Simulation of canopy radiation transfer and surface albedo in the EALCO model (original) (raw)
Bartelink HH (1998) Radiation interception by forest trees: a simulation study on effects of stand density and foliage clustering on absorption and transmission. Ecol Model 105:213–225 Article Google Scholar
Betts AK, Ball JH (1997) Albedo over the boreal forest. J Geophys Res 102(D24):28901–28910 Article Google Scholar
Betts RA (2000) Offset of the potential carbon sink from boreal forestation by decreases in surface albedo. Nature 408:187–190 Article Google Scholar
Blanken PD, Black TA, Yang PC, Neumann HH, Nesic Z, Staebler R, den Hartog G, Novak MD, Lee X (1997) Energy balance and canopy conductance of a boreal aspen forest: partitioning overstory and understory components. J Geophys Res 102:28915–28927 Article Google Scholar
Bonan GB, Levis S, Sitch S, Vertenstein M, Oleson KW (2003) A dynamic global vegetation model for use with climate models: Concepts and description of simulated vegetation dynamics. Global Change Biology 9:1543–1566 Article Google Scholar
Bonan GB, Oleson KW, Vertenstein M, Levis S, Zeng X, Dai Y, Dickinson RE, Yang ZL (2002) The land surface climatology of the Community Land Model coupled to the NCAR Community Climate Model. J Climate 15:3123–3149 Article Google Scholar
Bounoua L, Defries R, Collatz GJ, Sellers P, Khan H (2002) Effects of land cover conversion on surface climate. Climatic Change 52:29–64 Article Google Scholar
Carter GA (1993) Responses of Leaf Spectral Reflectance to Plant Stress. Amer J Bot 80:239–243 Article Google Scholar
Chase TN, Pielke RA, Kittel TGF, Zhao M, Pitman AJ, Running SW, Nemani RR (2001) Relative climatic effects of land cover change and elevated carbon dioxide combined with aerosols: a comparison of model results and observations. J Geophys Res 106:31685–31691 Article Google Scholar
Collins WD, Rasch PJ, Boville BA, Hack JJ, McCaa JR, Williamson DL, Kiehl JT, Briegleb B, Bitz C, Lin SJ, Zhang M, Dai Y (2004) Description of the NCAR Community Atmosphere Model (CAM 3.0). NCAR Tech. Note NCAR/TN-464 + STR, 226 pp
Davidson A, Wang S (2004) The effects of sampling resolution on the albedos of dominant land cover types in the North American boreal region. Remote Sens Environ 93:211–224 Article Google Scholar
Davidson A, Wang S (2005) Spatio-temporal variations in land surface albedo across Canada from MODIS observations. Can J Remote Sens 31:377–390 Google Scholar
Dickinson RE (1983) Land surface processes and climate-surface albedos and energy balance. Adv Geophys 25:305–353 Google Scholar
Eugster W, Rouse WR, Pielke RA et al (2000) Land-atmosphere energy exchange in Arctic tundra and boreal forest: available data and feedbacks to climate. Glob Change Biol 6(Suppl 1):84–115 Article Google Scholar
Gower ST (2000) Measurement and scaling of carbon budgets for contrasting Boreal Forest Sites. In: Newcomer, J et al (eds) Collected data of the Boreal ecosystem-atmosphere study. CD-ROM, NASA
Hardy JP, Davis RE, Jordan R, Ni W, Woodcock C (1998) Snow ablation modeling in a mature aspen stand of the boreal forest. Hydrol Process 12:1763–1778 Article Google Scholar
Hardy JP, Melloh R, Robinson P, Jordan R (2000) Incorporating effects of forest litter in a snow process model. In 57th Wastern Snow Conference, Syracuse, New York, USA
Hedstrom NR, Pomeroy JW (1998) Measurements and modeling of snow interception in the boreal forest. Hydrol Process 12:1611–1625 Article Google Scholar
