Organizing a global list of cyanobacteria and algae from soil biocrusts evidenced great geographic and taxonomic gaps.

Biocrusts determine soil stability and resiliency, with a special role played by oxygenic photoautotrophic microorganisms in these communities. We evaluated temporal and geographic trends in studies focused on these microorganisms in biocrusts. Two databases were surveyed to obtain scientific articles published from 1998 to 2020 containing the terms 'biocrusts,' 'algae,' and 'cyanobacteria.' Although interest in biocrusts has increased recently, their ecological importance is still little explored. The scientific articles that mentioned a species list of cyanobacteria and/or algae revealed a very heterogeneous geographic distribution of research. Biocrusts have not been explored in many regions and knowledge in the tropics, where these communities showed high species richness, is limited. Geographic gaps were detected and more detailed studies are needed, mainly where biocrust communities are threatened by anthropogenic impacts. Aiming to address these knowledge gaps, we assembled a taxonomic list of all algae and cyanobacteria found in these articles, including information on their occurrence and ecology. This review is an updated global taxonomic survey of biocrusts, which importantly reveals their high species richness of oxygenic photoautotrophic microorganisms. We believe this database will be useful to future research by providing valuable taxonomic and biogeographic information regarding algae and cyanobacteria in biocrusts.

Microalgae biomass as a conditioner and regulator of soil quality and fertility.

Characteristics of an acid soil cultivated with Urochloa brizantha cv. Marandu were evaluated in relation to two types of fertilization: a conventional one, chemical based on nitrogen and potassium, and a biofertilizer, based on microalgae biomass. The results were compared among three treatments, control, conventional, and biological fertilization, with seven replications each. The study evaluated microalgae community, total carbon and nitrogen contents, mineral nitrogen, and enzymatic activity. Chlorella vulgaris showed the highest organism density, which can be explained by its rapid growth and high resistance. The highest species diversity was detected in the control 1,380,938 org cm-3 and biological 1,841,250 org cm-3 treatments, with the latter showing a higher density of cyanobacteria, especially Pseudanabaena limnetica with 394,554 org cm-3. The soil treated with chemical fertilization showed higher nitrate (9.14 mg NKg-1 NO3--N) and potassium (52.32 mg dm-3) contents. The highest levels of sulfur (21.73 mg dm-3) and iron (96.46 mgdm-3) were detected in the biological treatment. The chemical treatment showed higher activity of the enzymes acid phosphatase, acetylglucosaminidase, and sulfatase, while α-glucosidase and leucine aminopeptidase stood out in the biological treatment. Soil properties were not significantly affected by the treatments. The use of microalgae biomass derived from wastewater treatment from milking parlors was evaluated and presented as a promising biofertilizer for agriculture, following the line of recovering nutrient-rich wastes. In this sense, although many challenges need to be overcome, the results suggest that microalgal-based fertilizers could lead to low-impact agriculture.

Fighting Obesity-Related Micronutrient Deficiencies through Biofortification of Agri-Food Crops with Sustainable Fertilization Practices.

Obesity is a critical medical condition worldwide that is increasingly involved with nutritional derangements associated with micronutrient deficiencies, including iron, zinc, calcium, magnesium, selenium, and vitamins A, C, D, and E. Nutritional deficiencies in obesity are mainly caused by poor-quality diets, higher nutrient requirements, alterations in micronutrient metabolism, and invasive obesity treatments. The current conventional agricultural system is designed for intensive food production, focusing on food quantity rather than food quality, consuming excessive agricultural inputs, and producing nutrient-deficient foods, thus generating severe health and environmental problems; agricultural food products may worsen obesity-related malnutrition. Therefore, modern agriculture is adopting new biofortification technologies to combat micronutrient deficiencies and improve agricultural productivity and sustainability. Biofertilization and nanofertilization practices are increasingly used due to their efficiency, safety, and reduced environmental impact. Biofertilizers are preparations of PGP-microorganisms that promote plant growth by influencing plant metabolism and improving the nutrient uptake, and nanofertilizers consist of synthesized nanoparticles with unique physicochemical properties that are capable of increasing plant nutrition and enriching agricultural products. This review presents the current micronutrient deficiencies associated with obesity, the modern unsustainable agri-food system contributing to obesity progression, and the development of bio- and nanofertilizers capable of biofortifying agri-food crops with micronutrients commonly deficient in patients with obesity.

Vegetation drives the response of the active fraction of the rhizosphere microbial communities to soil warming in Antarctic vascular plants.

In the Antarctic Peninsula, increases in mean annual temperature are associated with the coverage and population density of the two Antarctic vascular plant species-Deschampsia antarctica and Colobanthus quitensis-potentially modifying critical soil processes. In this study, we characterized the diversity and community composition of active microorganisms inhabiting the vascular plant rhizosphere in two sites with contrasting vegetation cover in King George Island, Western Antarctic Peninsula. We assessed the interplay between soil physicochemical properties and microbial diversity and composition, evaluating the effect of an in situ experimental warming on the microbial communities of the rhizosphere from D. antarctica and C. quitensis. Bacteria and Eukarya showed different responses to warming in both sites, and the effect was more noticeable in microbial eukaryotes from the low vegetation site. Furthermore, important changes were found in the relative abundance of Tepidisphaerales (Bacteria) and Ciliophora (Eukarya) between warming and control treatments. Our results showed that rhizosphere eukaryal communities are more sensitive to in situ warming than bacterial communities. Overall, our results indicate that vegetation drives the response of the active fraction of the microbial communities from the rhizosphere of Antarctic vascular plants to soil warming.

