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C. Eno (1960)
Nitrate Production in the Field by Incubating the Soil in Polyethylene BagsSoil Science Society of America Journal, 24
T. Crews (1999)
The presence of nitrogen fixing legumes in terrestrial communities: Evolutionary vs ecological considerationsBiogeochemistry, 46
M. Ducrey, R. Huc, M. Ladjal, J. Guehl (2008)
Variability in growth, carbon isotope composition, leaf gas exchange and hydraulic traits in the eastern Mediterranean cedars Cedrus libani and C. brevifolia.Tree physiology, 28 5
F. Hoyle, D. Murphy, I. Fillery (2006)
Temperature and stubble management influence microbial CO2–C evolution and gross N transformation ratesSoil Biology & Biochemistry, 38
A. Weigelt, R. King, R. Bol, R. Bardgett (2003)
Inter-specific variability in organic nitrogen uptake of three temperate grassland species.Journal of Plant Nutrition and Soil Science, 166
P.M. Groffman, M.A. Altabet, J.K. Böhlke, K. Butterbach‐Bahl, M.B. David, M.K. Firestone, A.E. Giblin, T.M. Kana, L.P. Nielsen, M.A. Voytek (2006)
Methods for measuring denitrification: diverse approaches to a difficult problemGlobal Change Biology, 16
M. Ducrey, R. Huc, M. Ladjal, J.M. Guehl (2008)
Variability in growth, carbon isotope composition, leaf gas exchange and hydraulic traits in the eastern Mediterranean cedars Cedrus libani and C. brevifoliaSoil Science Society of America Proceedings, 28
A. Glass, D. Britto, B. Kaiser, J. Kinghorn, H. Kronzucker, Anshuman Kumar, M. Okamoto, Suman Rawat, M. Siddiqi, S. Unkles, J. Vidmar (2002)
The regulation of nitrate and ammonium transport systems in plants.Journal of experimental botany, 53 370
J. Kreuzwieser, I. Stulen, P. Wiersema, W. Vaalburg, H. Rennenberg (2000)
Nitrate transport processes in Fagus- Laccaria-MycorrhizaePlant and Soil, 220
Dale Johnson, P. Hanson, D. Todd (2002)
The effects of throughfall manipulation on soil leaching in a deciduous forest.Journal of environmental quality, 31 1
B. Emmett, C. Beier, M. Estiarte, A. Tietema, H. Kristensen, Dylan Williams, J. Peñuelas, I. Schmidt, A. Sowerby (2004)
The Response of Soil Processes to Climate Change: Results from Manipulation Studies of Shrublands Across an Environmental GradientEcosystems, 7
A. Bollmann, R. Conrad (1998)
Influence of O2 availability on NO an N2O release by nitrification and denitrification in soilsEcological Monographs, 4
D. McKinley, JULIO Romero, B. Hungate, B. Drake, J. Megonigal (2009)
Does deep soil N availability sustain long‐term ecosystem responses to elevated CO2?Global Change Biology, 15
B. Kitzler, S. Zechmeister-Boltenstern, C. Holtermann, U. Skiba, K. Butterbach‐Bahl (2005)
Controls over N 2 O, NO x and CO 2 fluxes in a calcareous mountain forest soilBiogeosciences, 3
P. Verburg, W. Loon, A. Lükewille (1999)
The CLIMEX soil-heating experiment: soil response after 2 years of treatmentBiology and Fertility of Soils, 28
R. Gasche, H. Papen (2002)
Spatial variability of NO and NO2 flux rates from soil of spruce and beech forest ecosystemsPlant and Soil, 240
G. Bauer, G. Berntson (2001)
Ammonium and nitrate acquisition by plants in response to elevated CO2 concentration: the roles of root physiology and architecture.Tree physiology, 21 2-3
N. Wirén, Sonia Gazzarrini, A. Gojon, Wolf Frommer (2000)
The molecular physiology of ammonium uptake and retrieval.Current opinion in plant biology, 3 3
H. BassiriRad, S.A. Prior, R.J. Norby, H.H. Rogers (1999)
A field method of determining NH4+ and NO3‐ uptake kinetics in intact roots: Effects of CO2 enrichment on trees and crop speciesTree Physiology, 217
S. Schmidt, G. Stewart (1999)
Glycine metabolism by plant roots and its occurrence in Australian plant communitiesAustralian Journal of Plant Physiology, 26
S. Chapman, A. Langley, S. Hart, G. Koch (2006)
Plants actively control nitrogen cycling: uncorking the microbial bottleneck.The New phytologist, 169 1
P. Cudlin, B. Kieliszewska‐Rojucka, M. Rudawska, T. Grebenc, O. Alberton, T. Lehto, M.R. Bakker, I. Borja, B. Konopka, T. Leski, H. Kraigher, T.W. Kuyper (2007)
Fine roots and ectomycorrhizas as indicators of environmental changePlant and Soil, 141
S.C. Hart (2006)
Potential impacts of climate change on nitrogen transformations and greenhouse gas fluxes in forests: a soil transfer studySoil Biology and Biochemistry, 12
Z. Cai (2002)
Ammonium transformation in paddy soils affected by the presence of nitrateNutrient Cycling in Agroecosystems, 63
A. Glass, M. Siddiqi, T. Ruth, T. Rufty (1990)
Studies of the Uptake of Nitrate in Barley : II. Energetics.Plant physiology, 93 4
J. Christensen, O. Christensen (2003)
Climate modelling: Severe summertime flooding in EuropeNature, 421
F.S. Gilliam, B.M. Yurish, M.B. Adams (2001)
Temporal and spatial variation of nitrogen transformations in nitrogen‐saturated soils of a central Appalachian hardwood forestPlant Physiology, 31
A. Austin (2002)
DIFFERENTIAL EFFECTS OF PRECIPITATION ON PRODUCTION AND DECOMPOSITION ALONG A RAINFALL GRADIENT IN HAWAIIEcology, 83
F. Giorgi, X. Bi, J. Pal (2004)
Mean interannual and trends in a regional climate change experiment over Europe. II: Climate Change scenarios (2071–2100)Journal of Plant Nutrition and Soil Sciences, 23
R. Evans, J. Ehleringer (1994)
Water and nitrogen dynamics in an arid woodlandOecologia, 99
R. Bardgett, T. Streeter, R. Bol (2003)
SOIL MICROBES COMPETE EFFECTIVELY WITH PLANTS FOR ORGANIC‐NITROGEN INPUTS TO TEMPERATE GRASSLANDSEcology, 84
E. Kjellström, L. Bärring, D. Jacob, Richard Jones, G. Lenderink, C. Schär (2007)
Modelling daily temperature extremes: recent climate and future changes over EuropeClimatic Change, 81
P. Satti, M. Mazzarino, M. Gobbi, F. Funes, Lucía Roselli, Horacio Fernández (2003)
Soil N dynamics in relation to leaf litter quality and soil fertility in north‐western Patagonian forestsJournal of Ecology, 91
F. Chapin, G. Shaver, A. Giblin, K. Nadelhoffer, J. Laundre (1995)
Responses of Arctic Tundra to Experimental and Observed Changes in ClimateEcology, 76
J. Schimel, T. Balser, M. Wallenstein (2007)
Microbial stress-response physiology and its implications for ecosystem function.Ecology, 88 6
C. Neill, M. Piccolo, J. Melillo, P. Steudler, C. Cerri (1999)
