Articles citing this paper
Potential CO2-Enhanced Carbon Storage by the Terrestrial Biosphere
PJ Polglase and YP Wang
40(5) pp.641 - 656
51 articles found in Crossref database.
Calibration of the RothC model to turnover of soil carbon under eucalypts and pines
Paul K. I., Polglase P. J.
Soil Research. 2004 42(8). p.883
Simulating the carbon flux between the terrestrial environment and the atmosphere
Goldewijk K. Klein,
Van Minnen J. G.,
Kreileman G. J. J.,
Vloedbeld M., Leemans R.
Water, Air, and Soil Pollution. 1994 76(1-2). p.199
Modeling of annual net primary production of a forest in the Taramakau Valley, Westland, New Zealand
Liu Huan
Journal of Environment and Health Science. 2021
Who is Who in Carbon Balance and Management 2006
Alexandrov Georgii A
Carbon Balance and Management. 2007 2(1).
The potential impact of climate change on Australia's soil organic carbon resources
Grace Peter R,
Post Wilfred M, Hennessy Kevin
Carbon Balance and Management. 2006 1(1).
The Power of Monitoring Stations and a CO2 Fertilization Effect: Evidence from Causal Relationships between NDVI and Carbon Dioxide
Kaufmann R. K.,
Paletta L. F.,
Tian H. Q.,
Myneni R. B., D’Arrigo R. D.
Earth Interactions. 2008 12(9). p.1
Transient climate change and net ecosystem production of the terrestrial biosphere
Xiao X.,
Melillo J. M.,
Kicklighter D. W.,
McGuire A. D.,
Prinn R. G.,
Wang C.,
Stone P. H., Sokolov A.
Global Biogeochemical Cycles. 1998 12(2). p.345
Global atmospheric change effects on terrestrial carbon sequestration: Exploration with a global C- and N-cycle model (CQUESTN)
Gifford Roger M.,
Lutze Jason L., Barrett Damian
Plant and Soil. 1995 187(2). p.369
The Potential Impact of Agricultural Management and Climate Change on Soil Organic Carbon of the North Central Region of the United States
Grace Peter R.,
Colunga-Garcia Manuel,
Gage Stuart H.,
Robertson G. Philip, Safir Gene R.
Ecosystems. 2006 9(5). p.816
Simulation of Salinity Effects on Past, Present, and Future Soil Organic Carbon Stocks
Setia Raj,
Smith Pete,
Marschner Petra,
Gottschalk Pia,
Baldock Jeff,
Verma Vipan,
Setia Deepika, Smith Jo
Environmental Science & Technology. 2012 46(3). p.1624
The CSIRO Mk3L climate system model v1.0 coupled to the CABLE land surface scheme v1.4b: evaluation of the control climatology
Mao J.,
Phipps S. J.,
Pitman A. J.,
Wang Y. P.,
Abramowitz G., Pak B.
Geoscientific Model Development. 2011 4(4). p.1115
simulating carbon dynamics along the Boreal Forest Transect Case Study (BFTCS) in central Canada: 2. Sensitivity to climate change
Peng Changhui, Apps Michael J.
Global Biogeochemical Cycles. 1998 12(2). p.393
Estimates of soil respiration and net primary production of three forests at different succession stages in South China
YAN JUNHUA,
WANG YINGPING,
ZHOU GUOYI, ZHANG DEQIANG
Global Change Biology. 2006 0(0). p.070621084512042
Modified rothamsted carbon model for andosols and its validation: changing humus decomposition rate constant with pyrophosphate-extractable Al
Shirato Yasuhito,
Hakamata Tomoyuki, Taniyama Ichiro
Soil Science and Plant Nutrition. 2004 50(1). p.149
Carbon Dioxide Uptake by an Undisturbed Tropical Rain Forest in Southwest Amazonia, 1992 to 1993
Grace John,
Lloyd Jon,
McIntyre John,
Miranda Antonio C.,
Meir Patrick,
Miranda Heloisa S.,
Nobre Carlos,
Moncrieff John,
Massheder Jon,
Malhi Yadvinder,
Wright Ivan, Gash John
Science. 1995 270(5237). p.778
Steady state turnover time of carbon in the Australian terrestrial biosphere
Barrett Damian J.
Global Biogeochemical Cycles. 2002 16(4).
A search for predictive understanding of plant responses to elevated [CO2]
Luo YiqI.,
Reynolds James,
Wang Yingping, Wolfe David
Global Change Biology. 1999 5(2). p.143
Leaf area index identified as a major source of variability in modeled CO<sub>2</sub> fertilization
Li Qianyu,
Lu Xingjie,
Wang Yingping,
Huang Xin,
Cox Peter M., Luo Yiqi
Biogeosciences. 2018 15(22). p.6909
Carbon balance in the tundra, boreal forest and humid tropical forest during climate change: scaling up from leaf physiology and soil carbon dynamics
WANG Y. P., POLGLASE P. J.
Plant, Cell & Environment. 1995 18(10). p.1226
The CO2 dependence of photosynthesis, plant growth responses to elevated CO2 concentrations and their interaction with soil nutrient status, II. Temperate and boreal forest productivity and the combined effects of increasing CO2 concentrations and increased nitrogen deposition at a global scale
Lloyd J.
Functional Ecology. 1999 13(4). p.439
Carbon Dioxide and Environmental Stress (1999)
Modeling the effects of two different land cover change data sets on the carbon stocks of plants and soils in concert with CO2 and climate change
Jain Atul K., Yang Xiaojuan
Global Biogeochemical Cycles. 2005 19(2).