Insect frass and exuviae to promote plant growth and health.

Beneficial soil microorganisms can contribute to biocontrol of plant pests and diseases, induce systemic resistance (ISR) against attackers, and enhance crop yield. Using organic soil amendments has been suggested to stimulate the abundance and/or activity of beneficial indigenous microbes in the soil. Residual streams from insect farming (frass and exuviae) contain chitin and other compounds that may stimulate beneficial soil microbes that have ISR and biocontrol activity. Additionally, changes in plant phenotype that are induced by beneficial microorganisms may directly influence plant-pollinator interactions, thus affecting plant reproduction. We explore the potential of insect residual streams derived from the production of insects as food and feed to promote plant growth and health, as well as their potential benefits for sustainable agriculture.

Biossólido no estabelecimento de espécies herbáceas e nos atributos químicos e microbiológicos em solo impactado pela mineração de carvão / Biosolids in the establishment of herbaceous species and in chemical and microbiological attributes in soil impacted by coal mining

RESUMO O presente estudo tem como objetivo avaliar o efeito da aplicação de diferentes concentrações de biossólido de lodo de esgoto, submetido a tratamento térmico, no estabelecimento de espécies herbáceas (aveia preta, ervilhaca e azevém) e nos atributos químicos e microbiológicos de um solo degradado pela mineração de carvão. O experimento foi instalado em área degradada pela mineração de carvão, localizada no munícipio de Treviso (SC), sendo os tratamentos compostos pelas concentrações de 0, 6,25, 100, 250 e 500 Mg ha-1 de biossólido, em parcelas de 2×2 m. Foram cultivadas espécies de aveia preta, ervilhaca e azevém de maneira consorciada, avaliando-se os parâmetros das plantas e os atributos químicos do solo nas profundidades 0-5, 5-10 e 10-20 cm. O biossólido proporcionou a elevação do pH do solo e o aumento dos teores disponíveis de P, K e carbono orgânico total e não influenciou na colonização micorrízica, na respiração basal do solo e na nodulação radicular. O uso do resíduo biossólido como substrato em áreas degradadas é uma alternativa para sua disposição final pela economia ao utilizá-lo como fertilizante, além dos benefícios ambientais, associados ao seu uso.

ABSTRACT This study aims to evaluate the effects of different concentrations of sewage sludge biosolid concentrations, submitted to thermal treatment, in the establishment of herbaceous species (black oats, vetches, and ryegrass) and in the chemical and microbiological attributes of a soil degraded by coal mining. The experiment was installed in an area degraded by coal mining, in Treviso/SC, with treatments composed of concentrations of 0; 6.25; 100; 250; and 500 Mg ha-1 of biosolids, in 2×2 m plots. Species of black oat, vetch, and ryegrass were grown in a consortium manner, evaluating the plant parameters and chemical attributes of the soil at depths 0-5, 5-10, and 10-20 cm. The biosolids provided improvements in soil fertility, such as pH elevation, increased levels available of P, K, and total organic carbon, in addition to not influencing mycorrhizal colonization, basal soil respiration, and root nodulation. The use of biosolid waste as a substrate in degraded areas is an alternative to its final disposal due to the economy when using it as a fertilizer, in addition to the environmental benefits associated with its use.

Microwave assisted biocidal extraction is an alternative method to measure microbial biomass of carbon from cultivated and non-cultivated soils.

Developing simple and cost-effective methods for soil microbial biomass carbon (MBC) measurement eases routine laboratory analysis and enables large numbers of soil samples to be measured in a relatively short period of time. Thus, the objective of this study was to develop a microwave-assisted biocidal-extraction (MWE) method which does not employ CHCl3 as biocide and K2SO4 as C-extractor, to estimate MBC. First, the microorganisms of soil samples are killed using microwave (MW) irradiation at energy level of 800 J g-1 soil as biocide followed by microwave irradiation extraction (MWE) at 562 W (120 J g-1 soil for 1 min), using deionized water as solvent. Microbial biomass of carbon from two contrasting soils microwaved with 80, 100, and 140 J g-1 soil did not differ from those obtained by using the chloroform fumigation-extraction (CFE) method with 0.5 mol L-1 K2SO4 as extractant. To evaluate the robustness of the MWE method, twenty-six soil samples, from cultivated and non-cultivated areas, with clay contents from 70-690 g kg-1, organic carbon from 5.52 to 50.82 g C kg-1 and pH values from 3.9 to 6.8 were analyzed for MBC using MWE and CFE methods. There was a linear regression (MW = - 17.87 + 0.92*K2SO4; R2 = 0.705; p < 0.001) between MWE and CFE. The biocidal microwave-assisted extraction method using 120 J g-1 soil for 1 min is a cleaner method for evaluating MBC, because it does not require chloroform, potassium sulfate salt and takes a shorter time to extract a set of soil samples.

Enhanced Arsenic Tolerance in Triticum aestivum Inoculated with Arsenic-Resistant and Plant Growth Promoter Microorganisms from a Heavy Metal-Polluted Soil.

