An Observational, Irrigation-Sensitive Agricultural Drought Record from Weather Data

IF 3.1 3区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES
Lois I. Tang, Kaighin A. McColl
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Abstract

Abstract The historical rise of irrigation has profoundly mitigated the effect of drought on agriculture in many parts of the United States. While irrigation directly alters soil moisture, meteorological drought indices ignore the effects of irrigation, since they are often based on simple water balance models that neglect the irrigation input. Reanalyses also largely neglect irrigation. Other approaches estimate the evaporative fraction (EF), which is correlated with soil moisture under water-limited conditions typical of droughts, with lower values corresponding to drier soils. However, those approaches require satellite observations of land surface temperature, meaning they cannot be used to study droughts prior to the satellite era. Here, we use a recent theory of land–atmosphere coupling—surface flux equilibrium (SFE) theory—to estimate EF from readily available observations of near-surface air temperature and specific humidity with long historical records. In contrast to EF estimated from a reanalysis that largely neglects irrigation, the SFE-predicted EF is greater at irrigated sites than at nonirrigated sites during droughts, and its historical trends are typically consistent with the spatial distribution of irrigation growth. Two sites at which SFE-predicted EF unexpectedly rises in the absence of changes in irrigation can be explained by increased flooding due to human interventions unrelated to irrigation (river engineering and the expansion of fish hatcheries). This work introduces a new method for quantifying agricultural drought prior to the satellite era. It can be used to provide insight into the role of irrigation in mitigating drought in the United States over the twentieth century. Significance Statement Irrigation grew profoundly in the United States over the twentieth century, increasing the resilience of American agriculture to drought. Yet observational records of agricultural drought, and its response to irrigation, are limited to the satellite era. Here, we show that a common measure of agricultural drought (the evaporative fraction, EF) can be estimated using widespread weather data, extending the agricultural drought record decades further back in time. We show that EF estimated using our approach is both sensitive and specific to the occurrence of irrigation, unlike an alternative derived from a reanalysis.
基于气象数据的对灌溉敏感的农业干旱观测记录
灌溉的历史兴起深刻地减轻了干旱对美国许多地区农业的影响。灌溉直接改变土壤湿度,而气象干旱指数忽略了灌溉的影响,因为它们通常基于忽略灌溉投入的简单水分平衡模型。重新分析也在很大程度上忽略了灌溉。其他方法估计蒸发分数(EF),它与干旱典型的水分限制条件下的土壤湿度相关,较低的值对应于较干燥的土壤。然而,这些方法需要对陆地表面温度进行卫星观测,这意味着它们不能用于研究卫星时代之前的干旱。在这里,我们使用最近的陆地-大气耦合理论-地表通量平衡(SFE)理论,从现有的具有长期历史记录的近地表空气温度和比湿度观测资料中估计EF。与在很大程度上忽略灌溉的再分析中估计的EF相比,sfe预测的干旱期间灌溉地的EF大于非灌溉地,其历史趋势通常与灌溉增长的空间分布一致。在没有灌溉变化的情况下,sfe预测的EF意外上升的两个地点可以用与灌溉无关的人为干预(河流工程和鱼类孵化场的扩大)导致的洪水增加来解释。本文介绍了一种卫星时代以前农业干旱量化的新方法。它可以用来深入了解灌溉在缓解20世纪美国干旱中的作用。20世纪,灌溉在美国得到了深刻的发展,提高了美国农业对干旱的抵御能力。然而,农业干旱的观测记录及其对灌溉的反应仅限于卫星时代。在这里,我们展示了一种常见的农业干旱测量(蒸发分数,EF)可以使用广泛的天气数据来估计,将农业干旱记录延长到几十年前。我们发现,使用我们的方法估计的EF对灌溉的发生既敏感又特定,与重新分析得出的替代方法不同。
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来源期刊
Journal of Hydrometeorology
Journal of Hydrometeorology 地学-气象与大气科学
CiteScore
7.40
自引率
5.30%
发文量
116
审稿时长
4-8 weeks
期刊介绍: The Journal of Hydrometeorology (JHM) (ISSN: 1525-755X; eISSN: 1525-7541) publishes research on modeling, observing, and forecasting processes related to fluxes and storage of water and energy, including interactions with the boundary layer and lower atmosphere, and processes related to precipitation, radiation, and other meteorological inputs.
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