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Albedo em cerrado sensu stricto como resposta à variação climática e biológica: conexões com índice de vegetação, estoques de carbono e fluxos de CO2 / Albedo in cerrado sensu stricto as response to climatic and bilogical variation: connections with vegetation index, carbon stocks and fluxes of CO2Couto, Diogo Ladvocat Negrão 07 December 2009 (has links)
Neste trabalho analisamos a influência da variabilidade climática sobre um ecossistema representado principalmente por cerrado sensu stricto, na Gleba Pé de Gigante, em Santa Rita do Passa Quatro, SP, durante o período de 2001 a 2007. Os dados coletados para esta análise são provenientes da torre micrometeorológica localizada no Parque Estadual de Vassunuga, cuja instalação está associada ao desenvolvimento do projeto temático Interação Biosfera- Atmosfera Fase 2: Cerrados e Mudanças de Uso da Terra. As propriedades físicas do clima utilizadas para análise foram a precipitação, a temperatura do ar e a radiação solar. Um levantamento teórico da biomassa acima e abaixo do solo foi realizado para caracterizar a vegetação quanto ao potencial de estoque de carbono existente. A biomassa da área coberta por campo cerrado foi de 67,1 Mg.ha-1, da área coberta por cerrado sensu stricto, 185,6 Mg.ha-1 e da área coberta por cerrado denso, 242,7 Mg.ha-1. Uma relação entre estoques de carbono e fluxos de CO2 foi estabelecida, onde uma tonelada de carbono em cerrado sensu stricto é capaz de assimilar, em média, 0,27 KgC.ha-1.dia-1 da atmosfera. A combinação de diferentes intensidades das propriedades climáticas formam condições ambientais variadas que contribuem para o estado da vegetação e sua produtividade. O principal parâmetro usado para avaliar o estado da vegetação foi o albedo, tanto para a faixa espectral da radiação visível (albedo solar) como para a faixa da radiação fotossintéticamente ativa (albedo RFA). O comportamento sazonal do albedo permitiu verificar que a vegetação apresentou-se fortemente condicionada pela variabilidade climática, que ditou o ritmo da funcionalidade ecossistêmica. De maneira geral, a precipitação, a temperatura do ar e a oferta de energia solar oscilam de forma proporcional ao longo das estações, caracterizando dois períodos distintos: um período com condições favoráveis ao desenvolvimento vegetal, de outubro a março, e um período de estresse, de abril a setembro. Os valores mínimos e máximos de albedo solar sobre o cerrado sensu stricto, durante o período analisado, oscilou entre 15% (novembro/dezembro) e 9% (setembro/outubro) e, o albedo RFA oscilou entre 2% (fevereiro/março) e 6% (setembro/outubro). Na escala interanual, observou-se o aumento do albedo RFA em 2006 após um período de três anos de queda contínua da precipitação, entre 2003 e 2006, sendo 2006 o ano menos chuvoso de toda a série considerada. Em 2007, os valores de albedo RFA foram bem mais baixos do que os calculados para os demais anos, respondendo rapidamente ao alto índice de precipitação ocorrido na estação chuvosa entre 2006 e 2007. Embora tenha sido observado uma resposta relativamente rápida do albedo RFA à recuperação do estresse hídrico na escala sazonal, o padrão do albedo na escala interanual é distinto: entre 2003 e 2006, período em que se observou taxas negativas de precipitação consecutivas, o albedo RFA diminuiu ou ficou com valores aparentemente constantes, apresentando valores mais altos somente em 2006. Desta forma, conclui-se que o estado da vegetação é condicionado principalmente pelo índice de precipitação, uma vez que a temperatura do ar e a quantidade de radiação solar não apresentam variações bruscas na região considerada. Considerando-se a importância da estimativa de albedo RFA como um parâmetro para estimar a variação sazonal do estado da vegetação, sugeriu-se um ajuste linear simples para a estimativa de albedo RFA em cerrado sensu stricto com base nos valores de IVDN, cuja variância explicada foi igual a 0,68. / In this work we analyze the climatic variability influence over a woodland savannah ecosystem at Gleba Pe de Gigante, Santa Rita do Passa Quatro, SP, during the 2001-2007 period. The data collected for this analysis are from a micrometeorological tower