In soils multi-contaminated with heavy metal and metalloids, the establishment of plant species is often hampered due to toxicity. This may be overcome through the inoculation of beneficial soil microorganisms. In this study, two arsenic-resistant bacterial isolates, classified as Pseudomonas gessardii and Brevundimonas intermedia, and two arsenic-resistant fungi, classified as Fimetariella rabenhortii and Hormonema viticola, were isolated from contaminated soil from the Puchuncaví valley (Chile). Their ability to produce indoleacetic acid and siderophores and mediate phosphate solubilization as plant growth-promoting properties were evaluated, as well as levels of arsenic resistance. A real time PCR applied to Triticum aestivum that grew in soil inoculated with the bacterial and fungal isolates was performed to observe differences in the relative expression of heavy metal stress defense genes. The minimum inhibitory concentration of the bacterial strains to arsenate was up to 7000 mg·L-1 and that of the fungal strains was up to 2500 mg·L-1. P. gessardi was able to produce siderophores and solubilize phosphate; meanwhile, B. intermedia and both fungi produced indoleacetic acid. Plant dry biomass was increased and the relative expression of plant metallothionein, superoxide dismutase, ascorbate peroxidase and phytochelatin synthase genes were overexpressed when P. gessardii plus B. intermedia were inoculated.

Arbuscular Mycorrhizal Fungi Favor the Initial Growth of Acacia mangium, Sorghum bicolor, and Urochloa brizantha in Soil Contaminated with Zn, Cu, Pb, and Cd.

This study evaluated the effect of inoculation with a mixture of spores of arbuscular mycorrhizal fungi (AMF) (Glomus macrocarpum, Paraglomus occultum, and Glomus sp.) on the initial establishment of Acacia mangium, Sorghum bicolor, and Urochloa brizantha in soil contaminated with heavy metals. The experiment was conducted in a greenhouse, in plastic pots containing 1.8 kg of soil, which presented 7200, 1140, 480, and 72 mg of Zn, Cu, Pb, and Cd, respectively. The chlorophyll content (SPAD index) of inoculated plants of A. mangium and U. brizantha was higher than those of non-inoculated plants (p < 0.05). No differences were detected for the concentration of heavy metals in plant shoots, whether the plant was inoculated or not. However, inoculated plants had greater root length (S. bicolor and U. brizantha) (p < 0.05) and greater plant height (A. mangium) (p < 0.05). The present results demonstrate that the beneficial effects of AMF on plant growth and the alleviation of contaminants are imperative factors for the rehabilitation of soils contaminated with heavy metals.

Screening of polyketide genes from Brazilian Atlantic Forest soil / Evaluación de genes biosintéticos de policétidos provenientes de suelo de la selva atlántica brasileñae / Avaliação de genes biossintéticos de policetídeos provenientes do solo da Mata Atlântica Brasileira

Abstract Soil is a large source of microorganisms with potential to produce bioactive compounds. Since most of them cannot be cultured, metagenomics has become a useful tool in order to evaluate this potential. The aim of this study was to screen biosynthetic polyketide genes (PKS) present in a metagenomic library constructed from a soil sample isolated from the Brazilian Atlantic Forest. The library comprises 5000 clones with DNA inserts between 40 and 50 Kb. The characterization of the biosynthetic gene clusters of these molecules is a promising alternative to elucidate the biotechnological potential of bioactive compounds in microbial communities. The PKS genes were screened using degenerated primers. The positive clones for PKS systems were isolated, and their nucleotide sequences analysed with bioinformatics tools. The screening yielded two positive clones for PKS II genes. Furthermore, variations in the sequences of the PKS II genes from the metagenomic library were observed when compared with sequences of ketosynthases' databases. With these findings we gain insight into the possible relation between new biosynthetic genes and the production of new secondary metabolites.

Resumen El suelo es una fuente importante de microrganismos con potencial para producir compuestos bioactivos. Dado que la gran mayoría de estos microorganismos no puede cultivarse, la metagenómica se ha convertido en una herramienta útil para evaluar dicho potencial. El objetivo del presente estudio fue evaluar los genes biosintéticos de policétidos (PKS) presentes en una biblioteca metagenómica construida a partir de una muestra de suelo aislada de la selva atlántica brasileña. La biblioteca comprende 5000 clones con insertos de DNA entre 40 y 50 Kb. La caracterización de clústeres de genes biosintéticos de estas moléculas es una alternativa promisoria para elucidar el potencial biotecnológico de los compuestos bioactivos en comunidades microbianas. Los genes biosintéticos de PKS se evaluaron usando cebadores degenerados. Se aislaron los clones positivos para sistemas PKS y sus secuencias de nucleótidos se analizaron con herramientas bioinformáticas. La evaluación arrojó dos clones positivos para genes de PKS II. Además, se observaron variaciones en las secuencias de genes de PKS II de la biblioteca metagenómica cuando se compararon con las secuencias de las bases de datos de cetosintasas. Estos hallazgos proporcionan nueva información sobre la posible relación entre nuevos genes biosintéticos y la producción de nuevos metabolitos secundarios.

