Peer-reviewed publications

 Break neu

  • Cai, D., Henehan,M.J., Uhlig, D., von Blanckenburg, F.: Mg isotope composition of runoff is buffered by the regolith exchangeable pool. Geochimica et Cosmochimica Acta, 321, 99-114 (2022). doi:10.1016/j.gca.2022.01.011

  • Prietzel, J., Krüger, J., Kaiser, K., Amelung, W., Bauke, S.L., Dippold, M.A., Kandeler, E., Klysubun, W., Lewandowski, H.,  Löppmann, S., Luster, J., Marhan, S., Puhlmann, H., Schmitt, M., Siegenthaler, M.B., Siemens, J.,  Spielvogel, S., Willbold, S., Wolff, J., Lang, F.: Soil phosphorus status and P nutrition strategies of European beech forests on carbonate compared to silicate parent material. Biogeochemistry, (2022). doi:10.1007/s10533-021-00884-7

  • Siegenthaler, M.B., Ramoneda, J., Frossard, E., ´Eva Mészáros, E.: Microbial community responses to phosphorus and nitrogen inputs in the organic soil horizons of two contrasting temperate beech forests. Applied Soil Ecology, Vol. 172, Article 104357(2022). doi:10.1016/j.apsoil.2021.104357

  • Schmitt, M., Jarosch, K.A., Hertel, R., Spielvogel, S., Dippold, M.A., Loeppmann, S.: Manufacturing triple-isotopically labeled microbial necromass to track C, N and P cycles in terrestrial ecosystems. Applied Soil Ecology, Vol. 171, Article 104322 (2022). doi:10.1016/j.apsoil.2021.104322

  • Andrino, A., Guggenberger, G., Kernchen, S., Mikutta, R., Sauheitl, L., Boy, J.: Production of Organic Acids by Arbuscular Mycorrhizal Fungi and Their Contribution in the Mobilization of Phosphorus. Froniers in Plant Sci.ence, 12, 661842 (2021). doi:10.3389/fpls.2021.661842

  • Bilyera, N., Dippold, M.A., Bleicher, J., Maranguit, D., Kuzyakov, Y., Blagodatskaya, E.: Microbial tradeoffs in internal and external use of resources regulated by phosphorus and carbon availability, European Journal of Soil Biology, 106, 103353 (2021). doi:10.1016/j.ejsobi.2021.103353

  • Clausing, S., Likulunga, L.E.,  Janz, D., Feng, H.Y.,  Schneider, S., Daniel, R., Krüger, J., Lang, F., Polle; A.: Impact of nitrogen and phosphorus addition on resident soil and root mycobiomes in beech forests, Biology and Fertility of Soils (2021). doi:10.1007/s00374-021-01593-x

  • Clausing, S., Pena, R., Song, B., Müller, K., Mayer‐Gruner, P.,  Marhan, S., Grafe, M., Schulz, S., Krüger, J., Lang, F., Schloter, M., Kandeler, E., Polle, A.: Carbohydrate depletion in roots impedes phosphorus nutrition in young forest trees. New Phytologist, 229(5), 2611-2624 (2021). doi:10.1111/nph.17058

  • Fetzer, J., Loeppmann, S., Frossard, E., Manzoor, A., Brödlin, D., Kaiser, K., Hagedorn, F.: Leaching of Phosphomonoesterase Activities in Beech Forest Soils: Consequences for Phosphorus Forms and Mobility. Frontiers in Forest and Global Change, Vol. 4, Article 684069 (2021). doi:10.3389/ffgc.2021.684069

  • Ganta, P.G., Kühn, O, Ahmed, A.A.: Ab Initio Molecular Dynamics Simulations of the Interaction between Organic Phosphates and Goethite. Molecules, 26, Article 160 (2021). doi:10.3390/molecules26010160

  • Ganta, P.G.,  Morshedizad, M., Kühn, O, Leinweber, P., Ahmed, A.A.: The Binding of Phosphorus Species at Goethite: A Joint Experimental and Theoretical Study. Minerals, 11(3), 323 (2021). doi:10.3390/min11030323

  • Gerhard, L.,  Puhlmann, H., Vogt, M., Luster, J.: Phosphorus Leaching From Naturally Structured Forest Soils Is More Affected by Soil Properties Than by Drying and Rewetting. Frontiers in Forest and Global Change, Vol. 3, Article 577364 (2021). doi:10.3389/ffgc.2021.543037

