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苗雨青
发布人:李小文 编辑:李小文 预审:陈健 发布日期:2017-06-24  浏览次数:


 姓  名苗雨青 地科-苗雨青
 性  别
 出生年月1985-12 
 职  称副教授 
 职  务 
 最终学历博士研究生 
 学  位博士学位 
 电  话
 E-Mailmiaoyqjh@ahnu.edu.cn近影


 

  1. 个人简介

    苗雨青,男,1985年生,安徽庐江人。理学博士,副教授,硕士研究生导师。主要从事湿地(沼泽、湖泊)生态系统碳氮循环方面的研究。近年来先后主持国家级项目1项,省部级项目4项,参与国家自然科学基金项目和中国科学院项目多项,发表论文30余篇。

  2. 工作与学业经历

    2016/03-2016/09,瑞典林雪平大学,访问学者

    2013/07-至今,安徽师范大学,地理系,讲师、副教授

    2008/09-2013/07,中国科学院东北地理与农业生态研究所,环境科学,博士,

    2004/09-2008/07,安徽师范大学,国土资源与旅游学院地理系,地理科学,学士

  3. 研究领域和方向

    湿地(沼泽、湖泊)生态系统碳氮循环

  4. 讲授课程

    自然地理学、湿地生态学、地貌学

  5. 科研成果

    (1) Large alpine deep lake as a source of greenhouse gases: A case study on Lake Fuxian in Southwestern China. Science of The Total Environment, 2022, 838, 156059. (First author) (IF: 10.753)

    (2) Greenhouse Gas Emissions from a Main Tributary of the Yangtze River, Eastern China. Sustainability, 2022, 14, 13729. (First author) (IF: 3.889)

    (3) Spatial and seasonal variability of nitrous oxide in a large freshwater lake in the lower reaches of the Yangtze River, China. Science of The Total Environment, 2020, 721, 137716. (First author) (IF: 6.551)

    (4) Annual Carbon Gas Emissions from a Boreal Peatland in Continuous Permafrost Zone, Northeast China. Clean-Soil Air Water, 2016, 44: 456-463. (First author) (IF: 1.338

    (5) Growing season methane emission from a boreal peatland in the continuous permafrost zone of Northeast China: effects of active layer depth and vegetation. Biogeosciences, 2012, 9: 4455-4464. (First author) (IF: 3.441

    (6) Greenhouse gas emissions from different wetlands during the snow-covered season in Northeast China. Atmospheric Environment, 2012, 62: 328-335. (First author) (IF: 3.708)

    (7)Soil-atmopshere CO2, CH4 and N2O fluxes from a peatland in the continuous permafrost zone, Northeast China. Fresenius Environmental Bulletin, 2018, 27(5A): 3606-3616. (Correspondence author) (IF: 0.673)

    (8) Cyanobacteria blooms potentially enhance volatile organic compound (VOC) emissions from a eutrophic lake: Field and experimental evidence. Environmental Research, 2021, 202, 111664. (Co-author) (IF: 6.498)

    (9) Methane distribution patterns along a transect of Lake Fuxian, a deep oligotrophic lake in China. Environmental Science and Pollution Research, 2020, 27(21): 25848-25860. (Co-author) (IF: 4.223)

    (10) Wetland-atmosphere methane exchange in Northeast China: A comparison of permafrost peatland and freshwater wetlands. 2018, 249: 239-249. (Co-author) (IF: 4.039)

    (11) Response of CH4 emissions to moss removal and N addition in boreal peatland of northeast China. Biogeosciences, 2014, 11: 4809-4816. (Co-author) (IF: 3.441)

    (12) Methane emissions from temperate herbaceous peatland in the Sanjiang Plain of Northeast China. Atmos Environ, 2014, 92: 478-483. (Co-author) (IF: 3.708)

    (13) Effects of freezing-thawing cycle on peatland active organic carbon fractions and enzyme activities in the Da Xing'anling Mountains, Northeast China. Environmental Earth Sciences, 2014, 72: 1853-1860. (Co-author) (IF: 1.435)

    (14) Effects of permafrost thaw on carbon emissions under aerobic and anaerobic environments in the Great Hing'an Mountains, China. Sci Total Environ, 2014, 487: 604-610. (Co-author) (IF: 4.61)

    (15) Greenhouse Gas Emissions from Southward Transplanted Wetlands During Freezing-Thawing Periods in Northeast China. Wetlands, 2013, 33: 1075-1081. (Co-author) (IF: 1.811)

    (16) Temporal and spatial variability of methane emissions in a northern temperate marsh. Atmos Environ, 2013, 81: 356-363. (Co-author) (IF: 3.708)