Resumo O solo é uma fonte de importante de microrganismos com potencial para produzir compostos bioativos. Considerando que a maioria destes microrganismos não se pode cultivar, a metagenômica tem se convertido em uma ferramenta útil para avaliar este potencial. O objetivo deste estudo foi avaliar os genes biossintéticos de policetídeos (PKS) presentes em uma biblioteca metagenômica construída a partir de uma amostra de solo isolada da Mata Atlântica brasileira. A biblioteca compreende 5000 clones com insertos de DNA entre 40 e 50 Kb. A caracterização de clusters de genes biossintéticos destas moléculas é uma alternativa promissora para elucidar o potencial biotecnológico de compostos bioativos em comunidades microbianas. Os genes PKS foram avaliados usando primers degenerados. Os clones positivos para sistemas PKS foram isolados e suas sequências de nucleotídeos foram analisadas com ferramentas de bioinformática. A avaliação forneceu dois clones positivos para genes PKS II. Além disso, variações nas sequências dos genes PKS II da biblioteca metagenômica foram observadas quando comparadas com sequências da base de dados de cetosintases. Com estas descobertas obtivemos uma visão sobre uma possível relação entre novos genes biossintéticos e a produção de novos metabólitos secundários.

Complete genome sequence of Burkholderia caribensis Bcrs1W (NBRC110739), a strain co-residing with phenanthrene degrader Mycobacterium sp. EPa45.

Complete genome sequence of Burkholderia caribensis Bcrs1W, isolated from a phenanthrene-degrading mixed culture, was determined. The genomic information of Bcrs1W will be beneficial to elucidating the mechanisms of its positive effects on phenanthrene degradation by co-residing Mycobacterium sp. Epa45, and to exploiting their degradation potentials.

Diversidade de fungos micorrízicos arbusculares em pomar orgânico no semiárido cearense / Diversity of arbuscular mycorrhizal fungi in an organic orchard of semi-arid land of Ceará, Brazil

Os fungos micorrízicos arbusculares (FMA) são microrganismos chave na manutenção da biodiversidade de plantas em agroecossistemas e há o interesse no conhecimento sobre alterações nas propriedades microbiológicas do solo rizosférico pela sua relevância do ponto de vista prático e ecológico. Neste trabalho, objetivou-se avaliar a ocorrência de FMA na rizosfera de fruteiras em formação, sob o manejo orgânico, e compará-la com área de vegetação nativa no semiárido cearense. Amostras de solo foram coletadas da camada de 0-10cm em junho, setembro e dezembro de 2010 em áreas distintas nas linhas de plantio de fruteiras irrigadas. As amostras de solo foram submetidas a análises, em que quantificou-se o número de esporos e diversidade de FMA. A dominância de esporos do gênero Glomus foi confirmada na rizosfera das fruteiras e no solo sem interferência de plantas ou sob vegetação natural.(AU)

The arbuscular mycorrhizal fungi (AMF) are keyorganisms for maintenance of plant biodiversity in agroecosystems. There is an increasing interest in changes of the microbiological properties in the rhizosphere by its practical and environmental relevance. This research aimed to evaluate the occurrence of AMF in the establishment of fruits under organic management, and to compare them with an area of native vegetation in semiarid Ceará. Soil samples were collected from 0-10cm layer in June, September and December 2010 in different areas. Number of spores, and diversity of AMF were quantified. The dominance of Glomus spores was confirmed in all the areas.(AU)

Diversidade de fungos micorrízicos arbusculares em pomar orgânico no semiárido cearense / Diversity of arbuscular mycorrhizal fungi in an organic orchard of semi-arid land of Ceará, Brazil

The arbuscular mycorrhizal fungi (AMF) are key-organisms for maintenance of plant biodiversity in agroecosystems. There is an increasing interest in changes of the microbiological properties in the rhizosphere by its practical and environmental relevance. This research aimed to evaluate the occurrence of AMF in the establishment of fruits under organic management, and to compare them with an area of ​​native vegetation in semiarid Ceará. Soil samples were collected from 0-10cm layer in June, September and December 2010 in different areas. Number of spores, and diversity of AMF were quantified. The dominance of Glomus spores was confirmed in all the areas.

Os fungos micorrízicos arbusculares (FMA) são microrganismos chave na manutenção da biodiversidade de plantas em agroecossistemas e há o interesse no conhecimento sobre alterações nas propriedades microbiológicas do solo rizosférico pela sua relevância do ponto de vista prático e ecológico. Neste trabalho, objetivou-se avaliar a ocorrência de FMA na rizosfera de fruteiras em formação, sob o manejo orgânico, e compará-la com área de vegetação nativa no semiárido cearense. Amostras de solo foram coletadas da camada de 0-10cm em junho, setembro e dezembro de 2010 em áreas distintas nas linhas de plantio de fruteiras irrigadas. As amostras de solo foram submetidas a análises, em que quantificou-se o número de esporos e diversidade de FMA. A dominância de esporos do gênero Glomus foi confirmada na rizosfera das fruteiras e no solo sem interferência de plantas ou sob vegetação natural.

