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Registro Completo |
Biblioteca(s): |
Epagri-Sede. |
Data corrente: |
29/11/2005 |
Data da última atualização: |
29/11/2005 |
Autoria: |
LIMA, M. de; RODRIGUES, M. L.; VIEIRA, H. J. |
Afiliação: |
Epagri |
Título: |
Avaliacao e comparacao do desempenho do mos e mal para prever temperaturas minimas, em Chapeco e Videira, durante o mes de agosto de 1998. |
Ano de publicação: |
1999 |
Fonte/Imprenta: |
In: CONGRESSO BRASILEIRO DE AGROMETEOROLOGIA, 11. REUNIAO LATINO AMERICANA DE AGROMETEOROLOGIA, 2, 1999, Florianópolis,SC. Anais...Florianopolis,SC: Epagri, 1999. CD-ROOM. |
Idioma: |
Português |
Conteúdo: |
Neste trabalho será analisado o desempenho de duas ferramentas utilizadas pelos
meteorologistas do CLIMERH/EPAGRI para auxiliar na previsão de temperaturas mínimas. O modelo estatístico, Model Output Statistics (MOS), e o modelo regional de circulação atmosférica, Modelo de Área Limitada (MAL), instalados no CLIMERH no final do inverno/98, durante 22 e 29 de julho/98. Por estar ainda em fase de instalação, durante agosto/98, as seqüências analisadas apresentam lacunas que não deverão aparecer em estudos futuros que serão realizados durante o inverno de 1999. |
Palavras-Chave: |
Chapeco; Santa Catarina; Temperatura; Videira. |
Categoria do assunto: |
-- |
Marc: |
LEADER 01266nam a2200181 a 4500 001 1041315 005 2005-11-29 008 1999 bl uuuu 0 #d 100 1 $aLIMA, M. de 245 $aAvaliacao e comparacao do desempenho do mos e mal para prever temperaturas minimas, em Chapeco e Videira, durante o mes de agosto de 1998. 260 $aIn: CONGRESSO BRASILEIRO DE AGROMETEOROLOGIA, 11. REUNIAO LATINO AMERICANA DE AGROMETEOROLOGIA, 2, 1999, Florianópolis,SC. Anais...Florianopolis,SC: Epagri, 1999. CD-ROOM.$c1999 520 $aNeste trabalho será analisado o desempenho de duas ferramentas utilizadas pelos meteorologistas do CLIMERH/EPAGRI para auxiliar na previsão de temperaturas mínimas. O modelo estatístico, Model Output Statistics (MOS), e o modelo regional de circulação atmosférica, Modelo de Área Limitada (MAL), instalados no CLIMERH no final do inverno/98, durante 22 e 29 de julho/98. Por estar ainda em fase de instalação, durante agosto/98, as seqüências analisadas apresentam lacunas que não deverão aparecer em estudos futuros que serão realizados durante o inverno de 1999. 653 $aChapeco 653 $aSanta Catarina 653 $aTemperatura 653 $aVideira 700 1 $aRODRIGUES, M. L. 700 1 $aVIEIRA, H. J.
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Biblioteca(s): |
Epagri-Sede. |
Data corrente: |
13/09/2013 |
Data da última atualização: |
13/09/2013 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
Internacional - A |
Autoria: |
SILVA JÚNIOR, V. P.; WERF, H. M. G. V. D.; SOARES, S. R.; SPIES, A. |
Título: |
Variability in environmental impacts of Brazilian soybean according to crop production and transport scenarios. |
Ano de publicação: |
2010 |
Fonte/Imprenta: |
Journal of Environmental Management, Leiden, v. 91, n. 9, p. 1831-1839, 2010. |
Idioma: |
Português |
Conteúdo: |
Soybean production and its supply chain are highly dependent on inputs such as land, fertilizer, fuel, machines, pesticides and electricity. The expansion of this crop in Brazil in recent decades has generated concerns about its environmental impacts. To assess these impacts, two representative chains supplying soybeans to Europe were identified: Center West (CW) and Southern (SO) Brazil. Each supply chain was analyzed using Life Cycle Assessment methodology. We considered different levels of use of chemical and organic fertilizers, pesticides and machinery, different distances for transportation of inputs and different yield levels. Because transportation contributed strongly to environmental impacts, a detailed study was performed to identify the routes used to transport soybeans to seaports. Additionally, we considered different levels of land occupation and land transformation to represent the impact of deforestation in the CW region. Environmental impacts were calculated for 1000 kg of soybean up to and including the delivery to Europe at the seaport in Rotterdam, at 13% humidity. Overall results showed that the impacts are greater for CW than for SO for all impact categories studied, including acidification (7.7 and 5.3 kg SO2 eq., respectively), climate change (959 and 510 kg CO2 eq.), cumulative energy demand (12,634 and 6,999 MJ) and terrestrial ecotoxicity (4.9 and 3.1 kg 1,4-DCB eq.), except eutrophication and land occupation. The same trend was observed for the crop-production stage. Efforts to reduce chemical fertilizers and diesel consumption can reduce CO2 emissions. Although deforestation for crop production has decreased in recent years, the contribution of deforestation to climate change and cumulative energy demand remains significant. In the CW scenario deforestation contributed 29% to climate change and 20% to cumulative energy demand. Results also showed that although there are different transportation options in Brazil, the current predominance of road transport causes severe environmental impacts. In CW, road transport contributed 19% to climate change and 24% to cumulative energy demand, while in SO it contributed 12% and 15% to these