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P. Steudler, R. Bowden, J. Melillo, J. Aber (1989)
Influence of nitrogen fertilization on methane uptake in temperate forest soilsNature, 341
G. Esser (1987)
Sensitivity of global carbon pools and fluxes to human and potential climatic impactsTellus B, 39
D. Schimel, M. Stillwell, R. Woodmansee (1985)
Biogeochemistry of C, N, and P in a Soil Catena of the Shortgrass SteppeEcology, 66
(1980)
Carbon and nutrient budgets and their control in coastal tundra, inAn Arctic Ecosystem: The Coastal Tundra at Barrow, Alaska
A. Giblin, K. Nadelhoffer, G. Shaver, J. Laundre, A. McKerrow (1991)
Biogeochemical Diversity Along a Riverside Toposequence in Arctic AlaskaEcological Monographs, 61
J. Raich, K. Nadelhoffer (1989)
Belowground Carbon Allocation in Forest Ecosystems: Global TrendsEcology, 70
F. Chapin (1991)
3 – Effects of Multiple Environmental Stresses on Nutrient Availability and Use
J. Dodd, W. Lauenroth (1979)
Analysis of the Response of a Grassland Ecosystem to Stress
J. Ovington, Dale Haitkamp, D. Lawrence (1963)
Plant Biomass and Productivity of Prairie, Savanna, Oakwood, and Maize Field Ecosystems in Central MinnesotaEcology, 44
W. Webb, W. Lauenroth, S. Szarek, R. Kinerson (1983)
PRIMARY PRODUCTION AND ABIOTIC CONTROLS IN FORESTS, GRASSLANDS, AND DESERT ECOSYSTEMS IN THE UNITED STATES'Ecology, 64
A. Auclair, A. Rencz (1982)
Concentration, mass, and distribution of nutrients in a subarctic Piceamariana – Cladoniaalpestris ecosystemCanadian Journal of Forest Research, 12
Mitchell Mitchell, Chandler Chandler (1939)
The nitrogen nutrition and growth of certain deciduous trees of northeastern United StatesBlack Rock For. Bull., 11
Jonasson Jonasson, Chapin Chapin (1985)
Significance of sequential leaf development for nutrient balance of the cotton sedge, Eriophorum vaginatum L.Oecologia, 67
F. Clark (1977)
Internal Cycling of Nitrogen in Shortgrass PrairieEcology, 58
D. Harris, A. Kuchler (1965)
Potential Natural Vegetation of the Conterminous United StatesThe Geographical Journal, 131
Burke Burke, Schimel Schimel, Parton Parton, Yonker Yonker, Joyce Joyce, Lauenroth Lauenroth (1990)
Regional modeling of grassland biogeochemistry using GISLandscape Ecol., 4
G. Shaver, F. Chapin (1986)
Effect of Fertilizer on Production and Biomass of Tussock Tundra, Alaska, U.S.A.Arctic and alpine research, 18
F. Chapin, Lori Moilanen (1991)
Nutritional Controls Over Nitrogen and Phosphorus Resorption From Alaskan Birch LeavesEcology, 72
F., Stuart Chapin, P. Vitousek, K. Cleve (1986)
The Nature of Nutrient Limitation in Plant CommunitiesThe American Naturalist, 127
R. Ellis (1979)
Response of crop trees of sugar maple, white ash, and black cherry to release and fertilizationCanadian Journal of Forest Research, 9
H. Mitchell, R. Chandler (1939)
The nitrogen nutrition and growth of certain deciduous trees of Northeastern United States, with a discussion of the principles and practice of leaf analysis as applied to forest trees.
