■ 研究方向
…………………………………………………………
气候变化与浮游植物生态学;藻类生理生态;生物统计学。
■ 承担项目
…………………………………………………………
2016 昼夜非对称性增温对大型浅水湖泊浮游植物及碳通量的影响
国家自然科学基金青年项目(41501215) 25万,主持
2017 近年来风速下降对浅水湖泊内源的影响及其生态效应
江苏省自然科学基金面上项目(BK2017151) 10万,主持
2017 人类活动对水生态系统影响的分析及数值模拟研究
国际(地区)合作交流项目(41661134036) 195万,科研骨干
2017 我国不同气候区典型湖泊物候变化特征及其对气候变化的响应
科学院前沿科学重点项目(QYZDB-SSW-DQC016) 250万,科研骨干
2017 滨湖城市湖泊草型生态系统重构技术与工程示范
国家科技重大专项项目(2017ZX07203-004-007) 400万,科研骨干
2017 湖泊环境变化及其生态系统响应
国家自然科学基金创新研究群体项目(41621002) 1022万,参与
2016 基于细胞报告菌株的环境铅生物可给性与风险研究
国家自然科学基金面上项目(41571485) 75.6万,参与
■ 学术成果
…………………………………………………………
2018年
[1] Deng JM, Paerl HW, Qin B, Zhang Y, Zhu
G, Jeppesen E, Cai Y. and Xu H.
Climatically-modulated decline in wind speed
may strongly affect eutrophication in
shallow lakes [J]. Science of the Total
Environment, 2018, 645, 1361-1370 (IF2017=
4.6, 二区Top).
[2] Deng JM, Zhang W, Qin B, Zhang Y, Paerl
HW and Salmaso N. Effects of
climatically-modulated changes in solar
radiation and wind speed on spring
phytoplankton community dynamics in Lake
Taihu, China [J]. PLoS ONE, 2018, 13(10),
e0205260.
2017年
[3] Deng JM, Zhang YL, Qin BQ, Yao XL and
Deng YB. Trends of publications related to
climate change and lake research from 1991
to 2015 [J]. Journal of Limnology, 2017,
76(3), 439-450.
[4] Ding Y, Qin B, Deng JM and Ma J. Effects
of episodic sediment resuspension on
phytoplankton in Lake Taihu: focusing on
photosynthesis, biomass and community
composition [J]. Aquatic Sciences, 2017,
1-13.
2016年
[5] Deng JM, Qin BQ, Sarvala J, et al.
Phytoplankton assemblages respond
differently to climate warming and
eutrophication: A case study from Pyh?j?rvi
and Taihu [J]. Journal of Great Lakes
Research, 2016, 42(2):386–396.
[6] 邓建明, 汤祥明, 邵克强, 等.
非度量多维标度在亲水河浮游植物群落分析中的应用[J]. 生态与农村环境学报, 2016,
32(1):150-156.
[7] 费磊, 邓建明, 秦伯强,等.
夏季日最低温度升高对芬兰皮海湖浮游植物群落的影响[J]. 湖泊科学, 2016,
28(3):592-598.
[8] Zhang Y, Shi K, Liu J, Deng JM, Qin BQ
et al. Meteorological and hydrological
conditions driving the formation and
disappearance of black blooms, an ecological
disaster phenomena of eutrophication and
algal blooms [J]. Science of the Total
Environment, 2016, s 569–570: 1517-1529.
[9] Zhang Y, Liu X, Qin B, Shi K, Deng JM,
et al. Aquatic vegetation in response to
increased eutrophication and degraded light
climate in Eastern Lake Taihu: Implications
for lake ecological restoration [J].
Scientific Reports, 2016, 6.
[10] Wu P, Qin B, Yu G, Deng JM, Zhou J.
Effects of Nutrient on Algae Biomass during
Summer and Winter in Inflow Rivers of Taihu
Basin, China [J]. Water Environment
Research, 2016, 88(7):665-672.
[11] 秦伯强, 杨桂军, 马健荣, 邓建明, 等.
太湖蓝藻水华“暴发”的动态特征及其机制[J]. 科学通报,
2016(7):759-770.
2015年
[12] Deng JM, Zhang Y, Qin B, et al.
Long-term changes in surface solar radiation
and their effects on air temperature in the
Shanghai region [J]. International Journal
of Climatology, 2015, 35(12):406-406
(IF2017= 3.1, 二区).
[13] 邓建明, 秦伯强, 王博雯.
广义可加模型在R中的快捷实现及蓝藻水华预测分析中的应用[J]. 生态学杂志, 2015,
34(3):835-842.
[14] 邓建明, 秦伯强. 全球变暖对淡水湖泊浮游植物影响研究进展[J]. 湖泊科学,
2015, 27(1):1-10.
[15] Zhu G, Cui Y, Han X, Li HY, Zhu MY,
Deng JM, Li HP, Chen WM. Response of
phytoplankton to nutrient reduction in Shahe
Reservoir, Taihu catchment, China[J].
Journal of Freshwater Ecology, 2015,
30(1):41-58.
[16] Zhu M, Zhu G, Nurminen L, Wu TW, Deng
JM, et al. The Influence of Macrophytes on
Sediment Resuspension and the Effect of
Associated Nutrients in a Shallow and Large
Lake (Lake Taihu, China) [J]. PLoS ONE,
2015, 10(6).
