调查气候和人类对地下水位下降的影响(库赫达什特平原案例研究)

Reza Hassanzadeh, Safa Peyman, Amirmohammad Hassanzadeh
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In this regard, the 120-month time series of groundwater level, precipitation, temperature, and runoff parameters (period 2009–2018) are first divided into five 24-month periods, then by applying the Hilbert-Huang transform. Each period is decomposed down into smaller periods, and finally, the HHE criterion measures the complexity of the time series. The examination of changes in the HHE complexity criterion shows a decrease of 2.02, 2.93, and 29.58% in the groundwater level in the second, third, and fourth periods. Also, according to the results of changes in the complexity of precipitation and temperature time series as climate change factors, these two parameters have decreased in the third and fourth periods, with the rate of decrease for the temperature time series being 18.8 and 8.3%, respectively, and for the precipitation time series is obtained by 30.6 and 4.4%, respectively. Hence, according to the results, the discharge parameter, as a human factor in the second and fourth periods, shows a decrease of 8.6 and 39.1%, respectively.</p>","PeriodicalId":510893,"journal":{"name":"Journal of Water & Climate Change","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2024-05-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Investigating climatic and human effects on the decline in the groundwater level (a case study of the Kuhdasht plain)\",\"authors\":\"Reza Hassanzadeh, Safa Peyman, Amirmohammad Hassanzadeh\",\"doi\":\"10.2166/wcc.2024.444\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><div data- reveal-group-><div><img alt=\\\"graphic\\\" data-src=\\\"https://iwa.silverchair-cdn.com/iwa/content_public/journal/jwcc/15/5/10.2166_wcc.2024.444/2/m_jwc-d-23-00444gf01.png?Expires=1720092487&amp;Signature=eGIaT1U49puanxZ1sPYl49B65mie8ZKAKum0bZffXOSCH4F2yXqJrmLosknyhqk6gTfMkfU2AJlqNJMjC2ku9lZ24V3wvHDtpn4UU18-cXGist6d4JYcNb6F0zJoixkJJCTZFKj5uxs5egiUGmeBqsWEEDgoe6Z2EVohTKGS8r31SUKDyypDGF6ePxxZRzigOl-EJuon6RmwXn8SWX8z9i47oXkIxcqvbO2qsWf13NBnQwgZcbEI8SUg8QDZ-1IVPtUE13QtBl-Xek9rdTk6EMfPxAaZHk-EWokcdiOKtgI9DyxFMHKzo-zvwi2bsTlxJluMXZbXG6BgyUb9mgy2oA__&amp;Key-Pair-Id=APKAIE5G5CRDK6RD3PGA\\\" path-from-xml=\\\"jwc-d-23-00444gf01.tif\\\" src=\\\"https://iwa.silverchair-cdn.com/iwa/content_public/journal/jwcc/15/5/10.2166_wcc.2024.444/2/m_jwc-d-23-00444gf01.png?Expires=1720092487&amp;Signature=eGIaT1U49puanxZ1sPYl49B65mie8ZKAKum0bZffXOSCH4F2yXqJrmLosknyhqk6gTfMkfU2AJlqNJMjC2ku9lZ24V3wvHDtpn4UU18-cXGist6d4JYcNb6F0zJoixkJJCTZFKj5uxs5egiUGmeBqsWEEDgoe6Z2EVohTKGS8r31SUKDyypDGF6ePxxZRzigOl-EJuon6RmwXn8SWX8z9i47oXkIxcqvbO2qsWf13NBnQwgZcbEI8SUg8QDZ-1IVPtUE13QtBl-Xek9rdTk6EMfPxAaZHk-EWokcdiOKtgI9DyxFMHKzo-zvwi2bsTlxJluMXZbXG6BgyUb9mgy2oA__&amp;Key-Pair-Id=APKAIE5G5CRDK6RD3PGA\\\"/><div>View largeDownload slide</div></div></div><div content- data-reveal=\\\"data-reveal\\\"><div><img alt=\\\"graphic\\\" data-src=\\\"https://iwa.silverchair-cdn.com/iwa/content_public/journal/jwcc/15/5/10.2166_wcc.2024.444/2/m_jwc-d-23-00444gf01.png?Expires=1720092487&amp;Signature=eGIaT1U49puanxZ1sPYl49B65mie8ZKAKum0bZffXOSCH4F2yXqJrmLosknyhqk6gTfMkfU2AJlqNJMjC2ku9lZ24V3wvHDtpn4UU18-cXGist6d4JYcNb6F0zJoixkJJCTZFKj5uxs5egiUGmeBqsWEEDgoe6Z2EVohTKGS8r31SUKDyypDGF6ePxxZRzigOl-EJuon6RmwXn8SWX8z9i47oXkIxcqvbO2qsWf13NBnQwgZcbEI8SUg8QDZ-1IVPtUE13QtBl-Xek9rdTk6EMfPxAaZHk-EWokcdiOKtgI9DyxFMHKzo-zvwi2bsTlxJluMXZbXG6BgyUb9mgy2oA__&amp;Key-Pair-Id=APKAIE5G5CRDK6RD3PGA\\\" path-from-xml=\\\"jwc-d-23-00444gf01.tif\\\" src=\\\"https://iwa.silverchair-cdn.com/iwa/content_public/journal/jwcc/15/5/10.2166_wcc.2024.444/2/m_jwc-d-23-00444gf01.png?Expires=1720092487&amp;Signature=eGIaT1U49puanxZ1sPYl49B65mie8ZKAKum0bZffXOSCH4F2yXqJrmLosknyhqk6gTfMkfU2AJlqNJMjC2ku9lZ24V3wvHDtpn4UU18-cXGist6d4JYcNb6F0zJoixkJJCTZFKj5uxs5egiUGmeBqsWEEDgoe6Z2EVohTKGS8r31SUKDyypDGF6ePxxZRzigOl-EJuon6RmwXn8SWX8z9i47oXkIxcqvbO2qsWf13NBnQwgZcbEI8SUg8QDZ-1IVPtUE13QtBl-Xek9rdTk6EMfPxAaZHk-EWokcdiOKtgI9DyxFMHKzo-zvwi2bsTlxJluMXZbXG6BgyUb9mgy2oA__&amp;Key-Pair-Id=APKAIE5G5CRDK6RD3PGA\\\"/><div>View largeDownload slide</div></div><i> </i><span>Close modal</span></div></div><p>This study has been investigated using the new criterion measuring complexity Hilbert-Huang entropy (HHE), changes, and fluctuations in groundwater levels under the influence of climate change factors and humans. In this regard, the 120-month time series of groundwater level, precipitation, temperature, and runoff parameters (period 2009–2018) are first divided into five 24-month periods, then by applying the Hilbert-Huang transform. Each period is decomposed down into smaller periods, and finally, the HHE criterion measures the complexity of the time series. The examination of changes in the HHE complexity criterion shows a decrease of 2.02, 2.93, and 29.58% in the groundwater level in the second, third, and fourth periods. Also, according to the results of changes in the complexity of precipitation and temperature time series as climate change factors, these two parameters have decreased in the third and fourth periods, with the rate of decrease for the temperature time series being 18.8 and 8.3%, respectively, and for the precipitation time series is obtained by 30.6 and 4.4%, respectively. 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引用次数: 0