K. Cleve, Lola Oliver, R. Schlentner, L. Viereck, C. Dyrness (1983)
Productivity and nutrient cycling in taiga forest ecosystemsCanadian Journal of Forest Research, 13
C. Vörösmarty, B. Moore, A. Grace, M. Gildea, J. Melillo, B. Peterson, E. Rastetter, P. Steudler (1989)
Continental scale models of water balance and fluvial transport: An application to South AmericaGlobal Biogeochemical Cycles, 3
C. Mcclaugherty, J. Aber, J. Melillo (1982)
The Role of Fine Roots in the Organic Matter and Nitrogen Budgets of Two Forested EcosystemsEcology, 63
M. Ryan (1991)
Effects of Climate Change on Plant Respiration.Ecological applications : a publication of the Ecological Society of America, 1 2
A. King, R. O'Neill, D. DeAngelis (1989)
Using ecosystem models to predict regional CO2 exchange between the atmosphere and the terrestrial biosphereGlobal Biogeochemical Cycles, 3
Lieth Lieth (1973)
Primary production: Terrestrial ecosystemsHuman Ecol., 1
R. Houghton, J. Hobbie, J. Melillo, B. Moore, B. Peterson, G. Shaver, G. Woodwell (1983)
Changes in the Carbon Content of Terrestrial Biota and Soils between 1860 and 1980: A Net Release of CO"2 to the AtmosphereEcological Monographs, 53
J. Pastor, W. Post (1986)
Influence of climate, soil moisture, and succession on forest carbon and nitrogen cyclesBiogeochemistry, 2
I. Galbally (1989)
Factors controlling NOx emissions from soils
M. Weber, K. Cleve (1984)
Nitrogen transformations in feather moss and forest floor layers of interior Alaska black spruce ecosystemsCanadian Journal of Forest Research, 14
F. Chapin (1980)
The Mineral Nutrition of Wild PlantsAnnual Review of Ecology, Evolution, and Systematics, 11
L. Safford, S. Filip (1974)
Biomass and Nutrient Content of 4-year-old Fertilized and Unfertilized Northern Hardwood StandsCanadian Journal of Forest Research, 4
D. Grigal, E. Chamberlain, H. Finney (1974)
The soils of Cedar Creek Natural History Area
M. Ryan (1991)
A simple method for estimating gross carbon budgets for vegetation in forest ecosystems.Tree physiology, 9 1_2
P. Vitousek, R. Howarth (1991)
Nitrogen limitation on land and in the sea: How can it occur?Biogeochemistry, 13
J. Pastor, W. Post (1988)
Response of northern forests to CO2-induced climate changeNature, 334
C. Grier, Robert Logan (1977)
Old‐Growth Pseudotsuga menziesii Communities of a Western Oregon Watershed: Biomass Distribution and Production BudgetsEcological Monographs, 47
J. Raich, E. Rastetter, J. Melillo, D. Kicklighter, P. Steudler, B. Peterson, A. Grace, B. Moore, C. Vörösmarty (1991)
Potential Net Primary Productivity in South America: Application of a Global Model.Ecological applications : a publication of the Ecological Society of America, 1 4
W. Oechel, K. Cleve (1986)
The Role of Bryophytes in Nutrient Cycling in the Taiga
G. Shaver, F. Chapin (1980)
Response to fertilization by various plant growth forms in an Alaskan tundra: nutrient accumulation and growthEcology, 61
D. Schimel, W. Parton, T. Kittel, D. Ojima, C. Cole (1990)
Grassland biogeochemistry: Links to atmospheric processesClimatic Change, 17
P. Sims, J. Singh (1978)
The structure and function of ten Western North American grasslands: III. Net primary production, turnover and efficiencies of energy capture and water useJournal of Ecology, 66
R. Fox (1976)
Soils of the West African Savanna—The Maintenance and Improvement of their Fertility
D. Gillette, E. Box (1986)
Modeling seasonal changes of atmospheric carbon dioxide and carbon 13Journal of Geophysical Research, 91
G. Woodwell, R. Whittaker (1968)
Primary Production in Terrestrial EcosystemsIntegrative and Comparative Biology, 8