Nitrogen dynamics in Amazon forest and pasture soils measured by 15N pool dilutionSoil Biology & Biochemistry, 31
M. Dannenmann, R. Gasche, H. Papen (2007)
Nitrogen turnover and N2O production in the forest floor of beech stands as influenced by forest managementJournal of Plant Nutrition and Soil Science, 170
H. Kunstmann, K. Schneider, R. Forkel, R. Knoche (2004)
Impact analysis of climate change for an Alpine catchment using high resolution dynamic downscaling of ECHAM4 time slicesHydrology and Earth System Sciences, 8
(1994)
Detecting anthropogenic climate change
Charles Warren, Paul Adams (2007)
Uptake of nitrate, ammonium and glycine by plants of Tasmanian wet eucalypt forests.Tree physiology, 27 3
H. Marschner (1988)
Mineral Nutrition of Higher Plants
M. Siddiqi, '. AnthonyD.M.Glass, T. Ruth, T. Rufty (2005)
Studies of the Uptake of Nitrate in Barley 1. Kinetics of 13N03- Influx
D. Johnson, D. Todd, P. Hanson (2008)
Effects of throughfall manipulation on soil nutrient status: results of 12 years of sustained wet and dry treatmentsGlobal Change Biology, 14
W. Billings, J. Luken, David Mortensen, K. Peterson (1983)
Increasing atmospheric carbon dioxide: possible effects on arctic tundraOecologia, 58
N.M. Fotelli, P. Rudolph, H. Rennenberg, A. Gessler (2005)
Irradiance and temperature affect the competitive interference of blackberry on the physiology of European beech seedlingsBulletin of the Ecological Society of America, 165
B. Haines (1977)
Nitrogen uptakeOecologia, 26
D. Smart, A. Bloom (1991)
Influence of Root NH4+ and NO3- Content on the Temperature Response of Net NH4+ and NO3- Uptake in Chilling Sensitive and Chilling Resistant Lycopersicon TaxaJournal of Experimental Botany, 42
H. Bassirirad, M. Caldwell (1992)
Temporal changes in root growth and 15N uptake and water relations of two tussock grass species recovering from water stressPhysiologia Plantarum, 86
M. Shaw, J. Harte (2001)
Response of nitrogen cycling to simulated climate change: differential responses along a subalpine ecotoneGlobal Change Biology, 7
A. Weigelt, R. Bol, R. Bardgett (2005)
Preferential uptake of soil nitrogen forms by grassland plant speciesOecologia, 142
P. Rayner, M. Scholze, W. Knorr, T. Kaminski, R. Giering, Heiner Widmann (2005)
Two decades of terrestrial carbon fluxes from a carbon cycle data assimilation system (CCDAS)Global Biogeochemical Cycles, 19
K. Butterbach‐Bahl, G. Willibald, H. Papen (2002)
Soil core method for direct simultaneous determination of N2 and N2O emissions from forest soilsPlant and Soil, 240
A. Hodge, David Robinson, A. Fitter (2000)
Are microorganisms more effective than plants at competing for nitrogen?Trends in plant science, 5 7
N.M. Fotelli, H. Rennenberg, A. Gessler (2002)
Effects of drought on the competitive interference of an early successional species (Rubus fruticosus) on Fagus sylvatica L. seedlings: 15N uptake and partitioning, responses of amino acids and other N compoundsNew Phytologist, 4
F. Giorgi, X. Bi, J. Pal (2004)
Mean, interannual variability and trends in a regional climate change experiment over Europe. II: climate change scenarios (2071–2100)Climate Dynamics, 23
A. Hill, M. Shackleton (1989)
Soil N mineralization and nitrification in relation to nitrogen solution chemistry in a small forested watershedBiogeochemistry, 8
A. Gessler, K. Jung, R. Gasche, H. Papen, A. Heidenfelder, E. Börner, B. Metzler, S. Augustin, E. Hildebrand, H. Rennenberg (2005)
Climate and forest management influence nitrogen balance of European beech forests: microbial N transformations and inorganic N net uptake capacity of mycorrhizal rootsClimate Dynamics, 124
M. Dannenmann, J. Simon, R. Gasche, J. Holst, Pascale Naumann, I. Kögel‐Knabner, H. Knicker, H. Mayer, M. Schloter, Rodica Pena, A. Polle, H. Rennenberg, H. Papen (2009)
Tree girdling provides insight on the role of labile carbon in nitrogen partitioning between soil microorganisms and adult European beechSoil Biology & Biochemistry, 41
J. Kreuzwieser, Jost Hauberg, K. Howell, Adam Carroll, H. Rennenberg, A. Millar, J. Whelan (2008)
Differential Response of Gray Poplar Leaves and Roots Underpins Stress Adaptation during Hypoxia1[W]Plant Physiology, 149
E. Schuur (2001)
The Effect of Water on Decomposition Dynamics in Mesic to Wet Hawaiian Montane ForestsEcosystems, 4
(1993)
Klimatrend-Atlas Europa 1891–1990Umweltwissenschaften und Schadstoff-Forschung, 5
A. Gessler, S. Kopriva, H. Rennenberg (2004)
Regulation of nitrate uptake at the whole‐tree level: Interaction between nitrogen compounds, cytokinins and carbon metabolismCanadian Journal of Forest Research, 24
J. Schimel, F. Chapin (1996)
Tundra Plant Uptake of Amino Acid and NH4+ Nitrogen in Situ: Plants Complete Well for Amino Acid NEcology, 77
A. Bárdossy, H. Caspary (1990)
Detection of climate change in Europe by analyzing European atmospheric circulation patterns from 1881 to 1989Theoretical and Applied Climatology, 42
F. Chapin, K. Cleve, P. Tryon (1986)
Relationship of ion absorption to growth rate in taiga treesOecologia, 69
H. Bassirirad (2000)
Kinetics of nutrient uptake by roots: responses to global changeNew Phytologist, 147
A. Hodge (2004)
The plastic plant: root responses to heterogeneous supplies of nutrientsNew Phytologist, 162
M. Dannenmann, J. Simon, R. Gasche, J. Holst, P.S. Naumann, I. Kögel‐Knabner, H. Knicker, H. Mayer, M. Schloter, R. Pena, A. Polle, H. Rennenberg, H. Papen (2009)
Tree girdling provides insight in the role of labile carbon in the competitive balance of N partitioning between soil microorganisms and adult European beechEcological Applications, 41
M. Henrich, K. Haselwandter (1997)
Denitrification and gaseous nitrogen losses from an acid spruce forest soilSoil Biology & Biochemistry, 29
L. Jackson, M. Burger, T. Cavagnaro (2008)
Roots, nitrogen transformations, and ecosystem services.Annual review of plant biology, 59
H. BassiriRad, M.M. Caldwell, C. Bilbrough (1993)
Effects of soil temperature and nitrogen status on kinetics of NO3‐ uptake by roots of field‐grown Agropyron desertorum (Fisch Ex link) SchultPlant and Soil, 123
A. Gessler, S. Kopriva, H. Rennenberg (2004)
