Geo-Biosphere Interactions

Main research interests:

  • Biosphere-geosphere interfaces as hotspots of terrestrial element cycles
  • Ecophysiological control of microorganisms on ecosystem C, nutrient and water fluxes
  • Recycling as energy-efficient strategy driving environmental organic matter turnover
  • Root and rhizosphere traits reflecting adaptation strategies to (multiple) resource limitation
  • Sustainable utilization of limited resources in (agro-)ecosystems facing global change

Contact
michaela.dippoldspam prevention@uni-tuebingen.de
     +49 7071 29 74796
Fax: +49 7071 29 5059
Twitter: @MichaelaDippold

ORCID: 0000-0002-3657-4693

Web of Science ResearcherID: C-1548-2017

 

Address and Office
Department of Geosciences
GUZ, 5th floor, room 5U37
Schnarrenbergstraße 94-96
72076 Tübingen
Germany

 


Podcast: KEY TO MY RESEARCH

Are Roots The Key To Climate Change?


Dippold, Michaela Anna (Dr. rer. nat.)

July 10, 1982

Since 2021
Professor of Geo-Biosphere Interactions

at the Department of Geosciences of the University of Tübingen

2017-2022
Junior-Professor for Biogeochemistry of Agroecosystems

at the Department of Crop Sciences of the University of Goettingen

2013-2017
Academic Assistant

at the Department of Crop Sciences (Agricultural Soil Science) of the University of Goettingen

2016
Guest Lecturer

at the Geographical Institute of the University of Bern

2010-2013
Researcher

at the Department of Agroecosystem Research at the University of Bayreuth


Research

Research projects

DFG projects (German Research Foundation):

Ministry and EU projects:

Projects by foundations and awards:

DAAD and further exchange projects:

  • Root traits plasticity and dynamics of phosphorus fractions in the rhizosphere of  wheat  and maize grown in subtropical soil (DAAD scholarship Manisha Koirala)
  • Evaluation of different Afghan wheat varieties for their resistance against multiple resource limitation (DAAD scholarship Ahmad Samir Azimi)
  • Effects of microdosing, organic amendments and time of application on nitrogen and organic carbon partitioning in sorghum cropping systems (DAAD scholarhip Rosepiah Munene)

 


Publications

2024

  1. Bai, X., Zhai, G., Wang, B., An, S., Liu, J., Xue, Z., Dippold, M.A., 2024. Litter quality controls the contribution of microbial carbon to main microbial groups and soil organic carbon during its decomposition. Biology and Fertility of Soils. doi:10.1007/s00374-023-01792-8
  2. Chen, J., Xu, H., Seven, J., Zilla, T., Dippold, M.A., Kuzyakov, Y., 2024. Microbial phosphorus recycling in soil by intra- and extracellular mechanisms. ISME Communications 3, 135. doi:10.1038/s43705-023-00340-7
  3. Giray, K., Banfield, C., Piepho, H.-P., Joergensen, R.G., Dippold, M., Wachendorf, C., 2024. Main soil microbial groups assessed by phospholipid fatty acid analysis of temperate alley agroforestry systems on crop- and grassland. Applied Soil Ecology 195, 105277. doi:10.1016/j.apsoil.2024.105277
  4. Huang, J., Ladd, S.N., Ingrisch, J., Kübert, A., Meredith, L.K., van Haren, J., Bamberger, I., Daber, L.E., Kühnhammer, K., Bailey, K., Hu, J., Fudyma, J., Shi, L., Dippold, M.A., Meeran, K., Miller, L., O’Brien, M.J., Yang, H., Herrera-Ramírez, D., Hartmann, H., Trumbore, S., Bahn, M., Werner, C., Lehmann, M.M., 2024. The mobilization and transport of newly-fixed carbon are driven by plant water-use in an experimental rainforest under drought. Journal of Experimental Botany. doi:10.1093/jxb/erae030
  5. Nazari, M., Bickel, S., Kuzyakov, Y., Bilyera, N., Zarebanadkouki, M., Wassermann, B., Dippold, M.A., 2024. Root mucilage nitrogen for rhizosphere microorganisms under drought. Biology and Fertility of Soils. doi:10.1007/s00374-024-01827-8
  6. Shao, G., Ai, J., Dippold, M.A., Fan, L., Dorodnikov, M., Liang, B., Dittert, K., Wang, H., 2024. White Clover does not Increase Soil N2O Emissions Compared to Ryegrass in Non-Frozen Winter, but Increases CH4 Uptake. Journal of Soil Science and Plant Nutrition. doi:10.1007/s42729-024-01872-0
  7. Wang, C., Dippold, M.A., Guggenberger, G., Kuzyakov, Y., Guenther, S., Dorodnikov, M., 2024. The wetter the better? Preferences in plant-microbial competition for phosphorus sources in rice cultivation under contrasting irrigation. Soil Biology and Biochemistry 109339. doi:10.1016/j.soilbio.2024.109339
  8. Wang, C., Dippold, M.A., Kuzyakov, Y., Dorodnikov, M., 2024. Microbial strategies for phosphorus acquisition in rice paddies under contrasting water regimes: Multiple source tracing by 32P and 33P. Science of The Total Environment 918, 170738. doi:10.1016/j.scitotenv.2024.170738
  9. Wang, C., Li, T., Dippold, M.A., Guggenberger, G., Kuzyakov, Y., Banfield, C.C., Muhr, J., Dorodnikov, M., 2024. Alternate wetting-drying had no preferences for rice P uptake but increased microbial P allocation to phospholipids: Evidence from dual 32P and 33P labeling. Soil Biology and Biochemistry 191, 109359. doi:10.1016/j.soilbio.2024.109359
  10. Wu, T., Wichern, F., Wiesmeier, M., Buegger, F., Shi, L., Dippold, M.A., Höschen, C., Mueller, C.W., 2024. Organic carbon loading of soils determines the fate of added fresh plant-derived organic matter. Geoderma 443, 116816. doi:10.1016/j.geoderma.2024.116816
  11. Xu, Y., Zhou, J., Liu, C., Jia, R., Ji, H., Dippold, M.A., Zhao, T., Pavinato, P.S., Peixoxo, L., Yang, Y., Sui, P., Zeng, Z., Zang, H., 2024. Long–term rotational and perennial cropping benefit soil organic carbon stocks and ecosystem multifunctionality. Industrial Crops and Products 209, 117980. doi:10.1016/j.indcrop.2023.117980

