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References (158)
-
J. Canadell, Corinne Quéré, M. Raupach, C. Field, E. Buitenhuis, P. Ciais, T. Conway, N. Gillett, R. Houghton, G. Marland (2007)
Contributions to accelerating atmospheric CO2 growth from economic activity, carbon intensity, and efficiency of natural sinksProceedings of the National Academy of Sciences, 104
-
W. Han, Luying Tang, Yahan Chen, Jingyun Fang (2013)
Relationship between the Relative Limitation and Resorption Efficiency of Nitrogen vs Phosphorus in Woody PlantsPLoS ONE, 8
-
J. Yavitt, K. Harms, Milton Garcia, M. Mirabello, S. Wright (2011)
Soil fertility and fine root dynamics in response to 4 years of nutrient (N, P, K) fertilization in a lowland tropical moist forest, PanamaAustral Ecology, 36
-
W. Chesworth (2008)
Encyclopedia of soil science -
W. Harpole, J. Ngai, E. Cleland, E. Seabloom, E. Borer, Matthew Bracken, J. Elser, D. Gruner, H. Hillebrand, J. Shurin, Jennifer Smith (2011)
Nutrient co-limitation of primary producer communities.Ecology letters, 14 9
-
A. Finzi, J. Cole, S. Doney, E. Holland, R. Jackson (2011)
Research frontiers in the analysis of coupled biogeochemical cyclesFrontiers in Ecology and the Environment, 9
-
A. Tietema, B. Warmerdam, E. Lenting, L. Riemer (1992)
Abiotic factors regulating nitrogen transformations in the organic layer of acid forest soils: Moisture and pHPlant and Soil, 147
-
Maïté Guignard, R. Nichols, R. Knell, A. Macdonald, Catalina-Andreea Romila, M. Trimmer, I. Leitch, A. Leitch (2016)
Genome size and ploidy influence angiosperm species' biomass under nitrogen and phosphorus limitationThe New Phytologist, 210
-
O. Chadwick, L. Derry, P. Vitousek, B. Huebert, L. Hedin (1999)
Changing sources of nutrients during four million years of ecosystem developmentNature, 397
-
P. Fay, S. Prober, W. Harpole, J. Knops, J. Bakker, E. Borer, E. Lind, A. MacDougall, E. Seabloom, P. Wragg, P. Adler, D. Blumenthal, Y. Buckley, Chengjin Chu, E. Cleland, S. Collins, K. Davies, G. Du, Xiaohui Feng, J. Firn, D. Gruner, N. Hagenah, Y. Hautier, R. Heckman, V. Jin, K. Kirkman, J. Klein, Laura Ladwig, Qi Li, R. McCulley, B. Melbourne, C. Mitchell, Joslin Moore, J. Morgan, A. Risch, M. Schütz, C. Stevens, D. Wedin, Louie Yang (2015)
Grassland productivity limited by multiple nutrientsNature Plants, 1
-
P. Bengtson, U. Falkengren‐Grerup, G. Bengtsson (2005)
Relieving substrate limitation‐soil moisture and temperature determine gross N transformation ratesOikos, 111
-
(2017)
Soil parent material-A major driver of plant nutrient limitations in terrestrial ecosystems -
B. Hungate, Dale Johnson, P. Dijkstra, G. Hymus, P. Stiling, J. Megonigal, Alisha Pagel, Jaina Moan, F. Day, Jiahong Li, C. Hinkle, B. Drake (2006)
Nitrogen cycling during seven years of atmospheric CO2 enrichment in a scrub oak woodland.Ecology, 87 1
-
P. Vitousek (1984)
Litterfall, Nutrient Cycling, and Nutrient Limitation in Tropical ForestsEcology, 65
-
R. Vet, R. Artz, S. Carou, M. Shaw, C. Ro, W. Aas, A. Baker, V. Bowersox, F. Dentener, C. Galy-Lacaux, A. Hou, J. Pienaar, R. Gillett, M. Forti, S. Gromov, H. Hara, T. Khodzher, N. Mahowald, S. Nickovic, P. Rao, N. Reid (2014)
A global assessment of precipitation chemistry and deposition of sulfur, nitrogen, sea salt, base cations, organic acids, acidity and pH, and phosphorusAtmospheric Environment, 93
-
Rong Wang, Y. Balkanski, O. Boucher, P. Ciais, J. Peñuelas, S. Tao (2015)
Significant contribution of combustion-related emissions to the atmospheric phosphorus budgetNature Geoscience, 8
-
J. Hartmann, N. Moosdorf (2012)
The new global lithological map database GLiM: A representation of rock properties at the Earth surfaceGeochemistry, 13
-
J. Yavitt, K. Harms, Milton Garcia, M. Mirabello, S. Wright (2011)
Soil fertility and fine root dynamics in response to 4 years of nutrient ( N , P , K ) fertilization in a lowland tropical moist forest -