    (17) Carbon release from Sphagnum peat during thawing in a montane area in China. Atmos Environ, 2013, 75: 77-82. (Co-author) (IF: 3.708)

    (18) Large methane emission upon spring thaw from natural wetlands in the northern permafrost region. Environmental Research Letters, 2012, 7. (Co-author) (IF: 4.541)

    (19) Changes in Labile Organic Carbon Fractions and Soil Enzyme Activities after Marshland Reclamation and Restoration in the Sanjiang Plain in Northeast China. Environ. Manage, 2012, 50: 418-426. (Co-author) (IF: 2.177)

    (20) 基于PLUSInVEST模型的安徽省碳储量演化分析与预测. 水土保持学报, 2023, 待刊. (通讯作者)

    (21) 基于CiteSpace的极端气候事件生态效应研究进展. 生态科学,2023, 待刊. (通讯作者)

    (22) 职前地理教师核心素养评价体系的构建.安徽师范大学学报(自然科学版), 2022,45(2): 170-176.(第一作者)

    (23) 鄱阳湖湿地典型植被群落土壤养分有效性特征. 安徽师范大学学报(自然科学版),2020,43(1): 80-85.通讯作者)

    (24) 芜湖市近十年水资源变化特征及影响因素. 安徽师范大学学报(自然科学版),2020,43(6): 558-564.通讯作者)

    (25) 花津河浅层沉积物粒径营养元素特征及对水质潜在风险的探究. 中国农村水利水电,2020,9:163-171. 共同作者)

    (26) 巢湖水体二氧化碳浓度时空分布特征及其水-气交换通量.湖泊科学,2019,31(3): 766-778. 共同作者)

    (27) 芜湖市城市森林土壤理化性质及碳库研究. 土壤通报,2018,49(5): 1009-1017. 共同作者)

    (28) 庐山河谷地貌野外实习线路设计与教学模式选择. 地理教学, 2017, 15: 45-47. 共同作者)

    (29) 一种原位水样分层采集装置.实用新型专利,2022授权,专利号:ZL 202220340456.2(第一发明人)

    (30) 一种矸石山综合治理工艺. 发明专利,2022授权,专利号: ZL 201911242007.3 (第五发明人)

    (31) 一种土壤污染物去除处理系统. 发明专利,2021授权,专利号: ZL 201911242127.3 (第发明人)

    (32) 一种测定土壤呼吸率的简易室内模拟实验装置. 实用新型专利,2018授权,专利号: ZL 201721316987.0 (第发明人)

  6. 科研项目

    1. 安徽省自然科学基金面上项目2108085MD126,气候变暖背景下营养水平对长江中下游湖泊CO2CH4收支动态的影响机理,主持

    2. 中国博士后基金面上项目,2017M611940,水华生消对富营养化水体CH4产生与排放过程的影响机理研究,主持

    3. 国家自然科学基金青年科学基金项目,41601083,亚热带地区浅水湖泊水体CO2CH4排放特征及影响因素研究——以巢湖为例,主持

    4.安徽省自然科学青年基金,1608085QD83,基于不同通量观测技术的鄱阳湖湿地碳通量排放规律研究,主持

    5.安徽高校自然科学研究重点项目,KJ2016A271,不同营养水平对长江中下游淡水湖泊湿地CH4通量的影响研究,主持

    6. 国家自然科学基金面上项目,41771221,巢湖沉积记录的末次冰盛期-早全新世气候事件及响应机制研究,参与

    7. 国家自然科学基金面上项目,末次冰盛期以来青藏高原西北部阿克赛钦湖古水热变化及对气候的响应,参与

    8.国家自然科学基金青年科学基金项目,41401216,巢湖早中全新世气候事件的高分辨率湖泊沉积记录研究,参与

    9.国家自然科学基金青年科学基金项目,41101090,湿地垦殖及退化对三江平原河流碳输出的影响研究,参与

    10.国家自然科学基金青年科学基金项目,41101194,大兴安岭北坡泥炭地土壤不同碳组分在多年冻土退化过程中的稳定性与温度敏感性研究,参与

    11.国家自然科学基金重点项目,40930527,东北寒区多年冻土退化对沼泽湿地碳循环关键生物地球化学过程的影响研究参与

     

  7. 获奖情况

    2013年获中国科学院大学朱李月华博士生奖

  8. 联系方式

    通讯地址:安徽省芜湖市九华南路189号,安徽师范大学地理与旅游学院,241002

    E-mail:miaoyqjh@ahnu.edu.cn