Regulation of nitrate uptake at the whole-tree level: interaction between nitrogen compounds, cytokinins and carbon metabolism.Tree physiology, 24 12
N. Wrage, G. Velthof, M. Beusichem, O. Oenema (2001)
Role of nitrifier denitrification in the production of nitrous oxideSoil Biology & Biochemistry, 33
H. BassiriRad (2000)
Kinetics of nutrient uptake by roots: Responses to global changePhysiologia Plantarum, 147
W. Borken, E. Matzner (2009)
Reappraisal of drying and wetting effects on C and N mineralization and fluxes in soilsGlobal Change Biology, 15
M. Heijden, R. Bardgett, N. Straalen (2008)
The unseen majority: soil microbes as drivers of plant diversity and productivity in terrestrial ecosystems.Ecology letters, 11 3
P. Groffman, M. Altabet, J. Böhlke, K. Butterbach‐Bahl, M. David, M. Firestone, A. Giblin, T. Kana, L. Nielsen, M. Voytek (2006)
Methods for measuring denitrification: diverse approaches to a difficult problem.Ecological applications : a publication of the Ecological Society of America, 16 6
A. Gessler, C. Keitel, J. Kreuzwieser, R. Matyssek, W. Seiler, H. Rennenberg (2006)
Potential risks for European beech (Fagus sylvatica L.) in a changing climateTrees, 21
H. BassiriRad, M.M. Caldwell (1992b)
Root growth, osmotic adjustment and NO3‐ uptake during and after a period of drought in Artemisia tridentataNew Phytologist, 19
S.C. Hart, J.M. Stark, E.A. Davidson, M.K. Firestone (1994)
Methods of Soil Analysis, Part 2. Microbiological and Biochemical PropertiesNew Phytologist
P. Vaast, E. Caswell-Chen, R. Zasoski (1998)
Effects of two endoparasitic nematodes (Pratylenchus coffeae and Meloidogyne konaensis) on ammonium and nitrate uptake by Arabica coffee (Coffea arabica L.)Applied Soil Ecology, 10
H. Rennenberg, F. Loreto, A. Polle, F. Brilli, S. Fares, R. Beniwal, A. Gessler (2006)
Physiological responses of forest trees to heat and drought.Plant biology, 8 5
D. Cole (2004)
Soil nutrient supply in natural and managed forestsPlant and Soil, 168-169
(1991)
Redox processes in soils following oxygen depletion
S. Berthrong, A. Finzi (2006)
Amino Acid Cycling in Three Cold-Temperate Forests of the Northeastern USASoil Biology & Biochemistry, 38
G. Robertson, W. Kellogg (1989)
Nitrification and denitrification in humid tropical ecosystems: potential controls on nitrogen retention
Madalynne Schoenfeld (1983)
Seasonal changesDay Care and Early Education, 10
Z. Kundzewicz, M. Radziejewski, I. Pińskwar (2006)
Precipitation extremes in the changing climate of EuropeClimate Research, 31
F. Chapin, N. Fetcher, K. Kielland, K. Everett, A. Linkins (1988)
Productivity and Nutrient Cycling of Alaskan Tundra: Enhancement by Flowing Soil WaterEcology, 69
E. Rastetter (1996)
Validating models of ecosystem response to global changeBioScience, 46
T. Holst, H. Mayer, D. Schindler (2004)
Microclimate within beech stands—part II: thermal conditionsEuropean Journal of Forest Research, 123
J. Stark, M. Firestone (1996)
Kinetic characteristics of ammonium-oxidizer communities in a California oak woodland-annual grasslandSoil Biology & Biochemistry, 28
H. Kronzucker, M. Siddiqi, A. Glass (1995)
Kinetics of NO3- Influx in Spruce, 109
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
M.C. Drew (1991)
Plant Life Under Oxygen Deprivation: Ecology Physiology and BiochemistryEcosystems
M. Nahm, A. Matzarakis, H. Rennenberg, A. Gessler (2006)
Seasonal courses of key parameters of nitrogen, carbon and water balance in European beech (Fagus sylvatica L.) grown on four different study sites along a European North–South climate gradient during the 2003 droughtTrees, 21
P. Cudlín, B. Kieliszewska-Rokicka, M. Rudawska, T. Grebenc, O. Alberton, T. Lehto, M. Bakker, I. Børja, B. Konôpka, T. Leski, H. Kraigher, T. Kuyper (2007)
Fine roots and ectomycorrhizas as indicators of environmental changePlant Biosystems - An International Journal Dealing with all Aspects of Plant Biology, 141
I. Macrae, R. Ancajas (1968)
THE FATE OF NITRATE NITROGEN IN SOME TROPICAL SOILS FOLLOWING SUBMERGENCESoil Science, 105
W. Silver, J. Neff, M. McGroddy, E. Veldkamp, M. Keller, R. Cosme (2000)
Effects of Soil Texture on Belowground Carbon and Nutrient Storage in a Lowland Amazonian Forest EcosystemEcosystems, 3
S. Felten, N. Buchmann, M. Scherer‐Lorenzen (2008)
Preferences for different nitrogen forms by coexisting plant species and soil microbes: comment.Ecology, 89 3
M. Fotelli, H. Rennenberg, A. Geβler (2002)
Effects of Drought on the Competitive Interference of an Early Successional Species (Rubus fruticosus) on Fagus sylvatica L. Seedlings: 15N Uptake and Partitioning, Responses of Amino Acids and other N CompoundsPlant Biology, 4
K. Reddy, W. Patrick (1975)
Effect of alternate aerobic and anaerobic conditions on redox potential, organic matter decomposition and nitrogen loss in a flooded soilSoil Biology & Biochemistry, 7
M.S. Booth, J.M. Stark, E. Rastetter (2005)
Controls on nitrogen cycling in terrestrial ecosystems: A synthetic analysis of literature dataGlobal Change Biology, 75
F. Gilliam, Bradley Yurish, M. Adams (2001)
Temporal and spatial variation of nitrogen transformations in nitrogen-saturated soils of a central Appalachian hardwood forestCanadian Journal of Forest Research, 31
D. Lipson, T. Näsholm (2001)
The unexpected versatility of plants: organic nitrogen use and availability in terrestrial ecosystemsOecologia, 128
A. Gessler, J. Kreuzwieser, R. Matyssek, W. Seiler, H. Rennenberg (2006)
Risks for European beech (Fagus sylvatica L.) in a changing climatePlant Physiology, 21
H. Laanbroek (1990)
Bacterial cycling of minerals that affect plant growth in waterlogged soils: a reviewAquatic Botany, 38
C. Cleveland, A. Townsend, D. Schimel, H. Fisher, R. Howarth, L. Hedin, S. Perakis, Erika Latty, J. Fischer, Adrien Elseroad, Matthew Wasson (1999)
Global patterns of terrestrial biological nitrogen (N2) fixation in natural ecosystemsGlobal Biogeochemical Cycles, 13
A. Bollmann, R. Conrad (1998)
Influence of O2 availability on NO and N2O release by nitrification and denitrification in soilsGlobal Change Biology, 4
B. Hun (2009)
Does deep soil N availability sustain long-term ecosystem responses to elevated CO 2 ?