2023

  1. Ai, J., Banfield, C.C., Shao, G., Zamanian, K., Stürzebecher, T., Shi, L., Fan, L., Liu, X., Spielvogel, S., Dippold, M.A., 2023. What controls the availability of organic and inorganic P sources in top- and subsoils? A 33P isotopic labeling study with root exudate addition. Soil Biology and Biochemistry 109129. doi:10.1016/j.soilbio.2023.109129
  2. Erazo-Mora, K., Montalván-Burbano, N., Aburto, F., Matus-Baeza, F., Jofré-Fernández, I., Durán-Cuevas, P., Dörner, J., Dippold, M.A., Merino-Guzmán, C., 2023. Four decades in fires research – A bibliometric analysis about the impact on mineralogy and nutrients. CATENA 226, 107065. doi:10.1016/j.catena.2023.107065
  3. Gilmullina, A., Rumpel, C., Blagodatskaya, E., Klumpp, K., Bertrand, I., Dippold, M.A., Chabbi, A., 2023. Is plant biomass input driving soil organic matter formation processes in grassland soil under contrasting management? Science of The Total Environment 164550. doi:10.1016/j.scitotenv.2023.164550

  4. Hildebrand, G.A., Honeker, L.K., Freire-Zapata, V., Ayala-Ortiz, C., Rajakaruna, S., Fudyma, J., Daber, L.E., AminiTabrizi, R., Chu, R.L., Toyoda, J., Flowers, S.E., Hoyt, D.W., Hamdan, R., Gil-Loaiza, J., Shi, L., Dippold, M.A., Ladd, S.N., Werner, C., Meredith, L.K., Tfaily, M.M., 2023. Uncovering the dominant role of root metabolism in shaping rhizosphere metabolome under drought in tropical rainforest plants. Science of The Total Environment 899, 165689. doi:10.1016/j.scitotenv.2023.165689

  5. Honeker, L.K., Pugliese, G., Ingrisch, J., Fudyma, J., Gil-Loaiza, J., Carpenter, E., Singer, E., Hildebrand, G., Shi, L., Hoyt, D.W., Chu, R.K., Toyoda, J., Krechmer, J.E., Claflin, M.S., Ayala-Ortiz, C., Freire-Zapata, V., Pfannerstill, E.Y., Daber, L.E., Meeran, K., Dippold, M.A., Kreuzwieser, J., Williams, J., Ladd, S.N., Werner, C., Tfaily, M.M., Meredith, L.K., 2023. Drought re-routes soil microbial carbon metabolism towards emission of volatile metabolites in an artificial tropical rainforest. Nature Microbiology 8, 1480–1494. doi:10.1038/s41564-023-01432-9

  6. Kashi, H., Loeppmann, S., Herschbach, J., Schink, C., Imhof, W., Kouchaksaraee, R.M., Dippold, M.A., Spielvogel, S., 2023. Size matters: biochemical mineralization and microbial incorporation of dicarboxylic acids in soil. Biogeochemistry. doi:10.1007/s10533-022-00990-0
  7. Mason-Jones, K., Breidenbach, A., Dyckmans, J., Banfield, C.C., Dippold, M.A., 2023. Intracellular carbon storage by microorganisms is an overlooked pathway of biomass growth. Nature Communications 14, 2240. doi:10.1038/s41467-023-37713-44

  8.  Matus, F., Mendoza, D., Nájera, F., Merino, C., Kuzyakov, Y., Wilhelm, K., Boy, J., Aburto, F., Jofré, I., Dippold, M.A., 2023. Freezing–thawing cycles affect organic matter decomposition in periglacial maritime Antarctic soils. Biogeochemistry. doi:10.1007/s10533-023-01032-z
  9. Ma, X., Zhou, Z., Chen, J., Xu, H., Ma, S., Dippold, M.A., Kuzyakov, Y., 2023. Long-term nitrogen and phosphorus fertilization reveals that phosphorus limitation shapes the microbial community composition and functions in tropical montane forest soil. Science of The Total Environment 854, 158709. doi:10.1016/j.scitotenv.2022.158709
  10. Nazari, M., Bilyera, N., Banfield, C.C., Mason-Jones, K., Zarebanadkouki, M., Munene, R., Dippold, M.A., 2023. Soil, climate, and variety impact on quantity and quality of maize root mucilage exudation. Plant and Soil. doi:10.1007/s11104-022-05669-x
  11. Nazari, M., Pausch, J., Bickel, S., Bilyera, N., Rashtbari, M., Razavi, B.S., Zamanian, K., Sharififar, A., Shi, L., Dippold, M.A., Zarebanadkouki, M., 2023 Keeping thinning-derived deadwood logs on forest floor improves soil organic carbon, microbial biomass, and enzyme activity in a temperate spruce forest. European Journal of Forest Research. doi:10.1007/s10342-022-01522-z
  12. Wang, C., Thielemann, L., Dippold, M.A., Guggenberger, G., Kuzyakov, Y., Banfield, C.C., Ge, T., Guenther, S., Dorodnikov, M., 2023. Reductive dissolution of iron phosphate modifies rice root morphology in phosphorus-deficient paddy soils. Soil Biology and Biochemistry 177, 108904. doi:10.1016/j.soilbio.2022.108904
  13. Zhang, X., Bilyera, N., Fan, L., Duddek, P., Ahmed, M.A., Carminati, A., Kaestner, A., Dippold, M.A., Spielvogel, S., Razavi, B.S., 2023. The spatial distribution of rhizosphere microbial activities under drought: water availability is more important than root‐hair controlled exudation. New Phytologist. doi:10.1111/nph.18409
  14. Zhou, J., Wen, Y., Razavi, B.S., Loeppmann, S., Marshall, M.R., Zang, H., Kuzyakov, Y., Zeng, Z., Dippold, M.A., Blagodatskaya, E., 2023. Labile substrate input weakens the memory effect of soil microbial functions under global warming. CATENA 232, 107381. doi:10.1016/j.catena.2023.107381
  15. Zhou, J., Wen, Y., Rillig, M.C., Shi, L., Dippold, M.A., Zeng, Z., Kuzyakov, Y., Zang, H., Jones, D.L., Blagodatskaya, E., 2023. Restricted power: Can microorganisms maintain soil organic matter stability under warming exceeding 2 degrees? Global Ecology and Biogeography. doi:10.1111/geb.13672

 

