Numerical models of the terrestrial biosphere

被引:17
|
作者
Foley, JA [1 ]
机构
[1] UNIV WISCONSIN,DEPT ATMOSPHER & OCEAN SCI,MADISON,WI 53706
来源
JOURNAL OF BIOGEOGRAPHY | 1995年 / 22卷 / 4-5期
关键词
terrestrial biosphere models; global vegetation models; biogeochemistry; SVAT models;
D O I
10.2307/2845984
中图分类号
Q14 [生态学(生物生态学)];
学科分类号
071012 ; 0713 ;
摘要
Many efforts have been made to develop numerical models of biospheric processes in recent years. Generally speaking, three classes of global terrestrial biosphere models have emerged: (1) soil-vegetation-atmosphere transfer (SVAT) models, (2) terrestrial biogeochemistry models (TBMs), and (3) potential vegetation models (PVMs). In this manuscript, I summarize the main characteristics of these models and discuss the need for a more fully integrated biosphere model, which would combine aspects of (1), (2) and (3) in a single modelling framework.
引用
收藏
页码:837 / 842
页数:6
相关论文
共 50 条
  • [41] Response of Water Use Efficiency to Global Environmental Change Based on Output From Terrestrial Biosphere Models
    Zhou, Sha
    Yu, Bofu
    Schwalm, Christopher R.
    Ciais, Philippe
    Zhang, Yao
    Fisher, Joshua B.
    Michalak, Anna M.
    Wang, Weile
    Poulter, Benjamin
    Huntzinger, Deborah N.
    Niu, Shuli
    Mao, Jiafu
    Jain, Atul
    Ricciuto, Daniel M.
    Shi, Xiaoying
    Ito, Akihiko
    Wei, Yaxing
    Huang, Yuefei
    Wang, Guangqian
    GLOBAL BIOGEOCHEMICAL CYCLES, 2017, 31 (11) : 1639 - 1655
  • [42] USING ECOSYSTEM MODELS TO PREDICT REGIONAL CO2 EXCHANGE BETWEEN THE ATMOSPHERE AND THE TERRESTRIAL BIOSPHERE
    King, Anthony
    O'Neill, Robert
    DeAngelis, Donald
    GLOBAL BIOGEOCHEMICAL CYCLES, 1989, 3 (04) : 337 - 361
  • [43] Modeling primary productivity of the terrestrial biosphere in changing environments: Toward a dynamic biosphere model
    Tian, H
    Hall, CAS
    Qi, Y
    CRITICAL REVIEWS IN PLANT SCIENCES, 1998, 17 (05) : 541 - 557
  • [44] Estimating the oxidative ratio of the global terrestrial biosphere carbon
    Worrall, Fred
    Clay, Gareth D.
    Masiello, Caroline A.
    Mynheer, Gabriel
    BIOGEOCHEMISTRY, 2013, 115 (1-3) : 23 - 32
  • [45] STRUCTURE OF A GLOBAL AND SEASONAL CARBON EXCHANGE MODEL FOR THE TERRESTRIAL BIOSPHERE - THE FRANKFURT BIOSPHERE MODEL (FBM)
    KINDERMANN, J
    LUDEKE, MKB
    BADECK, FW
    OTTO, RD
    KLAUDIUS, A
    HAGER, C
    WURTH, G
    LANG, T
    DONGES, S
    HABERMEHL, S
    KOHLMAIER, GH
    WATER AIR AND SOIL POLLUTION, 1993, 70 (1-4): : 675 - 684
  • [46] Potential future changes in water limitations of the terrestrial biosphere
    Gerten, Dieter
    Schaphoff, Sibyll
    Lucht, Wolfgang
    CLIMATIC CHANGE, 2007, 80 (3-4) : 277 - 299
  • [47] Global linkages between teleconnection patterns and the terrestrial biosphere
    Dahlin, Kyla M.
    Ault, Toby R.
    INTERNATIONAL JOURNAL OF APPLIED EARTH OBSERVATION AND GEOINFORMATION, 2018, 69 : 56 - 63
  • [48] Regionally strong feedbacks between the atmosphere and terrestrial biosphere
    Green, Julia K.
    Konings, Alexandra G.
    Alemohammad, Seyed Hamed
    Berry, Joseph
    Entekhabi, Dara
    Kolassa, Jana
    Lee, Jung-Eun
    Gentine, Pierre
    NATURE GEOSCIENCE, 2017, 10 (06) : 410 - +
  • [49] Response of the ancient anoxic biosphere to the oxidation of terrestrial environments
    Melezhik, Victor A.
    Fallick, Anthony E.
    Simonson, Bruce M.
    GEOCHIMICA ET COSMOCHIMICA ACTA, 2009, 73 (13) : A869 - A869
  • [50] The role of the terrestrial biosphere in Holocene carbon cycle dynamics
    Beerling, DJ
    GLOBAL ECOLOGY AND BIOGEOGRAPHY, 2000, 9 (05): : 421 - 429
12345