M. Delgado‐Baquerizo, F. Maestre, A. Gallardo, M. Bowker, M. Wallenstein, J. Quero, J. Quero, V. Ochoa, Beatriz Gozalo, M. García-Gómez, Santiago Soliveres, Pablo García‐Palacios, M. Berdugo, Enrique Valencia, C. Escolar, Tulio Arredondo, Claudia Barraza-Zepeda, Donaldo Bran, J. Carreira, M. Chaieb, A. Conceição, Mchich Derak, D. Eldridge, A. Escudero, C. Espinosa, J. Gaitán, M. Gatica, S. Gómez‐González, Elizabeth Guzman, J. Gutiérrez, A. Florentino, E. Hepper, R. Hernández, E. Huber-Sannwald, M. Jankju, Jushan Liu, Rebecca Mau, M. Miriti, J. Monerris, K. Naseri, Z. Noumi, V. Polo, A. Prina, E. Pucheta, E. Ramírez, David Ramírez-Collantes, R. Romão, M. Tighe, D. Torres, C. Torres‐Díaz, E. Ungar, J. Val, W. Wamiti, Deli Wang, E. Zaady (2013)
Decoupling of soil nutrient cycles as a function of aridity in global drylandsNature, 502
-
M. Huston, Steve Wolverton (2009)
The global distribution of net primary production: resolving the paradoxEcological Monographs, 79
-
L. Holdridge (1947)
Determination of World Plant Formations From Simple Climatic Data.Science, 105 2727
-
B. Messerli, D. Viviroli, R. Weingartner (2001)
Comments: A New Typology for Mountains and Other Relief Classes: An Application to Global Continental Water Resources and Population Distribution, 21
-
E. Sanderson, D. Segan, J. Watson (2015)
Global status of and prospects for protection of terrestrial geophysical diversityConservation Biology, 29
-
Brendan Naples, M. Fisk (2010)
Belowground insights into nutrient limitation in northern hardwood forestsBiogeochemistry, 97
-
L. Augusto, Florian Delerue, A. Gallet‐Budynek, D. Achat (2013)
Global assessment of limitation to symbiotic nitrogen fixation by phosphorus availability in terrestrial ecosystems using a meta‐analysis approachGlobal Biogeochemical Cycles, 27
-
J. Prietzel, Dominik Christophel, Christopher Traub, Eckart Kolb, A. Schubert (2014)
Regional and site-related patterns of soil nitrogen, phosphorus, and potassium stocks and Norway spruce nutrition in mountain forests of the Bavarian AlpsPlant and Soil, 386
-
P. Vitousek, S. Porder, B. Houlton, O. Chadwick (2010)
Terrestrial phosphorus limitation: mechanisms, implications, and nitrogen-phosphorus interactions.Ecological applications : a publication of the Ecological Society of America, 20 1
-
J. Craine, R. Jackson (2010)
Plant nitrogen and phosphorus limitation in 98 North American grassland soilsPlant and Soil, 334
-
Xiaojuan Yang, W. Post, P. Thornton, Atul Jain (2012)
The distribution of soil phosphorus for global biogeochemical modelingBiogeosciences, 10
-
A. Marklein, B. Houlton (2012)
Nitrogen inputs accelerate phosphorus cycling rates across a wide variety of terrestrial ecosystems.The New phytologist, 193 3
-
K. White, M. Coleman, D. Page-Dumroese, P. Gessler, Mark Kimsey, T. Shaw (2012)
Examining soil parent material influence over Douglas-fir stem growth response to fertilization: Taking advantage of information from spatiotemporally distributed experimentsForest Ecology and Management, 286
-
P. Reich, S. Hobbie, Tali Lee, D. Ellsworth, J. West, D. Tilman, J. Knops, S. Naeem, Jared Trost (2006)
Nitrogen limitation constrains sustainability of ecosystem response to CO2Nature, 440
-
Arkus, Ottek, Ürgen, Rieser, hristoph, Eck, Runo, Udolf, Ranz, Ubel (2006)
World Map of the Köppen-Geiger climate classification updated — Source link -
P. Vitousek, R. Howarth (1991)
Nitrogen limitation on land and in the sea: How can it occur?Biogeochemistry, 13
-
Xiaojuan Yang, W. Post (2011)
Phosphorus transformations as a function of pedogenesis: A synthesis of soil phosphorus data using Hedley fractionation methodBiogeosciences, 8
-
R. Nemani, C. Keeling, H. Hashimoto, W. Jolly, S. Piper, C. Tucker, R. Myneni, S. Running (2003)
Climate-Driven Increases in Global Terrestrial Net Primary Production from 1982 to 1999Science, 300
-
F. Beermann, Annette Teltewskoi, Claudia Fiencke, E. Pfeiffer, L. Kutzbach (2015)
Stoichiometric analysis of nutrient availability (N, P, K) within soils of polygonal tundraBiogeochemistry, 122
-
T. Baribault, R. Kobe, A. Finley (2012)
Tropical tree growth is correlated with soil phosphorus, potassium, and calcium, though not for legumesEcological Monographs, 82
-
G. Holtgrieve, D. Schindler, W. Hobbs, P. Leavitt, E. Ward, L. Bunting, Guangjie Chen, B. Finney, I. Gregory‐Eaves, Sofia Holmgren, Mark Lisac, P. Lisi, K. Nydick, L. Rogers, J. Saros, Daniel Selbie, M. Shapley, Patrick Walsh, A. Wolfe (2011)