2022

  1. Abdallah, K., Stock, S.C., Heeger, F., Koester, M., Nájera, F., Matus, F., Merino, C., Spielvogel, S., Gorbushina, A.A., Kuzyakov, Y., Dippold, M.A., 2022. Nitrogen Gain and Loss Along an Ecosystem Sequence: From Semi-desert to Rainforest. Frontiers in Soil Science 2. doi:10.3389/fsoil.2022.817641
  2. Breidenbach, A., Schleuss, P.-M., Liu, S., Schneider, D., Dippold, M.A., de la Haye, T., Miehe, G., Heitkamp, F., Seeber, E., Mason-Jones, K., Xu, X., Huanming, Y., Xu, J., Dorji, T., Gube, M., Norf, H., Meier, J., Guggenberger, G., Kuzyakov, Y., Spielvogel, S., 2022. Microbial functional changes mark irreversible course of Tibetan grassland degradation. Nature Communications 13, 2681. doi:10.1038/s41467-022-30047-7
  3. Dijkstra, P., Martinez, A., Thomas, S.C., Seymour, C.O., Wu, W., Dippold, M.A., Megonigal, J.P., Schwartz, E., Hungate, B.A., 2022. On maintenance and metabolisms in soil microbial communities. Plant and Soil. doi:10.1007/s11104-022-05382-9
  4. Ehlers, T.A., Chen, D., Appel, E., Bolch, T., Chen, F., Diekmann, B., Dippold, M.A., Giese, M., Guggenberger, G., Lai, H.-W., Li, X., Liu, J., Liu, Y., Ma, Y., Miehe, G., Mosbrugger, V., Mulch, A., Piao, S., Schwalb, A., Thompson, L.G., Su, Z., Sun, H., Yao, T., Yang, X., Yang, K., Zhu, L., 2022. Past, present, and future geo-biosphere interactions on the Tibetan Plateau and implications for permafrost. Earth-Science Reviews 234, 104197. doi:10.1016/j.earscirev.2022.104197
  5. Fan, L., Dippold, M.A., Thiel, V., Ge, T., Wu, J., Kuzyakov, Y., Dorodnikov, M., 2022. Temperature sensitivity of anaerobic methane oxidation versus methanogenesis in paddy soil: Implications for the CH 4 balance under global warming. Global Change Biology 28, 654–664. doi:10.1111/gcb.15935
  6. Hennings, N., Fricke, K.M., Damris, M., Dippold, M.A., Kuzyakov, Y., 2022. Management extensification in oil palm plantations reduces SOC decomposition. Soil Biology and Biochemistry 165, 108535. doi:10.1016/j.soilbio.2021.108535
  7. Honeker, L.K., Hildebrand, G.A., Fudyma, J.D., Daber, L.E., Hoyt, D., Flowers, S.E., Gil-Loaiza, J., Kübert, A., Bamberger, I., Anderton, C.R., Cliff, J., Leichty, S., AminiTabrizi, R., Kreuzwieser, J., Shi, L., Bai, X., Velickovic, D., Dippold, M.A., Ladd, S.N., Werner, C., Meredith, L.K., Tfaily, M.M., 2022. Elucidating Drought-Tolerance Mechanisms in Plant Roots through 1 H NMR Metabolomics in Parallel with MALDI-MS, and NanoSIMS Imaging Techniques. Environmental Science & Technology 56, 2021–2032. doi:10.1021/acs.est.1c06772
  8. Huang, Q., Huang, Y., Wang, B., Dippold, M.A., Li, H., Li, N., Jia, P., Zhang, H., An, S., Kuzyakov, Y., 2022. Metabolic pathways of CO2 fixing microorganisms determined C-fixation rates in grassland soils along the precipitation gradient. Soil Biology and Biochemistry 172, 108764. doi:10.1016/j.soilbio.2022.108764
  9. Kumar, A., Blagodaskaya, E., Dippold, M.A., Temperton, V.M., 2022. Positive intercropping effects on biomass production are species-specific and involve rhizosphere enzyme activities: Evidence from a field study. Soil Ecology Letters 4, 444–453. doi:10.1007/s42832-021-0108-0
  10. Manzoor, A., Dippold, M.A., Loeppmann, S., Blagodatskaya, E., 2022. Two-Phase Conceptual Framework of Phosphatase Activity and Phosphorus Bioavailability. Frontiers in Plant Science 13. doi:10.3389/fpls.2022.935829
  11. Nazari, M., Bickel, S., Benard, P., Mason-Jones, K., Carminati, A., Dippold, M.A., 2022. Biogels in Soils: Plant Mucilage as a Biofilm Matrix That Shapes the Rhizosphere Microbial Habitat. Frontiers in Plant Science 12. doi:10.3389/fpls.2021.798992
  12. Okolo, C.C., Bore, E., Gebresamuel, G., Zenebe, A., Haile, M., Nwite, J.N., Dippold, M.A., 2022. Priming effect in semi-arid soils of northern Ethiopia under different land use types. Biogeochemistry 158, 383–403. doi:10.1007/s10533-022-00905-z
  13. Peixoto, L., Olesen, J.E., Elsgaard, L., Enggrob, K.L., Banfield, C.C., Dippold, M.A., Nicolaisen, M.H., Bak, F., Zang, H., Dresbøll, D.B., Thorup-Kristensen, K., Rasmussen, J., 2022. Deep-rooted perennial crops differ in capacity to stabilize C inputs in deep soil layers. Scientific Reports 12, 5952. doi:10.1038/s41598-022-09737-1
  14. 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., 2022. Soil phosphorus status and P nutrition strategies of European beech forests on carbonate compared to silicate parent material. Biogeochemistry 158, 39–72. doi:10.1007/s10533-021-00884-7
  15. Schmitt, M., Jarosch, K.A., Hertel, R., Spielvogel, S., Dippold, M.A., Loeppmann, S., 2022. Manufacturing triple-isotopically labeled microbial necromass to track C, N and P cycles in terrestrial ecosystems. Applied Soil Ecology 171, 104322. doi:10.1016/j.apsoil.2021.104322
  16. Stock, S.C., Koester, M., Nájera, F., Boy, J., Matus, F., Merino, C., Abdallah, K., Spielvogel, S., Gorbushina, A.A., Dippold, M.A., Kuzyakov, Y., 2022. Vegetation strategies for nitrogen and potassium acquisition along a climate and vegetation gradient: From semi-desert to temperate rainforest. Geoderma 425, 116077. doi:10.1016/j.geoderma.2022.116077
  17. Sun, T., Zhou, J., Shi, L., Feng, W., Dippold, M.A., Zang, H., Kurganova, I., de Gerenyu, V.L., Kalinina, O., Giani, L., Kuzyakov, Y., 2022. Microbial growth rates, carbon use efficiency and enzyme activities during post-agricultural soil restoration. CATENA 214, 106226. doi:10.1016/j.catena.2022.106226
  18. Wang, C., Dippold, M.A., Blagodatskaya, E., Dorodnikov, M., 2022. Oxygen matters: Short- and medium-term effects of aeration on hydrolytic enzymes in a paddy soil. Geoderma 407, 115548. doi:10.1016/j.geoderma.2021.115548
  19. Wang, C., Blagodatskaya, E., Dippold, M.A., Dorodnikov, M., 2022. Keep oxygen in check: Contrasting effects of short-term aeration on hydrolytic versus oxidative enzymes in paddy soils. Soil Biology and Biochemistry 169, 108690. doi:10.1016/j.soilbio.2022.108690
  20. Wang, C., Bilyera, N., Blagodatskaya, E., Zhang, X., Dippold, M.A., Dorodnikov, M., 2022. Keep oxygen in check: An improved in-situ zymography approach for mapping anoxic hydrolytic enzyme activities in a paddy soil. Science of The Total Environment 850, 158118. doi:10.1016/j.scitotenv.2022.158118
  21. Wang, C., Thielemann, L., Dippold, M.A., Guggenberger, G., Kuzyakov, Y., Banfield, C.C., Ge, T., Guenther, S., Bork, P., Horn, M.A., Dorodnikov, M., 2022. Microbial iron reduction compensates for phosphorus limitation in paddy soils. Science of The Total Environment 837, 155810. doi:10.1016/j.scitotenv.2022.155810
  22. Wang, C., Thielemann, L., Dippold, M.A., Guggenberger, G., Kuzyakov, Y., Banfield, C.C., Ge, T., Guenther, S., Bork, P., Horn, M.A., Dorodnikov, M., 2022. Can the reductive dissolution of ferric iron in paddy soils compensate phosphorus limitation of rice plants and microorganisms? Soil Biology and Biochemistry 168, 108653. doi:10.1016/j.soilbio.2022.108653
  23. Werner, L.M., Knott, M., Diehl, D., Ahmed, M.A., Banfield, C., Dippold, M., Vetterlein, D., Wimmer, M.A., 2022. Physico-chemical properties of maize (Zea mays L.) mucilage differ with the collection system and corresponding root type and developmental stage of the plant. Plant and Soil. doi:10.1007/s11104-022-05633-9
  24. Wu, W., Dijkstra, P., Hungate, B.A., Shi, L., Dippold, M.A., 2022. In situ diversity of metabolism and carbon use efficiency among soil bacteri. Science Advances 8. doi:10.1126/sciadv.abq3958
  25. Zhou, J., Gube, M., Holz, M., Song, B., Shan, I., Shi, L., Kuzyakov, Y., Dippold, M.A., Pausch, J., 2022. Ectomycorrhizal and non‐mycorrhizal rhizosphere fungi increase root‐derived C input to soil and modify enzyme activities: a 14 C pulse labeling of Picea abies seedlings. Plant, Cell & Environment. doi:10.1111/pce.14413