Isolamento e quantificação das populações de bactérias em geral e de actinomicetos presentes no solo / Aislamiento y cuantificación de poblaciones de bacterias en general y de actinomicetos presentes en el suelo / Isolation and quantification of actinomycetes and bacterial populations in general present in soil

O solo é um ecossistema complexo, dinâmico e difícil de ser estudado, a quantidade e diversidade de micro-organismos do solo são imensas. A microbiota do solo é caracterizada pela abundância e diversidade. A atividade microbiana é utilizada como uma maneira de melhor entender os processos de mineralização e observar mais profundamente a intensidade dos fluxos de energia no solo. A fertilidade natural do solo depende, portanto, da dinâmica de matéria orgânica e ciclagem de nutrientes, os quais são catalizados pela biomassa microbiana do solo. Dentre as bactérias existentes no solo, encontram-se as autotróficas, as heterotróficas, as aeróbias, as anaeróbias, as fixadoras de nitrogênio, nitrificantes e desnitrificantes, actinomicetos, entre outras. Estudos ecológicos das populações de actinomicetos são de extrema importância, visto que esses micro-organismos se destacam pela possibilidade de sintetizar vitaminas, substâncias inibidoras da atividade enzimática e antibióticos. A determinação das densidades populacionais na comunidade microbiana dos solos é importante, tanto na identificação de fatores que influenciam o equilíbrio microbiológico dos solos, como na caracterização das relações entre grupos e espécies de microrganismos. Portanto, é de grande relevância a quantificação das bactérias em geral e actinomicetos presentes no solo para que se possa inferir sobre a fertilidade do solo. Estudos dessa natureza podem fornecer subsídios para programas de conservação de áreas florestadas e recuperação de áreas degradadas.

Soil is a complex, dynamic and hard-to-study ecosystem due to the immense quantity and diversity of microorganisms. Soil microbiota is characterized by abundance and diversity. Microbial activity is used as a way to better understand the mineralization processes and have an in-depth visualization of the intensity of energy flows in the soil. The natural fertility of the ground depends, therefore, on the dynamics of organic matter and nutrient recycling, which are catalyzed by the soil microbial biomass. Among the bacteria on the soil, it is possible to find autotrophic, heterotrophic, aerobial, anaerobial, nitrogen-fixing, nitrifying and denitrifying, actinomycetes, and others. Ecological studies of actinomycete populations are of extreme importance, since these microorganisms are outstanding due to their ability to synthesize vitamins, enzymatic activity inhibitors and antibiotics. Determining microbial population densities is important both in the identification of factors which influence the microbiological balance in the soil and in the characterization of relationships among groups and species of microorganisms. Therefore, the quantification of bacteria in general and actinomycetes from the soil is of great importance, since it may enable inferences about soil fertility. Studies of this nature may provide subsidies for conservational programs in forested areas and degraded areas in recovery processes.

El suelo es un ecosistema complejo, dinámico y difícil de ser estudiado, ya que la cantidad y diversidad de microorganismos del suelo son inmensas. La microbiota del suelo se caracteriza por la abundancia y diversidad. La actividad microbiana es utilizada como una forma de entender mejor los procesos de mineralización y visualizar más profundamente la intensidad de los flujos de energía en el suelo. La fertilidad natural del suelo depende, por lo tanto, de la dinámica de materia orgánica y ciclo de nutrientes, los cuales son catalizados por la biomasa microbiana del suelo. Entre las bacterias existentes en el suelo, se encuentran los autótrofos, heterótrofos, aérobicos, anaeróbicos, fijadoras de nitrógeno, nitrificadoras y denitrificadoras, actinomicetos, entre otros. Estudios ecológicos de las poblaciones de actinomicetos son de extrema importancia, ya que esos microorganismos se destacan por la posibilidad de sintetizar vitaminas, sustancias inhibidoras de la actividad enzimática y antibióticos. La determinación de las densidades poblacionales en la comunidad microbiana de los suelos es importante, tanto en la identificación de factores que influencian el equilibrio microbiológico de los suelos, como la caracterización de las relaciones entre grupos y especies de microorganismos. Por lo tanto, es de gran importancia la cuantificación de las bacterias en general y actinomicetos presentes en el suelo para que se pueda inferir sobre la fertilidad del suelo. Estudios de esta naturaleza pueden proporcionar subsidios para programas de conservación de áreas forestales y recuperación de áreas degradadas.

Pathogenic and enzyme activities of the entomopathogenic fungus Tolypocladium cylindrosporum (Ascomycota: Hypocreales) from Tierra del Fuego, Argentina

