958 resultados para hydrometeorology, Penman-Monteith-FAO, kriging
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Os dados básicos para estimar a evapotranspiração de referência de Penman-Monteith FAO (EToPM) são: temperaturas máxima e mínima, pressão de vapor real ou atual, radiação líquida e velocidade do vento, muitas vezes indisponíveis por requererem estações meteorológicas específicas. O objetivo deste trabalho foi avaliar a adequação do método para estimar a EToPM, utilizando-se dados mínimos integrados a um Sistema de Informação Geográfica, na bacia do Rio Jaguaribe, CE. Foi utilizado o sistema integrado de modelagem regional PRECIS (Providing Regional Climates for Impacts Studies), versão 1.2, com as condições de contorno do Modelo Climático Global (HadAM3P), acoplado ao Modelo Climático Regional (HadRM3P), por meio da técnica dinâmica de redução de escala (downscaling). Os dados foram analisados quanto a sua variabilidade espacial (latitude, longitude), utilizando-se o método geoestatístico de krigagem associado a um Sistema de Informação Geográfica. Para a validação do método, foi ajustada uma regressão linear entre EToPM estimada com dados mínimos (temperaturas máxima e mínima) e com dados medidos por uma estação de referência. A média da EToPM anual estimada com dados mínimos foi 1.719 mm. O método mostrou-se aceitável na região estudada, considerando os resultados da análise de regressão (coeficiente angular de 0,95, coeficiente de determinação de 0,902, resíduos menores que 0,45 mm dia-1 e a Raiz do Quadrado Médio do Erro (RQME) igual a 0,067 mm dia-1).
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2006
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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p.123-126
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The objective of this study was to evaluate and compare measurements and estimates from Davis and Campbell Scientific Instruments in two automatic weather stations. Integrity of meteorological data for estimates of evapotranspiration of reference crop (ETo) from both stations was also evaluated. The following meteorological data were evaluated: air temperature, air humidity, wind speed, precipitation, net radiation and global solar radiation. The Penman-Monteith reference method to estimate ETo was evaluated daily. The weather stations were set up in an experimental area of the Rural Engineering Department-FACV/ UNESP, in Jaboticabal, State of Sao Paulo. Data were collected daily and statistical analysis was performed using linear regression analysis. The integrity of meteorological data to estimate ETo was evaluated. The results of the study in the stations using linear regression analysis showed that daily estimates for ETo had acceptable differences. The technique which evaluates the integrity of meteorological data revealed that data of relative humidity from both stations and of precipitation using Campbell Instruments were not good.
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介绍了符合Penman Monteith公式要求的参考作物蒸散的新定义 ,对比了该公式和FAO 17Penman修正式的基本方程和主要参数的异同 应用辽宁 33个气象站 30a的平均气象资料 ,分别计算了作物生育期内 (月 )平均参考作物蒸散量 结果表明 ,两者既具有一定的差异 ,又呈显著的线性相关 产生差异的主要原因是由辐射项引起 建议国内推广应用标准化的Penman Monteith公式计算参考作物蒸散量 ,并以此作为确定新的作物系数和校准其它经验公式的标准
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利用FAO Penman-Monteith公式FAO、 Penman修正式和Priestley-Taylor公式对东北丘陵半干旱区观测到的气象数据进行了逐日参考作物蒸散量计算。结果显示,FAO Penman修正式的计算值比FAO Penman-Monteith公式的计算值平均偏大约16%,2种比较方法具有很好的相关性;而Priestley-Taylor公式的计算值与FAO Penman-Monteith公式的计算值相比,差异比较显著,是由于Priestley-Taylor公式没有考虑空气动力项对参考作物蒸散量的影响。因此,在东北丘陵半干旱区使用Priestley-Taylor公式计算参考作物蒸散量,必须根据不同月份对公式中的常数项重新进行修正。
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参考作物蒸散量的计算公式大多存在地域性限制,分析其应用情况能够反映这些公式在中国部分地区的应用前景。该文根据1996~2000年陕西省榆林、延安与西安三站的逐日气象资料,以FAO推荐的Penman-Monteith方法为标准,对计算参考作物蒸散量的10种方法进行比较。线性回归,平方根误差与平均偏差方法检验的结果显示:Penman系列方法之间关系密切,Kimberly PM-72方法最好。不同方法之间在夏季的差异较大,春秋季较小。在需要数据较少的方法中Priestley-Taylor方法接近Penman-Monteith方法。FAO-Rad、FAO-BC、Hargreaves与Makkink 4种方法与其差异明显,而且存在地域差异。在本区应用这些方法时需要对其参数进行适当调整,以适应当地的气象条件。
