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[海外留学经历]
2016年10月—2017年4月,美国佛罗里达州立大学地球海洋大气科学系,中美联合培养博士,美方导师为Robert
G. M. Spencer助理教授。
2015年12月—2016年8月,丹麦奥胡斯大学生命科学学院,中丹联合培养博士,丹方导师为Erik
Jeppesen教授。
2015年6月—2015年12月,丹麦哥本哈根大学食品科学系,中丹联合培养博士,丹方导师为Rasmus
Bro教授。
[研究方向及其他相关技能]
湖泊有色可溶性有机物CDOM地球化学循环。熟悉傅里叶变换高分辨率质谱、CDOM吸收与荧光光谱及稳定性碳氮同位素等的测定与处理,野外地物波谱仪、水下光谱仪等仪器的操作。能熟练自如应用MATLAB、VB及R-Studio等相关程序软件。
[第一作者已发表论文](已发表15篇第一作者SCI论文,其中一、二区SCI论文10篇)
(1) Zhou YQ, Davidson T, Yao XL, Zhang YL,
Jeppesen E, de Souza JG, Wu HW, Shi K, Qin
BQ. How autochthonous dissolved organic
matter responds to eutrophication and
climate warming: Evidence from a
cross-continental data analysis and
experiments. Earth-Science Reviews. 2018,
185: 928-937. (TopSCI, IF = 7.5)
(2) Zhou YQ, Xiao QT, Yao XL, Zhang YL,
Zhang M, Shi K, Lee XH, Podgorski D, Qin BQ,
Spencer R, Jeppesen E. Accumulation of
terrestrial dissolved organic matter
potentially enhances dissolved methane
levels in eutrophic Lake Taihu, China.
Environmental Science & Technology. 2018,
52: 10297-10306. (TopSCI, IF = 6.7)
(3) Zhou YQ, Yao XL, Zhang YL, Zhang YB, Shi
K, Tang XM, Qin BQ, Podgorski D, Brookes J,
Jeppesen E. Response of dissolved organic
matter optical properties to net inflow
runoff in a large fluvial plain lake and the
connecting channels. Science of the Total
Environment, 2018, 639: 876-887. (TopSCI, IF
= 4.6)
(4) Zhou YQ, Ma JR, Zhang YL, Qin BQ,
Jeppesen E, Shi K, Brookes JD, Zhu GW, Gao
G. Improving water quality in China:
Environmental investment pays dividends.
Water Research. 2017, 118: 152-159.
(一区TopSCI,IF = 6.9)
(5) Zhou YQ, Shi K, Zhang YL, Jeppesen E,
Liu XX, Zhou QC, Wu HW, Tang XM, Zhu GW.
2016. Fluorescence peak integration ratio
IC:IT as a new potential indicator tracing
the compositional changes in chromophoric
dissolved organic matter. Science of the
Total Environment. 2017, 574: 1588-1598.
(二区TopSCI,IF = 4.9)
(6) Zhou YQ, Yao XL, Zhang YB, Shi K, Zhang
YL, Jeppesen E, Gao G, Zhu GW, Qin BQ.
Rainfall intensity and pH-driven shifts in
rainwater composition and loading of
chromophoric dissolved organic matter.
Environmental Pollution. 2017, 224: 638-648.
(二区TopSCI,IF=5.1)
(7) Zhou YQ, Zhang YL, Jeppesen E, Murphy
KR, Shi K, Liu ML, Liu XH, Zhu GW. Inflow
rate-driven changes in the composition and
dynamics of chromophoric dissolved organic
matter in a large drinking water lake. Water
Research, 2016, 100: 211-221. (一区TopSCI,IF =
6.9)
(8) Zhou YQ, Zhou J, Jeppesen E, Zhang YL,
Qin BQ, Shi K, Tang XM, Han XX. Will
enhanced turbulence in inland waters result
in elevated production of autochthonous
dissolved organic matter? Science of the
Total Environment, 2016, 543: 405-415.