Tolypocladium cylindrosporum is an entomopathogenic fungi that has been studied as a biological control agent against insects of several orders. The fungus has been isolated from the soil as well as from insects of the orders Coleoptera, Lepidoptera, Diptera and Hymenoptera. In this study, we analyzed the ability of a strain of T. cylindrosporum, isolated from soil samples taken in Tierra del Fuego, Argentina, to produce hydrolytic enzymes, and to study the relationship of those activities to the fungus pathogenicity against pest aphids. We have made the traditional and molecular characterization of this strain of T. cylindrosporum. The expression of hydrolase activity in the fungal strain was estimated at three incubation temperatures (4ºC, 12ºC and 24ºC), on different agar media supplemented with the following specific substrates: chitin azure, Tween ® 20, casein, and urea for chitinase, lipase, protease, and urease activity, respectively. The hydrolytic-enzyme activity was estimated qualitatively according to the presence of a halo of clarification through hydrolase action, besides was expressed semi-quantitatively as the ratio between the hydrolytic-halo and colony diameters. The pathogenicity of the fungus was tested on adults of the aphid Rhopalosiphum padi at three temperatures of incubation (4ºC, 12ºC and 24ºC). The suspension was adjusted to a concentration of 1x10 7 conidia/ml. In pathogenicity assays at seven days post-inoculation, the fungus caused the mortality of adults of Ropalosiphum padi at different temperatures also showed a broad ability to grow on several agar-culture media, supplemented with different carbon sources at the three incubation temperatures tested. Although, the growth was greater with higher incubation temperatures (with maximum levels at 24°C), the fungus reached similar colony diameters after 15 days of incubation on the medium supplemented with Tween® 20 at the lower two incubation temperatures of 4°C or 12°C. In accordance with the results on colony diameters, the fungus revealed an ability to degrade casein, chitin derivatives, Tween® 20, and urea as evidenced by the appearance of a halo around the fungal colony. Because of its origin and temperature tolerance, this Argentine strain has great potential for use as a biocontrol agent for insect pest control in cold and temperate environments. Rev. Biol. Trop. 60 (2): 833-841. Epub 2012 June 01.

El hongo entomopatógeno Tolypocladium cylindrosporum ha sido estudiado como un agente de control biológico contra insectos de varios órdenes. Esta especie fue aislada del suelo, así como de insectos de los órdenes Coleoptera, Lepidoptera, Diptera e Hymenoptera. En el presente trabajo hemos analizado la capacidad de una cepa de T. cylindrosporum (LPSC Nº1065) aislada del suelo en Tierra del Fuego, Argentina, para producir enzimas hidrolíticas y determinar la relación de esta actividad con la patogenicidad del hongo para combatir la plaga de los áfidos en diferentes temperaturas (4º, 12º y 24ºC). En los ensayos de patogenicidad, siete días posteriores a la inoculación, se registró mortalidad en los adultos del áfido Ropalosiphum padi a diferentes temperaturas y también se demostró una amplia capacidad de crecer en varios medios de cultivos complementados con diferentes fuentes de carbono bajo las tres temperaturas de incubación ensayadas. Debido a su origen y a la tolerancia que tiene a bajas temperaturas esta cepa, presenta un gran potencial para su uso como agente de control biológico para las plagas de insectos de ambientes fríos y templados.

Isolamento e quantificação das populações de Bactérias em geral e de actinomicetos presentes no solo / Isolation and quantification of actinomycetes and bacterial populations in general present in soil / Aislamiento y cuentificación de poblaciones de bacterias en general y de actinomicetos presentes en el suelo

O solo é um ecossistema complexo, dinâmico e difícil de ser estudado, a quantidade e diversidade de micro-organismos do solo são imensas. A microbiota do solo é caracterizada pela abundância e diversidade. A atividade microbiana é utilizada como uma maneira de melhor entender os processos de mineralização e observar mais profundamente a intensidade dos fluxos de energia no solo. A fertilidade natural do solo depende, portanto, da dinâmica de matéria orgânica e ciclagem de nutrientes, os quais são catalizados pela biomassa microbiana do solo. Dentre as bactérias existentes no solo, encontram-se as autotróficas, as heterotróficas, as aeróbias, as anaeróbias, as fixadoras de nitrogênio, nitrificantes e desnitrificantes, actinomicetos, entre outras. Estudos ecológicos das populações de actinomicetos são de extrema importância, visto que esses micro-organismos se destacam pela possibilidade de sintetizar vitaminas, substâncias inibidoras da atividade enzimática e antibióticos. A determinação das densidades populacionais na comunidade microbiana dos solos é importante, tanto na identificação de fatores que influenciam o equilíbrio microbiológico dos solos, como na caracterização das relações entre grupos e espécies de microrganismos. Portanto, é de grande relevância a quantificação das bactérias em geral e actinomicetos presentes no solo para que se possa inferir sobre a fertilidade do solo. Estudos dessa natureza podem fornecer subsídios para programas de conservação de áreas florestadas e recuperação de áreas degradadas.(AU)

Soil is a complex, dynamic and hard-to-study ecosystem due to the immense quantity and diversity of micro-organisms. Soil microbiota is characterized by abundance and diversity. Microbial activity is used as a way to better understand the mineralization processes and have an in-depth visualization of the intensity of energy flows in the soil. The natural fertility of the ground depends, therefore, on the dynamics of organic matter and nutrient recycling, which are catalyzed by the soil microbial biomass. Among the bacteria on the soil, it is possible to find autotrophic, heterotrophic, aerobial, anaerobial, nitrogen-fixing, nitrifying and denitrifying, actinomycetes, and others. Ecological studies of actinomycete populations are of extreme importance, since these microorganisms are outstanding due to their ability to synthesize vitamins, enzymatic activity inhibitors and antibiotics. Determining microbial population densities is important both in the identification of factors which influence the microbiological balance in the soil and in the characterization of relationships among groups and species of microorganisms. Therefore, the quantification of bacteria in general and actinomycetes from the soil is of great importance, since it may enable inferences about soil fertility. Studies of this nature may provide subsidies for conservational programs in forested areas and degraded areas in recovery processes.(AU)