located at Vassununga State Park, which was installed under the thematic project called Biosphere- Atmosphere Interaction Phase 2: Savannah and Land Use Change. The physical climate properties used for this analysis were precipitation, air temperature and solar radiation. A theoretical survey for above and below ground biomass was made to characterize the existing carbon stock potential related to the vegetation. The total biomass estimated at grassland savannah was 67.1 Mg.ha-1, at woodland savannah was 185.6 Mg.ha-1 and at dense savannah was 242.7 Mg.ha-1. A relationship between carbon stocks and CO2 fluxes was established where one tone of carbon in woodland savannah absorbs an average of 0.27 KgC.ha-1.day-1 from the atmosphere. The combination of different climate properties and intensities generates different environmental conditions that lead to the vegetation state and its productivity. The main physical parameter considered to evaluate vegetation state was the albedo, which was shared in two spectral bands: visible spectrum (solar albedo) and photosynthetic active radiation (PAR albedo). The seasonal pattern of albedo allows checking that vegetation was strongly conditioned by climatic variability, which dictates the ecosystem functionality rhythm. Generally, precipitation, air temperature and solar radiation vary in a proportional way along the year, providing two different periods related to vegetation status: one period characterized by favorable conditions to vegetal development (October-March) and another by stressing conditions (April-September). Maximum and minimum values for solar albedo at woodland savannah varied, respectively, between 15% (November/December) and 9% (September/October); for PAR albedo, maximum and minimum values varied between 6% (September/October) and 2% (February/March). At annual scale, PAR albedo rose in 2006, after a four years period of falling precipitation rate, between 2003 and 2006. 2006 was the drier year among the others. In 2007, the PAR albedo values were much lower than those calculated for the remaining years, promptly responding to the high precipitation rate observed in the previous rainy season, 2006-2007. Even though a quick response in PAR albedo was noticed due to the recovered water stress in seasonal scale, the albedo pattern in annual scale held a different way: between 2003 and 2006, period characterized by consecutive and negative precipitation rates, vegetation was apparently associated to stable values of PAR albedo, presenting higher values only in 2006. Considering these results, we conclude that the vegetation state is mainly conditioned by precipitation rate, once the air temperature and solar radiation had not presented high variation in the study region. Based on the importance of PAR albedo as a parameter to estimate seasonal vegetation status, a simple linear adjustment according for woodland savannah PAR albedo based on NDVI values was suggested, which explained variance by NDVI was equal to 0.68.
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Simulation of water and nitrogen dynamics in a Cerrado soil under coffee cultivation using SWAP and ANIMO models / Simulação da dinâmica da água e do nitrogênio em um solo de Cerrado cultivado com café utilizando os modelos SWAP e ANIMOPinto, Victor Meriguetti 12 January 2016 (has links)
Agriculture when only focused on production leads to an unsustainable use of inputs with negative consequences to the environment and human health. One consequence of the excessive use of fertilizers is the pollution of surface and underground water resources in agricultural eco-systems and their boundaries. The Brazilian Cerrado has been suffering the transformations of the intensive agriculture during the last decades. Due to the poor fertility of soils, in general very sandy and of low pH, the use of agricultural inputs is intensified and the nutrient downward transport by leaching becomes a serious problem in different regions. Information about the current use practices of fertilizer use in the Cerrado environment must be gathered for a healthy transition of this biome. Models based on physical and chemical processes are useful tools to simulate water and nutrient dynamics in