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Hydrogen and oxygen stable isotope variations of daily precipitation from 2014-2018 in the central United States (2018)

Tian, Chao ; Wang, Lixin

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In: Supplement to: Tian, Chao; Wang, Lixin (2019): Stable isotope variations of daily precipitation from 2014–2018 in the central United States. Scientific Data, 6, 190018, https://doi.org/10.1038/sdata.2019.18

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Publication Date: 2023-01-13

Description: Stable isotopes of hydrogen and oxygen (δ2H, δ18O and δ17O) serve as powerful tracers in hydrological investigations. To our knowledge, daily precipitation isotope record especially 17O-excess is rare in the mid-latitudes. To fill such knowledge gap, daily precipitation samples (n = 446) were collected from June 2014 to May 2018 in Indianapolis, Indiana, U.S. A Triple Water Vapor Isotope Analyzer (T-WVIA) based on Off-Axis Integrated Cavity Output Spectroscopy (OA-ICOS) technique was used to concurrently measure precipitation isotopic variations (δ2H, δ18O and δ17O). Meanwhile, 17O-excess and d-excess as second-order isotopic variables were calculated to provide additional information on precipitation formation and transport mechanisms. This study presents a four-year daily precipitation isotope dataset for mid-latitudes, and makes it available to researchers around the world who may use it as a reference for site comparisons and for global hydrological modeling validation.

Keywords: Calculated; DATE/TIME; Deuterium excess; Indianapolis_precip_2014-2018; Oxygen-17 excess; Precipitation; Triple water vapor Isotope analyzer (T-WVIA) based on off-axis integrated cavity output spectroscopy (OA-ICOS); Water sample, precipitation; WSP; δ17O; δ18O, water; δ Deuterium, water

Type: Dataset

Format: text/tab-separated-values, 2676 data points

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Stable isotope composition of dew measured from 2014 to 2018 in Namibia, France, and the United States (2021)

Tian, Chao ; Du, Kun ; Wang, Lixin ; [et al.]

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Publication Date: 2023-06-08

Description: As a supplementary or sometimes the only water source in dry regions, dew plays a critical role in the survival of organisms in such environments. The new hydrological tracer 17O-excess, with almost sole dependence on relative humidity, provides a new way to distinguish the evaporation processes and reconstruct the paleoclimate. Up to now, there is no daily dew isotope record on δ2H, δ18O, δ17O, d-excess, and 17O-excess. To fill this gap, here we collected daily dew (n=114) between July 2014 and April 2018 from three distinct climatic regions (i.e., Gobabeb-Namib Research Institute in the central Namib Desert with desert climate, Nice in France with Mediterranean climate, and Indianapolis in the central United States with humid continental climate). The isotopic composition (δ2H, δ18O, and δ17O) of dew was simultaneously analyzed using a Triple Water Vapor Isotope Analyzer (T-WVIA) based on Off-Axis Integrated Cavity Output Spectroscopy (OA-ICOS) technique, and then d-excess and 17O-excess were calculated. The latitude, longitude, and elevation as well as three meteorological factors including temperature, relative humidity (RH), and vapour-pressure deficit (VPD) of the three collection sites were also provided here. This report presents daily dew isotope dataset under three different climatic regions. It is useful for researchers to use it as a data reference when studying global dew dynamics and dew formation mechanisms.

Keywords: Calculated; DATE/TIME; Deuterium excess; DewIsotope_Gobabeb; DewIsotope_Indianapolis; DewIsotope_Nice; ELEVATION; Event label; Gobabeb; Humidity, relative; Indianapolis; LATITUDE; LONGITUDE; Nice; Oxygen-17 excess; Site; Temperature, air; Triple water vapor Isotope analyzer (T-WVIA) based on off-axis integrated cavity output spectroscopy (OA-ICOS); Vapour pressure deficit; δ17O; δ18O; δ Deuterium

Type: Dataset

Format: text/tab-separated-values, 1020 data points

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Triple isotope variations of monthly tap water in China (2020)

Tian, Chao ; Wang, Lixin ; Jiao, Wenzhe ; [et al.]

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Publication Date: 2024-01-27

Description: Tap water isotopic compositions could potentially record information on local climate and water management practices. A new water isotope tracer 17O-excess becomes available in recent years providing additional information of the mechanisms of various hydrological processes. Detailed data records of tap water 17O-excess have not been reported. In this report, monthly tap water samples (n = 652) were collected from December 2014 to November 2015 from 92 sites across China. The isotopic variations (δ2H, δ18O, and δ17O) of tap water were analyzed by a Triple Water Vapor Isotope Analyzer (T-WVIA) based on Off-Axis Integrated Cavity Output Spectroscopy (OA-ICOS) technique and two second-order isotopic variables (d-excess and 17O-excess) were calculated. The geographic location information of the 92 collection sites including latitude, longitude, and elevation were also provided in this dataset. This report presents national-scale tap water isotope dataset at monthly time scale. Researchers and water resource managers who focus on the tap water issues could use them to probe the water source and water management strategies at large spatial scales.

