154 research outputs found
Innovation and energy conservation: electric motors in Brazil
This paper assess the potential for energy conservation through the spread of High Efficiency Motors (HEM) in the Brazilian market. The strategy of 9 main Brazilian electric motors producers is reviewed and the market barriers to the diffusion of HEM was studied. We found out that there are technological opportunities to improve the efficiency of Brazilian electric motors. The main difficulty to improve these motors efficiency is not producers technological capability but their strategy for the domestic market. These producers have different technological strategy for foreign and domestic market. The industrial organization of motor producers suppliers represents an important barrier to the spread of HEM in domestic market. The study concludes that an innovative policy that deals with cost differential between standard and HEM motorsis fundamental to induce energy conservation in the electric motors market.Indisponível
Structure and floristic composition of woody vegetation in cerrado rupestre in the Cerrado-Amazonian Forest transition zone, Mato Grosso, Brazil
O objetivo desse estudo foi determinar a composição florística e a estrutura da vegetação lenhosa (incluindo monocotiledôneas e lianas) em cerrado rupestre na zona de transição Cerrado-Floresta Amazônica, no Parque do Bacaba, em Nova Xavantina, MT (14º 41’ S e 52º 20’ W) e compará-las com outros estudos de cerrado sentido restrito. Foram demarcadas aleatoriamente 10 parcelas de 20 × 50 m, nas quais foram medidos os indivíduos vivos e mortos em pé com diâmetro mínimo a 30 cm do solo (DAS) ≥ 3 cm. O cerrado rupestre apresentou alta densidade (3.766 indivíduos vivos), riqueza florística (85 espécies, 67 gêneros e 34 famílias) e área basal (15,72 m2ha-1), e ainda elevado valor do índice de diversidade de espécies de Shannon-Wiener (H’ = 3,47) e equabilidade de Pielou (J = 0,78) em relação às áreas comparadas. As espécies com maior valor de importância foram Erythroxylum suberosum, Qualea parviflora, Anacardium occidentale, Kielmeyera rubriflora e Vatairea macrocarpa. A maior similaridade florística entre comunidades de cerrado típico e rupestre localizadas em áreas com menores altitudes do leste mato-grossense sugere que nessa região a proximidade geográfica e a altitude exercem influência sobre a composição de espécies, independentemente do substrato. A comunidade apresentou distribuição de alturas unimodal, predominando indivíduos de porte arbustivo com altura < 3 m e DAS < 5 cm. É sugerido aqui que estudos florísticos e fitossociológicos realizados em cerrado rupestre empreguem DAS mínimo de 3 cm e incluam espécies de monocotiledôneas e de lianas para representar de maneira mais realística a riqueza e composição de espécies e a estrutura da vegetação. A elevada riqueza e diversidade de espécies registrada no presente estudo podem estar relacionadas à posição pré-Amazônica deste cerrado rupestre, enfatizando a importância da manutenção do Parque do Bacaba no sentido de garantir a proteção de sua diversidade biológica.This study aimed to analyze the floristic composition and the structure of a savanna on rocky soil (“cerrado rupestre”) woody vegetation (including monocots and lianas) in the Cerrado-Amazon Forest transition zone located at Parque Municipal do Bacaba, Nova Xavantina, State of Mato Grosso (14º 41’ S and 52º 20’ W), and compare it with other cerrado stricto sensu studies. Ten 20 × 50 m plots were randomly established, within which all live and dead woody plants with at least 3 cm of trunk diameter at 30 cm above ground level (DSH30 ≥ 3 cm) were measured. The cerrado rupestre showed high density (3,766 live individuals), richness (85 species, 67 genera and 34 families) and basal area (15.72 m2ha-1), as well as high levels of Shannon-Wiener species diversity (H’ = 3.47) and evenness (J = 0.78) indices. The most important species were Erythroxylum suberosum, Qualea parviflora, Anacardium occidentale, Kielmeyera rubriflora and Vatairea macrocarpa. The greatest floristic similarity found between typical cerrado and “cerrado