基本介紹
- 中文名:查天山
- 學位/學歷:博士
- 職業:教師
- 專業方向:林學
- 任職院校:北京林業大學
人物經歷,研究方向,學術成果,
人物經歷
2010年4月回國前曾任薩斯卡徹溫大學土壤科學系、加拿大環境署氣候變化研究所研究科學家,先後在芬蘭、加拿大從事北方生態系統的生態過程研究十餘年。1999年至芬蘭約恩蘇大學林學院,於2003年獲森林生態與管理學科博士學位,之後繼續在該大學做博士後研究工作,於2005年出站。2005年至2010年在加拿大環境署科技部做研究工作,任研究科學家職務。
研究方向
退化植物生態系統恢復過程與機理、生態系統炭平衡與應對氣候變化、生態系統碳水循環與模擬、城市綠地生態系統碳與水循環過程
學術成果
主要研究了北方針葉林生態系統關鍵生態系統過程及其對環境因素的反映,特別是定量分析了關鍵生態系統的炭、水和能量平衡以及它們的晝夜、季節和年度變化與其對極端氣候、採伐、森林火的回響,研究結果對於進行有效的碳管理和森林管理措施的制定提供了重要的科學依據。在國際著名期刊《GlobalChangeBiology》、《NewPhytologist》、《AgriculturalandForestMeteorology》、《AnnalsofBotany》、《TreePhysiology》等上發表論文20餘篇,累計影響因子72。學術成就在該領域具有重要影響。
1. Tianshan Zha, Alan G Barr, Garth V D Kamp, T Andy Black, J Harry McCaughey, Lawrence B
Flanagan. 2010. Interannual variation of evapotranspiration from forest and grassland
ecosystems in western Canada in relation to drought. Agricultural and Forest Meteorology,
150, 1476–1484(影響因子:3.668)
2. Mkhabela, M.S., Amiro, B.D., Barr, A.G., Black, T.A., Hawthorne, I., Kidston, J., McCaughey,
J.H., Orchansky, A.L., Nesic, Z., Sass, A., Shashkov, A., Zha, T.S. 2009. Comparison of carbon
dynamics and water use efficiency following fire and harvesting in Canadian boreal forests.
Agricultural and Forest Meteorology 149: 782-794. (影響因子:3.668)
3. Tianshan Zha, Alan G Barr, T Andy Black, J Harry McCaughey, J Bhatti, I Hawthorne,
Praveena Krishnan, J Kidston, N Saigusa, A Shashkov, Z Nesic. 2009. Carbon Sequestration in
Boreal Jack Pine Stands Following Harvesting. Global Change Biology, 15, 1475-1487. (影響因子:5.876)
4. Xing Z, Bourque C.P.A, Meng F.R, Cox R.M., Swift D.E, Zha T.S. and Chow L. 2008. A process-
based model designed for filling of large datagaps in tower-based measurements of net
ecosystem productivity. Ecological Modelling,213,165–179. (影響因子:2.176)
5. Laura E. Chasmer, Harry McCaughey, Alan Barr, Andrew Black, Alexander Ahashkov, Aaul
Treitz, Tianshan Zha. 2008. Light Use Efficiency (LUE) Across a Jack Pine Chronosequence
during Dry and Wet Years. Tree Physiology, 28, 1395-1406. (影響因子:2.283)
6. Z Xing, Charles P.-A. Bourquea,Fan-Rui Menga,Roger M.Coxc, D. Edwin Swiftc, and, Tianshan
Zha Lien Chowe. 2008. Modification of an ecosystem model for filling medium-sized gaps in
tower-based estimates of net ecosystem productivity. Ecological Modeling, 2 1 3, 86–97. (影響因子:2.283)
7. Zha, T.S., Niinist?, S, Xing, Z., Wang, K.-Y, Kellomaki, S., Barr, A.G. 2007. Total and
component carbon fluxes of a Scots pine ecosystem from chamber measurements and eddy
covariance. Annals of Botany 99: 345-353. (影響因子:2.939)
8. Z.S. Xing, C.P.A. Bourquea, F Meng, TS Zha, R.M. Cox, D.E. Swift. 2007. Edwin Swiftc A
simple net ecosystem productivity model for gap filling of tower-based fluxes: An extension of
Landsberg’s equation with modifications to the light interception term. Ecological Modelling,
206, 250-262. (影響因子:2.176)
9. Grant, R.F., Barr A.G., Black, T.A., Iwashita, H., Kidston, J., McCaughey, J.H., Morgenstern, K.,
Murayama, S., Nesic, Z., Saigusa, N., Shashkov, A., and Zha, T.S. 2007. Net ecosystem
productivity of boreal jack pine stands regenerating from clearcutting under current and future
climates. Global Change Biology 13:1-18. (影響因子:5.876)
10.Zha, T.S., Kellom?ki, S., Wang, K.Y. and Ryypp?, A. 2005. Respiratory responses of Scots
pine stems to five years of exposure to elevated CO2 concentration and temperature. Tree
Physiology 25: 49-56. (影響因子:2.283)
11.Wang, K.-Y., Kellom?ki, S., Zha, T.S., Peltola, H. 2005. Annual and seasonal variation of sap
flow and conductance of pine trees grown in elevated carbon dioxide and temperature.