(1992)
1992b) Root growth, osmotic adjustment and NO3
M. Fotelli, M. Rienks, H. Rennenberg, A. Gessler (2004)
Climate and forest management affect 15N-uptake, N balance and biomass of European beech seedlingsTrees, 18
H. Bassirirad, M. Caldwell (1992)
Root growth, osmotic adjustment and NO3− uptake during and after a period of drought in Artemisia tridentataAustralian Journal of Plant Physiology, 19
T. Raab, D. Lipson, R. Monson (1999)
SOIL AMINO ACID UTILIZATION AMONG SPECIES OF THE CYPERACEAE: PLANT AND SOIL PROCESSESEcology, 80
B. Touraine, Anthony Glass (1997)
NO3- and ClO3- Fluxes in the chl1-5 Mutant of Arabidopsis thaliana (Does the CHL1-5 Gene Encode a Low-Affinity NO3- Transporter?), 114
S. Hart, D. Perry (1999)
Transferring soils from high‐ to low‐elevation forests increases nitrogen cycling rates: climate change implicationsGlobal Change Biology, 5
M. Christenson, H. Manz, D. Gyalistras (2006)
Climate warming impact on degree‐days and building energy demand in SwitzerlandGlobal Biogeochemical Cycles, 47
A.J. Franzluebbers, R.L. Haney, C.W. Honeycutt, M.A. Arshad, H.H. Schomberg, F.M. Hons (2001)
Climatic influences on active fractions of soil organic matterJournal of Geophysical Research, 33
S. Pfautsch, H. Rennenberg, T. Bell, M. Adams (2009)
Nitrogen uptake by Eucalyptus regnans and Acacia spp. - preferences, resource overlap and energetic costs.Tree physiology, 29 3
Oliver Chadwick, R. Gavenda, Eugene Kelly, K. Ziegler, Carolyn Olson, W.Crawford Elliott, David Hendricks (2003)
The impact of climate on the biogeochemical functioning of volcanic soilsChemical Geology, 202
D.W. Cole (1995)
Soil nutrient supply in natural and managed forestsSoil Biology & Biochemistry, 168–169
J. Kreuzwieser, E. Papadopoulou, H. Rennenberg (2004)
Interaction of flooding with carbon metabolism of forest trees.Plant biology, 6 3
P. Polglase, P. Attiwill, M. Adams (1992)
Nitrogen and phosphorus cycling in relation to stand age of Eucalypus regnans F. Muell.Plant and Soil, 142
P. Brooks, D. Campbell, K. Tonnessen, K. Heuer (1999)
Natural variability in N export from headwater catchments: snow cover controls on ecosystem N retentionHydrological Processes, 13
K. Mctiernan, M. Coûteaux, B. Berg, M. Berg, R. Anta, A. Gallardo, W. Kratz, P. Piussi, J. Remacle, A. Santo (2003)
Changes in chemical composition of Pinus sylvestris needle litter during decomposition along a European coniferous forest climatic transect.Soil Biology & Biochemistry, 35
P. Bodelier, H. Duyts, C. Blom, H. Laanbroek (1998)
Interactions between nitrifying and denitrifying bacteria in gnotobiotic microcosms planted with the emergent macrophyte Glyceria maximaFEMS Microbiology Ecology, 25
N. Ohte, N. Tokuchi, Masakazu Suzuki (1997)
An in situ lysimeter experiment on soil moisture influence on inorganic nitrogen discharge from forest soilJournal of Hydrology, 195
M. Islam, S. Macdonald (2011)
Current uptake of 15N-labeled ammonium and nitrate in flooded and non-flooded black spruce and tamarack seedlingsAnnals of Forest Science, 66
J. Sardans (2008)
Drought-Induced Changes in C and N Stoichiometry in a Quercus ilex Mediterranean Forest
B. Zeller, M. Colin-Belgrand, E. Dambrine, F. Martin, P. Bottner (2000)
Decomposition of 15N-labelled beech litter and fate of nitrogen derived from litter in a beech forestOecologia, 123
H. BassiriRad, M.M. Caldwell (1992a)
Temporal changes in root growth and N‐15 uptake and water relations of two tussock grass species recovering from water stressAustralian Journal of Plant Physiology, 86
H. Rennenberg, K. Kreutzer, H. Papen, P. Weber (1998)
Consequences of high loads of nitrogen for spruce (Picea abies) and beech (Fagus sylvatica) forestsNew Phytologist, 139
J. Imsande, B. Touraine (1994)
N Demand and the Regulation of Nitrate Uptake, 105
T. Domisch, L. Finér, J. Laine, R. Laiho (2006)
Decomposition and nitrogen dynamics of litter in peat soils from two climatic regions under different temperature regimesTree Physiology, 42
M. Lucash, Dave Eissenstat, J. Joslin, K. McFarlane, R. Yanai (2007)
Estimating nutrient uptake by mature tree roots under field conditions: challenges and opportunitiesTrees, 21
M. Shaw, J. Harte (2001)
CONTROL OF LITTER DECOMPOSITION IN A SUBALPINE MEADOW-SAGEBRUSH STEPPE ECOTONE UNDER CLIMATE CHANGEEcological Applications, 11
P. Lainé, A. Ourry, J. Macduff, J. Boucaud, J. Salette (1993)
Kinetic parameters of nitrate uptake by different catch crop species: effects of low temperatures or previous nitrate starvationPhysiologia Plantarum, 88
N.M. Fotelli, M. Rienks, H. Rennenberg, A. Gessler (2004)
Climate and forest management affect 15N‐uptake, N balance and biomass of European beech (Fagus sylvatica L.) seedlingsSoil Biology and Biochemistry, 18
P. Parolin, N. Armbrüster, W. Junk (2002)
Seasonal changes of leaf nitrogen content in trees of Amazonian floodplainsActa Amazonica, 32
C. Beier, B.A. Emmett, J. Peñuelas, I.K. Schmidt, A. Tietema, M. Estiarte, P. Gundersen, L. Llorens, T. Riis‐Nielsen, A. Sowerby, A. Gorissen (2008)
Carbon and nitrogen cycles in European ecosystems respond differently to global warmingSoil Biology and Biochemistry, 407
A. Gessler, K. Jung, R. Gasche, H. Papen, A. Heidenfelder, Eric Börner, B. Metzler, S. Augustin, E. Hildebrand, H. Rennenberg (2005)
Climate and forest management influence nitrogen balance of European beech forests: microbial N transformations and inorganic N net uptake capacity of mycorrhizal rootsEuropean Journal of Forest Research, 124
M. Koschorreck, A. Darwich (2003)
Nitrogen dynamics in seasonally flooded soils in the Amazon floodplainWetlands Ecology and Management, 11
F. Chapin, Lori Moilanen, K. Kielland (1993)