Kharouk S, Rock BN (2000) The Tree’s Bark input in tree–atmosphere interactions. In: Newcomer, J et al (eds) Collected data of the Boreal ecosystem-atmosphere study. CD-ROM, NASA
Knorr W, Schnitzler KG, Govaerts Y (2001) The role of bright desert regions in shaping North African climate. Geophys Res Lett 28:3489–3492 Article Google Scholar
Li X, Strahler AH., Woodcock CE (1995) A hybrid geometric optical-radiative transfer approach for modeling albedo and directional reflectance of discontinuous canopies. IEEE Trans Geosci Remote Sens 33:466–480 Article Google Scholar
Lundberg A, Halldin S (2001) Snow interception evaporation. Review of measurement techniques, processes, and models. Theor Appl Climat 70:117–133 Article Google Scholar
Melloh RA, Hardy JP, Davis RE, Robinson PB (2001) Spectral albedo/reflectance of littered forest snow during the melt season. Hydrol Proc 15:3409–3422 Article Google Scholar
Milly PCD, Shmakin AB (2002) Global modeling of land water and energy balances. Part I The land dynamics (LaD) model. J Hydrometeorol 3:283–299 Article Google Scholar
Minnis P, Mayor S, Smith Jr WL, Young DF (1997) Asymmetry in the diurnal variation of surface albedo. IEEE Trans Geosci Remote Sens 35:879–891 Article Google Scholar
Newcomer J, Landis D, Conrad S et al (eds) (2000) Collected data of the Boreal ecosystem-atmosphere study. CD-ROM, NASA
Ni W, Woodcock CE (2000) Effect of canopy structure and the presence of snow on the albedo of boreal conifer forests. J Geophys Res 105 D9:11879–11888 Google Scholar
Nilson T (1992) Radiative transfer in nonhomogeneous plant canopies. Advances in bioclimatology, vol 1. Springer, Hiedelberg, pp 59–88
Nilson T (1999) Inversion of gap frequency data in forest stands. Agric For Meteorol 98–99:437–448 Article Google Scholar
Niu GY, Yang ZL (2004) Effects of vegetation canopy processes on snow surface energy and mass balances. J Geophys Res 109:D23111. doi:10.1029/2004JD004884 Google Scholar
Pinty B., Lavergne T, Dickinson RE, Widlowski J-L, Gobron N, Verstraete MM (2006) Simplifying the interaction of land surfaces with radiation for relating remote sensing products to climate models. J Geophys Res 111:D02116. doi:10.1029/2005JD005952 Google Scholar
Rich PM (1999) BOREAS TE-23 Canopy Architecture and Spectral Data from Hemispherical Photos. Data set. Available on-line http://www.daac.ornl.gov from Oak Ridge National Laboratory Distributed Active Archive Center, Oak Ridge, TN, USA
Rich PM (2000) Canopy architecture of Boreal forests: using hemispherical photography for study of radiative transport and Leaf Area Index. In: Newcomer, J et al (eds) Collected data of the Boreal ecosystem-atmosphere study. CD-ROM, NASA
Roesch A, Wild M, Gilgen H, Ohmura A (2001) A new snow cover fraction parameterization for the ECHAM4 GCM. Clim Dynam 17:933–946 Article Google Scholar
Roesch A, Wild M, Pinker R, Ohmura A (2002) Comparison of spectral surface albedos and their impact on the general circulation model simulated surface climate. J Geophys Res 107 (D14):4221. doi:10.1029/2001JD000809 Google Scholar
Roesch A, Schaaf C, Gao F (2004) Use of moderate-resolution imaging spectroradiometer bidirectional reflectance distribution function products to enhance simulated surface albedos. J Geophys Res 109: D12105. doi:10.1029/2004JD004552
Schmidt RA, Gluns DR (1991) Snowfall interception on branches of three conifer species. Can J For Res 21:1262–1269 Article Google Scholar