rupestre” communities from lower altitude areas of Northeastern Mato Grosso suggest that, in this region, altitude and geographical distance influence the species composition, regardless of the substrate. The community presented unimodality in the heights distribution and is mostly compounded by shrubby individuals with height < 3 m and DSH < 5 cm. We suggest that floristic and phytosociological studies conducted in “cerrado rupestre” should adopt DSH ≥ 3 cm and include monocot and liana species, so as to more realistically represent the vegetation richness, species composition and structure. The high species richness and diversity registered in this study might be related to this “cerrado rupestre” pre-Amazonian location, which emphasizes the importance of “Parque do Bacaba” maintenance as a guarantee of its biological diversity protection
Mudanças na estrutura de um cerradão em um período de seis anos, na transição Cerrado-Floresta Amazônica, Mato Grosso, Brasil
Mudanças na vegetação em zonas de transição são ainda pouco estudadas. Foram avaliadas as mudanças na estrutura da vegetação de um cerradão na transição Cerrado-Floresta Amazônica (14º42'2,3"S e 52º21'2,6"W), no leste de Mato Grosso, em um período de seis anos (2002, 2005 e 2008). Em 2002 foram estabelecidas 50 parcelas de 10 × 10 m, medidas todas as árvores com DAS30 ≥ 5 cm e em 2005 e 2008 as parcelas foram reinventariadas. Em 2008 foram amostradas 84 espécies, 70 gêneros e 37 famílias, a densidade absoluta foi de 1.998 indivíduos/ha e a área basal de 25,95 m2.ha-1. A densidade absoluta dos indivíduos vivos diminuiu em relação a 2005 (2.066 ind/ha); em contrapartida, a área basal aumentou em relação a 2005 (23,56 m2.ha-1) e 2002 (1.884 ind/ha e 21,38 m2.ha-1). As espécies com maior valor de importância nos períodos analisados foram Hirtella glandulosa, Tachigali vulgaris e Xylopia aromatica. Com exceção destas três espécies, todas as demais sofreram alterações hierárquicas no valor de importância, indicando que a maioria das espécies está se alternando frequentemente. Como a estrutura da comunidade apresentou mudanças entre os períodos estudados, sugerimos investigações sobre o papel de T. vulgaris nessas mudanças, uma vez que as condições ambientais ocasionadas pela abertura de clareiras em função da queda de indivíduos senis desta espécie pioneira e de ciclo de vida curto podem estar contribuindo na dinâmica da comunidade.Vegetation changes in transition zones are still poorly studied. Changes in the vegetation structure of a savanna forest (cerradão) were assessed in the Amazon-Cerrado transition (14º42'2.3"S; 52º21'2.6"W), eastern Mato Grosso, within a period of six years (2002, 2005 and 2008). In 2002, fifty plots of 10 × 10 m were set up, where all trees with DSH30 ≥ 5 cm were measured; in 2005 and 2008 the plots were re-inventoried. In 2008, 84 species from 70 genera and 37 families were sampled; absolute density was 1,998 individuals/ha and basal area was 25.95 m2.ha-1. On the one hand, the absolute density of live individuals decreased from 2005 to 2008 (2,066 individuals/ha); on the other hand, the basal area increased in 2008 compared to 2005 (23.56 m2.ha-1) and 2002 (1,884 individuals/ha and 21.38 m2.ha-1). The species with the highest importance value in the period were Hirtella glandulosa, Tachigali vulgaris and Xylopia aromatica. Except for these three species, all other species underwent hierarchic changes in the importance value, indicating that most species frequently alternate. Community structure exhibited changes throughout the period; hence, we suggest investigations on the role of T. vulgaris in these changes, since environmental conditions caused by gap opening from the fall of senile individuals of this pioneer species with a short life cycle may contribute to community dynamics
Soil pyrogenic carbon in southern Amazonia: Interaction between soil, climate, and above-ground biomass