A Coherent Signature of Anthropogenic Nitrogen Deposition to Remote Watersheds of the Northern HemisphereScience, 334
-
L. Mercado, S. Patiño, T. Domingues, N. Fyllas, G. Weedon, S. Sitch, S. Sitch, C. Quesada, O. Phillips, L. Aragão, Y. Malhi, A. Dolman, N. Restrepo-Coupe, N. Restrepo-Coupe, S. Saleska, T. Baker, S. Almeida, N. Higuchi, J. Lloyd, J. Lloyd (2011)
Variations in Amazon forest productivity correlated with foliar nutrients and modelled rates of photosynthetic carbon supplyPhilosophical Transactions of the Royal Society B: Biological Sciences, 366
-
F. Werner, J. Homeier (2015)
Is tropical montane forest heterogeneity promoted by a resource-driven feedback cycle? Evidence from nutrient relations, herbivory and litter decomposition along a topographical gradientFunctional Ecology, 29
-
S. Gage, P. Grace, Jeffrey Ladd, G. Robertson (2006)
SOCRATES—A simple model for predicting long-term changes in soil organic carbon in terrestrial ecosystemsSoil Biology & Biochemistry, 38
-
W. Wieder, C. Cleveland, W. Smith, K. Todd-Brown (2015)
Future productivity and carbon storage limited by terrestrial nutrient availabilityNature Geoscience, 8
-
M. Portillo‐Estrada, M. Pihlatie, J. Korhonen, J. Levula, A. Frumau, A. Ibrom, J. Lembrechts, L. Morillas, L. Horváth, S. Jones, Ue. Niinemets (2015)
Climatic controls on leaf litter decomposition across European forests and grasslands revealed by reciprocal litter transplantation experimentsBiogeosciences, 13
-
S. Reed, C. Cleveland, A. Townsend (2011)
Functional Ecology of Free-Living Nitrogen Fixation: A Contemporary PerspectiveAnnual Review of Ecology, Evolution, and Systematics, 42
-
G. Krinner, N. Viovy, N. Noblet‐Ducoudré, J. Ogée, J. Polcher, P. Friedlingstein, P. Ciais, S. Sitch, I. Prentice (2005)
A dynamic global vegetation model for studies of the coupled atmosphere‐biosphere systemGlobal Biogeochemical Cycles, 19
-
P. Vitousek, R. Sanford (1986)
Nutrient Cycling in Moist Tropical ForestAnnual Review of Ecology, Evolution, and Systematics, 17
-
S. Güsewell (2004)
N : P ratios in terrestrial plants: variation and functional significance.The New phytologist, 164 2
-
S. Buckingham, J. Neff, Beyhan Titiz-Maybach, R. Reynolds (2010)
Chemical and textural controls on phosphorus mobility in drylands of southeastern UtahBiogeochemistry, 100
-
M. Gray (2008)
Geodiversity: developing the paradigm, 119
-
D. Achat, M. Bakker, L. Augusto, C. Morel (2013)
Contributions of microbial and physical–chemical processes to phosphorus availability in Podzols and Arenosols under a temperate forestGeoderma, 211
-
E. Davidson, R. Howarth (2007)
Environmental science: Nutrients in synergyNature, 449
-
M. Lukac, C. Calfapietra, A. Lagomarsino, F. Loreto (2010)
Global climate change and tree nutrition: effects of elevated CO2 and temperature.Tree physiology, 30 9
-
Sarah Castle, Jason Neff, Jason Neff (2009)
Plant Response to Nutrient Availability Across Variable Bedrock GeologiesEcosystems, 12
-
M. Bracken, H. Hillebrand, E. Borer, E. Seabloom, J. Cebrian, E. Cleland, J. Elser, D. Gruner, W. Harpole, J. Ngai, J. Smith (2015)
Signatures of nutrient limitation and co-limitation: responses of autotroph internal nutrient concentrations to nitrogen and phosphorus additionsOikos, 124
-
S. Billings, S. Ziegler (2008)
Altered patterns of soil carbon substrate usage and heterotrophic respiration in a pine forest with elevated CO2 and N fertilizationGlobal Change Biology, 14
-
A. Townsend, C. Cleveland, G. Asner, M. Bustamante (2007)
Controls over foliar N:P ratios in tropical rain forests.Ecology, 88 1
-
M. Delgado‐Baquerizo, F. Maestre, A. Gallardo, D. Eldridge, Santiago Soliveres, M. Bowker, A. Prado‐Comesaña, J. Gaitán, J. Quero, V. Ochoa, Beatriz Gozalo, M. García-Gómez, Pablo García‐Palacios, M. Berdugo, Enrique Valencia, C. Escolar, Tulio Arredondo, Claudia Barraza-Zepeda, B. Boeken, Donaldo Bran, Omar Cabrera, J. Carreira, M. Chaieb, A. Conceição, Mchich Derak, R. Ernst, C. Espinosa, A. Florentino, G. Gatica, W. Ghiloufi, S. Gómez‐González, J. Gutiérrez, R. Hernández, E. Huber-Sannwald, M. Jankju, Rebecca Mau, M. Miriti, J. Monerris, E. Morici, M. Muchane, K. Naseri, E. Pucheta, E. Ramírez, David Ramírez-Collantes, R. Romão, M. Tighe, D. Torres, C. Torres‐Díaz, J. Val, J. Veiga, Deli Wang, Xia Yuan, E. Zaady (2016)
