can be the dose recommended to improve and maintain the chemical properties of soil.

Bacterial stimulation of copper phytoaccumulation by bioaugmentation with rhizosphere bacteria.

Copper contaminated areas pose environmental health risk to living organisms. Remediation processes are thus required for both crop production and industrial activities. This study employed bioaugmentation with copper resistant bacteria to improve phytoremediation of vineyard soils and copper mining waste contaminated with high copper concentrations. Oatmeal plant (Avena sativa L.) was used for copper phytoextraction. Three copper resistant bacterial isolates from oatmeal rhizosphere (Pseudomonas putida A1; Stenotrophomonas maltophilia A2 and Acinetobacter calcoaceticus A6) were used for the stimulation of copper phytoextraction. Two long-term copper contaminated vineyard soils (Mollisol and Inceptisol) and copper mining waste from Southern Brazil were evaluated. Oatmeal plants substantially extracted copper from vineyard soils and copper mining waste. As much as 1549 mg of Cu kg⁻¹ dry mass was extracted from plants grown in Inceptisol soil. The vineyard Mollisol copper uptake (55 mg Cu kg⁻¹ of dry mass) in the shoots was significantly improved upon inoculation of oatmeal plants with isolate A2 (128 mg of Cu kg⁻¹ of shoot dry mass). Overall oatmeal plant biomass displayed higher potential of copper phytoextraction with inoculation of rhizosphere bacteria in vineyard soil to the extent that 404 and 327 g ha⁻¹ of copper removal were respectively observed in vineyard Mollisol bioaugmented with isolate A2 (S. maltophilia) and isolate A6 (A. calcoaceticus). Results suggest potential application of bacterial stimulation of phytoaccumulation of copper for biological removal of copper from contaminated areas.

Biorremediação de um solo contaminado com antraceno sob diferentes condições físicas e químicas / Bioremediation of a soil contaminated with anthracene under different chemical and physical conditions

O antraceno e os demais hidrocarbonetos aromáticos policíclicos (HAPs) podem ser removidos do solo pela biorremediação, cuja eficiência é limitada se as condições físicas e químicas não forem favoráveis à sobrevivência e à atividade dos microrganismos degradadores. O objetivo do presente estudo foi avaliar a influência do pH, da umidade e da disponibilidade de nitrogênio, de fósforo, de ferro e de enxofre na biorremediação de um solo contaminado com antraceno. Para tanto, amostras de um solo arenoso foram contaminadas em laboratório com 500mg kg-1 de antraceno e a mineralização desse poluente foi quantificada por respirometria. As maiores mineralizações ocorreram nos tratamentos com as maiores umidades e os pH avaliados. A adição de 100kg ha-1 ou mais de nitrogênio no solo e a redução da relação C HAP-N para valores inferiores a 120:17 diminuíram a mineralização do antraceno. O aumento da disponibilidade do fósforo, do ferro e do enxofre e a presença de amplas relações C HAP:P no solo não influenciaram a mineralização do antraceno. A correção do pH e o adequado fornecimento de água possibilitaram a biorremediação desse solo em curto período de tempo.

The anthracene, as well as the others polycyclic aromatic hydrocarbons (PAH), can be removed from the soil by bioremediation, whose efficiency is limited under unfavorable physical and chemical conditions to the survival and activity of the microbial degraders. The objective of this study was to evaluate the influence of pH, water content, and nitrogen, phosphorus, iron and sulfur concentrations in the bioremediation of a soil contaminated with anthracene. Samples of a sandy soil were contaminated in laboratory with anthracene (500mg kg-1) and the mineralization was evaluated by respirometry. The highest anthracene mineralization was verified in the soil with the highest water content and pH value studied. The addition of 100kg ha-1 nitrogen in the soil and the consequent reduction of CPAH-N ratio to values lesser than 120:17 reduced anthracene mineralization. The increase of phosphorus iron and sulfur availability and wide CPAH-P (120:1 to 120:22) ratios in the soil did not influence anthracene mineralization. The pH correction and appropriate water supply made possible the bioremediation of the soil polluted with anthracene in a short period of time.