W. Emanuel, G. Killough (1984)
Modeling terrestrial ecosystems in the global carbon cycle with shifts in carbon storage capacity by land-use changeEcology, 65
Caldwell Caldwell, White White, Moore Moore, Camp Camp (1977)
Carbon balance, productivity, and water use of cold‐winter desert shrub communities dominated by C 3 and C 4 speciesOecologia, 29
P. Sollins, C. Grier, F. McCorison, K. Cromack, R. Fogel, R. Fredriksen (1980)
The Internal Element Cycles of an Old‐Growth Douglas‐Fir Ecosystem in Western OregonEcological Monographs, 50
J. Cayford (1974)
Forest Regions of CanadaForestry Chronicle, 50
Joycelynn Mitchell, S. Manabe, V. Meleshko, T. Tokioka (1990)
Equilib-rium climate change ? and its implications for the future
Lajtha Lajtha, Whitford Whitford (1989)
The effect of water and nitrogen amendments on photosynthesis, leaf demography, and resource‐use efficiency in Larrea tridentata , a desert evergreen shrubOecologia, 80
G. Shaver, F. Chapin (1991)
Production: Biomass Relationships and Element Cycling in Contrasting Arctic Vegetation TypesEcological Monographs, 61
F. Chapin (1991)
Integrated Responses of Plants to StressBioScience, 41
J. Crowley (1964)
Küchler, A.Q. Potential Natural Vegetation of the Conterminous United States. American Geographical Society Special Pub. No. 36. New York, American Geographical Society, 1964. Carte accompagnée d’un manuel : illustrations, bibliographie., 9
Woodmansee Woodmansee, Dodd Dodd, Bowman Bowman, Clark Clark, Dickinson Dickinson (1978)
Nitrogen budget of a shortgrass prairie ecosystemOecologia, 34
P. Sánchez, D. Bandy, J. Villachica, J. Nicholaides (1982)
Amazon Basin Soils: Management for Continuous Crop ProductionScience, 216
J. Aber, J. Melillo, C. Federer (1982)
Predicting the Effects of Rotation Length, Harvest Intensity, and Fertilization on Fiber Yield From Northern Hardwood Forests in New EnglandForest Science, 28
(1973)
Carbon dioxide exchange between the atmosphere and terrestrial ecosystems, in Atrnosoeheric Carbon Dioxide and the Global Carbon Cycle
E. Rastetter, M. Ryan, G. Shaver, J. Melillo, K. Nadelhoffer, J. Hobbie, J. Aber (1991)
A general biogeochemical model describing the responses of the C and N cycles in terrestrial ecosystems to changes in CO(2), climate, and N deposition.Tree physiology, 9 1_2
A. Mosier, D. Schimel, D. Valentine, K. Bronson, W. Parton (1991)
Methane and nitrous oxide fluxes in native, fertilized and cultivated grasslandsNature, 350
R. Bjerregaard (1971)
The Nitrogen Budget of Two Salt Desert Shrub Plant Communities of Western Utah
THE INTERNAL OF
U. Bokhari, J. Singh (1975)
Standing State and Cycling of Nitrogen in Soil-vegetation Components of Prairie EcosystemsAnnals of Botany, 39
K. Saxton, W. Rawls, J. Romberger, R. Papendick (1986)
Estimating generalized soil-water characteristics from textureSoil Science Society of America Journal, 50
D. Clarkson (1985)
Factors Affecting Mineral Nutrient Acquisition by PlantsAnnual Review of Plant Biology, 36
K. Lajtha (1987)
Nutrient reabsorption efficiency and the response to phosphorus fertilization in the desert shrubLarrea tridentata (DC.) Cov.Biogeochemistry, 4
L. Ratliff, J. Ritchie, D. Cassel (1983)
Field‐Measured Limits of Soil Water Availability as Related to Laboratory‐Measured PropertiesSoil Science Society of America Journal, 47
K. Cleve, J. Zasada (1976)
Response of 70-year-old white spruce to thinning and fertilization in interior AlaskaCanadian Journal of Forest Research, 6
R. Conrad, M. Andreae, D. Schimel (1989)
Control of methane production in terrestrial ecosystems.
