Impact of global dimming and brightening on reference evapotranspiration in Greece

Papaioannou, Georgia; Kitsara, Gianna; Athanasatos, Spyros

doi:10.1029/2010jd015525

Cited by 66 publications

(44 citation statements)

References 108 publications

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“…Equally, this increase in pan evaporation is also in line with a widespread increase in potential evaporation reported over the Mediterranean since the 1980s (e.g. Matsoukas et al 2011, Papaioannou et al 2011, for review see Vicente-Serrano et al 2014b).…”

Section: Discussionsupporting

confidence: 52%

“…The important role of surface solar radiation to drive evaporation is well known, and, consequently, a link between the dimming/brightening phenomenon (Wild 2009) and the trends in actual and potential evaporation has been shown in previous studies (Roderick & Farquhar 2002, Wild et al 2008, Teuling et al 2009, Fu et al 2009, Papaioannou et al 2011. In fact, both solar radiation (Sanchez-Lorenzo et al 2013) and Piché and pan trends in Spain since the mid-1980s seem to agree, not only qualitatively, but also quantitatively.…”

Section: Discussionsupporting

confidence: 49%

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Evaporation trends in Spain: a comparison of Class A pan and Piché atmometer measurements

Sánchez-Lorenzo

Vicente‐Serrano²,

Wild³

et al. 2014

Clim. Res.

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Interest is growing in the trends of atmospheric evaporation demand, increasing the need for long-term time series. This work describes, for the first time, the development of a dataset on evaporation in Spain based on long-term series of Piché and pan measurement records. Piché measurements have been reported for > 50 stations since the 1960s. Measurements of pan evaporation, which is a much more widely studied variable in the literature, are also available, but only since 1984 for 21 stations. Particular emphasis was placed on the homogenization of this dataset. Both the mean annual Piché and pan series over Spain showed evaporative increases during the common study period (1985−2011), by a rate of around + 0.1 mm d −1 decade −1. Furthermore, using the annual Piché records since the 1960s, an evaporation decline was detected from the 1960s to the mid-1980s, which resulted in a non-significant trend over the entire 1961−2011 period. Our results indicate agreement between the decadal variability of reference evapotranspiration and the surface solar radiation previously reported and the evaporation from Piché and pan measurements, especially during summer. The suitability of Piché records compared to pan evaporation data to represent past trends is discussed. KEY WORDS: Piché evaporimeter · Pan evaporation · Trends · SpainResale or republication not permitted without written consent of the publisher Clim Res 61: [277][278][279][280][281][282][283][284][285][286][287][288] 2014

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Section: Discussionsupporting

confidence: 52%

Section: Discussionsupporting

confidence: 49%

Evaporation trends in Spain: a comparison of Class A pan and Piché atmometer measurements

Sánchez-Lorenzo

Vicente‐Serrano²,

Wild³

et al. 2014

Clim. Res.

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“…In Greece, non-significant increases in E pan over 1983-1999 were observed for a pooled series from 14 stations (Papaioannou et al, 2011). Three out of eight sites in Ireland showed a significant increase in E pan over 1963-2005, and one site showed a significant decrease (Stanhill and Möller, 2008).…”

Section: Drivers Of the Observed Changes In Catchment Evapotranspirationmentioning

confidence: 94%

“…In Europe, most studies found increasing trends of E pan (e.g. Ireland (1963Ireland ( -2005 (Stanhill and Möller, 2008), England (1957-2004 and 1986 (Stanhill and Möller, 2008;Clark, 2013), Greece (1983Greece ( -1999 (Papaioannou et al, 2011), and the Czech Republic (Trnka et al, 2015)). In this paper, we use the term atmospheric conditions to summarize the drivers available energy and atmospheric demand.…”

Section: Introductionmentioning

confidence: 99%

Why has catchment evaporation increased in the past 40 years? A data-based study in Austria