  • Konrad, A., Billiy, B., Regenbogen, P., Bol, R., Lang, F., Klumpp, E., Siemens, J.: Forest soil colloids enhance delivery of phosphorus into a Diffusive Gradient in Thin films (DGT) sink. Frontiers in Forest and Global Change, Vol. 3, Article 577364 (2021). doi:10.3389/ffgc.2020.577364

  • Lang, F., Krüger, J., Kaiser, K., Bol, R., Loeppmann, S.: Editorial: Changes in Forest Ecosystem Nutrition. Frontiers in Forest and Global Change, Vol. 3, Article 752063 (2021). doi:10.3389/ffgc.2021.752063

  • Ma, X., Zhu, B., Nie, Y., Liu, Y., Kuzyakov, Y.: Root and mycorrhizal strategies for nutrient acquisition in forests under nitrogen deposition: A meta-analysis. Soil Biology and Biochemistry, Vol. 163, Article 108418 (2021). doi:10.1016/j.soilbio.2021.108418

  • Michas, A., Pastore, G., Chiba, A., Grafe, M., Clausing, S, Polle, A., Schloter, M., Spohn, M., Schulz, S.: Phosphorus Availability Alters the Effect of Tree Girdling on the Diversity of Phosphorus Solubilizing Soil Bacterial Communities in Temperate Beech Forests. Frontiers in Forest and Global Change, Vol. 4, Article 696983 (2021). doi:10.3389/ffgc.2021.696983

  • Pastore, G., Weig, A.R., Vazquez, E., Spohn, M.: Weathering of calcareous bedrocks is strongly affected by the activity of soil microorganisms, Geoderma, 405, 115408 (2021). doi:10.1016/j.geoderma.2021.115408

  • Rinderer, M., Krüger, J., Lang, F., Puhlmann, H., Weiler, M.: Subsurface flow and phosphorus dynamics in beech forest hillslopes during sprinkling experiments: How fast is phosphorus replenished? Biogeosciences, 18, 1009-1027 (2021). doi:10.5194/bg-18-1009-2021

  • Seeger, S., Weiler, M.: Temporal dynamics of tree xylem water isotopes: in situ monitoring and modeling. Biogeosciences, 18, 4603–4627 (2021). doi:10.5194/bg-18-4603-2021

  • Wang, L., Amelung, W., Willbold, S.: 18O Isotope Labeling Combined with 31P Nuclear Magnetic Resonance Spectroscopy for Accurate Quantification of Hydrolyzable Phosphorus Species in Environmental Samples. Analytical Chemistry, 93, Vol. 4, 2018–2025 (2021). doi:10.1021/acs.analchem.0c03379

  • Caldararu, S., Thum, T., Yu, L., Zaehle, S.: Whole-plant optimality predicts changes in leaf nitrogen under variable CO2 and nutrient availability. New Phytologist, 225, 2331–2346 (2020). doi:10.1111/nph.16327

  • Clausing, S., Polle, A.: Mycorrhizal Phosphorus Efficiencies and Microbial Competition Drive Root P Uptake. Frontiers in Forest and Global Change, Vol. 3, Article 54 (2020). doi:10.3389/ffgc.2020.00054

  • Colocho Hurtarte, C. L., Santana Amorim, H. C., Kruse, J., Criginski Cezar, J., Klysubun, W., Prietzel, J.: A Novel Approach for the Quantification of Different Inorganic and Organic Phosphorus Compounds in Environmental Samples by P L2,3-Edge X-ray Absorption Near-Edge Structure (XANES) Spectroscopy. Environmental Science & Technology, 54(5), 2812-2820 (2020). doi:10.1021/acs.est.9b07018

  • Ganta, P.B., Kühn, O., Ahmed, A.A.: QM/MM Molecular Dynamics Investigation of the Binding of Organic Phosphates to the 100 Diaspore Surface. Frontiers in Forest and Global Change, Vol. 3, Article 71 (2020). doi:10.3389/ffgc.2020.00071

  • Gottselig, N., Sohrt, J., Uhlig, D., Nischwitz, V., Weiler, M., Amelung, W.: Groundwater controls on colloidal transport in forest stream waters. Science of The Total Environment, 717, Article 134638 (2020) doi:10.1016/j.scitotenv.2019.134638 