Preferential use of organic nitrogen for growth by a non-mycorrhizal arctic sedgeNature, 361
M. Dannenmann, R. Gasche, H. Papen (2007)
Nitrogen turnover and N2O production in the forest floor of beech stands as influenced by forest managementSoil Biology and Biochemistry, 170
Keith Smith, T. Ball, F. Conen, K. Dobbie, J. Massheder, A. Rey (2003)
Exchange of greenhouse gases between soil and atmosphere: interactions of soil physical factors and biological processesEuropean Journal of Soil Science, 54
H. Marschner, M. Häussling, E. George (1991)
Ammonium and nitrate uptake rates and rhizosphere pH in non-mycorrhizal roots of Norway spruce [Picea abies (L.) Karst.]Trees, 5
Lanbo Shi, M. Guttenberger, I. Kottke, R. Hampp (2002)
The effect of drought on mycorrhizas of beech (Fagus sylvatica L.): changes in community structure, and the content of carbohydrates and nitrogen storage bodies of the fungiMycorrhiza, 12
W. Cookson, M. Osman, P. Marschner, D. Abaye, I. Clark, D. Murphy, E. Stockdale, C. Watson (2007)
Controls on soil nitrogen cycling and microbial community composition across land use and incubation temperatureSoil Biology & Biochemistry, 39
B. Alaoui-Sossé, Bastien Gérard, P. Binet, Marie-Laure Toussaint, P. Badot (2005)
Influence of flooding on growth, nitrogen availability in soil, and nitrate reduction of young oak seedlings (Quercus robur L.)Annals of Forest Science, 62
W. Patrick, R. Wyatt (1964)
Soil Nitrogen Loss as a Result of Alternate Submergence and Drying 1Soil Science Society of America Journal, 28
J. Kreuzwieser, S. Fürniss, H. Rennenberg (2002)
Impact of waterlogging on the N‐metabolism of flood tolerant and non‐tolerant tree speciesPlant Cell and Environment, 25
P.D. Brooks, D.H. Campbell, K.A. Tonnessen, K. Heuer (1999)
Natural variability in N export from headwater catchments: snow cover controls on ecosystem N retentionPlant and Soil, 13
B. Lundgren, B. Söderström (1983)
Bacterial numbers in a pine forest soil in relation to environmental-factorsSoil Biology & Biochemistry, 15
(1991)
Oxygen deficiency in the root environment and plant mineral nutrition
T. Näsholm, K. Kielland, Ulrika Ganeteg (2009)
Uptake of organic nitrogen by plants.The New phytologist, 182 1
G. Marion, G. Henry, D. Freckman, Jill Johnstone, G. Jones, M. Jones, Esther Lévesque, Ulf Molau, P. Mølgaard, Andrew Parsons, J. Svoboda, Ross Virginia (1997)
Open‐top designs for manipulating field temperature in high‐latitude ecosystemsGlobal Change Biology, 3
G. Lovett, K. Weathers, M. Arthur, J. Schultz (2004)
Nitrogen cycling in a northern hardwood forest: Do species matter?Biogeochemistry, 67
P. Millard (1996)
Ecophysiology of the internal cycling of nitrogen for tree growthJournal of Plant Nutrition and Soil Science, 159
M. Siddiqi, A. Glass, T. Ruth, T. Rufty (1990)
Studies of the Uptake of Nitrate in Barley: I. Kinetics of NO(3) Influx.Plant physiology, 93 4
M. Dannenmann, R. Gasche, A. Ledebuhr, H. Papen (2006)
Effects of forest management on soil N cycling in beech forests stocking on calcareous soilsPlant and Soil, 287
E. Davidson, S. Hart, M. Firestone (1992)
Internal Cycling of Nitrate in Soils of a Mature Coniferous ForestEcology, 73
P. Brooks, M. Williams (1999)
Snowpack controls on nitrogen cycling and export in seasonally snow-covered catchmentsHydrological Processes, 13
A. Nordin, I. Schmidt, G. Shaver (2004)
NITROGEN UPTAKE BY ARCTIC SOIL MICROBES AND PLANTS IN RELATION TO SOIL NITROGEN SUPPLYEcology, 85
W. Armstrong (1982)
Environment and Plant EcologyEcology
Raphael Mainiero, M. Kazda (2006)
Depth-related fine root dynamics of Fagus sylvatica during exceptional droughtForest Ecology and Management, 237
R. Mcintyre, M. Adams, P. Grierson (2009)
Nitrogen mineralization potential in rewetted soils from a semi-arid stream landscape, north-west AustraliaJournal of Arid Environments, 73
(2001)
Soil nitrogen form
Kawak Volcano, L. Jones, S. Depositional (1998)
Boreal forest plants take up organic nitrogen
C. Frei, R. Schöll, S. Fukutome, J. Schmidli, P. Vidale (2006)
Future change of precipitation extremes in Europe: Intercomparison of scenarios from regional climate modelsJournal of Geophysical Research, 111
A.D.M. Glass, J.E. Shaff, L.V. Kochian (1992)
Studies of the uptake of nitrate in barley. 4. ElectrophysiologyNew Phytologist, 99
M. Dannenmann, K. Butterbach‐Bahl, R. Gasche, G. Willibald, H. Papen (2008)
Dinitrogen emissions and the N2:N2O emission ratio of a Rendzic Leptosol as influenced by pH and forest thinningSoil Biology & Biochemistry, 40
J. Räisänen, J. Räisänen, Ulf Hansson, A. Ullerstig, R. Döscher, L. Graham, Colin Jones, H. Meier, P. Samuelsson, U. Willén (2004)
European climate in the late twenty-first century: regional simulations with two driving global models and two forcing scenariosClimate Dynamics, 22
K. Kielland, J. McFarland, R. Ruess, K. Olson (2007)
Rapid Cycling of Organic Nitrogen in Taiga Forest EcosystemsEcosystems, 10
A. Gessler, S. Schrempp, A. Matzarakis, H. Mayer, H. Rennenberg, M.A. Adams (2001)
Radiation modifies the effect of water availability on the carbon isotope composition of beech (Fagus sylvatica)European Journal of Forest Research, 150
J. Kaye, S. Hart (1997)
Competition for nitrogen between plants and soil microorganisms.Trends in ecology & evolution, 12 4
P. Millard, M. Proe (1992)
Storage and internal cycling of nitrogen in relation to seasonal growth of Sitka spruce.Tree physiology, 10 1
A.D.M. Glass, M.Y. Siddiqi, T.J. Ruth, T.W. Rufty (1990)
Studies of the uptake of nitrate in barley. 2. EnergeticsJournal of Experimental Botany, 93
A. Gobert, C. Plassard (2002)