agricultural systems, including the related losses due to adopted managements. They have the potential to evaluate different scenarios to predict outcomings of such practices. Among the available models for such processes, SWAP (Soil, Water, Atmosphere and Plant model) has been used under several agronomic conditions to describe hydrologic processes, and ANIMO (Nitrogen in Agriculture model) to simulate N cycling in agricultural systems. Our study presents an application of SWAP to adult perennial coffee crops along one productive cycle, with focus on deep drainage losses and irrigation management in a representative Brazilian Cerrado management system. The SWAP/ANIMO combination was used in this study to simulate N absorption by coffee plants and N leaching in the form NO3-N, as a result of an intensive fertilizer management practice. The ANIMO program was calibrated in relation to one N treatment, of 400 kg ha-1 year-1, and was evaluated with independent data of NO3-N in soil solution of another treatment of 800 kg ha-1 year-1. The yearly water balance (WB) obtained from SWAP was similar to that obtained through a sequential climatologic WB of Thornthwaite and Matter. However, the monthly deep drainage values obtained by SWAP as compared to the WB values presented differences with a determination coefficient of 0.77 in a linearization of the results. Irrigation scenarios with intervals of 3(IF3), 5(IF5), 10 (IF10) e 15 (IF15) days between water applications were simulated by SWAP and compared with the irrigation management practiced in the farm where the experiment was carried out. These simulations showed for longer intervals (IF15) drainage losses were smaller, water productivity higher, as well as relative productivity. Measurements of N absorption by plants obtained experimentally were similar to ANIMO simulations. Sensitivity analyses of the model showed that leaching and soil solution concentration of NO3-N are sensitive to soil pH and temperature of the decomposition processes. We conclude that the combination of SWAP with ANIMO was efficient for the description of the N cycle in a Cerrado soil-plant-atmosphere system / A agricultura focada apenas na produção leva ao uso insustentável de recursos resultando em consequências negativas para o meio ambiente e a saúde humana. Uma consequência do uso excessivo de fertilizantes é a contaminação dos recursos hídricos subterrâneos e superficiais em ecossistemas agrícolas e nos seus arredores. Devido o solo da região do Cerrado ser pobre em nutrientes, predominantemente arenoso e com alta acidez, o uso de insumos agrícolas é intensificado e o transporte químico de nutrientes via lixiviação é um problema para a agricultura intensiva nas diferentes regiões. Informações sobre as atuais práticas de uso de fertilizantes e seus efeitos no ambiente de Cerrado precisam ser coletadas para reduzir os impactos da agricultura nesse ecossistema. Modelos baseados em processos físicos e químicos são ferramentas úteis para simular a dinâmica da água e nutrientes no meio agrícola e as perdas associadas aos manejos adotados, com potencial para avaliar diferentes cenários de previsão dos resultados dessas práticas. Entre os modelos baseados em processos, o SWAP (modelo Solo, Água, Atmosfera e Planta) tem sido utilizado com sucesso em várias condições agronômicas para descrever processos hídricos, e o ANIMO (modelo de nitrogênio na agricultura) para simular o ciclo do nitrogênio em sistemas agrícolas. Nosso estudo apresenta uma aplicação do SWAP para culturas de café perenes maduras ao longo de um ciclo produtivo, com foco nas perdas por drenagem e no manejo da irrigação em um sistema típico do Cerrado Brasileiro. A combinação dos modelos SWAP/ANIMO foi utilizada nesse estudo para simular a absorção de N pelas plantas de café e a lixiviação do nitrogênio na forma de nitrato (NO3-N) resultante de uma prática de manejo de fertilizantes intensiva. O ANIMO foi calibrado para o cenário correspondente à aplicação de 400 kg ha-1 ano-1 de fertilizante mineral, e foi avaliado com dados independentes de NO3-N na solução do solo medidos em parcelas de outro tratamento que receberam 800 kg ha-1 ano-1. O balanço hídrico anual obtido pelo SWAP foi semelhante ao obtido