  • Hauenstein, S., Nebel, M., Oelmann, Y.: Biologically Cycled P in Xylem Sap of Fagus sylvatica L. Revealed by Means of the Oxygen Isotope Ratio in Phosphate. Frontiers in Forest and Global Change, Vol. 3, Article 542738 (2020). doi:10.3389/ffgc.2020.542738

  • Jeřábek, J., Rinderer, M., Gessler, A., Weiler, M.: Xylem sap phosphorus sampling using microdialysis—a non-destructive high sampling frequency method tested under laboratory and field conditions. Tree Physiology, 40(11), 1623–1638 (2020). doi:doi.org/10.1093/treephys/tpaa081

  • Klotzbücher, A., Schnuck, F., Klotzbücher, T., Kaiser, K., Glaser, B., Spohn, M., Widdig, M., Mikutta, R.: Goethite-Bound Phosphorus in an Acidic Subsoil Is Not Available to Beech (Fagus sylvatica L.). Frontiers in Forest and Global Change, Vol. 3, Article 94 (2020). doi:10.3389/ffgc.2020.00094

  • Loeppmann, S., Breidenbach, A., Spielvogel, S., Dippold, M.A., Blagodatskaya, E.: Organic Nutrients Induced Coupled C- and P-Cycling Enzyme Activities During Microbial Growth in Forest Soils. Frontiers in Forest and Global Change, Vol. 3, Article 100 (2020). doi:10.3389/ffgc.2020.00100

  • Löw, C.A.E. , Schack-Kirchner, H., Fink, S., Lang, F.: Root Size and Morphology of Associated Hyphae Reflect the Phosphorus Nutrition Strategies of European Beech Forests. Frontiers in Forest and Global Change, Vol. 3, Article 95 (2020). doi:10.3389/ffgc.2020.00095

  • Makowski, V.,  Julich, S., Feger, K.-H., Breuer, L., Julich, D.: Leaching of dissolved and particulate phosphorus via preferential flow pathways in a forest soil: An approach using zero‐tension lysimeters. Journal of Plant Nutrition and Soil Science, available online (2020). doi:10.1002/jpln.201900216

  • Makowski, V., Julich, S., Feger, K.-H., Julich, D.: Soil Phosphorus Translocation via Preferential Flow Pathways: A Comparison of Two Sites With Different Phosphorus Stocks. Frontiers in Forest and Global Change, Vol. 3, Article 48 (2020). doi:10.3389/ffgc.2020.00048

  • Meller, S., Frossard, E., Spohn, M., Luster, J.: Plant Nutritional Status Explains the Modifying Effect of Provenance on the Response of Beech Sapling Root Traits to Differences in Soil Nutrient Supply. Frontiers in Forest and Global Change, Vol. 3, Article 535117 (2020). doi:10.3389/ffgc.2020.535117

  • Müller, K., Kubsch, N., Marhan, S., Mayer-Gruner, P., Nassal, P., Schneider, D., Daniel, R., Piepho, H.-P., Polle, A., Kandeler, E.: Saprotrophic and Ectomycorrhizal Fungi Contribute Differentially to Organic P Mobilization in Beech-Dominated Forest Ecosystems. Frontiers in Forest and Global Change, Vol. 3, Article 47 (2020). doi: 10.3389/ffgc.2020.00047

  • Pastore, G., Kaiser, K., Kernchen, S., Spohn, M.: Microbial release of apatite- and goethite-bound phosphate in acidic forest soils. Geoderma, Article 114360 (2020). doi:10.1016/j.geoderma.2020.114360

  • Pastore, G., Kernchen, S., Spohn, M.: Microbial solubilization of silicon and phosphorus from bedrock in relation to abundance of phosphorus-solubilizing bacteria in temperate forest soils. Soil Biology and Biochemistry, 151, Article 108050 (2020). doi:10.1016/j.soilbio.2020.108050

  • Pferdmenges, J., Breuer, L., Julich, S., Kraft, P.: Review of soil phosphorus routines in ecosystem models. Environmemtal Modelling and Software, 126, Article 104639 (2020). doi:10.1016/j.envsoft.2020.104639

  • Pistocchi, C., Mészáros, É., Frossard, E., Bünemann-König, E., Tamburini, F.: In or out of equilibrium? How microbial activity controls the oxygen isotopic composition of phosphate in forest organic horizons with low and high phosphorus availability. Frontiers in Environmental Science, Vol. 8, Article 564778 (2020). doi:10.3389/fenvs.2020.564778