Biorremediação de solos contaminados com hidrocarbonetos aromáticos policíclicos / Bioremediation of soils contaminated with polycyclic aromatic hydrocarbons

Os hidrocarbonetos aromáticos policíclicos (HAPs) são compostos mutagênicos e carcinogênicos aos humanos e aos animais que são introduzidos no ambiente em grandes quantidades, devido às atividades relacionadas à extração, ao transporte, ao refino, à transformação e à utilização do petróleo e de seus derivados. Apesar disso, a grande maioria dos microrganismos do solo não possui a capacidade de degradá-los, o que resulta na sua acumulação no ambiente e na conseqüente contaminação dos ecossistemas. Uma estratégia para a eliminação dos HAPs do solo é através da biorremediação, na qual os microrganismos que apresentam capacidade de metabolizar estes compostos irão transformá-los em substâncias inertes, CO2 e água. No entanto, esta biotecnologia pode ser limitada pela falta de microrganismos degradadores dos HAPs no solo, pela presença de condições ambientais desfavoráveis a estes microrganismos ou pela baixa biodisponibilidade dos contaminantes à microbiota degradadora. Para superar estas limitações e promover uma eficiente remoção dos contaminantes do ambiente, várias técnicas de biorremediação foram desenvolvidas, como biorremediação passiva, bioaumentação, bioestimulação, fitorremediação, landfarming, compostagem e biorreatores. Esta revisão visa a discutir os metabolismos bacteriano e fúngico destes compostos, os principais fatores químicos e físicos que influenciam a sobrevivência e a atividade destes microrganismos degradadores no ambiente e apresentar as técnicas de biorremediação que estão sendo atualmente utilizadas para a remoção dos HAPs no solo.

Polycyclic aromatic hydrocarbons (PAHs) are mutagenic and carcinogenic compounds to the humans and animals, released through the environment by anthropogenic activities related to the extraction, transport, refine, transformation and use of the petroleum and its derivatives. Most of the soils microorganisms do not possess the capacity to degrade them, which results in its accumulation in the atmosphere and contamination of the ecosystems. A strategy for PAHs elimination from the soil is through the bioremediation, where microorganisms having capacity to metabolize these compounds will transform them in inert substances, CO2 and water. However, this biotechnology can be limited by the lack of specific HAP microbial-degraders in soil, by unfavorable environmental conditions to these microorganisms or by the low bioavailability of those contaminants to the microorganisms. To overcome these limitations and to promote an efficient removal of the pollutants to the atmosphere, several bioremediation techniques were developed as passive bioremediation, bioaugmentation, biostimulation, phytoremediation, landfarming, composting and bioreactors. This revision aims at discussing microbial metabolism of PAHs, present the main chemical and physical factors that influence the survival and the activity of these microorganisms and to show the bioremediation techniques that are being used now for the PAHs removal in soil.

Ocorrência de bactérias diazotróficas associadas a cultivares de sorgo forrageiro / Occurrence of diazotrophic bacteria associated with forage sorghum cultivars

O presente estudo objetivou avaliar a ocorrência de bactérias diazotróficas associadas ao sorgo, selecionar cultivares eficientes na associação com bactérias diazotróficas e identificar os isolados mais eficientes em fixar nitrogênio atmosférico (N²) e produzir ácido indol-acético (AIA). Utilizaram-se 14 cultivares de sorgo forrageiro em vasos, com dois níveis de N: 0 e 130kg ha-1 de N. A seleção de cultivares foi baseada na associação com bactérias diazotróficas e na eficiência de absorção de nitrogênio das cultivares. Para o isolamento das bactérias, foram utilizados diferentes meios de enriquecimento semi-sólido e, após o isolamento, foram quantificadas a produção de AIA e a quantidade de N² fixada pelos isolados. A ocorrência de bactérias diazotróficas foi constatada em todas as cultivares avaliados sendo que a distribuição das bactérias isoladas foi influenciada pelo genótipo da planta. Todos os isolados foram aptos em fixar N² e produzir AIA in vitro.

The present study aimed to evaluate the occurrence of diazotrophic bacterial associated with sorghum plants, to select efficient sorghum cultivars associated with diazotrophic bacterial, as well as to identify isolates efficient on nitrogen fixation (N²) and indole acetic acid (IAA) production. Fourteen forage sorghum cultivars were cropped in jars under two levels of nitrogen fertilization: 0 and 130kg ha-1 of N. The selection of sorghum cultivars was based on the association with diazothophic bacterial and on the efficiency of nitrogen absorption. Semi-solid enrichment medium was used for the isolation of the diazotrophic bacterial. The occurrence of diazotrophics was verified in all cultivars of sorghum evaluated and, the distribution of the isolates was affected by the plant genotype. All the isolates were able to fix N² and to produce IAA in vitro.