The Amazon forest represents one of the world’s largest terrestrial carbon reservoirs. Here, we evaluated the role of soil texture, climate, vegetation, and distance to savanna on the distribution and stocks of soil pyrogenic carbon (PyC) in intact forests with no history of recent fire spanning the southern Amazonia forest-Cerrado Zone of Transition (ZOT). In 19 one hectare forest plots, including three Amazonian Dark Earth (ADE, terra preta) sites with high soil PyC, we measured all trees and lianas with diameter ≥ 10 cm and analyzed soil physicochemical properties, including texture and PyC stocks. We quantified PyC stocks as a proportion of total organic carbon using hydrogen pyrolysis. We used multiple linear regression and variance partitioning to determine which variables best explain soil PyC variation. For all forests combined, soil PyC stocks ranged between 0.9 and 6.8 Mg/ha to 30 cm depth (mean 2.3 ± 1.5 Mg/ha) and PyC, on average, represented 4.3% of the total soil organic carbon (SOC). The most parsimonious model (based on AICc) included soil clay content and above-ground biomass (AGB) as the main predictors, explaining 71% of soil PyC variation. After removal of the ADE plots, PyC stocks ranged between 0.9 and 3.8 Mg/ha (mean 1.9 ± 0.8 Mg/ha–1) and PyC continued to represent ∼4% of the total SOC. The most parsimonious models without ADE included AGB and sand as the best predictors, with sand and PyC having an inverse relationship, and sand explaining 65% of the soil PyC variation. Partial regression analysis did not identify any of the components (climatic, environmental, and edaphic), pure or shared, as important in explaining soil PyC variation with or without ADE plots. We observed a substantial amount of soil PyC, even excluding ADE forests; however, contrary to expectations, soil PyC stocks were not higher nearer to the fire-dependent Cerrado than more humid regions of Amazonia. Our findings that soil texture and AGB explain the distribution and amount of soil PyC in ZOT forests will help to improve model estimates of SOC change with further climatic warming
PROSPECÇÃO TECNOLÓGICA SOBRE MÉTODOS ELETROQUÍMICOS PARA DETERMINAÇÃO DE ÍNDICE DE ACIDEZ EM BIODIESEL DE BABAÇU
O biodiesel é um recurso renovável e não poluente, mas para sua utilização necessita-se de um bom controle de qualidade do produto e matéria prima. Um dos parâmetros de qualidade do biodiesel é o teor de ácidos graxos livres (AGL) que é medido por meio do índice de acidez (IA); uma vez que uma elevada acidez do óleo dificulta a reação de produção do biodiesel. Este trabalho tem como objetivo a busca de anterioridade para determinação de índice de acidez em biodiesel através do desenvolvimento de métodos eletroquímicos. A pesquisa foi desenvolvida através do mapeamento de patentes em diferentes bases de dados, bem como em bancos de dados de artigos científicos. Observou-se que há poucos números de patentes nas bases pesquisadas e em publicações de artigos científicos direcionados ao tema proposto, o que mostra ser este assunto promissor para investimentos de pesquisa, desenvolvimento e apropriação de tecnologia
Transcriptional profiles of the human pathogenic fungus paracoccidioides brasiliensis in mycelium and yeast cells
This work was supported by MCT, CNPq, CAPES, FUB, UFG, and FUNDECT-MS. PbGenome Network: Alda Maria T. Ferreira, Alessandra Dantas, Alessandra J. Baptista, Alexandre M. Bailão, Ana Lídia Bonato, André C. Amaral, Bruno S. Daher, Camila M. Silva, Christiane S. Costa, Clayton L. Borges, Cléber O. Soares, Cristina M. Junta, Daniel A. S. Anjos, Edans F. O. Sandes, Eduardo A. Donadi, Elza T. Sakamoto-Hojo, Flábio R. Araújo, Flávia C. Albuquerque, Gina C. Oliveira, João Ricardo M. Almeida, Juliana C. Oliveira, Kláudia G. Jorge, Larissa Fernandes, Lorena S. Derengowski, Luís Artur M. Bataus, Marcus A. M. Araújo, Marcus K. Inoue, Marlene T. De-Souza, Mauro F. Almeida, Nádia S. Parachin, Nadya S. Castro, Odair P. Martins, Patrícia L. N. Costa, Paula Sandrin-Garcia, Renata B. A. Soares, Stephano S. Mello, and Viviane C. B. ReisParacoccidioides brasiliensis is the causative agent of paracoccidioidomycosis, a disease that affects 10 million individuals in Latin America. This report depicts the results of the analysis of 6,022 assembled groups from mycelium and yeast phase expressed sequence tags, covering about 80% of