{
    "created": "2022-01-27 12:46:47",
    "updated": "2026-05-14 12:15:10",
    "id": "70b6d93c-2ccf-41b6-8abc-8b4a998bbcd3",
    "version": 8,
    "ds_topic": null,
    "title_cn": "青藏高原0.05度陆地蒸散发数据集(1982-2016)",
    "title_en": "A 0.05 degree land evapotranspiration dataset for the Qinghai-Tibet Plateau (1982-2016)",
    "ds_abstract": "<p>本数据采用碳水耦合的遥感蒸散发模型PML_V2，结合青藏高原14个典型下垫面的涡度相关通量站资料对模型进行校参，之后输入气象驱动、遥感叶面积指数、反照率、发射率等得到的青藏高原0.05度、逐月陆地蒸散发。时间跨度为1982-2016年，可服务于长时间尺度的青藏高原水文气候变化研究。</p>",
    "ds_source": "<p>本数据采用碳水耦合的遥感蒸散发模型PML_V2，结合青藏高原14个典型下垫面的涡度相关通量站资料对模型进行校参，之后输入气象驱动、遥感叶面积指数、反照率、发射率等得到的青藏高原0.05度、逐月陆地蒸散发。时间跨度为1982-2016年。本数据仅为陆地实际蒸散发，不含水面。</p>",
    "ds_process_way": "<p>碳水耦合的遥感蒸散发模型PML_V2</p>",
    "ds_quality": "<p>空间分辨率：0.05度；时间分辨率：逐月；空间范围：青藏高原陆地；时间范围：1982-2016年</p>",
    "ds_acq_start_time": "1982-01-01 00:00:00",
    "ds_acq_end_time": "2016-12-31 00:00:00",
    "ds_acq_place": "青藏高原",
    "ds_acq_lon_east": 64.0,
    "ds_acq_lat_south": 24.0,
    "ds_acq_lon_west": 106.0,
    "ds_acq_lat_north": 42.0,
    "ds_acq_alt_low": null,
    "ds_acq_alt_high": null,
    "ds_share_type": "login-access",
    "ds_total_size": 508046372,
    "ds_files_count": 2,
    "ds_format": "NetCDF",
    "ds_space_res": "0.05度",
    "ds_time_res": "月",
    "ds_coordinate": "无",
    "ds_projection": "",
    "ds_thumbnail": "90c5f19e-c625-444a-91f0-3d38d93f6986.jpg",
    "ds_thumb_from": 0,
    "ds_ref_way": "",
    "paper_ref_way": "",
    "ds_ref_instruction": "",
    "ds_from_station": null,
    "organization_id": "52b7b79b-860c-49a5-9083-9a70cf8bed5a",
    "ds_serv_man": "李红星",
    "ds_serv_phone": "0931-4967592",
    "ds_serv_mail": "lihongxing@lzb.ac.cn",
    "doi_value": "10.12072/ncdc.Eco-Hydro.db1676.2022",
    "subject_codes": [
        "170.4510"
    ],
    "quality_level": 3,
    "publish_time": "2022-02-23 14:10:14",
    "last_updated": "2023-06-09 10:18:24",
    "protected": false,
    "protected_to": null,
    "lang": "zh",
    "cstr": "11738.11.ncdc.NIEER.db1676.2022",
    "i18n": {
        "en": {
            "title": "A 0.05 degree land evapotranspiration dataset for the Qinghai-Tibet Plateau (1982-2016)",
            "ds_format": "",
            "ds_source": "<p>This data was obtained using the carbon-water coupled remote sensing evapotranspiration model PML_V2, combined with vorticity-related flux station information from 14 typical subsurfaces on the Tibetan Plateau to calibrate the model, followed by inputting meteorological drivers, remote sensing leaf area index, albedo and emissivity to obtain 0.05 degree, month-by-month terrestrial evapotranspiration on the Tibetan Plateau. The time range is from 1982 to 2016. The data are actual land evapotranspiration only and do not include the water surface. </p>",
            "ds_quality": "<p>Spatial resolution: 0.05 degrees; Time resolution: monthly; Space scope: Qinghai Tibet Plateau land; Time range: 1982-2016</p>",
            "ds_ref_way": "",
            "ds_abstract": "<p>This data was obtained using the carbon-water coupled remote sensing evapotranspiration model PML_V2, combined with vorticity-related flux station information from 14 typical subsurfaces on the Tibetan Plateau to calibrate the model, followed by inputting meteorological drivers, remote sensing leaf area index, albedo and emissivity to obtain 0.05 degree, month-by-month terrestrial evapotranspiration on the Tibetan Plateau. The time range is 1982-2016, which can be used for hydrological climate change studies on the Tibetan Plateau at long time scales. </p>",
            "ds_time_res": "月",
            "ds_acq_place": "Tibet Plateau",
            "ds_space_res": "0.05度",
            "ds_projection": "",
            "ds_process_way": "<p>Remote Sensing Evapotranspiration Model PML for Carbon Water Coupling_ V2</p>",
            "ds_ref_instruction": ""
        }
    },
    "submit_center_id": "ncdc",
    "data_level": 0,
    "recommendation_value": 0,
    "license_type": "https://creativecommons.org/licenses/by/4.0/",
    "doi_reg_from": "reg_local",
    "cstr_reg_from": "reg_local",
    "doi_not_reg_reason": null,
    "cstr_not_reg_reason": null,
    "is_paper_in_submitting": false,
    "ds_topic_tags": [
        "蒸散发",
        "青藏高原"
    ],
    "ds_subject_tags": [
        "自然地理学"
    ],
    "ds_class_tags": [],
    "ds_locus_tags": [
        "青藏高原"
    ],
    "ds_time_tags": [
        1982,
        1983,
        1984,
        1985,
        1986,
        1987,
        1988,
        1989,
        1990,
        1991,
        1992,
        1993,
        1994,
        1995,
        1996,
        1997,
        1998,
        1999,
        2000,
        2001,
        2002,
        2003,
        2004,
        2005,
        2006,
        2007,
        2008,
        2009,
        2010,
        2011,
        2012,
        2013,
        2014,
        2015,
        2016
    ],
    "ds_contributors": [
        {
            "true_name": "马宁",
            "email": "ma.n2007@aliyun.com",
            "work_for": "中国科学院地理科学与资源研究所",
            "country": "中国"
        },
        {
            "true_name": "张永强",
            "email": "zhangyq@igsnrr.ac.cn",
            "work_for": "中国科学院地理科学与资源研究所",
            "country": "中国"
        }
    ],
    "ds_meta_authors": [
        {
            "true_name": "马宁",
            "email": "ma.n2007@aliyun.com",
            "work_for": "中国科学院地理科学与资源研究所",
            "country": "中国"
        },
        {
            "true_name": "张永强",
            "email": "zhangyq@igsnrr.ac.cn",
            "work_for": "中国科学院地理科学与资源研究所",
            "country": "中国"
        }
    ],
    "ds_managers": [
        {
            "true_name": "马宁",
            "email": "ma.n2007@aliyun.com",
            "work_for": "中国科学院地理科学与资源研究所",
            "country": "中国"
        }
    ],
    "category": "水文"
}