Human impacts and aridity differentially alter soil N availability in drylands worldwideGlobal Ecology and Biogeography, 25
-
A. Townsend, C. Cleveland, B. Houlton, C. Alden, J. White (2011)
Multi-element regulation of the tropical forest carbon cycleFrontiers in Ecology and the Environment, 9
-
V. Figueiredo, A. Enrich-Prast, T. Rütting (2016)
Soil organic matter content controls gross nitrogen dynamics and N2O production in riparian and upland boreal soilEuropean Journal of Soil Science, 67
-
D. Keith (2011)
Relationships between geodiversity and vegetation in southeastern Australia, 132
-
S. Braun, V. Thomas, Rebecca Quiring, W. Flückiger (2010)
Does nitrogen deposition increase forest production? The role of phosphorus.Environmental pollution, 158 6
-
(1993)
Statistical validation -
D. Wardle, L. Walker, R. Bardgett (2004)
Ecosystem Properties and Forest Decline in Contrasting Long-Term ChronosequencesScience, 305
-
Susanna Mage, S. Porder (2012)
Parent Material and Topography Determine Soil Phosphorus Status in the Luquillo Mountains of Puerto RicoEcosystems, 16
-
R. Condit, Bettina Engelbrecht, Delicia Pino, Rolando Pẽrez, Benjamin Turner (2013)
Species distributions in response to individual soil nutrients and seasonal drought across a community of tropical treesProceedings of the National Academy of Sciences, 110
-
P. Reich, J. Oleksyn (2004)
Global patterns of plant leaf N and P in relation to temperature and latitude.Proceedings of the National Academy of Sciences of the United States of America, 101 30
-
(1883)
The Russian chernozem -
C. See, R. Yanai, M. Fisk, M. Vadeboncoeur, Braulio Quintero, T. Fahey (2015)
Soil nitrogen affects phosphorus recycling: foliar resorption and plant-soil feedbacks in a northern hardwood forest.Ecology, 96
-
C. Cleveland, D. Liptzin (2007)
C:N:P stoichiometry in soil: is there a “Redfield ratio” for the microbial biomass?Biogeochemistry, 85
-
N. Mckenzie, P. Ryan (1999)
Spatial prediction of soil properties using environmental correlationGeoderma, 89
-
S. Wright, J. Yavitt, N. Wurzburger, Benjamin Turner, E. Tanner, E. Sayer, L. Santiago, M. Kaspari, L. Hedin, K. Harms, Milton Garcia, M. Corre (2011)
Potassium, phosphorus, or nitrogen limit root allocation, tree growth, or litter production in a lowland tropical forest.Ecology, 92 8
-
R. A, M. Z, S. N, J. Z, K. I, A. L, R. W, S. E, N. Zz (2008)
Simple three-pool model accurately describes patterns of long-term litter decomposition in diverse climates -
J. Holloway, R. Dahlgren (2002)
Nitrogen in rock: Occurrences and biogeochemical implicationsGlobal Biogeochemical Cycles, 16
-
G. Ros, E. Temminghoff, E. Hoffland (2011)
Nitrogen mineralization: a review and meta‐analysis of the predictive value of soil testsEuropean Journal of Soil Science, 62
-
D. Binkley, P. Högberg (2016)
Revisiting the influence of nitrogen deposition on Swedish forests, 368
-
Leonardus Vergütz, S. Manzoni, A. Porporato, R. Novais, R. Jackson (2012)
Global resorption efficiencies and concentrations of carbon and nutrients in leaves of terrestrial plantsEcological Monographs, 82
-
P. Homyak, J. Sickman, J. Melack (2014)
Pools, transformations, and sources of P in high-elevation soils: Implications for nutrient transfer to Sierra Nevada lakesGeoderma, 217
-
M. Fernández‐Martínez, S. Vicca, I. Janssens, J. Sardans, S. Luyssaert, M. Campioli, F. Chapin, P. Ciais, Y. Malhi, M. Obersteiner, D. Papale, S. Piao, M. Reichstein, F. Rodà, J. Peñuelas (2014)
Nutrient availability as the key regulator of global forest carbon balanceNature Climate Change, 4
-
Report to the Free Economic Society -
I. Meier, C. Leuschner (2013)
Nutrient dynamics along a precipitation gradient in European beech forestsBiogeochemistry, 120
-
M. Delgado‐Baquerizo, Pablo García‐Palacios, R. Milla, A. Gallardo, F. Maestre (2015)
Soil characteristics determine soil carbon and nitrogen availability during leaf litter decomposition regardless of litter qualitySoil Biology & Biochemistry, 81
-