pelo balanço sequencial climatológico, de Thornthwaite e Matter. No entanto, os valores mensais de drenagem profunda obtidos pelo SWAP e comparados com os resultados do balanço climatológico apresentaram diferenças, com um coeficiente de determinação de 0,77 na linearização dos resultados. Cenários de irrigação com intervalos de 3 (IF3), 5 (IF5), 10 (IF10) e 15 (IF15) dias entre aplicações de água foram simulados utilizando o SWAP e comparados com a prática de manejo da fazenda onde o estudo experimental foi realizado. As simulações dos cenários com o SWAP mostraram que as irrigações com intervalos mais longos (IF15) apresentam menores quantidades de perdas por drenagem, maior produtividade da água e produtividade relativa da cultura. As medidas de absorção de N pelas plantas obtidas experimentalmente foram similares às estimativas do modelo ANIMO. As analises de sensibilidade do modelo mostraram que as previsões da lixiviação e concentração de NO3-N na solução do solo são sensíveis às variáveis pH do solo e temperatura de referência dos processos de decomposição. Conclui-se que a combinação dos modelos unidimensionais baseados em processos SWAP/ANIMO foi eficaz na descrição do ciclo do N avaliado no sistema solo-planta do Cerrado
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The effects of fire on the characteristics of woody vegetation and encroachment in an African savannaDevine, Aisling Patricia January 2015 (has links)
African savannas have experienced considerable woody encroachment over the last century, presenting an increasing problem from both ecological and socioeconomic viewpoints. Despite decades of work by savanna ecologists, the reasons for woody encroachment remain unclear. A major barrier to understanding the causes is the difficulty of disentangling the effects of broader-scale environmental changes, such as climate change and associated increases in atmospheric CO2, from localised effects such as fire. In this thesis I examine the effects of sixty years of experimental burning on the characteristics of woody vegetation in two climatically distinct African savannas, a wet and a dry savanna, to examine how long-term burning interacts with other potential drivers of woody encroachment. I examine tree abundance, woody cover, tree structure, diversity and community composition under four different fire regimes: annual, biennial, triennial and fire exclusion. Differences between sites and plots subject to different burning regimes are compared along with changes in these differences through time. Additionally, variation in the densities of Acacia, Combretum, Terminalia and Dichrostachys species were examined to establish how dominant species, particularly those responsible for encroachment, are affected by fire. Overall, I found that the effects of fire depend on savanna type. Fire lowered tree abundance and woody cover much more in the wet savanna than in the dry savanna. However, the maximal height of trees was much more constrained by increased fire frequency in the dry savanna than in the wet savanna. Woody encroachment occurred across both savanna types during the sixty year time period, but was much more rapid at the wet savanna. Additionally, encroaching species of Dichrostachys cinerea and Terminalia sericea in the wet savanna were shown to be more difficult to manage using fire. Overall as fire regimes were kept constant over the last sixty years, yet woody encroachment occurred across all fire treatments, it is most likely that an external driver is responsible. Rainfall change in both areas was minimal over the duration of the study, thus increased atmospheric CO2 would appear to be the most likely cause of woody encroachment. However, the magnitude and characteristics of woody encroachment are strongly mediated by fire and rainfall. Wet savannas would appear to be much more vulnerable to woody encroachment and existing management strategies are likely to become increasingly ineffective at keeping woody cover below potential maximum levels. Overall this thesis demonstrates that the effects of fire on woody vegetation in savannas vary depending on regional differences in rainfall and that processes of woody encroachment differ depending on savanna type.