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该研究以小型自动气象站观测资料为基础,采用FAO Penman-Monteith方法估算三江源区人工草地参考作物蒸散量,并结合FAO-56推荐的综合作物系数值进行草地实际蒸散量的计算,分析了三江源区人工草地实际蒸散量的变化及其与气象因子的关系。结果表明,草地实际蒸散量的季节变化为单峰曲线,夏季日蒸散量明显大于冬季,在8月中旬达到年度最高值。蒸散与空气温度、太阳辐射和相对湿度均显著相关,但与风速的相关性不显著。各气象因子对人工草地蒸散量影响的大小顺序为:空气温度(T)>太阳辐射(Ra)>空气相对湿度(RH)>风速(u2)。
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【目的】研究祁连山北坡草地蒸散与其环境因子的关系,为该牧区草场的科学经营、草地退化的防治以及区域草地生态环境建设等提供科学依据。【方法】以小型自动气象站(HOBO Weather Station,U.S.A)气象观测资料为基础,采用FAO Penman-Monteith方法估算了祁连山北坡草地参考作物蒸散量(ET_0),并结合FAO-56的推荐值,分析了草地实际蒸散量(ETc)的动态变化,同时模拟研究了相关环境因子对实际蒸散量的影响。【结果】夏季(7和8月)草地的实际蒸散量较大,冬季(12和1月)较小,在7月中旬达到年度最高值,平均为3.40mm/d;按相关系数的高低,环境因子对实际蒸散量的影响表现为空气温度〉空气相对湿度〉土壤含水量(0~40cm)〉太阳辐射〉风速;土壤水分对实际蒸散量的影响表现为土壤深度越大,土壤水分对实际蒸散量的影响越小;太阳辐射量与实际蒸散量呈线性关系。【结论】祁连山北坡草地实际蒸散量的年际变化符合当地环境的变化规律,环境因子对其不同程度的影响表明,在今后的草场管理、退化防止、生态建设中应采取适的措施,以确保草地的良性发展。
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The Irrigameter is aevapotranspiration measuring device used in irrigation management to optimize water. However, its use requires a prior adjustment to weather conditions where it will be used. The objective of this study was identify the corresponding height of water level inside the evaporimeterIrrigameter that estimate reference evapotranspiration in climate of the plateau of Vitoria da Conquista - BA, in different seasons. The experiment was a completely randomized design with five treatments and three replications. For each treatment was determined an average coefficient for the Irrigameter called K I, calculated as the ratio of estimated evapotranspiration in Irrigameter (ET I) and reference evapotranspiration (ET 0). The ET 0 was obtained by the Penman-Monteith - FAO 56. The results showed that the coefficients of Irrigameter increased exponentially with increasing water level inside the evaporimeter, and the equipment must be operated with the water level equal to 5.2 cm for better estimation of ET 0. The remaining heights observed in different seasons showed no significant difference when compared to annual average used as a reference in this study.
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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The estimation of reference evapotranspiration (ETo) subsidizes the calculations of water consumption in irrigated agriculture. The use of simpler methodologies are common however should be carefully studied. The present study evaluated the sensitivity of the Hargreaves -Samani equation compared to the standard Penman-Monteith -FAO to estimate ETo for the climatic conditions of the Bebedouro-SP region, simulating the effects of increasing and decreasing 5 % in the temperatures, resulting in ten different scenarios (PM -Penman-Montheit -FAO; S0 -original Hargreaves Samani; S1 to S8 -modified Hargreaves Samani). The obtained results of sensitivity, linear regression, accuracy and concordance index, were compared. We concluded that the Hargreaves -Samani equation overestimates the monthly values of the ETo in 13% compared to the standard method. A variation of 5% in maximum and minimum temperatures resulted in errors of up to 1 mm day-1 (monthly average) and this increase is more expressive in maximum temperature.
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The estimation of reference evapotranspiration (ETo), used in water balance, allows to determine soil water content, assisting on irrigation management. The present study aimed to compare simple ETo estimating methods with the Penman-Monteith (FAO), in the folowing time scales: daily, 5, 10, 15 and 30 days and monthly in the counties of Frederico Westphalen and Palmeira das Missoes, in the Rio Grande do Sul state, Brazil. The methods tested had their efficiency improved by increasing the time scale of analysis, keeping the same performance for both locations. The highest and lowest ETo values occurred in December and June, respectively. Most methods underestimated ETo. For any of the time scales Makking and Radiaton FAO24 methods can replace the Penman-Monteith for estimating ETo.