摘要

View largeDownload slideView largeDownload slide Close modal本研究采用新的标准测量复杂性希尔伯特-黄熵(HHE)、气候变化因素和人类影响下地下水位的变化和波动。为此,首先将地下水位、降水、温度和径流参数(2009-2018 年)的 120 个月时间序列划分为 5 个 24 个月的时段,然后应用希尔伯特-黄变换。将每个时段分解为更小的时段,最后用 HHE 标准衡量时间序列的复杂程度。对 HHE 复杂性标准变化的研究表明,地下水位在第二、第三和第四时期分别下降了 2.02%、2.93% 和 29.58%。另外,根据作为气候变化因素的降水和温度时间序列复杂性的变化结果,这两个参数在第三和第四时期都有所下降,温度时间序列的下降率分别为 18.8%和 8.3%,降水时间序列的下降率分别为 30.6%和 4.4%。因此,根据结果,在第二和第四阶段,作为人为因素的排放参数分别下降了 8.6%和 39.1%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigating climatic and human effects on the decline in the groundwater level (a case study of the Kuhdasht plain)
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This study has been investigated using the new criterion measuring complexity Hilbert-Huang entropy (HHE), changes, and fluctuations in groundwater levels under the influence of climate change factors and humans. In this regard, the 120-month time series of groundwater level, precipitation, temperature, and runoff parameters (period 2009–2018) are first divided into five 24-month periods, then by applying the Hilbert-Huang transform. Each period is decomposed down into smaller periods, and finally, the HHE criterion measures the complexity of the time series. The examination of changes in the HHE complexity criterion shows a decrease of 2.02, 2.93, and 29.58% in the groundwater level in the second, third, and fourth periods. Also, according to the results of changes in the complexity of precipitation and temperature time series as climate change factors, these two parameters have decreased in the third and fourth periods, with the rate of decrease for the temperature time series being 18.8 and 8.3%, respectively, and for the precipitation time series is obtained by 30.6 and 4.4%, respectively. Hence, according to the results, the discharge parameter, as a human factor in the second and fourth periods, shows a decrease of 8.6 and 39.1%, respectively.

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