  • Prietzel, J.: Soil Phosphorus Heterogeneity Improves Growth and P Nutrition of Norway Spruce Seedlings. Frontiers in Forest and Global Change, Vol. 3, Article 59 (2020). doi:10.3389/ffgc.2020.00059

  • Prietzel, J., Hiesch, S., Harrington, G., Müller, S.: Microstructural and biochemical diversity of forest soil organic surface layers revealed by density fractionation. Geoderma, Article 114262 (2020). doi:10.1016/j.geoderma.2020.114262

  • Rodionov, A., Bauke, S.L., von Sperber, C., Hoeschen, C., Kandeler, K., Kruse, J., Lewandowski, H., Marhan, S., Mueller, C.W., Simon, M., Tamburini, F., Uhlig, D., von Blanckenburg, F., Lang, F., Amelung, W.: Biogeochemical cycling of phosphorus in subsoils of temperate forest ecosystems. Biogeochemistry, available online (2020). doi:10.1007/s10533-020-00700-8

  • Schack-Kirchner, H., Löw, C.A., Lang, F.: The Cumulative Amount of Exuded Citrate Controls Its Efficiency to Mobilize Soil Phosphorus. Frontiers in Forest and Global Change, Vol. 3, Article 550884 (2020). doi:10.3389/ffgc.2020.550884

  • Spohn, M.: Phosphorus and carbon in soil particle size fractions: A synthesis. Biogeochemistry, 147, 225-242 (2020). doi: 10.1007/s10533-019-00633-x

  • Uhlig, D., Goldberg, T., Frick, D.A., von Blanckenburg, F. : Quantifying beryllium concentrations in plant shoots from forest ecosystems using cation-exchange chromatography and quadrupole ICP-MS. Analytical Science Advances, 1 (1), 8-21 (2020). doi: 10.1002/ansa.202000036

  • Uhlig, D., Amelung, W., von Blanckenburg, F.: Mineral nutrients sourced in deep regolith sustain long‐term nutrition of mountainous temperate forest ecosystems. Global Biogeochemical Cycles, Vol. 34 (9), e2019GB006513 (2020). doi: 10.1029/2019GB006513

  • Wang, L., Missong, A., Amelung, W., Willbold, S., Prietzel, J., Klumpp, E.: Dissolved and colloidal phosphorus affect P cycling in calcareous forest soils. Geoderma, Article 114507 (2020). doi: 10.1016/j.geoderma.2020.114507

  • Yang, F., Magh, R.-K., Ivanković, M., Lanšćak, M., Haberstroh, S., Du, B., Dannenmann, M., Rennenberg, H., Herschbach, C.: Foliar P nutrition of European beech (Fagus sylvatica L.) depends on the season but remains unaffected by co-cultivation with silver fir (Abies alba Mill.). European Journal of Forest Research, available onlinr (2020). doi: 10.1007/s10342-020-01289-1

  • Yu, L., Ahrens, B., Wutzler, T., Schrumpf, M., Zaehle, S.: Jena Soil Model (JSM v1.0; revision 1934): a microbial soil organic carbon model integrated with nitrogen and phosphorus processes. Geoscientific Model Developement, 13, 783–803 (2020). doi: 10.5194/gmd-13-783-2020

  • Yu, L., Ahrens, B., Wutzler, T., Zaehle, S., Schrumpf, M.: Modeling Soil Responses to Nitrogen and Phosphorus Fertilization Along a Soil Phosphorus Stock Gradient. Frontiers in Forest and Global Change, Vol. 3, Article 543112 (2020). doi: 10.3389/ffgc.2020.543112


  • Andrino, A., Boy, J., Mikutta, R., Sauheitl, L., Guggenberger G.: Carbon Investment Required for the Mobilization of Inorganic and Organic Phosphorus Bound to Goethite by an Arbuscular Mycorrhiza (Solanum lycopersicum x Rhizophagus. Frontiers in  Environmental Science, 7:26 (2019) doi: 10.3389/fenvs.2019.00026 

  • Brödlin, D., Kaiser, K., Hagedorn, F.: Divergent Patterns of Carbon, Nitrogen, and Phosphorus Mobilization in Forest Soils. Frontiers in Forests and Global Change, Vol. 2, Article 66 (2019) doi: 10.3389/ffgc.2019.00066 

