[1] Running S, S T Gower. Forest-BGC, a general model of forest ecosystem processes for regional applications (II): dynamic allocation and nitrogen budgets. Tree Physio., 1991, 9(1): 147-160.
[2] Prince S D, S N Goward. Global primary production: a remote sensing approach. Journal of Biogeography, 1995, 22(5): 2829-2849.
[3] Foley J A, I C Prentice, N Ramankutty et al. An integrated biosphere model of land surface processes, terrestrial biosphere model of ecosystem dynamics. Global Biogeochemical Cycles, 1996, 10(4): 603-628.
[4] Dickinson R E et al. Biosphere Atmosphere Transfer Scheme (BATS) Version 1 as coupled to the NCAR Community Climate Model. NCAR Technical Note, NCAR, 1993. 72pp.
[5] Sellers P, et al. A revised land surface parameterization (SiB2) for atmospheric GCMs (Part I): model formulation. Journal Climate, 1996, 9(4): 676-705.
[6] Ji Jinjun, Yu Li. A simulation study of coupled feedback mechanism between physical and biogeochemical processes at the surface. Chinese Journal of Atmospheric Sciences, 1999, 23(4): 439-448.
[季劲钧, 余莉. 地表面物理过程与生物地球化学过程耦合反馈机理的模拟研究. 大气科学, 1999, 23(4): 439-448.]
[7] VEMAP members. VEMAP: a comparison of biogeography and biogeochemistry models in the context of global climate change. Global Biogeochemical Cycle, 1995, 9(3): 407-437.
[8] USCCP. An integrated carbon science program. US Global Change Research Program, 1999.
[9] Tian Hanqin. Dynamics of the terrestrial biosphere in changing global environments: date, models, and validations. Acta Geographica Sinica, 2002, 57(1): 47-56.
[田汉勤. 陆地生物圈动态模式: 生物系统模拟的发展趋势. 地理学报, 2002, 57(4): 379-388.]
[10] Zuo Dakang. Study on Earth Surface Radiation. Beijing: Science Press, 1991.
[左大康. 地球表层辐射研究. 北京: 科学出版社, 1991.]
[11] Li Z, Moreau L, Cihlar J. Estimation of photosynthetically active radiation absorbed at the surface. Journal of Geophysical Research, 1997, 102(D24): 29717-29727.
[12] Monteith J L. Solar radiation and productivity in tropical ecosystems. Journal of Application of Ecology, 1972, 9(4): 747-766.
[13] Knyazikhin Y et al. MODIS leaf area index (LAI) and fraction of photosynthetically active radiation absorbed by vegetation (FPAR) product (MOD15) algorithm theoretical basis document, Version 4, April 30, 1999.
[14] Sun Rui, Zhu Qijiang. Effect of climate change of terrestrial net primary productivity in China. Journal of Remote Sensing, 2001, 5(1): 58-62.
[孙睿, 朱启疆. 气候变化对中国陆地植被净第一性生产力影响的初步研究. 遥感学报, 2001, 5(1): 58-62.]
[15] Lin Zhonghui, Mo Xingguo, Li Hongxuan et al. Comparison of three spatial interpolation methods for climate variables in China. Acta Geographica Sinica, 2002, 57(1): 47-56.
[林忠辉, 莫兴国, 李宏轩 等. 中国陆地区域气象要素的空间插值. 地理学报, 2002, 51(1): 47-56.]
[16] Pinker R T, I Laszlo. Global distribution of photosynthetically active radiation as observed from satellites. Journal of Climate, 1992, 5(1): 56-65.
[17] Carder K et al. Instantaneous photosynthetically available radiation and absorbed radiation by phytoplankton, ATBD-MOD-20, V5, April, 1999.
[18] Darnell W, et al. Seasonal variation of surface radiation budget derived from International Satellite Cloud Climatology Project C1 data. Journal of Geophysical Research, 1992, 77(D14): 15741-15760.
[19] Frouin R et al. Algorithm to estimate PAR from SeaWiFS data, V1.0 - Documentation, 2000.
[20] Gu J, E A Smith. High-resolution estimates of total solar and PAR surface fluxes over large-scale BOREAS study area from GOES measurements. Journal of Geophysical Research, 1997, 102(D24): 29685-29706.
[21] Frouin R, R Pinker. Estimating photosynthetically active radiation (PAR) at the earth's surface from satellite observations. Remote Sensing of Environment, 1995, 51(1): 98-107.
[22] Eck T F, D G Dye. Satellite estimation of incident photosynthetically active radiation using ultraviolet reflectance.Remote Sens. Environ., 1991, 38(2): 135-146.
[23] Dye D G, R Shibasaki. Intercomparison of global PAR data sets. Geophysical Research Letters, 1995, 22(15): 2013-2016.
[24] King M D et al. EOS Science Plan, NASA EOS Program, 1999.
[25] Running S W et al. MODIS PSN (net photosynthesis) and NPP (net primary productivity) products, MOD17 PSN/NPP Algorithm Technical Basis Document, V3.0, April, 1999.
[26] Lackshmi V, J Small, S J Goetz. Comparison of surface meteorological variables from TOVS and AVHRR. Remote Sensing of Environment, 2002, 79(2-3): 176-188.
[27] Iqbal M. An Introduction to Solar Radiation. London, UK: Academic Press, 1983. 390pp.
[28] Kaufman Y J, Gao B C. Remote sensing of water vapor in the near IR from EOS/MODIS. IEEE Transactions on Geoscience and Remote Sensing, 1992, 30(5): 871-884.
[29] Liang S, H Fallah-Adl, S Kalluri et al. Development of an operational atmospheric correction algorithm for TM imagery. Journal of Geophysical Research - Atmosphere, 1997, 102(D24): 17173-17186.
[30] Graham E A, Mulkey S S, Kitajima K et al. Cloud cover limits net CO2 uptake and growth of a rainforest tree during tropical rainy seasons. Proceedings of the National Academy of Sciences, 2003, 100(2): 572-576.
|