El suelo es un ecosistema complejo, dinámico y difícil de ser estudiado, ya que la cantidad y diversidad de microorganismos del suelo son inmensas. La microbiota del suelo se caracteriza por la abundancia y diversidad. La actividad microbiana es utilizada como una forma de entender mejor los procesos de mineralización y visualizar más profundamente la intensidad de los flujos de energía en el suelo. La fertilidad natural del suelo depende, por lo tanto, de la dinámica de materia orgánica y ciclo de nutrientes, los cuales son catalizados por la biomasa microbiana del suelo. Entre las bacterias existentes en el suelo, se encuentran los autótrofos, heterótrofos, aérobicos, anaeróbicos, fijadoras de nitrógeno, nitrificadoras y denitrificadoras, actinomicetos, entre otros. Estudios ecológicos de las poblaciones de actinomicetos son de extrema importancia ya que esos microorganismos se destacan por la posibilidad de sintetizar vitaminas, sustancias inhibidoras de la actividad enzimática y antibióticos. La determinación de las densidades poblacionales en la comunidad microbiana de los suelos es importante, tanto en la identificación de factores que influencian el equilibrio microbiológico de los suelos, como la caracterización de las relaciones entre grupos y especies de microorganismos. Por lo tanto, es de gran importancia la cuantificación de las bacterias en general y actinomicetos presentes en el suelo para que se pueda inferir sobre la fertilidad del suelo. Estudios de esta naturaleza pueden proporcionar subsidios para programas de conservación de áreas forestales y recuperación de áreas degradadas.(AU)

Soil microbial biomass in organic farming system / Biomassa microbiana do solo em sistemas orgânicos

Agricultural production systems have to combine management practices in order to sustain soil's profitability and quality. Organic farming is gaining worldwide acceptance and has been expanding at an annual rate of 20 percent in the last decade, accounting for over 24 million hectares worldwide. Organic practices avoid applications of synthetic fertilizers and pesticides, rely on organic inputs and recycling for nutrient supply, and emphasize cropping system design and biological processes for pest management, as defined by organic farming regulation in the world. In comparison with conventional farming, organic farming has potential benefits in improving food quality and safety. Plant production in organic farming mainly depends on nutrient release as a function of mineralization processes in soils. The build-up of a large and active soil microbial biomass is important pool of accessible nutrients, therefore, is an important priority in organic farming. In organic farming, there is positive effect of quantity and quality of inputs of organic residues on soil microbial biomass. In this way, the organic systems are extremely important for the increase of the soil fertility and the maintenance of the environmental sustainability.

A produção agrícola tem de combinar práticas para prover a sustentabilidade do solo. A agricultura orgânica está ganhando aceitação mundial e cresce à taxa anual de 20 por cento na última década, contabilizando mais de 24 milhões de hectares. As práticas orgânicas evitam o uso de fertilizantes sintéticos e pesticidas, enfatiza a aplicação de matéria orgânica, como também a reciclagem de nutrientes e de processos biológicos para manejo de pragas, através das regras dos sistemas orgânicos no mundo. Em comparação com a agricultura convencional, os sistemas orgânicos têm potencial de melhorar a qualidade e a segurança dos alimentos. A produção das plantas no sistema orgânico depende da liberação de nutrientes pelo processo de mineralização microbiana no solo. A construção de uma grande e ativa biomassa microbiana é um importante reservatório de nutrientes disponíveis. Dessa forma, isso é uma prioridade no sistema orgânico. Em sistemas orgânicos, há efeitos positivos da quantidade e da qualidade das fontes de carbono orgânico sobre a biomassa microbiana do solo. Nesse sentido, as práticas do sistema orgânico são extremamente importantes para o aumento da fertilidade do solo e para a manutenção da sustentabilidade ambiental.

Transformação genética e aplicação de glifosato na microbiota do solo, fixação biológica de nitrogênio, qualidade e segurança de grãos de soja geneticamente modificada / Genetic transformation and the use glyphosate on soil microbial, biological nitrogen fixation, quality and safety of genetically modified soybean

A soja geneticamente modificada resistente ao herbicida glifosato (GM RR) é o principal produto da biotecnologia vegetal, considerando-se a evolução da área cultivada e o consumo desse grão. Os Estados Unidos, a Argentina e o Brasil são os maiores produtores de soja GM RR. A liberação para cultivo da soja GM RR no Brasil foi efetivada com base, quase que exclusivamente, em trabalhos realizados em outros países, sem a devida validação nas condições edafoclimáticas locais. Nesse contexto, buscou-se coletar e analisar os principais trabalhos que versam sobre impacto ambiental, metabolismo da planta, qualidade e segurança da soja GM RR tratada e não tratada com glifosato. De modo geral, os trabalhos analisados apresentam algumas características comuns: a) avaliam poucas variáveis; e b) inferem, a partir de simulação com ensaios em casa de vegetação ou in vitro, possíveis respostas no cultivo comercial. Embora ainda escassos, os estudos realizados apontam para o fato de que a transformação genética não afeta os microrganismos do solo, nem a fixação biológica de nitrogênio, nem a composição dos grãos. O fator que pode afetar essas variáveis é a aplicação do glifosato no controle de plantas daninhas, ou seja, os riscos de perigo ao ambiente e à segurança dos produtos derivados dessa matéria-prima se devem ao insumo aplicado durante o cultivo, e não à transformação genética propriamente dita.