  • Brödlin, D., Kaiser, K., Kessler, A., Hagedorn, F.: Drying and rewetting foster phosphorus depletion of forest soils. Soil Biology and Biochemistry, 128, 22-34 (2019) doi: 10.1016/j.soilbio.2018.10.001 

  • Chen, J., Seven, J., Zilla, T., Dippold, M.A., Blagodatskaya, E., Kuzyakov, Y.: Microbial C:N:P stoichiometry and turnover depend on nutrients availability in soil: A 14C, 15N and 33P triple labelling study. Soil Biology and Biochemistry, 131, 206-216 (2019) doi: 10.1016/j.soilbio.2019.01.017 

  • Colocho Hurtarte; L.C., uiz Francisco Souza-Filho, L.F., Oliveira Santos, W., Vergütz, L., Prietzel, J., Hesterberg, D.: Optimization of Data Processing Minimizes Impact of Self-Absorption on Phosphorus Speciation Results by P K-Edge XANES. Soil Systems, 3, 61 (2019) doi: 10.3390/soilsystems3030061 

  • Ganta, P. B., Kühn, O., Ahmed, A. A.: QM/MM simulations of organic phosphorus adsorption at the diaspore-water interface. Physical Chemistry Chemical Physics, 21, 24316-24325 (2019) doi: 10.1039/C9CP04032C Ganta, P. B., Kühn, O., Ahmed, A. A.: QM/MM simulations of organic phosphorus adsorption at the diaspore-water interface. Physical Chemistry Chemical Physics, 21, 24316-24325 (2019) doi: 10.1039/C9CP04032C 

  • Jarosch, K. A., Kandeler, E., Frossard, E., Bünemann, E. K.: Is the enzymatic hydrolysis of soil organic phosphorus compounds limited by enzyme or substrate availability? PSoil Biology and Biochemistry, Article 107628 (2019) doi: 10.1016/j.soilbio.2019.107628 

  • Klotzbücher, A., Kaiser, K., Klotzbücher, T., Wolff, M., Mikutta, R.: Testing mechanisms underlying the Hedley sequential phosphorus extraction of soils, Journal of Plant Nutrition and Soil Sceince, 182(4), 570-577 (2019) doi: 10.1002/jpln.201800652 

  • Kohler, M., Niederberger, J., Wichser, A., Bierbaß, P., Rötzer, T., Spiecker, H., Bauhus, J.: Using tree rings to reconstruct changes in soil P availability – Results from forest fertilization trials. Dendrochronologia 54, 11-19 (2019). doi:10.1016/j.dendro.2019.01.001

  • Meller, S., Frossard, E., Luster, J.: Phosphorus Allocation to Leaves of Beech Saplings Reacts to Soil Phosphorus Availability. Frontiers in Plant Science, 10, Article 744 (2019) doi: 10.3389/fpls.2019.00744

  • Netzer, F., Pozzi, L., Dubbert, D., Herschbach, C.: Improved photosynthesis and growth of poplar during nitrogen fertilization is accompanied by phosphorus depletion that indicates phosphorus remobilization from older stem tissues. Environmental and Experimental Botany, 162, 421-432 (2019). doi:10.1016/j.envexpbot.2019.03.017

  • Netzer, F., Turnbull, T., Mult, S., Alfarraj, S., Albasher, G., Herschbach, C., Adams, M., Rennenberg, H.: Mineral nutrition of sub-alpine Australien vegetation under nutrient deficiency depends on lifeform. Environmental and Experimental Botany, 160, 92-100 (2019). doi:10.1016/j.envexpbot.2019.01.007

  • Rieger, I., Kowarik, I., Ziche, D., Wellbrock, N., Cierjacks, A.: Linkages between Phosphorus and Plant Diversity in Central European Ecosystems - Complementarity or Competition? Forests, 10, 1156-1577 (2019). doi: 10.3390/f10121156

  • Scheerer, U., Netzer, F., Bauer, A.F., Herschbach, C.: Measurement of 18O-Pi uptake indicate fast metabolism of phosphate in tree roots. Plant Biology, 21(4), 565-570 (2019). doi:10.1111/plb.129227

