Sources of Variability of Evapotranspiration in California

Hidalgo, Hugo G.; Cayan, Daniel R.; Dettinger, Michael D.

doi:10.1175/jhm-398.1

Cited by 59 publications

(37 citation statements)

References 36 publications

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“…One relatively large group of model projections that was recently examined for California provides a range of about 2.5 to 9 degrees Celsius temperature rise for Northern California by 2100. An analysis of the distribution of the projections generally showed a central tendency at about 3 degrees Celsius of rise for 2050, and about 5 degrees Celsius for 2100 (Dettinger, 2005).…”

Section: Temperature Projectionsmentioning

confidence: 93%

“…In the next section about energy budget the relationships between climatic factors are discussed along with relative influences they exert. Although Hidalgo et al (2005) concluded that to maintain ET o in the current condition requires a decrease in R n of about 6 percent to compensate for a temperature increase of 3ºC, they did not account for increased stomatal resistance that is likely to result from higher CO 2 concentration, which is discussed in detail later in this chapter. Hidalgo et al were clearly correct in that the effects of climate change on ET o are difficult to forecast because of the uncertainty of cloud cover and relative humidity.…”

Section: -2mentioning

confidence: 98%

“…Among the criteria used to select these climate change scenarios were ability of the models to represent El Niño events and availability of the data for analysis to meet the January 2006 governor's deadline for the report (Cayan, 2005). In addition, both models estimated historical climate trends reasonably well.…”

Section: Climate Change Scenariosmentioning

confidence: 99%

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Section: Temperature Projectionsmentioning

confidence: 93%

Section: -2mentioning

confidence: 98%

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Progress on incorporating climate change into management of California’s water resources

Anderson¹,

Chung²,

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“…56 (Allen et al, 1998). The CIMIS Penman equation, described in detail in Hidalgo et al (2005) (see http://wwwcimis.water.ca.gov/cimis/ infoEtoCimisEquation.jsp), is:…”

Section: Estimation Of the Pomona And Santa Monica Station Et 0 Datamentioning

confidence: 99%

Generalized regression neural networks for evapotranspiration modelling

Kişi

2006

Hydrological Sciences Journal

165

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The potential is investigated of the generalized regression neural networks (GRNN) technique in modelling of reference evapotranspiration (ET 0 ) obtained using the FAO Penman-Monteith (PM) equation. Various combinations of daily climatic data, namely solar radiation, air temperature, relative humidity and wind speed, are used as inputs to the ANN so as to evaluate the degree of effect of each of these variables on ET 0 . In the first part of the study, a comparison is made between the estimates provided by the GRNN and those obtained by the Penman, Hargreaves and Ritchie methods as implemented by the California Irrigation Management System (CIMIS). The empirical models were calibrated using the standard FAO PM ET 0 values. The GRNN estimates are also compared with those of the calibrated models. Mean square error, mean absolute error and determination coefficient statistics are used as comparison criteria for the evaluation of the model performances. The GRNN technique (GRNN 1) whose inputs are solar radiation, air temperature, relative humidity and wind speed, gave mean square errors of 0.058 and 0.032 mm 2 day , and determination coefficients of 0.985 and 0.986 for the Pomona and Santa Monica stations (Los Angeles, USA), respectively. Based on the comparisons, it was found that the GRNN 1 model could be employed successfully in modelling the ET 0 process. The second part of the study investigates the potential of the GRNN and the empirical methods in ET 0 estimation using the nearby station data. Among the models, the calibrated Hargreaves was found to perform better than the others.

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“…56 (Allen et al, 1998). The CIMIS Penman equation is also described in detail in Hidalgo et al (2005) …”

Section: Estimation Of Et 0 Data Of the Pomona Stationmentioning

confidence: 99%

The potential of different ANN techniques in evapotranspiration modelling

Kisi

2007

Hydrological Processes

138

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Abstract:The potential of three different artificial neural network (ANN) techniques, the multi-layer perceptrons (MLPs), radial basis neural networks (RBNNs) and generalized regression neural networks (GRNNs), in modelling of reference evapotranspiration (ET 0 ) is investigated in this paper. Various daily climatic data, that is, solar radiation, air temperature, relative humidity and wind speed from two stations, Pomona and Santa Monica, in Los Angeles, USA, are used as inputs to the ANN techniques so as to estimate ET 0 obtained using the FAO-56 Penman-Monteith (PM) equation. In the first part of the study, a comparison is made between the estimates provided by the MLP, RBNN and GRNN and those of the following empirical models: The California Irrigation Management Information System (CIMIS) Penman (1985), Hargreaves (1985) and Ritchie (1990). In this part of the study, the empirical models are calibrated using the standard FAO-56 PM ET 0 values. The estimates of the ANN techniques are also compared with those of the calibrated empirical models. Mean square errors, mean absolute errors and determination coefficient statistics are used as comparing criteria for the evaluation of the models' performances. Based on the comparisons, it is found that the MLP and RBNN techniques could be employed successfully in modelling the ET 0 process. In the second part of the study, the potential of ANN techniques and the empirical methods in ET 0 estimation using nearby station data is investigated. Among the models, the calibrated Hargreaves model is found to perform better than the others.

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Sources of Variability of Evapotranspiration in California

Cited by 59 publications

References 36 publications

Progress on incorporating climate change into management of California’s water resources

Progress on incorporating climate change into management of California’s water resources

Generalized regression neural networks for evapotranspiration modelling

The potential of different ANN techniques in evapotranspiration modelling

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