P. Vitousek, C. Jordan (1987)
Nutrient Cycling in Tropical Forest EcosystemsBioScience
-
M. Hedley, J. Stewart, B. Chauhan (1982)
Changes in Inorganic and Organic Soil Phosphorus Fractions Induced by Cultivation Practices and by Laboratory Incubations1Soil Science Society of America Journal, 46
-
E. Bui, B. Henderson (2013)
C:N:P stoichiometry in Australian soils with respect to vegetation and environmental factorsPlant and Soil, 373
-
B. Janssen, F. Guiking, D. Eijk, E. Smaling, J. Wolf, H. Reuler (1990)
A system for quantitative evaluation of the fertility of tropical soils (QUEFTS).Geoderma, 46
-
D. Achat, N. Pousse, M. Nicolas, F. Brédoire, L. Augusto (2016)
Soil properties controlling inorganic phosphorus availability: general results from a national forest network and a global compilation of the literatureBiogeochemistry, 127
-
Justin Marleau, F. Guichard, M. Loreau (2015)
Emergence of nutrient co-limitation through movement in stoichiometric meta-ecosystems.Ecology letters, 18 11
-
S. Porder, Sohini Ramachandran (2013)
The phosphorus concentration of common rocks—a potential driver of ecosystem P statusPlant and Soil, 367
-
P. Vitousek, K. Cassman, C. Cleveland, T. Crews, C. Field, N. Grimm, R. Howarth, Roxanne Marino, L. Martinelli, E. Rastetter, J. Sprent (2002)
Towards an ecological understanding of biological nitrogen fixationBiogeochemistry, 57-58
-
D. Binkley, P. Högberg (2016)
Tamm Review: Revisiting the influence of nitrogen deposition on Swedish forestsForest Ecology and Management, 368
-
C. Palm, P. Sánchez, S. Ahamed, A. Awiti (2007)
Soils: A Contemporary PerspectiveAnnual Review of Environment and Resources, 32
-
W. Hahm, C. Riebe, C. Lukens, Sayaka Araki (2014)
Bedrock composition regulates mountain ecosystems and landscape evolutionProceedings of the National Academy of Sciences, 111
-
W. Parton, J. Stewart, C. Cole (1988)
Dynamics of C, N, P and S in grassland soils: a modelBiogeochemistry, 5
-
Zhiyou Yuan, Han Chen, Han Chen, P. Reich, P. Reich (2011)
Global-scale latitudinal patterns of plant fine-root nitrogen and phosphorus.Nature communications, 2
-
Zhiyou Yuan, Han Chen (2009)
Global‐scale patterns of nutrient resorption associated with latitude, temperature and precipitationGlobal Ecology and Biogeography, 18
-
Xianjin He, E. Hou, Yang Liu, Dazhi Wen (2016)
Altitudinal patterns and controls of plant and soil nutrient concentrations and stoichiometry in subtropical ChinaScientific Reports, 6
-
M. Fisk, T. Ratliff, S. Goswami, R. Yanai (2014)
Synergistic soil response to nitrogen plus phosphorus fertilization in hardwood forestsBiogeochemistry, 118
-
Neil Smeck (1985)
Phosphorus dynamics in soils and landscapesGeoderma, 36
-
Magalie Delmas, N. Saby, D. Arrouays, R. Dupas, B. Lemercier, Sylvain Pellerin, Chantal Gascuel-Odoux (2015)
Explaining and mapping total phosphorus content in French topsoilsSoil Use and Management, 31
-
J. Sardans, J. Peñuelas (2015)
Potassium: a neglected nutrient in global change.Global Ecology and Biogeography, 24
-
C. Quesada, O. Phillips, M. Schwarz, C. Czimczik, T. Baker, S. Patiño, N. Fyllas, M. Hodnett, R. Herrera, S. Almeida, E. Dávila, A. Arneth, L. Arroyo, Kuo‐Jung Chao, N. Dezzeo, T. Erwin, A. Fiore, N. Higuchi, E. Coronado, E. Jimenez, T. Killeen, A. Lezama, G. Lloyd, G. Lopez-Gonzalez, F. Luizão, Y. Malhi, A. Monteagudo, D. Neill, P. Vargas, R. Paiva, J. Peacock, M. Peñuela, A. Cruz, N. Pitman, N. Filho, A. Prieto, H. Ramírez, A. Rudas, R. Salomão, A. Santos, J. Schmerler, N. Silva, M. Silveira, R. Vasquez, I. Vieira, J. Terborgh, J. Lloyd (2012)
Basin-wide variations in Amazon forest structure and function are mediated by both soils and climateBiogeosciences, 9
-
W. Krumbein (1942)
: Factors of Soil Formation: A System of Quantitative PedologyThe Journal of Geology
-
C. Körner (2011)
The Grand Challenges in Functional Plant EcologyFrontiers in plant science, 2
-
A. Marklein, Joy Winbourne, S. Enders, David Gonzalez, T. Huysen, Jorge Izquierdo, Derrick Light, D. Liptzin, K. Miller, S. Morford, R. Norton, B. Houlton (2016)
Mineralization ratios of nitrogen and phosphorus from decomposing litter in temperate versus tropical forestsGlobal Ecology and Biogeography, 25