  • Scheerer, U., Trube, N., Netzer, F., Rennenberg, H., Herschbach, C.: ATP as Phosphorus and Nitrogen Source for Nutrient Uptake by Fagus sylvatica and Populus x canescens Roots. , Frontioers in Plant Science, 10, Article 378 (2019) doi:10.3389/fpls.2019.00378 

  • Sohrt, J., Uhlig, D., Kaiser, K., von Blanckenburg, F., Siemens, J., Seeger, S., Frick, D.A., Krüger, J., Lang, F., Weiler, M.: Phosphorus Fluxes in a Temperate Forest Watershed: Canopy Leaching, Runoff Sources, and In-Stream Transformation. Frontiers in Forest and Global Change, Vol. 2, Article 85 (2019). doi: 10.3389/ffgc.2019.00085

  • Spohn, M., Schluess, P.-M. : Addition of inorganic phosphorus to soil leads to desorption of organic compounds and thus to increased soil respiration, Soil Biology and Biochemistry, 130, 220-226 (2019). doi:10.1016/j.soilbio.2018.12.018 

  • Uhlig, D., von Blanckenburg, F.: How slow rock weathering balances nutrient loss during fast forest floor turnover in montane, temperate forest ecosystems, Frontiers in Earth Science, 7, Article 159 (2019) doi: 10.3389/feart.2019.00159 

  • Uhlig, D., von Blanckenburg, F.: Geochemical and isotope data on rock weathering, and nutrient balances during fast forest floor turnover in montane, temperate forest ecosystems GFZ Data Services (2019) doi: 10.5880/GFZ.3.3.2019.004 

  • Wang, L., Amelung, W., Prietzel, J., Willbold, S.: Transformation of organic phosphorus compounds during 1500 years of organic soil formation in Bavarian Alpine forests – A 31P NMR study. Geoderma, 340, 192-205 (2019). doi: 10.1016/j.geoderma.2019.01.029

  • Zhang, X., Dippold, M.A., Kuzyakov, Y., Razavic, B.S.: Spatial pattern of enzyme activities depends on root exudate composition.  Soil Biology and Biogeochemistry, 131, 83-93 (2019) doi: 10.1016/j.soilbio.2019.02.010


  • Bilyera, N., Blagodatskaya, E., Yevdokimov, I., Kuzyakov, Y.: Towards a conversion factor for soil microbial phosphorus, European Journal of Soil Biology, 87, 1-8 (2018) doi: 10.1016/j.ejsobi.2018.03.002

  • George, T.S., Giles, C.D., Menezes-Blackburn, D., Condron, L.M., A. C. Gama-Rodrigues, A.C., Jaisi, D.,  Lang, F., Neal, A.L., Stutter, M.I., Almeida, D.S., Bol, R., Cabugao, K.G., Celi, L., Cotner, J.B., Feng, G., Goll, D.S., Hallama, M., Krueger, J. et al: Organic phosphorus in the terrestrial environment: a perspective on the state of the art and future priorities, Plant and Soil, 427(1-2), 191-208 (2018) doi: 10.1007/s11104-017-3391-x

  • Hauenstein, S., Neidhardt, H., Lang, F., Krüger, J., Hofmann, D., Pütz, T., Oelmann, Y.: Organic layers favor phosphorus storage and uptake by young beech trees (Fagus sylvatica L.) at nutrient poor ecosystems, Plant and Soil, 432(1-2), 289-301 (2018) doi: :10.1007/s11104-018-3804-5

  • Heuck, C., Smolka, G., Whalen, E., Frey, S., Gundersen, P., Moldan, F., Fernandez, I.J., Spohn, M.: Effects of long-term nitrogen addition on phosphorus cycling in organic soil horizons of termperate forests, Biogeochemistry, 141(2), 167-181 (2018) doi: 10.1007/s10533-018-0511-5 

  • Missong, A., Holzmann, S., Bol, R., Nischwitz, V., Puhlmann, H., von Wilpert, K., Siemens, J., Klumpp, E.: Leaching of natural colloids from forest topsoils and their relevance for phosphorus mobility, Science of the Total Environment, 634, 305-315 (2018) doi:10.1016/j.scitotenv.2018.03.265

  • Missong, A., Bol, R., Nischwitz, V., Krüger, J., Lang, F., Siemens, J., Klumpp, E.: Phosphorus in water-dispersible colloids of forest soil profiles, Plant and Soil, 427(1-2), 71-86 (2018) doi: 10.1007/s11104-017-3430-7  