(二区TopSCI,IF = 4.9)
(9) Zhou YQ, Jeppesen E, Zhang YL, Shi K,
Liu XX, Zhu GW. Dissolved organic matter
fluorescence at wavelength 275/342 nm as a
key indicator for detection of point-source
contamination in a large Chinese drinking
water lake. Chemosphere, 2016, 144: 503-509.
(二区TopSCI,IF = 4.2)
(10) Zhou YQ, Jeppesen E, Li JB, Zhang YL,
Zhang XP, Li XC. Impacts of Three Gorges
Reservoir on the sedimentation regimes in
the downstream-linked two largest Chinese
freshwater lakes. Scientific Reports. 2016,
6: 35396. (SCI,IF = 4.3)
(11) Zhou YQ, Jeppesen E, Zhang YL, Niu C,
Shi K, Liu XX, Zhu GW, Qin BQ. Chromophoric
dissolved organic matter of black waters in
a highly eutrophic Chinese lake: freshly
produced from algal scums? Journal of
Hazardous Materials, 2015, 299: 222–230.
(一区TopSCI,IF = 6.1)
(12) Zhou YQ, Zhang YL, Shi K, Liu XX, Niu
C. Dynamics of chromophoric dissolved
organic matter influenced by hydrological
conditions in a large, shallow and eutrophic
lake in China. Environmental Science and
Pollution Research, 2015, 22(17):
12992-13003. (SCI,IF = 2.7)
(13) Zhou YQ, Zhang YL, Shi K, Niu C, Liu
XX, Duan HT. Lake Taihu, a large, shallow
and eutrophic aquatic ecosystem in China
serves as a sink for chromophoric dissolved
organic matter. Journal of Great Lakes
Research, 2015, 41(2): 597–606. (SCI,IF =
2.0)
(14) Zhou YQ, Li JB, Zhang YL, Zhang XP, Li
XC. Enhanced lakebed sediment erosion in
Dongting Lake induced by the operation of
the Three Gorges Reservoir. Journal of
Geographical Sciences, 2015, 25(8): 917–929.
(SCI,IF = 2.4)
(15) Zhou YQ, Zhang YL, Niu C, Wang MZ.
Characterizing chromophoric dissolved
organic matter in Lake Honghu, Lake Donghu
and Lake Liangzihu using excitation-emission
matrices fluorescence and parallel factor
analysis. Spectroscopy and Spectral
Analysis, 2013, 33(12): 3286-3292. (SCI,IF =
0.3)
(16) 周永强, 李景保, 张运林, 章新平, 黎昔春.
三峡水库运行下洞庭湖盆冲淤响应与水沙调控阈值. 地理学报, 2014, 69 (3):
409-421.
[合作作者论文]
(17) Zhang YL, Jeppesen E, Liu XH, Qin BQ,
Shi K, Zhou YQ, Thomaz SM, Deng JM. Global
loss of aquatic vegetation in lakes.
Earth-Science Reviews, 2017, 173: 259–265.
(一区TopSCI,IF = 7.0)
(18) Zhang YL, Zhou YQ, Shi K, Qin BQ, Yao
YL, Zhang YB. Optical properties and
composition changes in chromophoric
dissolved organic matter along trophic
gradients: Implications for monitoring and
assessing lake eutrophication. Water
Research, 2017.
http://dx.doi.org/10.1016/j.watres.2017.12.051.
(一区TopSCI,IF = 6.9)
(19) Li Y, Zhang YL, Shi K, Zhu GW, Zhou YQ,
Zhang YB, Guo YL. Monitoring spatiotemporal
variations in nutrients in a large drinking
water reservoir and their relationships with
hydrological and meteorological conditions
based on Landsat 8 imagery. Science of the
Total Environment. 2017, 599-600: 1705-1717.
(二区TopSCI, IF = 4.9)
(20) Zhou L, Zhou YQ, Hu Y, Cai J, Bai CR,
Shao KQ, Gao G, Zhang YL, Jeppesen E, Tang
XM. Hydraulic connectivity and evaporation
control the water quality and sources of
chromophoric dissolved organic matter in
Lake Bosten in arid northwest China.