Differential NO3‐ dependent patterns of NO3‐ uptake in Pinus pinaster, Rhizopogom roseolis and their ectomycorrhizal associationGlobal Change Biology, 154
C. Ivans, C. Ivans, A. Leffler, Usha Spaulding, J. Stark, R. Ryel, M. Caldwell (2003)
Root responses and nitrogen acquisition by Artemisia tridentata and Agropyron desertorum following small summer rainfall eventsOecologia, 134
Romain Barnard, P. Leadley, B. Hungate (2005)
Global change, nitrification, and denitrification: A reviewGlobal Biogeochemical Cycles, 19
F. Carswell, P. Millard, G. Rogers, D. Whitehead (2003)
Influence of nitrogen and phosphorus supply on foliage growth and internal recycling of nitrogen in conifer seedlings (Prumnopitys ferruginea).Functional plant biology : FPB, 30 1
A. Gessler, S. Schneider, Dominik Sengbusch, P. Weber, Ulrike Hanemann, C. Huber, A. Rothe, K. Kreutzer, H. Rennenberg (1998)
Field and laboratory experiments on net uptake of nitrate and ammonium by the roots of spruce (Picea abies) and beech (Fagus sylvatica) trees.The New phytologist, 138 2
W. Borken, E. Matzner (2009)
Reappraisal of drying and wetting effects on C and N mineralization and fluxes in soilsHydrological Processes, 15
K. Harrison, R. Bol, R. Bardgett (2008)
Preferences for different nitrogen forms by coexisting plant species and soil microbes.Ecology, 88 4
E. Davidson, S. Hart, C. Shanks, M. Firestone (1991)
Measuring gross nitrogen mineralization, and nitrification by 15 N isotopic pool dilution in intact soil coresEuropean Journal of Soil Science, 42
G. Holtgrieve, Peter Jewett, P. Matson (2005)
Variations in soil N cycling and trace gas emissions in wet tropical forestsOecologia, 146
S. Jonasson, Mats Havström, M. Jensen, T. Callaghan (1993)
In situ mineralization of nitorgen and phosphorus of arctic soils after perturbations simulating climate changeOecologia, 95
A. Bardossy, H.J. Caspary (1990)
Detection of climate change in Europe by analyzing European atmospheric circulation patterns from 1881 to 1989Global Biogeochemical Cycles, 42
K. Kielland (1994)
Amino Acid Absorption by Arctic Plants: Implications for Plant Nutrition and Nitrogen CyclingEcology, 75
William Peterjohn, J. Melillo, P. Steudler, K. Newkirk, F. Bowles, J. Aber (1994)
Responses of Trace Gas Fluxes and N Availability to Experimentally Elevated Soil TemperaturesEcological Applications, 4
C. Scheer, R. Wassmann, K. Butterbach‐Bahl, J. Lamers, C. Martius (2008)
The relationship between N2O, NO, and N2 fluxes from fertilized and irrigated dryland soils of the Aral Sea Basin, UzbekistanPlant and Soil, 314
D. Lipson, R. Monson (1998)
Plant-microbe competition for soil amino acids in the alpine tundra: effects of freeze-thaw and dry-rewet eventsOecologia, 113
E. Davidson, S. Seitzinger (2006)
The enigma of progress in denitrification research.Ecological applications : a publication of the Ecological Society of America, 16 6
J. Nijburg, H. Laanbroek (1997)
The influence of Glyceria maxima and nitrate input on the composition and nitrate metabolism of the dissimilatory nitrate-reducing bacterial communityFEMS Microbiology Ecology, 22
K. Nadelhoffer, J. Aber, J. Melillo (1984)
Seasonal patterns of ammonium and nitrate uptake in nine temperate forest ecosystemsPlant and Soil, 80
M. Cui, M. Caldwell (1997)
A large ephemeral release of nitrogen upon wetting of dry soil and corresponding root responses in the fieldPlant and Soil, 191
M. Perry, R. Mitchell, B. Zutter, G. Glover, D. Gjerstad (1994)
Seasonal variation in competitive effect on water stress and pine responsesCanadian Journal of Forest Research, 24
C.C. Cleveland, A.R. Townsend, D.S. Schimel, H. Fisherm, R.W. Howarthm, L.O. Hedin, S.S. Perakis, E.F. Latty, J.C. Von Fischer, A. Elseroad, M.F. Wasson (1999)
Global patterns of terrestrial biological nitrogen (N2) fixation in natural ecosystemsPlant and Soil, 13
E.A. Davidson, S.C. Hart, C.A. Shanks, M.K. Firestone (1991)
Measuring gross nitrogen mineralization, immobilization, and nitrification by 15N isotopic pool dilution in intact soil coresEcology, 42
P. Ineson, K. Taylor, A. Harrison, J. Poskitt, D. Benham, E. Tipping, C. Woof (1998)
Effects of climate change on nitrogen dynamics in upland soils. 1. A transplant approachGlobal Change Biology, 4
H. Bassirirad, M. Caldwell, C. Bilbrough (1993)
Effects of soil temperature and nitrogen status on kinetics of 15 NO3 - uptake by roots of field-grown Agropyron desertorum (Fisch. ex Link) Schult.The New phytologist, 123 3
J.H. Christensen, O.B. Christensen (2003)
Severe summertime flooding in EuropeEnergy Conversion and Management, 421
M. Cerezo, P. Tillard, A. Gojon, E. Primo-millo, P. García-Agustín (2001)
Characterization and regulation of ammonium transport systems in Citrus plantsPlanta, 214
K. Backes, C. Leuschner (2000)
Leaf water relations of competitive Fagus sylvatica and Quercus petraea trees during 4 years differing in soil droughtCanadian Journal of Forest Research, 30
H.F. Birch (1960)
Nitrification in soils after different periods of drynessFEMS Microbiology Ecology, 12
(1991)
Competition mechanisms between pines, hardwoods and herbaceous vegetation in a field replacement series experiment
H. Bassirirad, S. Prior, R. Norby, H. Rogers (2004)
A field method of determining NH4+ and NO3- uptake kinetics in intact roots: Effects of CO2 enrichment on trees and crop speciesPlant and Soil, 217
A. Gessler, S. Schneider, D. Von Sengbusch, P. Weber, U. Hanemann, C. Huber, A. Rothe, K. Kreutzer, H. Rennenberg (1998)
Field and laboratory experiments on net uptake of nitrate and ammonium by the roots of spruce (Picea abies) and beech (Fagus sylvatica) treesTree Physiology, 138
M. Dannenmann, R. Gasche, A. Ledebuhr, H. Papen (2006)