Sellers PJ (1985) Canopy reflectance, photosynthesis and transpiration. Int J Remote Sens 6:1335–1372 Article Google Scholar
Sellers PJ, Hall FG, Kelly RD, Black A, Baldocchi D, Berry J et al (1997) BOREAS in 1997: experiment overview, scientific results, and future directions. J Geophys Res 102 D24:28731–28769
Shewchuk SR (1997) Surface mesonet for BOREAS. J Geophys Res 102 D24:29077–29082 Google Scholar
Shewchuk SR (2000) Atmospheric sciences infrastructure core measurements for BOREAS (AFM-07). In: Newcomer, et al (eds) Collected data of the Boreal ecosystem-atmosphere study. CD-ROM, NASA
Shugart HH, Nielsen E (2000) Multidisciplinary integrative models of forest ecosystem dynamics for the Boreal Forest Biome. In: Newcomer, J et al. (eds) Collected data of the Boreal ecosystem-atmosphere study. CD-ROM, NASA
Smolander S, Stenberg P (2005) Simple parameterizations of the radiation budget of uniform broadleaved and coniferous canopies. Remote Sens Environ 94:355–363. doi:10.1016/j.rse.2004.10.010 Google Scholar
Thomas G, Rowntree P (1992) The boreal forests and climate. Q J R Meteorol Soc 118:469–497 Article Google Scholar
Walter MT, Brooks ES, McCool DK, King LG, Molnau M, Boll J (2005) Process-based snowmelt modeling: does it require more input data than temperature-index modeling? J Hydrol 300:65–75 Article Google Scholar
Walter-Shea EA, (2000) Radiation and gas exchange of canopy elements in a Boreal forest. In: Newcomer, J et al (eds) Collected data of the Boreal ecosystem-atmosphere study. CD-ROM, NASA
Wang S, Grant RF, Verseghy DL, Black TA (2001) modeling plant carbon and nitrogen dynamics of a boreal aspen forest in CLASS—the Canadian Land Surface Scheme. Ecol Model 142:135–154 Article Google Scholar
Wang S, Grant RF, Verseghy DL, Black TA (2002a) modeling carbon-coupled energy and water dynamics of a boreal aspen forest in a General Circulation Model land surface scheme. Int J Climatol 22:1249–1265 Article Google Scholar
Wang S, Grant RF, Verseghy DL, Black TA (2002b) modeling carbon dynamics of boreal forest ecosystems using the Canadian Land Surface Scheme. Clim Change 55:451–477 Article Google Scholar
Wang S, Chen W, Cihlar J (2002c) New calculation methods of diurnal distribution of solar radiation and its interception by canopy over complex terrain. Ecol Model 155:191–204 Article Google Scholar
Wang S (2005) Dynamics of land surface albedo for a boreal forest and its simulation. Ecol Model 183:477–494. doi:10.1016/j.ecolmodel.2004.10.001 Google Scholar
Wang S, Davidson A (2007) Impact of climate variations on surface albedo of a temperate grassland. Agric For Meteorol (in press)
Wang S, Trishchenko A, Khlopenkov K, Davidson A (2006) Comparison of International Panel on Climate Change Fourth Assessment Report climate model simulations of surface albedo with satellite products over Northern Latitudes. J Geophys Res 111: D21108. doi:10.1029/2005JD006728
Yamazaki T, Fukabori K, Kondo J (1996) Albedo of forest with crown snow. J Jpn Soc Snow Ice 58:11–18 Google Scholar
Yang R, Friedl MA, Ni W (2001) Parameterization of shortwave radiation fluxes for nonuniform vegetation canopies in land surface models. J Geophys Res 106:14275–14286 Article Google Scholar
Zhou L, Dickinson RE, Tian Y, et al. (2003) Comparison of seasonal and spatial variations of albedos from Moderate-Resolution Imaging Spectroradiometer (MODIS) and Common Land Model. J Geophys Res 108:4488 Article Google Scholar