Chemosphere, 2017, 188: 608-617. (二区TopSCI,
IF = 4.2)
(21) Li Y, Zhang YL, Shi K, Zhou YQ, Zhang
YB, Liu XH, Guo YL. Spatiotemporal dynamics
of chlorophyll-a in a large reservoir as
derived from Landsat 8 OLI data:
Understanding its driving and restrictive
factors. Environmental Science and Pollution
Research, 2017, 24: 1-16. (SCI, IF = 2.7)
(22) Yao XL, Zhang YL, Zhang L, Zhou YQ. A
bibliometric review of nitrogen research in
eutrophic lakes and reservoirs. Journal of
Environmental Sciences, 2017,
http://dx.doi.org/10.1016/j.jes.2016.10.022.
(SCI, IF = 2.9)
(23) Shi K, Zhang YL, Zhou YQ, Liu XH, Zhu
GW, Qin BQ, Gao G. Long-term MODIS
observations of cyanobacterial dynamics in
Lake Taihu: Responses to nutrient enrichment
and meteorological factors. Scientific
Reports. 2016, 7: 40326. (SCI,IF = 4.3)
(24) Zhang YL, Shi K, Zhou YQ, Liu XH, Qin
BQ. Monitoring the river plume induced by
heavy rainfall events in large, shallow,
Lake Taihu using MODIS 250 m imagery. Remote
Sensing of Environment, 2016, 173: 109–121.
(一区TopSCI,IF = 6.3)
(25) Zhang YL, Liu XH, Qin BQ, Deng JM, Zhou
YQ. Aquatic vegetation in response to
increased eutrophication and degraded light
climate in Eastern Lake Taihu: Implications
for lake ecological restoration. Scientific
Reports, 2016, 6: 26837. (SCI,IF=4.3)
(26) Liu XH, Zhang YL, Shi K, Lin JF, Zhou
YQ, Qin BQ. Determining critical light and
hydrologic conditions for macrophyte
presence in a large shallow lake: The ratio
of euphotic depth to water depth. Ecological
Indicators, 2016, 71: 317-326.
(二区TopSCI,IF=3.9)
(27) Zhang YL, Shi K, Liu JJ, Deng JM, Qin
BQ, Zhu GW, Zhou YQ. Meteorological and
hydrological conditions driving the
formation and disappearance of black blooms,
an ecological disaster phenomena of
eutrophication and algal blooms. Science of
the Total Environment. 2016, 569-570:
1517-1529. (二区TopSCI,IF=4.9)
(28) Ma JR, Qin BQ, Paerl, HW, Brookes, JD,
Hall NS, Shi K, Zhou YQ, Guo JS, Li Z, Xu H,
Wu TF. The persistence of cyanobacterial
(Microcystis spp.) blooms throughout winter
in Lake Taihu, China. Limnology and
Oceanography, 2016, 61(2): 711-722. (二区Top
SCI,IF=3.4).
(29) Zhang YB, Zhang YL, Shi K, Zha, Y, Zhou
YQ, Liu ML. A Landsat 8 OLI-Based,
Semianalytical Model for Estimating the
Total Suspended Matter Concentration in the
Slightly Turbid Xin’anjiang Reservoir
(China). IEEE Journal of Selected Topics in
Applied Earth Observations and Remote
Sensing, 2016, 9(1): 398-413. (二区Top SCI,IF
= 2.9)
(30) Shi K, Zhang YL, Zhu GW, Liu XH, Zhou
YQ, Xu H, Qin BQ, Liu G, Li YM. Long-term
remote monitoring of total suspended matter
concentration in Lake Taihu using 250 m
MODIS-Aqua data. Remote Sensing of
Environment, 2015, 164: 43-56. (一区TopSCI,IF
= 6.3)
(31) Shi K, Zhang YL, Xu H, Zhu GW, Qin BQ,
Huang CC, Liu XX, Zhou YQ, Lv H. Long-term
satellite observations of microcystin
concentrations in Lake Taihu duing
Cyanobacterial bloom periods. Environmental
Science & Technology, 2015, 49: 6448-6456.