Journal of Experimental Botany 56:155-165. (影響因子:4.001)
12.Zha, T.S., Kellom?ki S., Wang, K.-Y. and Rouvinen, I.. 2004. Carbon sequestration and
ecosystem respiration over 4 years in a Scots pine forest. Global Change Biology 10:1492-
1503. (影響因子:5.876)
13.Zha, T.S., Kellom?ki, S., Wang, K.Y. and Ryypp?, A. 2004. Seasonal and annual stem
respiration of Scots pine trees under boreal conditions. Annals of Botany 94: 889-896. (影響因子:2.939)你
14.Wang, K.-Y., Kellom?ki, S and Zha, T.S. and Peltola, H. 2004. Component carbon fluxes and
their contribution to ecosystem carbon exchange in pine forest: an assessment based on
eddy covariance measurement and an integrated model. Tree Physiology 24: 19-34. (影響因子:2.283)
15.Wang, K.-Y., Kellom?ki, S and Zha, T.S. and Peltola, H. 2004. Seasonal variation in energy
and water fluxes in a pine forest: an analysis based on eddy covariance and an integrated
model. Ecological Modelling 179: 259-279. (影響因子:2.176)
16.Zha, T.S., Kellom?ki, S and Wang, K.Y. 2003. Seasonal variations in respiration of 1-year-
old shoots of Scots pines exposed to elevated carbon dioxide and temperature for 4 years.
Annals of Botany 92: 89-96. (影響因子:2.939)
17.Wang, K.-Y., Kellom?ki, S., LI C.Y. and Zha, T.S. 2003. Light and water-use efficiencies of
Pine shoots exposed to elevated carbon dioxide and temperature. Annals of Botany 92:53-64.
(影響因子:2.939)
18.Wang, K.-Y., Kellom?ki, S and Zha, T.S. 2003. Modification in photosynthetic pigments and
chlorophyll fluorescence in 20-year-old pine trees after a five-year exposure to carbon dioxide
and temperature elevation. Photosynthetica 41: 167-175.
19.Zha, T.S., Wang, K.Y., Ryypp?, A., and Kellom?ki, S. 2002. Impact of needle age on the
response of respiration in Scots pine to long-term elevation of carbon dioxide concentration
and temperature. Tree Physiology 22: 1241-1248. (影響因子:2.283)
20.Zha, T.S., Wang, K.Y., Ryypp?, A., and Kellom?ki, S. 2002. Needle dark respiration in
relation to within-crown position in Scots pine trees grown in long-term elevation of CO2
concentration and temperature. New Phytologist 156: 33-42. (影響因子:5.249)
21.Wang, K.Y., Zha, T.S. and Kellom?ki, S. 2002. Measuring and simulating crown respiration of
Scots pine with increased temperature and carbon dioxide enrichment. Annals of Botany 90:
325-335. (影響因子:2.939)
22.Zha, T.S., Ryypp?, A., Wang,K.Y. and Kellom?ki, S. 2001. Effects of elevated carbon dioxide
concentration and temperature on needle growth, respiration and carbohydrate status in field-
grown Scots pines during the needle expansion period. Tree Physiology 21:1279-1287. (影響因子:2.283)