2021

  1. Bai, X., Dippold, M.A., An, S., Wang, B., Zhang, H., Loeppmann, S., 2021. Extracellular enzyme activity and stoichiometry: The effect of soil microbial element limitation during leaf litter decomposition. Ecological Indicators 121, 107200. doi:10.1016/j.ecolind.2020.107200
  2. Bilyera, N., Dippold, M.A., Bleicher, J., Maranguit, D., Kuzyakov, Y., Blagodatskaya, E., 2021. Microbial tradeoffs in internal and external use of resources regulated by phosphorus and carbon availability. European Journal of Soil Biology 106, 103353. doi:10.1016/j.ejsobi.2021.103353
  3. Bilyera, N., Zhang, X., Duddek, P., Fan, L., Banfield, C.C., Schlüter, S., Carminati, A., Kaestner, A., Ahmed, M.A., Kuzyakov, Y., Dippold, M.A., Spielvogel, S., Razavi, B.S., 2021. Maize genotype-specific exudation strategies: an adaptive mechanism to increase microbial activity in the rhizosphere. Soil Biology and Biochemistry 162, 108426. doi:10.1016/j.soilbio.2021.108426
  4. Fan, L., Schneider, D., Dippold, M.A., Poehlein, A., Wu, W., Gui, H., Ge, T., Wu, J., Thiel, V., Kuzyakov, Y., Dorodnikov, M., 2021. Active metabolic pathways of anaerobic methane oxidation in paddy soils. Soil Biology and Biochemistry 156, 108215. doi:10.1016/j.soilbio.2021.108215
  5. Hennings, N., Becker, J.N., Guillaume, T., Damris, M., Dippold, M.A., Kuzyakov, Y., 2021. Riparian wetland properties counter the effect of land-use change on soil carbon stocks after rainforest conversion to plantations. CATENA 196, 104941. doi:10.1016/j.catena.2020.104941
  6. Koester, M., Stock, S.C., Nájera, F., Abdallah, K., Gorbushina, A., Prietzel, J., Matus, F., Klysubun, W., Boy, J., Kuzyakov, Y., Dippold, M.A., Spielvogel, S., 2021. From rock eating to vegetarian ecosystems — Disentangling processes of phosphorus acquisition across biomes. Geoderma 388, 114827. doi:10.1016/j.geoderma.2020.114827
  7. Kravchenko, A., Guber, A., Gunina, A., Dippold, M., Kuzyakov, Y., 2021. Pore‐scale view of microbial turnover: Combining <scp> 14 C </scp> imaging, <scp>μCT</scp> and zymography after adding soluble carbon to soil pores of specific sizes. European Journal of Soil Science 72, 593–607. doi:10.1111/ejss.13001
  8. Ludwig, B., Song, X., Gunina, A., Greenberg, I., Dippold, M.A., Piepho, H., 2021. Importance of sources of variability, scales and experimental design: A case study about the effects of biochar and slurry application on soil properties in agricultural silty loam soils. European Journal of Soil Science 72, 1954–1968. doi:10.1111/ejss.13120
  9. Manzoni, S., Ding, Y., Warren, C., Banfield, C.C., Dippold, M.A., Mason-Jones, K., 2021. Intracellular Storage Reduces Stoichiometric Imbalances in Soil Microbial Biomass – A Theoretical Exploration. Frontiers in Ecology and Evolution 9. doi:10.3389/fevo.2021.714134
  10. Merino, C., Matus, F., Kuzyakov, Y., Dyckmans, J., Stock, S., Dippold, M.A., 2021. Contribution of the Fenton reaction and ligninolytic enzymes to soil organic matter mineralisation under anoxic conditions. Science of The Total Environment 760, 143397. doi:10.1016/j.scitotenv.2020.143397
  11. Nazari, M., Eteghadipour, M., Zarebanadkouki, M., Ghorbani, M., Dippold, M.A., Bilyera, N., Zamanian, K., 2021. Impacts of Logging-Associated Compaction on Forest Soils: A Meta-Analysis. Frontiers in Forests and Global Change 4. doi:10.3389/ffgc.2021.780074
  12. Rudolf, K., Hennings, N., Dippold, M.A., Edison, E., Wollni, M., 2021. Improving economic and environmental outcomes in oil palm smallholdings: The relationship between mulching, soil properties and yields. Agricultural Systems 193, 103242. doi:10.1016/j.agsy.2021.103242
  13. Stock, S.C., Koester, M., Boy, J., Godoy, R., Nájera, F., Matus, F., Merino, C., Abdallah, K., Leuschner, C., Spielvogel, S., Gorbushina, A.A., Kuzyakov, Y., Dippold, M.A., 2021. Plant carbon investment in fine roots and arbuscular mycorrhizal fungi: A cross-biome study on nutrient acquisition strategies. Science of The Total Environment 781, 146748. doi:10.1016/j.scitotenv.2021.146748
  14. Tegtmeier, J., Dippold, M.A., Kuzyakov, Y., Spielvogel, S., Loeppmann, S., 2021. Root-o-Mat: A novel tool for 2D image processing of root-soil interactions and its application in soil zymography. Soil Biology and Biochemistry 157, 108236. doi:10.1016/j.soilbio.2021.108236
  15. Werner, C., Meredith, L.K., Ladd, S.N., Ingrisch, J., Kübert, A., van Haren, J., Bahn, M., Bailey, K., Bamberger, I., Beyer, M., Blomdahl, D., Byron, J., Daber, E., Deleeuw, J., Dippold, M.A., Fudyma, J., Gil-Loaiza, J., Honeker, L.K., Hu, J., Huang, J., Klüpfel, T., Krechmer, J., Kreuzwieser, J., Kühnhammer, K., Lehmann, M.M., Meeran, K., Misztal, P.K., Ng, W.-R., Pfannerstill, E., Pugliese, G., Purser, G., Roscioli, J., Shi, L., Tfaily, M., Williams, J., 2021. Ecosystem fluxes during drought and recovery in an experimental forest. Science 374, 1514–1518. doi:10.1126/science.abj6789