On the contribution of CO2fertilization to the missing biospheric sink
Friedlingstein P.,
Fung I.,
Holland E.,
John J.,
Brasseur G.,
Erickson D., Schimel D.
Global Biogeochemical Cycles. 1995 9(4). p.541
The carbon balance of tropical, temperate and boreal forests
MALHI Y.,
BALDOCCHI D. D., JARVIS P. G.
Plant, Cell & Environment. 1999 22(6). p.715
Carbon Sequestration in the Biosphere (1995)
An indicative estimate of carbon stocks on Victoria's publicly managed land using the FullCAM carbon accounting model
Norris Jaymie,
Arnold Scott, Fairman Thomas
Australian Forestry. 2010 73(4). p.209
Estimating the size of the inert organic matter pool from total soil organic carbon content for use in the Rothamsted carbon model
Falloon Pete,
Smith Pete,
Coleman Kevin, Marshall Stewart
Soil Biology and Biochemistry. 1998 30(8-9). p.1207
Linking 13C-based estimates of land and ocean
sinks with predictions of carbon storage from CO2
fertilization of plant growth
Randerson James T.,
Thompson Matthew V., Field Christopher B.
Tellus B: Chemical and Physical Meteorology. 1999 51(3). p.668
TROPICAL DEFORESTATION AND THE GLOBAL CARBON BUDGET
Melillo J. M.,
Houghton R. A.,
Kicklighter D. W., McGuire A. D.
Annual Review of Energy and the Environment. 1996 21(1). p.293
Human-Induced Climate Change (2007)
Human-Induced Climate Change (2007)
Evaluation of Soil Organic Matter Models (1996)
Current perspectives on the terrestrial carbon cycle
Lloyd Jon
Tellus B: Chemical and Physical Meteorology. 1999 51(2). p.336
Reconstructing the Seasonality and Trend in Global Leaf Area Index During 2001–2017 for Prognostic Modeling
Wang Miaomiao,
Chen Jing M., Wang Shaoqiang
Journal of Geophysical Research: Biogeosciences. 2020 125(9).
The role of biological activity (roots, earthworms) in medium-term C dynamics in vertisol under a Digitaria decumbens (Gramineae) pasture
Chevallier T,
Blanchart E,
Girardin C,
Mariotti A,
Albrecht A, Feller C
Applied Soil Ecology. 2001 16(1). p.11
Transit times and mean ages for nonautonomous and autonomous compartmental systems
Rasmussen Martin,
Hastings Alan,
Smith Matthew J.,
Agusto Folashade B.,
Chen-Charpentier Benito M.,
Hoffman Forrest M.,
Jiang Jiang,
Todd-Brown Katherine E. O.,
Wang Ying,
Wang Ying-Ping, Luo Yiqi
Journal of Mathematical Biology. 2016 73(6-7). p.1379
Climate dependence of the CO2 fertilization effect on terrestrial net primary production
ALEXANDROV G. A.,
OIKAWA T., YAMAGATA Y.
Tellus B. 2003 55(2). p.669
Sensitivity and acclimation of Glycine max (L.) Merr. leaf gas exchange to CO2 partial pressure
Griffin Kevin L, Luo Yiqi
Environmental and Experimental Botany. 1999 42(2). p.141
Forest Ecosystems, Forest Management and the Global Carbon Cycle (1996)
In search of the missing carbon sink: a model of terrestrial biospheric
response to land-use change and atmospheric
CO2
King Anthony W.,
Emanuel William R.,
Wullschleger Stan D., Post Wilfred M.
Tellus B: Chemical and Physical Meteorology. 1995 47(4). p.501
Past and future carbon balance of European ecosystems from pollen data and climatic models simulations
Peng C.H.,
Guiot J., Van Campo E.
Global and Planetary Change. 1998 18(3-4). p.189
Soil Microbiology (2020)
Climate dependence of the CO2 fertilization effect
on terrestrial net primary production
Alexandrov G. A.,
Oikawa T., Yamagata Y.
Tellus B: Chemical and Physical Meteorology. 2003 55(2). p.669
Prediction of decomposition of litter under eucalypts and pines using the FullCAM model
Paul K.I, Polglase P.J
Forest Ecology and Management. 2004 191(1-3). p.73
Modelling the response of net primary productivity (NPP) of boreal forest ecosystems to changes in climate and fire disturbance regimes
Peng Changhui, Apps Michael J
Ecological Modelling. 1999 122(3). p.175
An analysis of some diverse approaches to modelling terrestrial net primary productivity
Adams B.,
White A., Lenton T.M.
Ecological Modelling. 2004 177(3-4). p.353
Image 2.0 (1994)
Pool dynamics of time-dependent compartmental systems with application to the terrestrial carbon cycle
Chappelle George,
Hastings Alan, Rasmussen Martin
Journal of The Royal Society Interface. 2023 20(200).
Estimates of soil respiration and net primary production of three forests at different succession stages in South China
YAN JUNHUA,
WANG YINGPING,
ZHOU GUOYI, ZHANG DEQIANG
Global Change Biology. 2006 12(5). p.810
The role of mycorrhizas in the response of Pinus taeda seedlings to elevated CO2
LEWIS J. D., STRAIN B. R.
New Phytologist. 1996 133(3). p.431
Historical variations in terrestrial biospheric carbon storage
Post Wilfred M.,
King Anthony W., Wullschleger Stan D.
Global Biogeochemical Cycles. 1997 11(1). p.99