Mineralização anaeróbia do nitrogênio em solos de várzea do Rio Grande do Sul / Nitrogen mineralization anaerobic in paddy soil from Rio Grande do Sul state, Brazil

O potencial de mineralização do N (N0) do solo e a taxa de mineralização (k) são índices que podem ser usados na predição da disponibilidade do N em um determinado período de tempo que, juntamente com atributos de solo, podem estimar a absorção de N por plantas de arroz irrigado. O objetivo do presente trabalho foi de avaliar a mineralização do N em 15 solos alagados do RS e a sua relação com a absorção de N por plantas de arroz irrigado. Utilizaram-se amostras de 15 solos da região arrozeira do RS, coletados de 0-20cm de profundidade. Cultivaram-se plantas de arroz irrigado em vasos com quatro kg de cada solo durante 60 dias. A mineralização do N foi avaliada em um experimento de incubação anaeróbia em laboratório, por 24 semanas, drenando-se a solução de alagamento dos solos semanalmente até a 14ª semana de incubação, a cada duas semanas até a 18ª semana de incubação e a cada três semanas até a 24ª, totalizando 169 dias de incubação anaeróbia. O teor de C orgânico do solo está altamente associado ao N absorvido pelas plantas (r=0,90; P<0,01), bem como ao N mineralizado (r=0,91; P<0,01) e este ao teor de N absorvido pelas plantas (r=0,92; P<0,01). Os valores de N0 para os quinze solos variaram de 107,7 a 207,6mg kg-1 e foram ligeiramente superiores ao N mineralizado observado (98,3 a 191,3mg kg-1 de solo). A taxa de mineralização variou de 0,1492 a 0,2438 semana-1 e a velocidade de mineralização foi maior no período inicial, compreendido até a quarta semana de incubação. Verificou-se uma alta associação entre o teor de N absorvido por plantas de arroz irrigado e o N potencialmente mineralizável e deste com o teor de C orgânico do solo. A taxa de mineralização foi relacionada significativamente com o teor de argila do solo (r=0,77; P<0,01). O potencial de mineralização do N pode ser utilizado como índice da disponibilidade de N para a cultura do arroz irrigado.

The soil nitrogen mineralization potential (N0) and mineralization rate (k) are indexes that can be used to predict N availability in a period of time, which associated with soil attributes, can explain N absorption in flooded rice plants. The objective of this study was to evaluate the N mineralization in 15 flooded soils of Rio Grande do Sul (RS) state and its relationship with N absorption by flooded rice plants. Samples collected from 0-0.2m layer of 15 soils from rice paddy fields in the RS state were used for the mineralization experiment. Flooded rice plants were grown for 60 days in pots containing four kg of each soil. The N mineralization was evaluated in a laboratory experiment, in anaerobic conditions for 24 weeks. The content of soil organic C was highly associated to the N absorbed by the plants (r=0.90; P<0.01), as well as to the mineralized N (r=0.91; P<0.01) and to the content of N absorbed by the plants (r=0.92; P<0.01). The N0 values for the fifteen soils varied from 107.70 to 207.64mg kg-1 and they were higher for observed mineralized N (98.3 to 191.3mg kg-1 of soil). The mineralization rate constant varied from 0.1492 to 0.2438 week-1, and the mineralization speed was higher at initial period, until the fourth week of incubation. It was verified a close relationship between the N absorbed by rice plants and the nitrogen mineralization potential and with the content of soil organic C. The mineralization rate was significantly related to the clay content of the soil (r=0.77; P<0.01). The potential of N mineralization can be used as an index of N availability to rice flooded plants.

Bioremediation of soil contaminated by diesel oil

Avaliou-se a degradação de hidrocarbonetos de petróleo (HP) em solos contaminados com óleo diesel através da atenuação natural, bioestimulação e bioaumentação. A bioaumentação apresentou a maior degradação da fração leve (72,6%) e da fração pesada (75,2%) de HP e a atenuação natural foi mais efetiva do que a bioestimulação. A maior atividade da dehidrogenase no solo Long Beach e Hong Kong foi observada nos tratamentos bioaumentação e atenuação natural, respectivamente. O número de microrganismos degradadores de diesel e a população de heterotróficos não foi influenciada pelas técnicas de biorremediação. A melhor performance para a biorremediação do solo contaminado com diesel foi obtida quando foram adicionados microrganismos pré-selecionados do ambiente contaminado.