  16. Zhang, X., Myrold, D.D., Shi, L., Kuzyakov, Y., Dai, H., Thu Hoang, D.T., Dippold, M.A., Meng, X., Song, X., Li, Z., Zhou, J., Razavi, B.S., 2021. Resistance of microbial community and its functional sensitivity in the rhizosphere hotspots to drought. Soil Biology and Biochemistry 161, 108360. doi:10.1016/j.soilbio.2021.108360
  17. Zhou, J., Gui, H., Banfield, C.C., Wen, Y., Zang, H., Dippold, M.A., Charlton, A., Jones, D.L., 2021. The microplastisphere: Biodegradable microplastics addition alters soil microbial community structure and function. Soil Biology and Biochemistry 156, 108211. doi:10.1016/j.soilbio.2021.108211

2020

  1. Cai, G., Ahmed, M.A., Dippold, M.A., Zarebanadkouki, M., Carminati, A., 2020. Linear relation between leaf xylem water potential and transpiration in pearl millet during soil drying. Plant and Soil 447, 565–578. doi:10.1007/s11104-019-04408-z
  2. Fan, L., Dippold, M.A., Ge, T., Wu, J., Thiel, V., Kuzyakov, Y., Dorodnikov, M., 2020. Anaerobic oxidation of methane in paddy soil: Role of electron acceptors and fertilization in mitigating CH4 fluxes. Soil Biology and Biochemistry 141, 107685. doi:10.1016/j.soilbio.2019.107685
  3. Loeppmann, S., Breidenbach, A., Spielvogel, S., Dippold, M.A., Blagodatskaya, E., 2020. Organic Nutrients Induced Coupled C- and P-Cycling Enzyme Activities During Microbial Growth in Forest Soils. Frontiers in Forests and Global Change 3. doi:10.3389/ffgc.2020.00100
  4. Merten, J., Stiegler, C., Hennings, N., Purnama, E.S., Röll, A., Agusta, H., Dippold, M.A., Fehrmann, L., Gunawan, D., Hölscher, D., Knohl, A., Kückes, J., Otten, F., Zemp, D.C., Faust, H., 2020. Flooding and land use change in Jambi Province, Sumatra: integrating local knowledge and scientific inquiry. Ecology and Society 25, art14. doi:10.5751/ES-11678-250314
  5. Najera, F., Dippold, M.A., Boy, J., Seguel, O., Koester, M., Stock, S., Merino, C., Kuzyakov, Y., Matus, F., 2020. Effects of drying/rewetting on soil aggregate dynamics and implications for organic matter turnover. Biology and Fertility of Soils 56, 893–905. doi:10.1007/s00374-020-01469-6
  6. Nazari, M., Riebeling, S., Banfield, C.C., Akale, A., Crosta, M., Mason-Jones, K., Dippold, M.A., Ahmed, M.A., 2020. Mucilage Polysaccharide Composition and Exudation in Maize From Contrasting Climatic Regions. Frontiers in Plant Science 11. doi:10.3389/fpls.2020.587610
  7. Ndossi, E.M., Becker, J.N., Hemp, A., Dippold, M.A., Kuzyakov, Y., Razavi, B.S., 2020. Effects of land use and elevation on the functional characteristics of soil enzymes at Mt. Kilimanjaro. European Journal of Soil Biology 97, 103167. doi:10.1016/j.ejsobi.2020.103167
  8. Okolo, C.C., Dippold, M.A., Gebresamuel, G., Zenebe, A., Haile, M., Bore, E., 2020. Assessing the sustainability of land use management of northern Ethiopian drylands by various indicators for soil health. Ecological Indicators 112, 106092. doi:10.1016/j.ecolind.2020.106092
  9. Peixoto, L., Elsgaard, L., Rasmussen, J., Kuzyakov, Y., Banfield, C.C., Dippold, M.A., Olesen, J.E., 2020. Decreased rhizodeposition, but increased microbial carbon stabilization with soil depth down to 3.6 m. Soil Biology and Biochemistry 150, 108008. doi:10.1016/j.soilbio.2020.108008
  10. Song, X., Razavi, B.S., Ludwig, B., Zamanian, K., Zang, H., Kuzyakov, Y., Dippold, M.A., Gunina, A., 2020. Combined biochar and nitrogen application stimulates enzyme activity and root plasticity. Science of The Total Environment 735, 139393. doi:10.1016/j.scitotenv.2020.139393
  11. Wobeng, N.B.M., Banfield, C.C., Megueni, C., Mapongmetsem, P.M., Dippold, M.A., 2020. Impact of legumes on soil microbial activity and C cycle functions in two contrasting Cameroonian agro-ecological zones. Pedobiologia 81–82, 150662. doi:10.1016/j.pedobi.2020.150662
  12. Wu, W., Dijkstra, P., Dippold, M.A., 2020. 13C analysis of fatty acid fragments by gas chromatography mass spectrometry for metabolic flux analysis. Geochimica et Cosmochimica Acta 284, 92–106. doi:10.1016/j.gca.2020.05.032
  13. Zhang, X., Kuzyakov, Y., Zang, H., Dippold, M.A., Shi, L., Spielvogel, S., Razavi, B.S., 2020. Rhizosphere hotspots: Root hairs and warming control microbial efficiency, carbon utilization and energy production. Soil Biology and Biochemistry 148, 107872. doi:10.1016/j.soilbio.2020.107872
  14. Zhu, C., Ling, N., Li, L., Liu, X., Dippold, M.A., Zhang, X., Guo, S., Kuzyakov, Y., Shen, Q., 2020. Compositional variations of active autotrophic bacteria in paddy soils with elevated CO2 and temperature. Soil Ecology Letters 2, 295–307. doi:10.1007/s42832-020-0044-4