-
J. Sardans, R. Alonso, I. Janssens, J. Carnicer, S. Vereseglou, M. Rillig, M. Fernández‐Martínez, T. Sanders, J. Peñuelas (2016)
Foliar and soil concentrations and stoichiometry of nitrogen and phosphorous across European Pinus sylvestris forests: relationships with climate, N deposition and tree growthFunctional Ecology, 30
-
S. Reed, A. Townsend, E. Davidson, C. Cleveland (2012)
Stoichiometric patterns in foliar nutrient resorption across multiple scales.The New phytologist, 196 1
-
Efrat Sheffer, S. Batterman, S. Levin, L. Hedin (2015)
Biome-scale nitrogen fixation strategies selected by climatic constraints on nitrogen cycleNature Plants, 1
-
Corina Buendía, A. Kleidon, A. Porporato (2010)
The role of tectonic uplift, climate, and vegetation in the long-term terrestrial phosphorous cycleBiogeosciences, 7
-
A. Nottingham, Benjamin Turner, J. Whitaker, N. Ostle, N. McNamara, R. Bardgett, N. Salinas, N. Salinas, P. Meir, P. Meir (2015)
Soil microbial nutrient constraints along a tropical forest elevation gradient: a belowground test of a biogeochemical paradigmBiogeosciences, 12
-
Pin Li, Yuanhe Yang, W. Han, Jingyun Fang (2014)
Global patterns of soil microbial nitrogen and phosphorus stoichiometry in forest ecosystemsGlobal Ecology and Biogeography, 23
-
P. Suchet, J. Probst, W. Ludwig (2003)
Worldwide distribution of continental rock lithology: Implications for the atmospheric/soil CO2 uptake by continental weathering and alkalinity river transport to the oceansGlobal Biogeochemical Cycles, 17
-
M. Kottek, J. Grieser, C. Beck, B. Rudolf, F. Rubel (2006)
World map of the Koppen‐Geiger climate classification updated, 15
-
Weihong Fan, J. Randolph, J. Ehman (1998)
REGIONAL ESTIMATION OF NITROGEN MINERALIZATION IN FOREST ECOSYSTEMS USING GEOGRAPHIC INFORMATION SYSTEMSEcological Applications, 8
-
B. Sullivan, S. Álvarez-Clare, S. Castle, S. Porder, S. Reed, L. Schreeg, A. Townsend, C. Cleveland (2014)
Assessing nutrient limitation in complex forested ecosystems: alternatives to large-scale fertilization experiments.Ecology, 95 3
-
G. Asner, D. Knapp, C. Anderson, R. Martin, N. Vaughn (2016)
Large-scale climatic and geophysical controls on the leaf economics spectrumProceedings of the National Academy of Sciences, 113
-
Feng Jiao, Xinrong Shi, Feng-Peng Han, Zhi-You Yuan (2016)
Increasing aridity, temperature and soil pH induce soil C-N-P imbalance in grasslandsScientific Reports, 6
-
P. Hietz, Benjamin Turner, W. Wanek, Andreas Richter, C. Nock, S. Wright (2011)
Long-Term Change in the Nitrogen Cycle of Tropical ForestsScience, 334
-
T. Walker, J. Syers (1976)
The fate of phosphorus during pedogenesisGeoderma, 15
-
P. Frenne, A. Kolb, Benete Graae, G. Decocq, S. Baltora, A. Schrijver, J. Brunet, Oliver Chabrerie, S. Cousins, Rob D'hondt, M. Diekmann, R. Gruwez, T. Heinken, M. Hermy, J. Liira, Robert Saguez, A. Shevtsova, A. Shevtsova, C. Baskin, K. Verheyen (2011)
A latitudinal gradient in seed nutrients of the forest herb Anemone nemorosa.Plant biology, 13 3
-
D. Peltzer, D. Wardle, V. Allison, W. Baisden, R. Bardgett, O. Chadwick, L. Condron, R. Parfitt, S. Porder, S. Richardson, Benjamin Turner, P. Vitousek, J. Walker, L. Walker (2010)
Understanding ecosystem retrogressionEcological Monographs, 80
-
M. Huston (2012)
Precipitation, soils, NPP, and biodiversity: resurrection of Albrecht's curveEcological Monographs, 82
-
W. Koerselman, A. Meuleman (1996)
The vegetation N:P ratio: a new tool to detect the nature of nutrient limitationJournal of Applied Ecology, 33
-
David LeBauer, K. Treseder (2008)
Nitrogen limitation of net primary productivity in terrestrial ecosystems is globally distributed.Ecology, 89 2
-
D. Liptzin, R. Sanford, T. Seastedt (2013)
Spatial patterns of total and available N and P at alpine treelinePlant and Soil, 365
-
J. Elser, S. MatthewE., Bracken, E. Cleland, D. Gruner, W. Stanley, Harpole, H. Hillebrand, J. Ngai, W. Eric, Seabloom, J. Shurin, J. Smith (2007)
Global analysis of nitrogen and phosphorus limitation of primary producers in freshwater, marine and terrestrial ecosystems.Ecology letters, 10 12
-
M. Bradford, R. Warren, P. Baldrian, T. Crowther, D. Maynard, Emily Oldfield, W. Wieder, S. Wood, J. King (2014)