Duethmann¹,

Blöschl²

2018

Preprint

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Abstract. Global warming has increased regional evapotranspiration in many parts of the world in the last decades, but the drivers of these increases are widely debated. Part of the difficulty lies in the scarcity of high-quality long term data on evapotranspiration.In this paper, we analyze changes in catchment evapotranspiration estimated from the water balances of 156 catchments in Austria over the period 1977-2014 and attribute them to changes in atmospheric demand and available 10 energy, vegetation, and soil moisture as possible drivers. Trend analyses suggest that evapotranspiration has significantly increased in 60 % of the catchments (p≤0.05) with an average increase of 29 ± 14 mm y . Estimates of reference evaporation accounting for changes in stomata resistance due to changes in NDVI indicate that the increase in vegetation activity has led to a similar increase in reference evaporation as changes in the climate parameters. A regression between trends in evapotranspiration and precipitation, as a proxy of soil moisture, yields a sensitivity of 0.30 ± 0.04 mm y −2 increase in evapotranspiration to 1 mm y −2 20 increase in precipitation. A synthesis of the data analyses suggests that 38 ± 13 % of the observed increase in catchment evapotranspiration can be directly attributed to increased atmospheric demand and available energy, 30 ± 12 % to increased vegetation activity, and 32 ± 5 % to increased soil moisture due to increases in precipitation. IntroductionEvapotranspiration (E) is an important process in the water, energy, and carbon cycles and directly controls agricultural 25 productivity and water availability for human purposes. Global warming has increased regional E in many parts of the world in the last decades (Huntington, 2006). However, due to the difficulty of measuring E, especially at large spatial scales, the drivers of changing E are still debated.Decadal changes in catchment E may be inferred from the catchment water balance, as storage changes are usually small over decadal scales. Surprisingly few studies have investigated trends in water balance based evapotranspiration (E wb , despite increases in air temperature (Peterson et al., 1995;Roderick et al., 2009;McVicar et al., 2012). In some instances, this decrease in E pan has been explained by decreases in net radiation and/or wind speed (Roderick and Farquhar, 20 2002;Roderick et al., 2007). In other instances, decreasing E pan has been interpreted as a consequence of increasing actual evaporation (Brutsaert and Parlange, 1998;Brutsaert, 2013). In Europe, most studies found increasing trends of E pan (e.g. Ireland (1963Ireland ( -2005 (Stanhill and Möller, 2008), England (1957-2004 and 1986 (Stanhill and Möller, 2008;Clark, 2013), Greece (1983Greece ( -1999 (Papaioannou et al., 2011), and the Czech Republic (Trnka et al., 2015)). In this paper, we use the term atmospheric conditions to summarize the drivers available energy and atmospheric demand. 3 CO 2 concentration and nitrogen deposition, Mao et al. (2015) found that...

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“…No Brasil há poucos trabalhos sobre tendência na velocidade do vento (Alencar et al, 2011;. McVicar et al (2012) relatam que em vários estudos tem-se procurado entender as causas da dinâmica de evapotranspiração sem considerar as tendências da velocidade do vento (Golubev et al, 2001;Silva, 2004;Papaioannou et al, 2011). Isto é, implicitamente, os autores consideram que a velocidade do vento não apresenta tendência.…”

Section: Resultsunclassified

Variação temporal dos elementos climáticos e da ETo em Catalão, Goiás, no período de 1961-2011

Alencar¹,

Mantovani²,

Bufon

et al. 2014

Rev. bras. eng. agríc. ambient.

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Neste trabalho se avaliou a existência de tendência na distribuição temporal dos elementos do clima e da evapotranspiração de referência para a localidade de Catalão, no estado de Goiás. Para o período de 1961 a 2011 um conjunto de dados diários de temperatura máxima e mínima do ar, insolação, velocidade do vento e umidade relativa, para o período de 1961 a 2011 foi utilizado para o cálculo da evapotranspiração pelo método de Penman-Monteith. Buscou-se identificar a presença de tendência para as séries de dados mensais através da aplicação dos testes estatísticos de Mann-Kendall, do estimador da inclinação de Sen e da regressão linear com o teste de Student, para o coeficiente angular da reta. Devido ao aumento das temperaturas máxima e mínima e à redução da umidade relativa, aumentos estatisticamente significativos foram observados na evapotranspiração de referência para os meses de setembro, outubro, dezembro e para a série anual.

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Impact of global dimming and brightening on reference evapotranspiration in Greece

Cited by 66 publications

References 108 publications

Evaporation trends in Spain: a comparison of Class A pan and Piché atmometer measurements

Evaporation trends in Spain: a comparison of Class A pan and Piché atmometer measurements

Why has catchment evaporation increased in the past 40 years? A data-based study in Austria

Variação temporal dos elementos climáticos e da ETo em Catalão, Goiás, no período de 1961-2011

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