Streamflow Intermittence in Europe: Estimating High-Resolution Monthly Time Series by Downscaling of Simulated Runoff and Random Forest Modeling

IF 4.6 1区 地球科学 Q2 ENVIRONMENTAL SCIENCES
Petra Döll, Mahdi Abbasi, Mathis Loïc Messager, Tim Trautmann, Bernhard Lehner, Nicolas Lamouroux
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Abstract

Knowing where and when rivers cease to flow provides an important basis for evaluating riverine biodiversity, biogeochemistry and ecosystem services. We present a novel modeling approach to estimate monthly time series of streamflow intermittence at high spatial resolution at the continental scale. Streamflow intermittence is quantified at more than 1.5 million river reaches in Europe as the number of no-flow days grouped into five classes (0, 1–5, 6–15, 16–29, 30–31 no-flow days) for each month from 1981 to 2019. Daily time series of observed streamflow at 3706 gauging stations were used to train and validate a two-step random forest modeling approach. Important predictors were derived from time series of monthly streamflow at 73 million 15 arc-sec (∼500 m) grid cells that were computed by downscaling the 0.5 arc-deg (∼55 km) output of the global hydrological model WaterGAP, which accounts for human water use. Of the observed perennial and non-perennial station-months, 97.8% and 86.4%, respectively, were correctly predicted. Interannual variations of the number of non-perennial months at non-perennial reaches were satisfactorily simulated, with a median Pearson correlation of 0.5. While the spatial prevalence of non-perennial reaches is underestimated, the number of non-perennial months is overestimated in dry regions of Europe where artificial storage abounds. Our model estimates that 3.8% of all European reach-months and 17.2% of all reaches were non-perennial during 1981–2019, predominantly with 30–31 no-flow days. Although estimation uncertainty is high, our study provides, for the first time, information on the continent-wide dynamics of non-perennial rivers and streams.
欧洲的水流间歇:通过模拟径流降尺度和随机森林建模估算高分辨率月度时间序列
了解河流断流的时间和地点为评估河流生物多样性、生物地球化学和生态系统服务提供了重要依据。我们提出了一种新颖的建模方法,在大陆尺度上以高空间分辨率估算每月的河水间歇时间序列。从 1981 年到 2019 年,我们对欧洲 150 多万条河流的断流进行了量化,将断流天数分为五个等级(0 天、1-5 天、6-15 天、16-29 天、30-31 天)。在 3706 个测站观测到的每日溪流时间序列被用于训练和验证两步随机森林建模方法。重要的预测因子来自 7300 万个 15 弧秒(∼500 米)网格单元的月度溪流时间序列,这些网格单元是通过对全球水文模型 WaterGAP 的 0.5 弧度(∼55 千米)输出进行降尺度计算得出的,其中考虑了人类用水情况。在观测到的多年生和非多年生站月中,预测正确率分别为 97.8%和 86.4%。非多年生河段非多年生月数的年际变化模拟结果令人满意,皮尔逊相关性中值为 0.5。虽然低估了非多年生河段的空间分布,但在人工蓄水较多的欧洲干旱地区,非多年生月数被高估了。据我们的模型估计,1981-2019 年期间,欧洲有 3.8%的河段月和 17.2%的河段为非常年河段,主要为 30-31 个无流量日。虽然估算的不确定性很高,但我们的研究首次提供了关于全大陆范围内非永久性河流和溪流动态的信息。
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来源期刊
Water Resources Research
Water Resources Research 环境科学-湖沼学
CiteScore
8.80
自引率
13.00%
发文量
599
审稿时长
3.5 months
期刊介绍: Water Resources Research (WRR) is an interdisciplinary journal that focuses on hydrology and water resources. It publishes original research in the natural and social sciences of water. It emphasizes the role of water in the Earth system, including physical, chemical, biological, and ecological processes in water resources research and management, including social, policy, and public health implications. It encompasses observational, experimental, theoretical, analytical, numerical, and data-driven approaches that advance the science of water and its management. Submissions are evaluated for their novelty, accuracy, significance, and broader implications of the findings.
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