G. Bonan, H. Shugart, D. Urban (1990)
The sensitivity of some high-latitude boreal forests to climatic parametersClimatic Change, 16
P. Matson, P. Vitousek, D. Schimel, M. Andreae (1989)
Regional extrapolation of trace gas flux based on soils and ecosystems
W. Parton, D. Schimel, C. Cole, D. Ojima (1987)
Analysis of factors controlling soil organic matter levels in Great Plains grasslandsSoil Science Society of America Journal, 51
Clarkson Clarkson (1985)
Factors affecting mineral nutrient acquisition by plantsAnnu. Rev. Plant Physiol., 36
O. Lange, P. Nobel, C. Osmond, H. Ziegler (1981)
Physiological Plant Ecology I
G. Shaver, K. Nadelhoffer, A. Giblin (1991)
Biogeochemical diversity and element transport in a heterogeneous landscape, the north slope of AlaskaEcological studies, 82
F. Chapin, R. Kedrowski (1983)
Seasonal Changes in Nitrogen and Phosphorus Fractions and Autumn Retranslocation in Evergreen and Deciduous Taiga TreesEcology, 64
S. Conant, P. Risser (1974)
Canopy structure of a tall-grass prairieJournal of Range Management, 27
(1985)
Organic matter and nutrient dynamics in a broadleafed African savanna, in Ecology and Managernent of the World's Savannas
I. Fung, C. Tucker, K. Prentice (1987)
Application of Advanced Very High Resolution Radiometer vegetation index to study atmosphere‐biosphere exchange of CO2Journal of Geophysical Research, 92
Chapin Chapin, Walter Walter, Clarkson Clarkson (1988)
Growth response of barley and tomato to nitrogen stress and its control by abscisic acid, water relations, and photosynthesisPlanta, 173
J. Pastor, J. Aber, C. Mcclaugherty, J. Melillo (1984)
Aboveground Production and N and P Cycling Along a Nitrogen Mineralization Gradient on Blackhawk Island, WisconsinEcology, 65
P. Vitousek, J. Gosz, C. Grier, J. Melillo, W. Reiners (1982)
A Comparative Analysis of Potential Nitrification and Nitrate Mobility in Forest EcosystemsEcological Monographs, 52
P. Matson, P. Vitousek (1987)
Cross‐system comparisons of soil nitrogen transformations and nitrous oxide flux in tropical forest ecosystemsGlobal Biogeochemical Cycles, 1
L. Auchmoody, H. Smith. (1977)
Response of Yellow-Poplar and Red Oak to Fertilization in West Virginia1Soil Science Society of America Journal, 41
K. Nadelhoffer, A. Giblin, G. Shaver, A. Linkins (1992)
13 – Microbial Processes and Plant Nutrient Availability in Arctic Soils
(1982)
Regional growth and response analysis for unthinned Douglas-fir
Melillo Melillo, Aber Aber, Steudler Steudler, Schimel Schimel (1983)
Denitrification potentials in a successional sequence of northern hardwood forest standsEnviron. Biogeochem., 35
R. Bowden, J. Melillo, P. Steudler, J. Aber (1991)
Effects of nitrogen additions on annual nitrous oxide fluxes from temperate forest soils in the northeastern United StatesJournal of Geophysical Research, 96
P. Risser (1981)
The True Prairie ecosystem
P. Steudler, J. Melillo, R. Bowden, M. Castro, A. Lugo (1991)
The effects of natural and human disturbances on soil nitrogen dynamics and trace gas fluxes in a Puerto Rican wet forestBiotropica, 23
H. Lieth (1975)
Modeling the Primary Productivity of the WorldThe Indian Forester, 98
Potential sinks for mineralized nitrogen following disturbance in forest ecosystems
J. Evans (1983)
Nitrogen and Photosynthesis in the Flag Leaf of Wheat (Triticum aestivum L.).Plant physiology, 72 2
(1985)
III, Significance of sequential leaf development for nutrient balance of the cotton sedge
We use the terrestrial ecosystem model (TEM), a process‐based model, to investigate how interactions between carbon (C) and nitrogen (N) dynamics affect predictions of net primary productivity (NPP) for potential vegetation in North America. Data on pool sizes and fluxes of C and N from intensively studied field sites are used to calibrate the model for each of 17 non‐wetland vegetation types. We use information on climate, soils, and vegetation to make estimates for each of 11,299 non‐wetland, 0.5° latitude × 0.5° longitude, grid cells in North America. The potential annual NPP and net N mineralization (NETNMIN) of North America are estimated to be 7.032 × 1015 g C yr−1 and 104.6 × 1012 g N yr−1, respectively. Both NPP and NETNMIN increase along gradients of increasing temperature and moisture in northern and temperate regions of the continent, respectively. Nitrogen limitation of productivity is weak in tropical forests, increasingly stronger in temperate and boreal forests, and very strong in tundra ecosystems. The degree to which productivity is limited by the availability of N also varies within ecosystems. Thus spatial resolution in estimating exchanges of C between the atmosphere and the terrestrial biosphere is improved by modeling the linkage between C and N dynamics. We also perform a factorial experiment with TEM on temperate mixed forest in North America to evaluate the importance of considering interactions between C and N dynamics in the response of NPP to an elevated temperature of 2°C. With the C cycle uncoupled from the N cycle, NPP decreases primarily because of higher plant respiration. However, with the C and N cycles coupled, NPP increases because productivity that is due to increased N availability more than offsets the higher costs of plant respiration. Thus, to investigate how global change will affect biosphere‐atmosphere interactions, process‐based models need to consider linkages between the C and N cycles.
Global Biogeochemical Cycles – Wiley
Published: Jun 1, 1992
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