the estimated genome of this dimorphic, thermo-regulated fungus. The data provide a comprehensive view of the fungal metabolism, including overexpressed transcripts, stage-specific genes, and also those that are up- or down-regulated as assessed by in silico electronic subtraction and cDNA microarrays. Also, a significant differential expression pattern in mycelium and yeast cells was detected, which was confirmed by Northern blot analysis, providing insights into differential metabolic adaptations. The overall transcriptome analysis provided information about sequences related to the cell cycle, stress response, drug resistance, and signal transduction pathways of the pathogen. Novel P. brasiliensis genes have been identified, probably corresponding to proteins that should be addressed as virulence factor candidates and potential new drug targets
Expanding tropical forest monitoring into Dry Forests: The DRYFLOR protocol for permanent plots
This is the final version. Available on open access from Wiley via the DOI in this recordSocietal Impact Statement
Understanding of tropical forests has been revolutionized by monitoring in permanent plots. Data from global plot networks have transformed our knowledge of forests’ diversity, function, contribution to global biogeochemical cycles, and sensitivity
to climate change. Monitoring has thus far been concentrated in rain forests. Despite
increasing appreciation of their threatened status, biodiversity, and importance to the
global carbon cycle, monitoring in tropical dry forests is still in its infancy. We provide
a protocol for permanent monitoring plots in tropical dry forests. Expanding monitoring into dry biomes is critical for overcoming the linked challenges of climate change,
land use change, and the biodiversity crisis.Newton FundNatural Environment Research Council (NERC)Fundação de Amparo à Pesquisa do Estado de São PauloCYTE
The global abundance of tree palms
Aim: Palms are an iconic, diverse and often abundant component of tropical ecosys-tems that provide many ecosystem services. Being monocots, tree palms are evo-lutionarily, morphologically and physiologically distinct from other trees, and these differences have important consequences for ecosystem services (e.g., carbon se-questration and storage) and in terms of responses to climate change. We quanti-fied global patterns of tree palm relative abundance to help improve understanding of tropical forests and reduce uncertainty about these ecosystems under climate change.Location: Tropical and subtropical moist forests.Time period: Current.Major taxa studied: Palms (Arecaceae).Methods: We assembled a pantropical dataset of 2,548 forest plots (covering 1,191 ha) and quantified tree palm (i.e., ≥10 cm diameter at breast height) abundance relative to co-occurring non-palm trees. We compared the relative abundance of tree palms across biogeographical realms and tested for associations with palaeoclimate stability, current climate, edaphic conditions and metrics of forest structure.Results: On average, the relative abundance of tree palms was more than five times larger between Neotropical locations and other biogeographical realms. Tree palms were absent in most locations outside the Neotropics but present in >80% of Neotropical locations. The relative abundance of tree palms was more strongly asso-ciated with local conditions (e.g., higher mean annual precipitation, lower soil fertility, shallower water table and lower plot mean wood density) than metrics of long-term climate stability. Life-form diversity also influenced the patterns; palm assemblages outside the Neotropics comprise many non-tree (e.g., climbing) palms. Finally, we show that tree palms can influence estimates of above-ground biomass, but the mag-nitude and direction of the effect require additional work.Conclusions: Tree palms are not only quintessentially tropical, but they are also over-whelmingly Neotropical. Future work to understand the contributions of tree palms to biomass estimates and carbon cycling will be particularly crucial in Neotropical forests
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