Climate fails to predict wood decomposition at regional scalesNature Climate Change, 4
-
R. Aerts (1997)
Climate, leaf litter chemistry and leaf litter decomposition in terrestrial ecosystems : a triangular relationshipOikos, 79
-
A. Townsend, G. Asner, C. Cleveland (2008)
The biogeochemical heterogeneity of tropical forests.Trends in ecology & evolution, 23 8
-
R. Aerts, F. Chapin (1999)
The Mineral Nutrition of Wild Plants Revisited: A Re-evaluation of Processes and PatternsAdvances in Ecological Research, 30
-
B. Houlton, Ying‐ping Wang, P. Vitousek, C. Field (2008)
A unifying framework for dinitrogen fixation in the terrestrial biosphereNature, 454
-
H. Bourennane, S. Salvador‐Blanes, S. Cornu, D. King (2003)
Scale of spatial dependence between chemical properties of topsoil and subsoil over a geologically contrasted area (Massif central, France)Geoderma, 112
-
J. Raich, W. Schlesinger (1992)
The global carbon dioxide flux in soil respiration and its relationship to vegetation and climateTellus B, 44
-
J. Iwahashi, R. Pike (2007)
Automated classifications of topography from DEMs by an unsupervised nested-means algorithm and a three-part geometric signatureGeomorphology, 86
-
Jason Neff, Jason Neff, Richard Reynolds, R. Sanford, D. Fernandez, P. Lamothe (2006)
Controls of Bedrock Geochemistry on Soil and Plant Nutrients in Southeastern UtahEcosystems, 9
-
R. Norby, E. DeLucia, B. Gielen, C. Calfapietra, C. Giardina, J. King, Joanne Ledford, H. McCarthy, D. Moore, R. Ceulemans, P. Angelis, A. Finzi, D. Karnosky, M. Kubiske, M. Lukac, K. Pregitzer, G. Scarascia-Mugnozza, W. Schlesinger, R. Oren (2005)
Forest response to elevated CO2 is conserved across a broad range of productivity.Proceedings of the National Academy of Sciences of the United States of America, 102 50
-
(2008)
Biomes and their soils -
J. Fisher, Grayson Badgley, E. Blyth (2012)
Global nutrient limitation in terrestrial vegetationGlobal Biogeochemical Cycles, 26
-
M. Jonard, A. Fürst, A. Verstraeten, A. Thimonier, Volkmar Timmermann, N. Potočić, P. Waldner, S. Benham, K. Hansen, P. Merilä, Q. Ponette, A. Cruz, P. Roskams, M. Nicolas, L. Croisé, M. Ingerslev, G. Matteucci, Bruno Decinti, M. Bascietto, P. Rautio (2014)
Tree mineral nutrition is deteriorating in EuropeGlobal Change Biology, 21
-
J. Craine, A. Elmore, Lixin Wang, L. Augusto, W. Baisden, E. Brookshire, M. Cramer, N. Hasselquist, E. Hobbie, A. Kahmen, K. Koba, J. Kranabetter, M. Mack, E. Marín-Spiotta, J. Mayor, K. McLauchlan, A. Michelsen, G. Nardoto, R. Oliveira, S. Perakis, P. Peri, C. Quesada, Andreas Richter, L. Schipper, B. Stevenson, Benjamin Turner, R. Viani, W. Wanek, B. Zeller (2015)
Convergence of soil nitrogen isotopes across global climate gradientsScientific Reports, 5
-
D. Hooper, L. Johnson (1999)
Nitrogen limitation in dryland ecosystems: Responses to geographical and temporal variation in precipitationBiogeochemistry, 46
-
J. Hjort, J. Gordon, M. Gray, M. Hunter (2015)
Why geodiversity matters in valuing nature's stageConservation Biology, 29
-
D. Ruban (2010)
Quantification of geodiversity and its loss, 121
-
J. Lloyd, T. Domingues, F. Schrodt, F. Ishida, T. Feldpausch, G. Saiz, C. Quesada, M. Schwarz, M. Torello-Raventos, M. Gilpin, B. Marimon, B. Marimon‐Junior, J. Ratter, J. Grace, G. Nardoto, E. Veenendaal, L. Arroyo, D. Villarroel, T. Killeen, M. Steininger, O. Phillips (2015)
Edaphic, structural and physiological contrasts across Amazon Basin forest-savanna ecotones suggest a role for potassium as a key modulator of tropical woody vegetation structure and functionBiogeosciences, 12
-
S. Batterman, L. Hedin, M. Breugel, J. Ransijn, D. Craven, Jefferson Hall (2013)
Key role of symbiotic dinitrogen fixation in tropical forest secondary successionNature, 502
-
V. Shanin, A. Komarov, R. Mäkipää (2014)
Tree species composition affects productivity and carbon dynamics of different site types in boreal forestsEuropean Journal of Forest Research, 133
-
Q. Mu, F. Heinsch, Maosheng Zhao, S. Running (2007)
Development of a global evapotranspiration algorithm based on MODIS and global meteorology dataRemote Sensing of Environment, 111