impacts, respectively. Improvements in the logistics of transportation, giving priority to rail and river transport over road transport, can contribute significantly to reducing greenhouse gas emissions and decreasing energy use. Future studies involving Brazilian soybeans should take into account the region of origin as different levels of environmental impact are predicted. MenosSoybean production and its supply chain are highly dependent on inputs such as land, fertilizer, fuel, machines, pesticides and electricity. The expansion of this crop in Brazil in recent decades has generated concerns about its environmental impacts. To assess these impacts, two representative chains supplying soybeans to Europe were identified: Center West (CW) and Southern (SO) Brazil. Each supply chain was analyzed using Life Cycle Assessment methodology. We considered different levels of use of chemical and organic fertilizers, pesticides and machinery, different distances for transportation of inputs and different yield levels. Because transportation contributed strongly to environmental impacts, a detailed study was performed to identify the routes used to transport soybeans to seaports. Additionally, we considered different levels of land occupation and land transformation to represent the impact of deforestation in the CW region. Environmental impacts were calculated for 1000 kg of soybean up to and including the delivery to Europe at the seaport in Rotterdam, at 13% humidity. Overall results showed that the impacts are greater for CW than for SO for all impact categories studied, including acidification (7.7 and 5.3 kg SO2 eq., respectively), climate change (959 and 510 kg CO2 eq.), cumulative energy demand (12,634 and 6,999 MJ) and terrestrial ecotoxicity (4.9 and 3.1 kg 1,4-DCB eq.), except eutrophication and land occupation. The same trend was observed for the c... Mostrar Tudo |
Palavras-Chave: |
Environmental impact; Life Cycle Assessment (LCA); Soybean; Transportation. |
Categoria do assunto: |
F Plantas e Produtos de Origem Vegetal |
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Marc: |
LEADER 03247naa a2200205 a 4500 001 1119034 005 2013-09-13 008 2010 bl uuuu u00u1 u #d 100 1 $aSILVA JÚNIOR, V. P. 245 $aVariability in environmental impacts of Brazilian soybean according to crop production and transport scenarios.$h[electronic resource] 260 $c2010 520 $aSoybean production and its supply chain are highly dependent on inputs such as land, fertilizer, fuel, machines, pesticides and electricity. The expansion of this crop in Brazil in recent decades has generated concerns about its environmental impacts. To assess these impacts, two representative chains supplying soybeans to Europe were identified: Center West (CW) and Southern (SO) Brazil. Each supply chain was analyzed using Life Cycle Assessment methodology. We considered different levels of use of chemical and organic fertilizers, pesticides and machinery, different distances for transportation of inputs and different yield levels. Because transportation contributed strongly to environmental impacts, a detailed study was performed to identify the routes used to transport soybeans to seaports. Additionally, we considered different levels of land occupation and land transformation to represent the impact of deforestation in the CW region. Environmental impacts were calculated for 1000 kg of soybean up to and including the delivery to Europe at the seaport in Rotterdam, at 13% humidity. Overall results showed that the impacts are greater for CW than for SO for all impact categories studied, including acidification (7.7 and 5.3 kg SO2 eq., respectively), climate change (959 and 510 kg CO2 eq.), cumulative energy demand (12,634 and 6,999 MJ) and terrestrial ecotoxicity (4.9 and 3.1 kg 1,4-DCB eq.), except eutrophication and land occupation. The same trend was observed for the crop-production stage. Efforts to reduce chemical fertilizers and diesel consumption can reduce CO2 emissions. Although deforestation for crop production has decreased in recent years, the contribution of deforestation to climate change and cumulative energy demand remains significant. In the CW scenario deforestation contributed 29% to climate change and 20% to cumulative energy demand. Results also showed that although there are different transportation options in Brazil, the current predominance of road transport causes severe environmental impacts. In CW, road transport contributed 19% to climate change and 24% to cumulative energy demand, while in SO it contributed 12% and 15% to these impacts, respectively. Improvements in the logistics of transportation, giving priority to rail and river transport over road transport, can contribute significantly to reducing greenhouse gas emissions and decreasing energy use. Future studies involving Brazilian soybeans should take into account the region of origin as different levels of environmental impact are predicted. 653 $aEnvironmental impact 653 $aLife Cycle Assessment (LCA) 653 $aSoybean 653 $aTransportation 700 1 $aWERF, H. M. G. V. D. 700 1 $aSOARES, S. R. 700 1 $aSPIES, A. 773 $tJournal of Environmental Management, Leiden$gv. 91, n. 9, p. 1831-1839, 2010.
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