  • Nehls, U., Plassard, C.: Nitrogen and phosphate metabolism in ectomycorrhiozas, New Phytologist, 220, 1047-1058 (2018) doi: :10.1111/nph.15257

  • Netzer, F., Mueller, C.W., Scheerer, U., Grüner, J., Kögel-Knabner, I., Herschbach, C., Rennenberg, H.: Phosphorus nutrition of Populus × canescens reflects adaptation to high P-availability in the soil, Tree Physiology, 38(1), 6-24 (2018) doi: :10.1093/treephys/tpx126

  • Netzer, F., Herschbach, C., Oikawa, A., Okazaki, Y., Dubbert, D., Saito, K., Rennenberg, H.:Seasonal Alterations in Organic Phosphorus Metabolism Drive the Phosphorus Economy of Annual Growth in F. sylvatica Trees on P-Impoverished Soil, Frontiers in Plant Science, 9, Article 723 (2018) doi: :10.3389/fpls.2018.00723

  • Pistocchi, C., Mészáros, É., Tamburini, F., Frossard, E., Bünemann, E.K.: Biological processes dominate phosphorus dynamics un der low phosphorus availability in organic horizons of temperate forest soils, Soil Biology and Biochemistry, 126, 64-75 (2018) doi: :10.1016/j.soilbio.2018.08.013

  • Prietzel, J., Klysubun, W.: Phosphorus K-edge XANES spectroscopy has probably often underestimated iron oxyhydroxidebound P in soils, Journal of Synchrotron Radiation, 25(6), 1736-1744 (2018) doi:10.1107/S1600577518013334 

  • Sohrt, J., Herschbach, C., Weiler, M.: Foliar P- but not N resorption efficiency depends on the P-concentration and the N:P ratio in trees of temperate forests, Trees, 432(5), 1443-1455 (2018) doi: :10.1007//s00468-018-1725-9

  •  Spohn, M., Zavišić, A., Nassal, P., Bergkemper, F., Schulze, S., Marhan, S., Schloter, M., Kandeler, E., Polle, A.: Temporal variations of phosphorus uptake by soil microbial biomass and young beech trees in two forest soils with contrasting phosphorus stocks, Soil Biology and Biochemistry, 117, 191-202 (2018) doi:10.1016/j.soilbio.2017.10.019 

  • Stahr, S., Graf-Rosenfellner, M., Klysubun, W., Mikutta, R., Prietzel, J., Lang, F.: Phosphorus speciation and C:N:P stoichiometry of functional organic matter fractions in temperate forest soils, Plant and Soil, 427(1-2), 53-69 (2018) doi: 10.1007/s11104-017-3394-7

  • Tamburini, F., Pistocchi, C., Helfenstein, J., Frossard, E.: A method to analyse the isotopic composition of oxygen associated with organic phosphorus in soil and plant material, European Journal of Soil Science, 69, 816-826 (2018) doi:10.1111/ejss.12693 

  • Watanabe, M., Netzer, F., Tohge, T., Orf, I., Brotman, Y., Dubbert, D., Fernie, A.R., Rennenberg, H., Hoefgen, R., Herschbach, C.: Metabolome and Lipidome Profiles of Populus x canescens Twig Tissues During Annual Growth Show Phospholipid-Linked Storage and Mobilization of C, N, and S., Frontioers in Plant Science, 9, Article 1292 (2018) doi:10.3389/fpls.2018.01292 

  • Zavišić, A., Polle, A.: Dynamics of phosphorus nutrition, allocation and growth of young beech (Fagus sylvatica L.) trees in P-rich and P-poor forest soil, Tree Physiology, 38, 37-51 (2018) doi:10.1093/treephys/tpx146 

  • Zavišić, A., Yang, N., Marhan, S., Kandeler, E., Polle, A.: Forest Soil Phosphorus Resources and Fertilization Affect Ectomycorrhizal Community Composition, Beech P Uptake Efficiency, and Photosynthesis, Frontioers in Plant Science, 9, Article 463 (2018) doi:10.3389/fpls.2018.00463 

  • Zederer, D.P., Talkner, U.: Organic P in temperate forest mineral soils as affected by humus form and mineralogical characteristics and its relationship to the foliar P content of European beech, Geoderma, 325, 162-171 (2018) doi:10.1016/j.geoderma.2018.03.033 


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