 

2019

  1. Becker, J.N., Dippold, M.A., Hemp, A., Kuzyakov, Y., 2019. Ashes to ashes: Characterization of organic matter in Andosols along a 3400 m elevation transect at Mount Kilimanjaro using analytical pyrolysis. CATENA 180, 271–281. doi:10.1016/j.catena.2019.04.033
  2. Bore, E.K., Halicki, S., Kuzyakov, Y., Dippold, M.A., 2019a. Structural and physiological adaptations of soil microorganisms to freezing revealed by position-specific labeling and compound-specific 13C analysis. Biogeochemistry 143, 207–219. doi:10.1007/s10533-019-00558-5
  3. Bore, E.K., Kuzyakov, Y., Dippold, M.A., 2019b. Glucose and ribose stabilization in soil: Convergence and divergence of carbon pathways assessed by position-specific labeling. Soil Biology and Biochemistry 131, 54–61. doi:10.1016/j.soilbio.2018.12.027
  4. Chen, J., Seven, J., Zilla, T., Dippold, M.A., Blagodatskaya, E., Kuzyakov, Y., 2019. 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. doi:10.1016/j.soilbio.2019.01.017
  5. Dippold, M.A., Gunina, A., Apostel, C., Boesel, S., Glaser, B., Kuzyakov, Y., 2019. Metabolic tracing unravels pathways of fungal and bacterial amino sugar formation in soil. European Journal of Soil Science 70, 421–430. doi:10.1111/ejss.12736
  6. Fan, L., Shahbaz, M., Ge, T., Wu, J., Dippold, M., Thiel, V., Kuzyakov, Y., Dorodnikov, M., 2019. To shake or not to shake: 13C-based evidence on anaerobic methane oxidation in paddy soil. Soil Biology and Biochemistry 133, 146–154. doi:10.1016/j.soilbio.2019.03.010
  7. Luo, G., Ling, N., Xue, C., Dippold, M.A., Firbank, L.G., Guo, S., Kuzyakov, Y., Shen, Q., 2019. Nitrogen-inputs regulate microbial functional and genetic resistance and resilience to drying–rewetting cycles, with implications for crop yields. Plant and Soil 441, 301–315. doi:10.1007/s11104-019-04120-y
  8. Mason‐Jones, K., Banfield, C.C., Dippold, M.A., 2019. Compound‐specific 13 C stable isotope probing confirms synthesis of polyhydroxybutyrate by soil bacteria. Rapid Communications in Mass Spectrometry 33, 795–802. doi:10.1002/rcm.8407
  9. Matus, F., Stock, S., Eschenbach, W., Dyckmans, J., Merino, C., Nájera, F., Köster, M., Kuzyakov, Y., Dippold, M.A., 2019. Ferrous Wheel Hypothesis: Abiotic nitrate incorporation into dissolved organic matter. Geochimica et Cosmochimica Acta 245, 514–524. doi:10.1016/j.gca.2018.11.020
  10. Ma, X., Mason-Jones, K., Liu, Y., Blagodatskaya, E., Kuzyakov, Y., Guber, A., Dippold, M.A., Razavi, B.S., 2019. Coupling zymography with pH mapping reveals a shift in lupine phosphorus acquisition strategy driven by cluster roots. Soil Biology and Biochemistry 135, 420–428. doi:10.1016/j.soilbio.2019.06.001
  11. Stock, S.C., Köster, M., Dippold, M.A., Nájera, F., Matus, F., Merino, C., Boy, J., Spielvogel, S., Gorbushina, A., Kuzyakov, Y., 2019. Environmental drivers and stoichiometric constraints on enzyme activities in soils from rhizosphere to continental scale. Geoderma 337, 973–982. doi:10.1016/j.geoderma.2018.10.030
  12. Zhang, X., Dippold, M.A., Kuzyakov, Y., Razavi, B.S., 2019. Spatial pattern of enzyme activities depends on root exudate composition. Soil Biology and Biochemistry 133, 83–93. doi:10.1016/j.soilbio.2019.02.010