Keywords: Aksu; Aksu_tap_water; Anyang; Anyang_tap_water; Baiyin; Baiyin_tap_water; Baoding; Baoding_tap_water; Baoshan; Baoshan_tap_water; Baotou; Baotou_tap_water; Bijie; Bijie_tap_water; Bose; Bose_tap_water; Calculated; Cangzhou; Cangzhou_tap_water; Changchun; Changchun_tap_water; Changsha; Changsha_tap_water; Chengde; Chengde_tap_water; Chengdu; Chengdu_tap_water; Chifeng; Chifeng_tap_water; Chongqing; Chongqing_tap_water; Dalian; Dalian_tap_water; Dandong; Dandong_tap_water; DATE/TIME; Delingha; Delingha_tap_water; Deuterium excess; Dingxi; Dingxi_tap_water; Dongying; Dongying_tap_water; ELEVATION; Enshi; Enshi_tap_water; Event label; Fuzhou; Fuzhou_tap_water; Gannan; Gannan_tap_water; Golmud; Golmud_tap_water; Guangzhou; Guangzhou_tap_water; Guilin; Guilin_tap_water; Guiyang; Guiyang_tap_water; Haikou; Haikou_tap_water; Hangzhou; Hangzhou_tap_water; Hanzhong; Hanzhong_tap_water; Harbin; Harbin_tap_water; Hefei; Hefei_tap_water; Heihe; Heihe_tap_water; Hengshui; Hengshui_tap_water; Hohhot; Hohhot_tap_water; Huaihua; Huaihua_tap_water; Jinzhong; Jinzhong_tap_water; Jiuquan; Jiuquan_tap_water; Kaifeng; Kaifeng_tap_water; Karamay; Karamay_tap_water; Kashgar; Kashgar_tap_water; Korla; Korla_tap_water; Kunming; Kunming_tap_water; Lanzhou; Lanzhou_tap_water; LATITUDE; Lhasa; Lhasa_tap_water; Linhe; Linhe_tap_water; Lishui; Lishui_tap_water; Liuzhou; Liuzhou_tap_water; Location; LONGITUDE; Longnan; Longnan_tap_water; Longyan; Longyan_tap_water; Maanshan; Maanshan_tap_water; Nanning; Nanning_tap_water; Nantong; Nantong_tap_water; Nyingchi; Nyingchi_tap_water; Oxygen-17 excess; Panzhihua; Panzhihua_tap_water; Pingliang; Pingliang_tap_water; Qujing; Qujing_tap_water; Quzhou; Quzhou_tap_water; Shanghai; Shanghai_tap_water; Shaoguan; Shaoguan_tap_water; Shaoxing; Shaoxing_tap_water; Shenyang; Shenyang_tap_water; Shenzhen; Shenzhen_tap_water; Shijiazhuang; Shijiazhuang_tap_water; Simao; Simao_tap_water; Suzhou; Suzhou_tap_water; Taiyuan; Taiyuan_tap_water; Tangshan; Tangshan_tap_water; Tianjin; Tianjin_tap_water; Tianshui; Tianshui_tap_water; Tongliao; Tongliao_tap_water; Tongren; Tongren_tap_water; Triple water vapor Isotope analyzer (T-WVIA) based on off-axis integrated cavity output spectroscopy (OA-ICOS); Ulanhot; Ulanhot_tap_water; Urumqi; Urumqi_tap_water; Water sample; Weifang; Weifang_tap_water; Wenshan; Wenshan_tap_water; WS; Wuhan; Wuhan_tap_water; Xiamen; Xiamen_tap_water; Xiangtan; Xiangtan_tap_water; Xianyang; Xianyang_tap_water; Xichang; Xichang_tap_water; Xilinhot; Xilinhot_tap_water; Xining; Xining_tap_water; Xuzhou; Xuzhou_tap_water; Yancheng; Yancheng_tap_water; Yantai; Yantai_tap_water; Yinchuan; Yinchuan_tap_water; Yueyang; Yueyang_tap_water; Yulin; Yulin_tap_water; Zaozhuang; Zaozhuang_tap_water; Zhanjiang; Zhanjiang_tap_water; Zhengzhou; Zhengzhou_tap_water; δ17O, water; δ18O, water; δ Deuterium, water

Type: Dataset

Format: text/tab-separated-values, 3912 data points

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