The genetically modified soybean resistant to glyphosate (GM RR) is the main product of plant biotechnology, considering the evolution of the area cultivated and the use of this grain. EUA, Argentina and Brazil are the largest producers of GM RR. The release of GM RR soybean cultivation in Brazil was done based on researches that were accomplished in other countries without the validation of the same edaphoclimatic conditions. In this context, the main researches about environmental impact, plant metabolism, quality and safety of GM RR soybean with or without glyphosate application were collected and investigated. In general, the researches investigated showed some similar characteristics: a) few variables were studied; b) simulations in green house or in vitro are used to infer possible response on the field. Although scarce, the researches denoted that the genetic transformation did not affect soil microorganisms, biological nitrogen fixation and composition of grains. The factor which could affect these variables is the glyphosate application in weed control, thus the risk of damage to the environment and the safety of products derived from this raw materialare due to the use of the herbicide during cultivation, and not to the genetic transformation. Key words: Transgenic soybean, soil microorganisms, herbicides residue, isoflavones.

Soil microbial biomass in organic farming system

Agricultural production systems have to combine management practices in order to sustain soil's profitability and quality. Organic farming is gaining worldwide acceptance and has been expanding at an annual rate of 20% in the last decade, accounting for over 24 million hectares worldwide. Organic practices avoid applications of synthetic fertilizers and pesticides, rely on organic inputs and recycling for nutrient supply, and emphasize cropping system design and biological processes for pest management, as defined by organic farming regulation in the world. In comparison with conventional farming, organic farming has potential benefits in improving food quality and safety. Plant production in organic farming mainly depends on nutrient release as a function of mineralization processes in soils. The build-up of a large and active soil microbial biomass is important pool of accessible nutrients, therefore, is an important priority in organic farming. In organic farming, there is positive effect of quantity and quality of inputs of organic residues on soil microbial biomass. In this way, the organic systems are extremely important for the increase of the soil fertility and the maintenance of the environmental sustainability.

A produção agrícola tem de combinar práticas para prover a sustentabilidade do solo. A agricultura orgânica está ganhando aceitação mundial e cresce à taxa anual de 20% na última década, contabilizando mais de 24 milhões de hectares. As práticas orgânicas evitam o uso de fertilizantes sintéticos e pesticidas, enfatiza a aplicação de matéria orgânica, como também a reciclagem de nutrientes e de processos biológicos para manejo de pragas, através das regras dos sistemas orgânicos no mundo. Em comparação com a agricultura convencional, os sistemas orgânicos têm potencial de melhorar a qualidade e a segurança dos alimentos. A produção das plantas no sistema orgânico depende da liberação de nutrientes pelo processo de mineralização microbiana no solo. A construção de uma grande e ativa biomassa microbiana é um importante reservatório de nutrientes disponíveis. Dessa forma, isso é uma prioridade no sistema orgânico. Em sistemas orgânicos, há efeitos positivos da quantidade e da qualidade das fontes de carbono orgânico sobre a biomassa microbiana do solo. Nesse sentido, as práticas do sistema orgânico são extremamente importantes para o aumento da fertilidade do solo e para a manutenção da sustentabilidade ambiental.

Soil microbial biomass in organic farming system

Agricultural production systems have to combine management practices in order to sustain soil's profitability and quality. Organic farming is gaining worldwide acceptance and has been expanding at an annual rate of 20% in the last decade, accounting for over 24 million hectares worldwide. Organic practices avoid applications of synthetic fertilizers and pesticides, rely on organic inputs and recycling for nutrient supply, and emphasize cropping system design and biological processes for pest management, as defined by organic farming regulation in the world. In comparison with conventional farming, organic farming has potential benefits in improving food quality and safety. Plant production in organic farming mainly depends on nutrient release as a function of mineralization processes in soils. The build-up of a large and active soil microbial biomass is important pool of accessible nutrients, therefore, is an important priority in organic farming. In organic farming, there is positive effect of quantity and quality of inputs of organic residues on soil microbial biomass. In this way, the organic systems are extremely important for the increase of the soil fertility and the maintenance of the environmental sustainability.

A produção agrícola tem de combinar práticas para prover a sustentabilidade do solo. A agricultura orgânica está ganhando aceitação mundial e cresce à taxa anual de 20% na última década, contabilizando mais de 24 milhões de hectares. As práticas orgânicas evitam o uso de fertilizantes sintéticos e pesticidas, enfatiza a aplicação de matéria orgânica, como também a reciclagem de nutrientes e de processos biológicos para manejo de pragas, através das regras dos sistemas orgânicos no mundo. Em comparação com a agricultura convencional, os sistemas orgânicos têm potencial de melhorar a qualidade e a segurança dos alimentos. A produção das plantas no sistema orgânico depende da liberação de nutrientes pelo processo de mineralização microbiana no solo. A construção de uma grande e ativa biomassa microbiana é um importante reservatório de nutrientes disponíveis. Dessa forma, isso é uma prioridade no sistema orgânico. Em sistemas orgânicos, há efeitos positivos da quantidade e da qualidade das fontes de carbono orgânico sobre a biomassa microbiana do solo. Nesse sentido, as práticas do sistema orgânico são extremamente importantes para o aumento da fertilidade do solo e para a manutenção da sustentabilidade ambiental.