2018

  1. Ahmed, Mutez A., Banfield, C.C., Sanaullah, M., Gunina, A., Dippold, M.A., 2018. Utilisation of mucilage C by microbial communities under drought. Biology and Fertility of Soils 54, 83–94. doi:10.1007/s00374-017-1237-6
  2. Ahmed, Mutez Ali, Sanaullah, M., Blagodatskaya, E., Mason-Jones, K., Jawad, H., Kuzyakov, Y., Dippold, M.A., 2018. Soil microorganisms exhibit enzymatic and priming response to root mucilage under drought. Soil Biology and Biochemistry 116, 410–418. doi:10.1016/j.soilbio.2017.10.041
  3. Apostel, C., Herschbach, J., Bore, E.K., Spielvogel, S., Kuzyakov, Y., Dippold, M.A., 2018. Food for microorganisms: Position-specific 13 C labeling and 13 C-PLFA analysis reveals preferences for sorbed or necromass C. Geoderma 312, 86–94. doi:10.1016/j.geoderma.2017.09.042
  4. Banfield, C.C., Pausch, J., Kuzyakov, Y., Dippold, M.A., 2018. Microbial processing of plant residues in the subsoil – The role of biopores. Soil Biology and Biochemistry 125, 309–318. doi:10.1016/j.soilbio.2018.08.004
  5. Bernhard, N., Moskwa, L.-M., Schmidt, K., Oeser, R.A., Aburto, F., Bader, M.Y., Baumann, K., von Blanckenburg, F., Boy, J., van den Brink, L., Brucker, E., Büdel, B., Canessa, R., Dippold, M.A., Ehlers, T.A., Fuentes, J.P., Godoy, R., Jung, P., Karsten, U., Köster, M., Kuzyakov, Y., Leinweber, P., Neidhardt, H., Matus, F., Mueller, C.W., Oelmann, Y., Oses, R., Osses, P., Paulino, L., Samolov, E., Schaller, M., Schmid, M., Spielvogel, S., Spohn, M., Stock, S., Stroncik, N., Tielbörger, K., Übernickel, K., Scholten, T., Seguel, O., Wagner, D., Kühn, P., 2018. Pedogenic and microbial interrelations to regional climate and local topography: New insights from a climate gradient (arid to humid) along the Coastal Cordillera of Chile. CATENA 170, 335–355. doi:10.1016/j.catena.2018.06.018
  6. Oeser, R.A., Stroncik, N., Moskwa, L.-M., Bernhard, N., Schaller, M., Canessa, R., van den Brink, L., Köster, M., Brucker, E., Stock, S., Fuentes, J.P., Godoy, R., Matus, F.J., Oses Pedraza, R., Osses McIntyre, P., Paulino, L., Seguel, O., Bader, M.Y., Boy, J., Dippold, M.A., Ehlers, T.A., Kühn, P., Kuzyakov, Y., Leinweber, P., Scholten, T., Spielvogel, S., Spohn, M., Übernickel, K., Tielbörger, K., Wagner, D., von Blanckenburg, F., 2018. Chemistry and microbiology of the Critical Zone along a steep climate and vegetation gradient in the Chilean Coastal Cordillera. CATENA 170, 183–203. doi:10.1016/j.catena.2018.06.002

2017

  1. Apostel, C., Dippold, M.A., Bore, E., Kuzyakov, Y., 2017. Sorption of Alanine changes microbial metabolism in addition to availability. Geoderma 292, 128–134. doi:10.1016/j.geoderma.2017.01.016
  2. Banfield, C.C., Dippold, M.A., Pausch, J., Hoang, D.T.T., Kuzyakov, Y., 2017. Biopore history determines the microbial community composition in subsoil hotspots. Biology and Fertility of Soils 53, 573–588. doi:10.1007/s00374-017-1201-5
  3. Bore, E.K., Apostel, C., Halicki, S., Kuzyakov, Y., Dippold, M.A., 2017. Microbial Metabolism in Soil at Subzero Temperatures: Adaptation Mechanisms Revealed by Position-Specific 13C Labeling. Frontiers in Microbiology 8. doi:10.3389/fmicb.2017.00946
  4. Bore, E., Apostel, C., Halicki, S., Kuzyakov, Y., Dippold, M.A., 2017. Soil microorganisms can overcome respiration inhibition by coupling intra- and extracellular metabolism: 13C metabolic tracing reveals the mechanisms. The ISME Journal 11, 1423–1433. doi:10.1038/ismej.2017.3
  5. Gocke, M.I., Huguet, A., Derenne, S., Kolb, S., Dippold, M.A., Wiesenberg, G.L.B., 2017. Disentangling interactions between microbial communities and roots in deep subsoil. Science of The Total Environment 575, 135–145. doi:10.1016/j.scitotenv.2016.09.184
  6. Gunina, A., Dippold, M., Glaser, B., Kuzyakov, Y., 2017. Turnover of microbial groups and cell components in soil: 13C analysis of cellular biomarkers. Biogeosciences 14, 271–283. doi:10.5194/bg-14-271-2017
  7. Sommer, J., Dippold, M.A., Zieger, S.L., Handke, A., Scheu, S., Kuzyakov, Y., 2017. The tree species matters: Belowground carbon input and utilization in the myco-rhizosphere. European Journal of Soil Biology 81, 100–107. doi:10.1016/j.ejsobi.2017.07.001
  8. Sommer, J., Dippold, M., Kuzyakov, Y., 2017. Different responses of ash and beech on nitrate versus ammonium leaf labeling. Journal of Plant Nutrition and Soil Science 180, 446–453. doi:10.1002/jpln.201600385
  9. Sommer, J., Hartmann, L., Dippold, M.A., Lamersdorf, N.P., 2017. Specific Nmin uptake patterns of two widely applied poplar and willow clones for short rotation coppices – Implications for management practices. Biomass and Bioenergy 98, 236–242. doi:10.1016/j.biombioe.2017.02.001
  10. Spielvogel, S., Dippold, M.A., Kuzyakov, Y., 2017. Preface: Special issue SOM 2015. Geoderma 304, 1–3. doi:10.1016/j.geoderma.2017.05.032

2016

  1. Bol, R., Julich, D., Brödlin, D., Siemens, J., Kaiser, K., Dippold, M.A., Spielvogel, S., Zilla, T., Mewes, D., von Blanckenburg, F., Puhlmann, H., Holzmann, S., Weiler, M., Amelung, W., Lang, F., Kuzyakov, Y., Feger, K., Gottselig, N., Klumpp, E., Missong, A., Winkelmann, C., Uhlig, D., Sohrt, J., von Wilpert, K., Wu, B., Hagedorn, F., 2016. Dissolved and colloidal phosphorus fluxes in forest ecosystems—an almost blind spot in ecosystem research. Journal of Plant Nutrition and Soil Science 179, 425–438. doi:10.1002/jpln.201600079
  2. Dippold, M.A., Kuzyakov, Y., 2016. Direct incorporation of fatty acids into microbial phospholipids in soils: Position-specific labeling tells the story. Geochimica et Cosmochimica Acta 174, 211–221. doi:10.1016/j.gca.2015.10.032
  3. Sommer, J., Dippold, M.A., Flessa, H., Kuzyakov, Y., 2016. Allocation and dynamics of C and N within plant–soil system of ash and beech. Journal of Plant Nutrition and Soil Science 179, 376–387. doi:10.1002/jpln.201500384
  4. Tian, J., Wang, J., Dippold, M., Gao, Y., Blagodatskaya, E., Kuzyakov, Y., 2016. Biochar affects soil organic matter cycling and microbial functions but does not alter microbial community structure in a paddy soil. Science of The Total Environment 556, 89–97. doi:10.1016/j.scitotenv.2016.03.010