Effects of forest management on soil N cycling in beech forest stocking on calcareous soilsJournal of Plant Nutrition and Soil Science – Zeitschrift fur Pflanzenernährung und Bodenkunde, 287
M. Corre, Ronald Schnabel, William Stout (2002)
Spatial and seasonal variation of gross nitrogen transformations and microbial biomass in a Northeastern US grasslandSoil Biology & Biochemistry, 34
L. Verchot, Z. Holmes, L. Mulon, P. Groffman, G. Lovett (2001)
Gross vs net rates of N mineralization and nitrification as indicators of functional differences between forest typesSoil Biology & Biochemistry, 33
S. Hart (2006)
Potential impacts of climate change on nitrogen transformations and greenhouse gas fluxes in forests: a soil transfer studyGlobal Change Biology, 12
A. Bollmann, R. Conrad (1997)
Acetylene blockage technique leads to underestimation of denitrification rates in oxic soils due to scavenging of intermediate nitric oxideSoil Biology & Biochemistry, 29
R. Norby, N. Edwards, J. Riggs, C. Abner, S. Wullschleger, C. Gunderson (1997)
Temperature‐controlled open‐top chambers for global change researchGlobal Change Biology, 3
D. Periods, OF Dryness, H. Irch (2005)
Nitrification in soils after different periods of drynessPlant and Soil, 12
Philippe Malagoli, P. Lainé, E. Deunff, L. Rossato, B. Ney, A. Ourry (2004)
Modeling Nitrogen Uptake in Oilseed Rape cv Capitol during a Growth Cycle Using Influx Kinetics of Root Nitrate Transport Systems and Field Experimental DataPlant Physiology, 134
A. Gobert, C. Plassard (2002)
Differential NO3 - dependent patterns of NO3 - uptake in Pinus pinaster, Rhizopogon roseolus and their ectomycorrhizal association.The New phytologist, 154 2
J. Galloway, F. Dentener, D. Capone, E. Boyer, R. Howarth, S. Seitzinger, G. Asner, C. Cleveland, P. Green, E. Holland, D. Karl, Anthony Michaels, J. Porter, A. Townsend, C. Vörösmarty (2004)
Nitrogen Cycles: Past, Present, and FutureBiogeochemistry, 70
C. Warren (2006)
Potential organic and inorganic N uptake by six Eucalyptus species.Functional plant biology : FPB, 33 7
B. Konôpka, K. Noguchi, T. Sakata, Masamichi Takahashi, Z. Konôpková (2007)
Effects of simulated drought stress on the fine roots of Japanese cedar (Cryptomeria japonica) in a plantation forest on the Kanto Plain, eastern JapanJournal of Forest Research, 12
A. Finzi, S. Berthrong (2005)
THE UPTAKE OF AMINO ACIDS BY MICROBES AND TREES IN THREE COLD‐TEMPERATE FORESTSEcology, 86
F. Martin, A. Aerts, D. Ahrén, A. Brun, E. Danchin, Martín, F. Aerts, A. Ahren, D. Brun, Antoine Danchin, E. Duchaussoy, F. Gibon, J. Kohler, A. Lindquist, E. Pereda, V. Salamov, A. Shapiro, H. Wuyts, J. Blaudez, D. Buee, M. Brokstein, P. Canback, B. Cohen, D. Courty, P. Coutinho, P. Delaruelle, C. Detter, J. Deveau, A. Difazio, S. Duplessis, S. Fraissinet-Tachet, L. Lučić, E. Frey-Klett, P. Fourrey, C. Feußner, I. Gay, G. Grimwood, J. Hoegger, P. Jain, P. Kilaru, S. Labbé, J. Lin, Y. Legue, L. Tacon, F. Marmeisse, R. Melayah, D. Montanini, B. Muratet, M. Nehls, U. Niculita-Hirzel, Oudot-Le Secq, M. Peter, H. Quesneville, B. Rajashekar, N. Reich, J. Schmutz, T. Yin, M. Chalot, B. Henrissat, U. Kues, S. Lucas, Y. Peer, G. Podila, A. Polle, P. Pukkila, P. Richardson, P. Rouzé, I. Sanders, J. Stajich, A. Tunlid, G. Tuskan, I. Grigoriev (2008)
The genome of Laccaria bicolor provides insights into mycorrhizal symbiosisNature, 452
J. Harte, R. Shaw (1995)
Shifting Dominance Within a Montane Vegetation Community: Results of a Climate-Warming ExperimentScience, 267
A. Glass, Dev Brito, B. Kaiser, H. Kronzucker, Anshuman Kumar, M. Okamoto, S. Rawat, M. Siddiqi, Salim Silim, J. Vidmar, D. Zhuo (2001)
Nitrogen transport in plants, with an emphasis on the regulation of fluxes to match plant demand, 164
P. Polglase, P. Attiwill (1992)
Nitrogen and phosphorus cycling in relation to stand age of Ecucalyptus regnans F. MuellPlant and Soil, 142
K. Butterbach‐Bahl, G. Willibald, H. Papen (2002)
Soil core method for direct simultaneous determination of N2 and N2O emissions from forest soilsNutrient Cycling in Agrosystems, 240
C. Frei, R. Schöll, S. Fukutome, J. Schmidli, P.L. Vidale (2006)
Future changes of precipitation extremes in Europe: Intercomparison of scenarios from regional modelsPlant and Soil, 111
B. Houlton, Ying‐ping Wang, P. Vitousek, C. Field (2008)
A unifying framework for dinitrogen fixation in the terrestrial biosphereNature, 454
M. Christenson, H. Manz, D. Gyalistras (2006)
Climate warming impact on degree-days and building energy demand in SwitzerlandEnergy Conversion and Management, 47
T. Wallenda, D. Read (1999)
Kinetics of amino acid uptake by ectomycorrhizal rootsPlant Cell and Environment, 22
A. Glass, J. Shaff, L. Kochian (1992)
Studies of the Uptake of Nitrate in Barley : IV. Electrophysiology.Plant physiology, 99 2
C. Plassard, P. Scheromm, D. Mousain, L. Salsac (1991)
Assimilation of mineral nitrogen and ion balance in the two partners of ectomycorrhizal symbiosis: Data and hypothesisExperientia, 47
T. Näsholm, J. Persson (2001)
Plant acquisition of organic nitrogen in boreal forests.Physiologia plantarum, 111 4
R. Alley, T. Berntsen, N. Bindoff, Zhenlin Chen, A. Chidthaisong, P. Friedlingstein, J. Gregory, G. Hegerl, M. Heimann, B. Hewitson, B. Hoskins, F. Joos, J. Jouzel, V. Kattsov, U. Lohmann, M. Manning, T. Matsuno, M. Molina, N. Nicholls, J. Overpeck, D. Qin, G. Raga, V. Ramaswamy, Jiawen Ren, M. Rusticucci, S. Solomon, R. Somerville, T. Stocker, P. Stott, R. Stouffer, P. Whetton, R. Wood, D. Wratt, J. Arblaster, G. Brasseur, J. Christensen, K. Denman, D. Fahey, P. Forster, E. Jansen, P. Jones, R. Knutti, H. Treut, P. Lemke, G. Meehl, P. Mote, D. Randall, D. Stone, K. Trenberth, J. Willebrand, F. Zwiers (2007)