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Diversidade e distribuição espacial das serpentes do campus USP Fernando Costa, em Pirassununga, São Paulo, Brasil / Diversity and Spatial Distribution of Snakes from Campus USP Fernando Costa Campus, in Pirassununga, São Paulo, BrazilFernandes, Antonio de Pádua Bordignon 20 June 2018 (has links)
O Campus USP Fernando Costa é uma grande fazenda localizada no município de Pirassununga, estado de São Paulo, e ocupa uma zona de transição entre o Cerrado e a Floresta Estacional Semidecidual, formando assim um ecossistema ecótono. As observações em campo e a colaboração de terceiros registraram até o presente momento 21 espécies de 17 gêneros e cinco famílias de serpentes para o campus. Os resultados permitiram destacar e confirmar a presença de representantes dos dois biomas, evidenciando a riqueza e a diversidade do local. Dos diferentes ambientes amostrados no campus, as estradas foram as que propiciaram o maior índice de encontros com as serpentes. Embora empregando poucas metodologias, o presente trabalho alcançou um percentual de 64,52% das espécies historicamente registradas para a o município. Tais dados, somados aos registros históricos, ultrapassam os 100 anos e permitem conhecer a diversidade de espécies que ocorria em Pirassununga, bem como traçar um perfil atual do status de conservação da comunidade de serpentes que ainda ocorrem no município. / The Campus USP Fernando Costa is a large farm located in the municipality of Pirassununga, state of São Paulo, and occupies a transition zone between the Cerrado and the Semideciduous Seasonal Forest, forming an ecotone ecosystem. Field observations and third-party collaboration have so far recorded 21 species of 17 genera and five snake families for the campus. The results allowed to highlight and confirm the presence of representatives of the two biomes, evidencing the richness and diversity of the place. Of the different environments sampled on campus, the roads were the ones that provided the highest index of encounters with snakes. Although using a few methodologies, the present work reached a percentage of 64.52% of the species historically registered for the municipality. These data, added to the historical records, exceed 100 years and allow to know the diversity of species that occurred in Pirassununga, as well as to draw a current profile of the conservation status of the community of snakes that still occur in the municipality.
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EFFECTS OF HYDROLOGIC CONNECTIVITY AND LAND USE ON FLOODPLAIN SEDIMENT ACCUMULATION AT THE SAVANNAH RIVER SITE, SOUTH CAROLINAEddy, Jeremy E. 01 January 2017 (has links)
Floodplains, and the sediment accumulating naturally on them, are important to maintain stream water quality and serve as sinks for organic and inorganic carbon. Newer theories contend that land use and hydrologic connectivity (water-mediated transport of matter, energy, and/or organisms within or between elements of the hydrologic cycle) play important roles in determining sediment accumulation on floodplains. This study hypothesizes that changes in hydrologic connectivity have a greater impact on floodplain sediment accumulation than changes in land use. Nine sediment cores from seven sub-basins were collected from the Savannah River Site (SRS), South Carolina, and processed for grain-size, radionuclide dating (7Be, 137Cs, 210Pb), particulate organic carbon (POC), and microscopy. Historical records, including aerial and satellite imagery, were used to identify anthropogenic disturbances in the sub-basins, as well as to calculate the percentages of natural vegetation land cover at the SRS in 1951, and 2014. LiDAR and field survey data identified 251 flow impediments, measured elevation, and recorded standard stream characteristics (e.g., bank height) that can affect hydrologic connectivity. Radionuclide dating was used to calculate sediment mass accumulation rates (MARs) and linear accumulation rates (LARs) for each core. Results indicate that sedimentation rates have increased across all SRS sub-basins over the past 40-50 years, shortly after site restoration and recovery efforts began. Findings show that hydrologic connectivity proxies (i.e., stream characteristics and impediments) have stronger relationships to MARs and LARs than the land use proxy (i.e., vegetation cover), confirming the hypothesis. As stream channel depth and the number of impediments increase, floodplain sedimentation rates also increase. This knowledge can help future stream restoration efforts by focusing resources to more efficiently attain stated goals, particularly in terms of floodplain sediment retention.
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Tree growth and edaphic control in the south Rupununi Savannas, Guyana.Hutchinson, Ian January 1971 (has links)
No description available.