[17] Zhao Z, Zhang L, Deng JM, et al. The
potential effects of phytoplankton on the
occurrence of organochlorine pesticides
(OCPs) and polycyclic aromatic hydrocarbons
(PAHs) in water from Lake Taihu, China.[J].
Environmental Science Processes & Impacts,
2015, 17(6):1150-1156.
[18] Ma J, Qin B, Wu P, Zhou J, Niu C, Deng
JM, Niu HL. Controlling cyanobacterial
blooms by managing nutrient ratio and
limitation in a large hyper-eutrophic lake:
Lake Taihu, China.[J]. Acta Scientiae
Circumstantiae, 2015, 27(1):80–86.
2014年
[19] Deng JM, Qin B, Paerl H W, et al.
Effects of Nutrients, Temperature and Their
Interactions on Spring Phytoplankton
Community Succession in Lake Taihu,
China[J]. PLoS ONE, 2014, 9(12):
e1271-e1275.
[20] Deng JM, Qin B, Paerl H W, et al.
Earlier and warmer springs increase
cyanobacterial (Microcystis, spp.) blooms in
subtropical Lake Taihu, China[J]. Freshwater
Biology, 2014, 59(5):1076–1085.
2013年及以前
[21] 邓建明, 蔡永久, 陈宇炜, 张路.
洪湖浮游植物群落结构及其与环境因子的关系[J]. 湖泊科学, 2010,
22(1):70-78.
[22] Qin BQ, Gao G, Zhu GW, Zhang YL, Song
YZ, Tang XM, Xu H, Deng JM. Lake
eutrophication and its ecosystem response
[J]. Science Bulletin, 2013, 58(9):961-970.
[23] 秦伯强, 高光, 朱广伟, 张运林, 宋玉芝, 汤祥明, 许海, 邓建明.
湖泊富营养化及其生态系统响应[J]. 科学通报, 2013(10):855-864.
[24] 马健荣, 邓建明, 秦伯强,等. 湖泊蓝藻水华发生机理研究进展[J].
生态学报, 2013, 33(10):3020-3030.
[25] 刘丽贞, 秦伯强, 吴攀, 牛城, 张运林, 黄琪, 邓建明.
太湖北部不同湖区春、夏季溶解性酸性多糖分布[J]. 环境科学研究, 2013,
26(9):966-971.
[26] 吴攀, 邓建明, 秦伯强,等.
水温和营养盐增加对太湖冬、春季节藻类生长的影响[J]. 环境科学研究, 2013,
26(10):1064-1071.
[27] 游海林, 徐力刚, 姜加虎, 许加星, 邓建明, 等.
湿地植物根系生长动态及其环境响应性研究进展[J]. 长江流域资源与环境, 2013,
21(Z):40-(s1):52-58.
[28] 游海林, 徐力刚, 姜加虎, 许加星, 邓建明, 等.
鄱阳湖典型洲滩湿地植物根系生长对极端水情变化的响应[J]. 生态学杂志, 2013,
32(12):3125-3130.
[29] 邓建明, 徐彩平, 陈宇炜,等. 太湖流域主要河道浮游植物类群对比研究[J].
资源科学, 2011, 33(2):210-216.
[30] 刘苑, 陈宇炜, 邓建明.
YSI(多参数水质检测仪)测定叶绿素a浓度的准确性及误差探讨[J]. 湖泊科学,
2010, 22(6):965-968.
授权专利
[31] Deng Jianming, Qin Boqiang. A system
and method for algae count data inputting
via speech recognition and data sheet
generation. 专利号: 2017101647
[32] 邓建明,秦伯强,张运林. 原位快速测定湖泊初级生产力的测量装置和测量方法.
专利号:201610342861.7
[33] 邓建明,秦伯强. 一种藻类计数数据语音快速录入及报表生成系统和方法.
专利号:201510198873.2
[34] 邓建明,秦伯强,张运林. 原位快速测定湖泊初级生产力的测量装置. 专利号:ZL
2016 2 0475011.X
[35] 邓建明,秦伯强. 一种藻类计数数据语音快速录入及报表生成系统. 专利号:ZL
2015 2 0253413.0
[36] 邓建明,张运林,秦伯强. 一种浅水湖泊垂直剖面观测装置. 专利号:ZL
2015 2 0125752.0
软件著作权:
[37] 邓建明等:浮游植物图谱系统V1.0. 登记号:2019SR0012515
[38] 邓建明等:基于Rmarkdown的数据分析及结果展示软件V1.0.
登记号:2018SR1002952
[39] 邓建明等. 二氧化碳高频监测数据获取软件[简称: GHGdata]V2.0.
登记号:2018SR752224
[40] 邓建明等. 二氧化碳高频监测数据获取软件[简称: GHGdata]V1.0.
登记号:2018SR270596
[41] 邓建明等. 逐时气象数据获取软件[简称:HoWDAS]V1.0.
登记号:2018SR250166
[42] 邓建明,秦伯强. 浮游植物计数及分析软件[PhytoCount V1.0].
登记号:2016SR179665
[43] 秦伯强,邓建明. 深水湖泊水温剖面及结冰和融冰过程模拟软件[DEPROFT
V1.0]. 登记号:2016SR181991
|