Climate Change 2007: The Physical Science Basis
K. Larson, B. Schaffer, F. Davies, C. Sanchez (1992)
Flooding, mineral nutrition and gas exchange of mango treesScientia Horticulturae, 52
D. Ross, G. Lawrence, G. Fredriksen (2004)
Mineralization and nitrification patterns at eight northeastern USA forested research sitesForest Ecology and Management, 188
C. Beier, B. Emmett, J. Peñuelas, I. Schmidt, A. Tietema, M. Estiarte, P. Gundersen, L. Llorens, T. Riis‐Nielsen, A. Sowerby, A. Gorissen (2008)
Carbon and nitrogen cycles in European ecosystems respond differently to global warming.The Science of the total environment, 407 1
T. Domisch, L. Finér, J. Laine, R. Laiho (2006)
Decomposition and nitrogen dynamics of litter in peat soils from two climatic regions under different temperature regimesEuropean Journal of Soil Biology, 42
M. Fotelli, P. Rudolph, H. Rennenberg, A. Gessler (2004)
Irradiance and temperature affect the competitive interference of blackberry on the physiology of European beech seedlings.The New phytologist, 165 2
F. Ponnamperuma (1984)
CHAPTER 2 – Effects of Flooding on Soils
P. Bodelier, H. Duyts, C.W.P.M. Bloom, H. Laanbroek (1998)
Interactions between nitrifying and denitrifying bacteria in gnotobiotic microcosms planted with the emergent macrophyte Glyceria maximaSoil Biology & Biochemistry, 25
R. Barnard, P.W. Leadley, B.A. Hungate (2005)
Global change, nitrification, and denitrification: A reviewNew Phytologist, 19
D. Stephens, P. Millard, M. Turnbull, D. Whitehead (2001)
The influence of nitrogen supply on growth and internal recycling of nitrogen in young Nothofagus fusca treesFunctional Plant Biology, 28
Gemma Camañes, M. Cerezo, E. Primo-millo, A. Gojon, P. García-Agustín (2008)
Ammonium transport and CitAMT1 expression are regulated by N in Citrus plantsPlanta, 229
E.A. Davidson, S. Seitzinger (2006)
The enigma of progress in denitrification researchJournal of Soil Science, 16
J. Schimel, Jennifer Bennett (2004)
NITROGEN MINERALIZATION: CHALLENGES OF A CHANGING PARADIGMEcology, 85
Mary Booth, J. Stark, E. Rastetter (2005)
CONTROLS ON NITROGEN CYCLING IN TERRESTRIAL ECOSYSTEMS: A SYNTHETIC ANALYSIS OF LITERATURE DATAEcological Monographs, 75
R. Behl, R. Tischner, K. Raschke (1988)
Induction of a high-capacity nitrate-uptake mechanism in barley roots prompted by nitrate uptake through a constitutive low-capacity mechanismPlanta, 176
W. Landman (2010)
Climate change 2007: the physical science basisSouth African Geographical Journal, 92
S. Allison, K. Treseder (2008)
Warming and drying suppress microbial activity and carbon cycling in boreal forest soilsGlobal Change Biology, 14
B. Vartapetian, M. Jackson (1997)
Plant adaptations to anaerobic stressAnnals of Botany, 79
I. Ostonen, K. Lõhmus, K. Pajuste (2005)
Fine root biomass, production and its proportion of NPP in a fertile middle-aged Norway spruce forest: Comparison of soil core and ingrowth core methodsForest Ecology and Management, 212
M. Okamoto, J. Vidmar, Anthony Glass (2003)
Regulation of NRT1 and NRT2 gene families of Arabidopsis thaliana: responses to nitrate provision.Plant & cell physiology, 44 3
A. Bollmann, R. Conrad (1997)
Acetylene blockage technique leads to underestimation of denitrification rates in oxic soils due to scavenging of intermediate nitric oxideGlobal Change Biology, 29
A. Gessler, J. Kreuzwieser, T. Dopatka, H. Rennenberg (2002)
Diurnal courses of ammonium net uptake by the roots of adult beech (Fagus sylvatica) and spruce (Picea abies) treesPlant and Soil, 240
A. Gessler, S. Schrempp, A. Matzarakis, H. Mayer, H. Rennenberg, M. Adams (2001)
Radiation modifies the effect of water availability on the carbon isotope composition of beech (Fagus sylvatica)New Phytologist, 150
L. Kueppers, J. Southon, P. Baer, J. Harte (2004)
Dead wood biomass and turnover time, measured by radiocarbon, along a subalpine elevation gradientOecologia, 141
M. Quartieri, P. Millard, M. Tagliavini (2002)
Storage and remobilisation of nitrogen by pear (Pyrus communis L.) trees as affected by timing of N supplyEuropean Journal of Agronomy, 17
A. Franzluebbers, R. Haney, C. Honeycutt, M. Arshad, H. Schomberg, F. Hons (2001)
Climatic influences on active fractions of soil organic matterSoil Biology & Biochemistry, 33
Forest ecosystems with low soil nitrogen (N) availability are characterized by direct competition for this growth‐limiting resource between several players, i.e. various components of vegetation, such as old‐growth trees, natural regeneration and understorey species, mycorrhizal fungi, free‐living fungi and bacteria. With the increase in frequency and intensity of extreme climate events predicted in current climate change scenarios, also competition for N between plants and/or soil microorganisms will be affected. In this review, we summarize the present understanding of ecosystem N cycling in N‐limited forests and its interaction with extreme climate events, such as heat, drought and flooding. More specifically, the impacts of environmental stresses on microbial release and consumption of bioavailable N, N uptake and competition between plants, as well as plant and microbial uptake are presented. Furthermore, the consequences of drying–wetting cycles on N cycling are discussed. Additionally, we highlight the current methodological difficulties that limit present understanding of N cycling in forest ecosystems and the need for interdisciplinary studies.
Plant Biology – Wiley
Published: Nov 1, 2009
Keywords: ; ; ; ; ; ; ;
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