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Effects of natural gas development on three grassland bird species in CFB Suffield, Alberta, CanadaHamilton, Laura 06 1900 (has links)
I investigated the effect of energy sector development and introduced crested wheatgrass (Agropyron cristatum) on grassland birds on Canadian Forces Base Suffield. I conducted point counts and mapped breeding territories in 2007 and 2008 for Savannah sparrows (Passerculus sandwichensis), chestnut-collared longspurs (Calcarius ornatus), and Spragues pipits (Anthus spragueii). I found
that Savannah sparrows favored areas with taller vegetation, human disturbances and crested wheatgrass in both years. Longspurs used shorter vegetation and in
were tolerant of disturbance. Crested wheatgrass was avoided by longspurs in both years. Pipit territories contained similar vegetation to longspurs, were sensitive to disturbance, and avoided placing territories in areas containing crested wheatgrass or trails in both years. Well sites, pipelines and junctions were not avoided by the three species. My research suggests that reducing the number of trails and the spread of crested wheatgrass will increase habitat availability for sensitive species of grassland birds. / Ecology
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An Archaeological Survey at Oak Level Mound: Investigating Settlement Patterns and Intrasite Use During the Middle Mississippian Period (A.D. 1150-1350)McCarley, Billy J 11 May 2013 (has links)
This study is about a Middle Mississippian (A.D. 1150-1350) burial mound site known as Oak Level Mound. Located in the back swamps of Bryan County, Georgia 2.4 km south of the Ogeechee River, the site is situated amongst Live Oak hammocks and Palmettoes. The earthen architecture and material remains found at Oak Level Mound during the fall of 2012 and winter 2013 tell a tale of ancient people whose subsistence included oysters, snail, and nuts. Their daily practices are expressed in burial mounds and utilitarian and/or status goods, such as plain, cord-marked, and complicated-stamped pottery. This study, then, seeks to understand those daily practices taking place at Oak Level Mound between A.D. 1150 and A.D 1350, both locally and regionally.
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Riverfront Village and the Practice of Storage: A Subterranean Feature AnalysisWescott, Kim 21 November 2008 (has links)
As the focus in southeastern archaeology shifts away from large scale hierarchical analyses in favor of agency based approaches, our understanding of Mississippian settlements has changed. This research is an attempt to fill the “fuzzy gap” in Mississippian archaeological literature left by decades of research premised on Neo-evolutionary models and theories. In this thesis, I present my case study on Riverfront Village, a small Mississippian “hamlet” located in the Savannah River Valley. Through an analysis of subterranean pit features, I present a new feature classification scheme open to variability, and address how variations within the practice of subterranean storage relate to social complexity.
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Implications of Relative Ant Abundance and Diversity for the Management of Solenopsis Invicta Buren with Broadcast BaitsCalixto, Alejandro Antonio 15 May 2009 (has links)
Higher densities of S. invicta in the United States relative to South America are
explained mainly by the absence of natural enemies and low interspecific competition
(IC). Despite advances in S. invicta management, broadcast insecticide baits remain as
the primary tool for effective control. I studied interspecific interactions of ants and the
use of baits on the management of S. invicta to test the following hypotheses: 1) relative
abundance of native ants increases ~25% for bait treated sites compared to untreated, 2)
behavioral dominance by S. invicta decreases ~10% in bait treated sites compared to
untreated, and, 3) foraging by S. invicta on insecticide baits is higher ~10% in low native
ant densities areas compared to high densities.
Experiments were conducted on three sites with different densities of native ants
(low, medium, high), but with similar densities of S. invicta. An enhanced BACI
(Before/After-Control/Impact) design was used. Experimental units consisted of 0.4 ha
plots. Three treatments were randomly assigned to units and replicated four times; 1)
Slow acting bait, 2) Fast acting bait, 3) Untreated Control. Samples and observations
were collected for several weeks before/after the treatments to account for temporal variation and to determine rates of reinvasion. Ants were monitored using pitfalls and
food lures. Interspecific competition was determined by applying placebo bait. Results
indicate that different management methods did not impact resident ants when they are
at low and medium densities and that S. invicta is greatly affected; at high native ant
density, competition for these baits is observed affecting both natives and S. invicta.
Reinvasion of S. invicta was reduced in areas of low and medium native ant densities
previously treated with baits and native ant abundance increased by ~25%. At high
native ant densities, reinvasion of S. invicta was similar to Control sites. I conclude: 1)
properly used, baits can help in recovery of native ant species that then compete with S.
invicta; however, rote re-treatments may have a negative impact on restored populations.
2) “bait failures” may be due to interspecific competition when initial native ant
densities are high. Preliminary management considerations and recommendations are
presented.
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