2015

  1. Apostel, C., Dippold, M., Kuzyakov, Y., 2015. Biochemistry of hexose and pentose transformations in soil analyzed by position-specific labeling and 13C-PLFA. Soil Biology and Biochemistry 80, 199–208. doi:10.1016/j.soilbio.2014.09.005
  2. Basler, A., Dippold, M., Helfrich, M., Dyckmans, J., 2015. Microbial carbon recycling – an underestimated process controlling soil carbon dynamics – Part 1: A long-term laboratory incubation experiment. Biogeosciences 12, 5929–5940. doi:10.5194/bg-12-5929-2015
  3. Basler, A., Dippold, M., Helfrich, M., Dyckmans, J., 2015. Microbial carbon recycling: an underestimated process controlling soil carbon dynamics – Part 2: A C3-C4 vegetation change field labelling experiment. Biogeosciences 12, 6291–6299. doi:10.5194/bg-12-6291-2015
  4. Benesch, M., Glaser, B., Dippold, M., Zech, W., 2015. Soil microbial C and N turnover under Cupressus lusitanica and natural forests in southern Ethiopia assessed by decomposition of 13C- and 15 N-labelled litter under field conditions. Plant and Soil 388, 133–146. doi:10.1007/s11104-014-2317-0
  5. Heinrich, S., Dippold, M.A., Werner, C., Wiesenberg, G.L.B., Kuzyakov, Y., Glaser, B., 2015. Allocation of freshly assimilated carbon into primary and secondary metabolites after in situ 13 C pulse labelling of Norway spruce ( Picea abies ). Tree Physiology. doi:10.1093/treephys/tpv083
  6. Moran-Zuloaga, D., Dippold, M., Glaser, B., Kuzyakov, Y., 2015. Organic nitrogen uptake by plants: reevaluation by position-specific labeling of amino acids. Biogeochemistry 125, 359–374. doi:10.1007/s10533-015-0130-3
  7. Wiedner, K., Schneeweiß, J., Dippold, M.A., Glaser, B., 2015. Anthropogenic Dark Earth in Northern Germany — The Nordic Analogue to terra preta de Índio in Amazonia. CATENA 132, 114–125. doi:10.1016/j.catena.2014.10.024

2014

  1. Dippold, M.A., Boesel, S., Gunina, A., Kuzyakov, Y., Glaser, B., 2014. Improved δ 13 C analysis of amino sugars in soil by ion chromatography-oxidation-isotope ratio mass spectrometry. Rapid Communications in Mass Spectrometry 28, 569–576. doi:10.1002/rcm.6814
  2. Dippold, M., Biryukov, M., Kuzyakov, Y., 2014. Sorption affects amino acid pathways in soil: Implications from position-specific labeling of alanine. Soil Biology and Biochemistry 72, 180–192. doi:10.1016/j.soilbio.2014.01.015
  3. Gunina, A., Dippold, M.A., Glaser, B., Kuzyakov, Y., 2014. Fate of low molecular weight organic substances in an arable soil: From microbial uptake to utilisation and stabilisation. Soil Biology and Biochemistry 77, 304–313. doi:10.1016/j.soilbio.2014.06.029

 

2013

  1. Apostel, C., Dippold, M., Glaser, B., Kuzyakov, Y., 2013. Biochemical pathways of amino acids in soil: Assessment by position-specific labeling and 13C-PLFA analysis. Soil Biology and Biochemistry 67, 31–40. doi:10.1016/j.soilbio.2013.08.005
  2. Dippold, M.A., Kuzyakov, Y., 2013. Biogeochemical transformations of amino acids in soil assessed by position-specific labelling. Plant and Soil 373, 385–401. doi:10.1007/s11104-013-1764-3
  3. Glaserb, B., Wiednera, K.,, Dippold, M., 2013. Studying the Role of Biochar using Isotopic Tracing Techniques. Biochar and Soil Biota. doi:10.1201/b14585
  4. Tian, J., Dippold, M., Pausch, J., Blagodatskaya, E., Fan, M., Li, X., Kuzyakov, Y., 2013. Microbial response to rhizodeposition depending on water regimes in paddy soils. Soil Biology and Biochemistry 65, 195–203. doi:10.1016/j.soilbio.2013.05.021

2010-2012

  1. Birk, J.J., Dippold, M., Wiesenberg, G.L.B., Glaser, B., 2012. Combined quantification of faecal sterols, stanols, stanones and bile acids in soils and terrestrial sediments by gas chromatography–mass spectrometry. Journal of Chromatography A 1242, 1–10. doi:10.1016/j.chroma.2012.04.027
  2. Glaser, B., Benesch, M., Dippold, M., Zech, W., 2012. In situ 15N and 13C labelling of indigenous and plantation tree species in a tropical mountain forest (Munessa, Ethiopia) for subsequent litter and soil organic matter turnover studies. Organic Geochemistry 42, 1461–1469. doi:10.1016/j.orggeochem.2011.06.010
  3. Sauheitl, L., Glaser, B., Dippold, M., Leiber, K., Weigelt, A., 2010. Amino acid fingerprint of a grassland soil reflects changes in plant species richness. Plant and Soil 334, 353–363. doi:10.1007/s11104-010-0387-1
  4. Zech, W., Zech, R., Zech, M., Leiber, K., Dippold, M., Frechen, M., Bussert, R., Andreev, A., 2011. Obliquity forcing of Quaternary glaciation and environmental changes in NE Siberia. Quaternary International 234, 133–145. doi:10.1016/j.quaint.2010.04.016

Memberships

  • European Geoscience Union (EGU)
  • European Association of Organic Geochemistry (EAOG)
  • German Association of Stable Isotopes Research (GASIR)
  • German Soil Science Union (DBG)