(一区TopSCI,IF = 6.2)
(32) Zhang YL, Wu ZX, Liu ML, He JB, Shi K,
Zhou YQ, Wang MZ, Liu XH. Dissolved oxgen
stratification and response to thermal
structure and long-term climate change in a
large and deep subtropical reservoir (Lake
Qiandaohu, China). Water Research, 2015, 75:
249-258. (一区TopSCI,IF = 6.9)
(33) Liu XH, Zhang YL, Shi K, Zhou YQ, Tang
XM, Zhu GW, Qin BQ. Mapping aquatic
vegetation in a large, shallow eutrophic
lake: A frequency-based approach using
multiple years of MODIS data. Remote
Sensing, 2015, 7: 10295-10320. (二区SCI,IF =
3.2)
(34) Wu ZX, Zhang YL, Zhou YQ, Liu ML, Shi
K, Yu ZM. Seasonal-Spatial Distribution and
Long-Term Variation of Transparency in
Xin’anjiang Reservoir: Implications for
Reservoir Management. International Journal
of Environmental Research-Public Health,
2015, 12: 9492-9507. (SCI,IF = 2.1)
(35) Niu C, Zhang Y, Zhou YQ, Shi K, Liu XX,
Qin BQ. The potential applications of
real-time monitoring of water quality in a
large shallow lake (Lake Taihu, China) using
a chromophoric dissolved organic matter
fluorescence sensor. Sensor, 2014, 14:
11580-11594. (SCI,IF = 2.7)
(36) Liu X, Zhang Y, Wang M, Zhou YQ.
High-frequency optical measurements in
shallow Lake Taihu, China: determing the
relationships between hydrodynamic processes
and inherent optical properties.
Hydrobiologia, 2014, 724: 187-201. (SCI,IF =
2.1)
(37) Zhang Y, Shi K, Liu X, Zhou YQ, Qin B.
Lake topography and wind waves determining
seasonal-spatial dynamics of total suspended
matter in turbid Lake Taihu, China:
assessing using long-term high-resolution
MERIS data. PloS ONE, 2014, 9 (5) (e98055).
(SCI,IF = 2.8)
(38) Zhang Y, Gao G, Shi K, Niu C, Zhou YQ,
Qin B, Liu X. Absorption and fluorescence
characteristics of rainwater CDOM and
contribution to Lake Taihu, China.
Atmospheric Environment, 2014, 98: 483-491.
(二区TopSCI,IF = 3.6)
(39) Ou CM, Li JB, Zhou YQ, Cheng WY, Yang
Y, Zhao ZH. Evolution characters of water
exchange abilities between Dongting Lake and
Yangtze River. Journal of Geographical
Sciences, 2014, 24(4): 731-745. (SCI,IF =
2.4)
(40) Zhang Y, Liu X, Osburn C L, Wang M, Qin
B, Zhou YQ. Photobleaching response of
different sources of chromophoric dissolved
organic matter exposed to natural solar
radiation using absorption and
excitation-emission matrix spectra. PloS
ONE, 2013, 8 (10) (e77515). (SCI,IF = 2.8)
(41) 张毅博, 张运林, 査勇, 施坤, 周永强, 王明珠. 基于 Landsat
8 影像估算新安江水库总悬浮物浓度. 环境科学, 2015, 1: 56-63.
(42) 张毅博, 张运林, 査勇, 施坤, 周永强, 刘明亮. 基于Landsat
8影像估算新安江水库光合有效辐射漫射衰减系数. 环境科学, 2015, 36(12):
4420-4429.
(43) 王明珠, 张运林, 刘笑菡, 朱广伟, 汤祥明, 周永强.
不同营养水平湖泊浮游植物吸收和比吸收系数变化特征. 湖泊科学, 2013, 25(4):
505-513.
(44) 牛城, 张运林, 朱广伟, 王明珠, 周永强, 刘笑菡. 天目湖流域DOM和
CDOM光学特性的对比. 环境科学研究, 2014, 27(9): 998-1007.
(45) 殷燕, 吴志旭, 张运林, 刘明亮, 周永强, 高玉蓉, 虞左明.
新安江水库夏季CDOM吸收光谱特征及来源分析. 中国环境科学, 2014,
34(12): 3207-3214.