-
Mary Booth, J. Stark, E. Rastetter (2005)
CONTROLS ON NITROGEN CYCLING IN TERRESTRIAL ECOSYSTEMS: A SYNTHETIC ANALYSIS OF LITERATURE DATAEcological Monographs, 75
-
P. Vitousek, H. Farrington (1997)
Nutrient limitation and soil development: Experimental test of a biogeochemical theoryBiogeochemistry, 37
-
Q. Mu, Maosheng Zhao, S. Running (2011)
Improvements to a MODIS global terrestrial evapotranspiration algorithmRemote Sensing of Environment, 115
-
C. Morel, H. Tunney, D. Plénet, S. Pellerin (2000)
Transfer of phosphate ions between soil and solution: perspectives in soil testing.Journal of Environmental Quality, 29
-
R. Garrett (2009)
Relative spatial soil geochemical variability along two transects across the United States and CanadaApplied Geochemistry, 24
-
H. Gholz, D. Wedin, Stephen Smitherman, M. Harmon, W. Parton (2000)
Long‐term dynamics of pine and hardwood litter in contrasting environments: toward a global model of decompositionGlobal Change Biology, 6
-
M. Kaspari, J. Powers (2016)
Biogeochemistry and Geographical Ecology: Embracing All Twenty-Five Elements Required to Build Organisms*The American Naturalist, 188
-
R. Ostertag, Nicole DiManno (2016)
Detecting Terrestrial Nutrient Limitation: A Global Meta-Analysis of Foliar Nutrient Concentrations after FertilizationFrontiers in Earth Science, 4
-
Maja Sundqvist, Zhanfeng Liu, R. Giesler, D. Wardle (2014)
Plant and microbial responses to nitrogen and phosphorus addition across an elevational gradient in subarctic tundra.Ecology, 95 7
-
J. Peñuelas, B. Poulter, J. Sardans, P. Ciais, M. Velde, L. Bopp, O. Boucher, Y. Goddéris, P. Hinsinger, J. Llusià, E. Nardin, S. Vicca, M. Obersteiner, I. Janssens (2013)
Human-induced nitrogen–phosphorus imbalances alter natural and managed ecosystems across the globeNature Communications, 4
-
M. Danger, T. Daufresne, F. Lucas, S. Pissard, Gérard Lacroix (2008)
Does Liebig's law of the minimum scale up from species to communities?Oikos, 117
- Publisher
- Wiley
- Copyright
- Copyright © 2017 John Wiley & Sons Ltd
- ISSN
- 1354-1013
- eISSN
- 1365-2486
- DOI
- 10.1111/gcb.13691
- pmid
- 28317232
- Publisher site
- See Article on Publisher Site
Abstract
Because the capability of terrestrial ecosystems to fix carbon is constrained by nutrient availability, understanding how nutrients limit plant growth is a key contemporary question. However, what drives nutrient limitations at global scale remains to be clarified. Using global data on plant growth, plant nutritive status, and soil fertility, we investigated to which extent soil parent materials explain nutrient limitations. We found that N limitation was not linked to soil parent materials, but was best explained by climate: ecosystems under harsh (i.e., cold and or dry) climates were more N‐limited than ecosystems under more favourable climates. Contrary to N limitation, P limitation was not driven by climate, but by soil parent materials. The influence of soil parent materials was the result of the tight link between actual P pools of soils and physical–chemical properties (acidity, P richness) of soil parent materials. Some other ground‐related factors (i.e., soil weathering stage, landform) had a noticeable influence on P limitation, but their role appeared to be relatively smaller than that of geology. The relative importance of N limitation versus P limitation was explained by a combination of climate and soil parent material: at global scale, N limitation became prominent with increasing climatic constraints, but this global trend was modulated at lower scales by the effect of parent materials on P limitation, particularly under climates favourable to biological activity. As compared with soil parent materials, atmospheric deposition had only a weak influence on the global distribution of actual nutrient limitation. Our work advances our understanding of the distribution of nutrient limitation at global scale. In particular, it stresses the need to take soil parent materials into account when investigating plant growth response to environment changes.
Journal
Global Change Biology – Wiley
Published: Sep 1, 2017
Keywords: ; ; ; ; ;