(46) 周起超, 张运林, 周永强, 陈毅良, 秦江, 聂菊芬.
抚仙湖秋、冬季光衰减特征及其与有色可溶性有机物的关系. 湖泊科学, 2016,
28(6): 1316-1327.
(47) 白杨, 张运林, 周永强, 施坤, 刘明亮, 杨桂军.
千岛湖水温垂直分层的空间分布及其影响因素. 海洋与湖沼, 2016 (5):
906-914.
(48) 李景保, 周永强, 欧朝敏, 程伟艳, 杨燕,赵中花.
洞庭湖与长江水体交换能力演变及对三峡水库运行的响应. 地理学报, 2013,
68(1): 108-117.
(49) 李景保, 钟一苇, 周永强, 黎昔春, 朱辉.
三峡水库运行对洞庭湖北部地区水资源开发利用的影响. 自然资源学报, 2013,
28(9): 1583-1593.
[已授权的软件著作权或专利]
(1) 周永强, 张运林. 湖泛衍生物特征参数—有色可溶性有机物来源识别软件 V1.
批准号: 2015SR198431.
(2) 张运林, 周永强. 溶解性有机物三维荧光数据处理及图谱分析软件 V1.0.
批准号: 2013SR108329.
(3) 刘笑菡, 张运林, 施坤, 周永强.
基于藻类指数频次法的富营养水体水生植被遥感提取方法.
发明专利,授权号:ZL201510074116 CN104596448B
(4) 王明珠, 张运林, 周永强, 施坤, 刘笑菡.
一种便携式盛放水体悬浮颗粒物吸收滤膜的装置. 实用新型专利,授权号: ZL 2014 2
0057838.X.
[申请专利]
(1) 周永强, 张运林, 施坤.
一种基于荧光光谱积分比值的湖泊有色可溶性有机物不同来源的判定方法.
申请号:2016090700734850
(2) 张运林, 施坤, 周永强. 基于有色可溶性有机物吸收系数的湖泊富营养化评价方法.
申请号:2016090601271370
(3) 张运林, 施坤, 秦伯强, 刘笑菡, 周永强.
一种大型浅水湖泊扰动强度空间格局的确定方法. 申请号:201610097002.6
[参加的研究项目]
(1)
国家自然科学基金杰出青年基金:湖泊光学与水色遥感(41325001),2014-2017年。
(2)
国家自然科学基金重点项目:水动力输移对大型浅水富营养化湖泊环境要素时空分异格局的影响机制(41230744):2013-2017年。
(3)
国家水体污染控制与治理科技重大专项课题“太湖“湖泛”与水华灾害应急处置技术研究及工程示范”(2012ZX07101-010),2012-2015年。
(4)
中国科学院南京地理与湖泊研究所一三五重点项目“浅水湖泊光热动力及水动力过程对浮游植物生长及初级生产力的作用机制”(NIGLAS2012135003),
2012-2015年。
(5)
江苏省自然科学基金杰出青年基金项目“物理与生物过程耦合对浅水湖泊水下光场变化作用机制”(BK2012050),2012-2015年。
[获奖情况]
(1) 2017 中国科学院院长特别奖,中国科学院。
(2) 2017 北京市优秀毕业生,北京市教育局。
(3) 张运林,乐成峰,秦伯强,朱广伟,李云梅,施坤,黄昌春,刘笑菡,周永强.
“湖泊光学的理论方法与水色遥感应用”, 江苏省科学技术一等奖,
证书号:2016-1-20-R9。
(4) 2017 中国科学院大学“优秀毕业生”,中国科学院大学。
(5) 2015-2016 朱李月华优秀博士生奖学金,中国科学院大学。
(6) 2015-2016 博士研究生国家奖学金,教育部。
(7) 2014-2015 博士研究生国家奖学金,教育部。
(8) 2015-2016 中国科学院大学三好学生。
(9) 2014-2015 中国科学院大学三好学生。
(10) 2012-2013 中国科学院大学优秀共产党员。
(11) 2014年所级最佳奖学金。 |
