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Die Messung von Tagesgängen der Kohlenstoffdioxid-Flüsse mit manuellen Hauben startet vor Sonnenaufgang (Großes Moor bei Gifhorn, 04:45 Uhr).
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Die Messung von Tagesgängen der Kohlenstoffdioxid-Flüsse mit manuellen Hauben startet vor Sonnenaufgang (Großes Moor bei Gifhorn, 04:45 Uhr).
Institut für

AK Agrarklimaschutz

Referierte Publikationen

  1. 0

    Huf M, Reinsch T, Zutz M, Essich C, Ruser R, Buchen-Tschiskale C, Flessa H, Olfs H-W (2023) Effects of liquid manure application techniques on ammonia emission and winter wheat yield. Agronomy 13(2):472, DOI:10.3390/agronomy13020472

    https://literatur.thuenen.de/digbib_extern/dn066006.pdf

  2. 1

    Koppensteiner W, Wegmann J, Ischebeck M, Laggner A, Tiemeyer B (2023) Ermittlung von Potenzialgebieten für Moorschutzmaßnahmen in Deutschland. Natur Landsch 98(3):94-103, DOI:10.19217/NuL2023-03-01

  3. 2

    Kemmann B, Ruf T, Well R, Emmerling C, Fuß R (2023) Greenhouse gas emissions from Silphium perfoliatum and silage maize cropping on Stagnosols. J Plant Nutr Soil Sci 186(1):79-94, DOI:10.1002/jpln.202200014

    https://literatur.thuenen.de/digbib_extern/dn065633.pdf

  4. 3

    Offermanns L, Tiemeyer B, Dettmann U, Rüffer J, Düvel D, Vogel I, Brümmer C (2023) High greenhouse gas emissions after grassland renewal on bog peat soil. Agric Forest Meteorol 331:109309, DOI:10.1016/j.agrformet.2023.109309

    https://literatur.thuenen.de/digbib_extern/dn066005.pdf

  5. 4

    Karlowsky S, Buchen-Tschiskale C, Odasso L, Schwarz D, Well R (2023) Sources of nitrous oxide emissions from hydroponic tomato cultivation: Evidence from stable isotope analyses. Frontiers Microbiol 13:1080847, DOI:10.3389/fmicb.2022.1080847

    https://literatur.thuenen.de/digbib_extern/dn065897.pdf

  6. 5

    Ni K, Vietinghoff M, Pacholski AS (2023) Targeting yield and reducing nitrous oxide emission by use of single and double inhibitor treated urea during winter wheat season in Northern Germany. Agric Ecosyst Environ 347:108391, DOI:10.1016/j.agee.2023.108391

    https://literatur.thuenen.de/digbib_extern/dn066013.pdf

  7. 6

    Zhang W, Jung M, Migliavacca M, Poyatos R, Miralles DG, El-Madany TS, Galvagno M, Carrara A, Arriga N, Ibrom A, Mammarella I, Papale D, Cleverly JR, Liddell M, Wohlfahrt G, Markwitz C, Mauder M, Paul-Limoges E, Schmidt M, Brümmer C, et al (2023) The effect of relative humidity on eddy covariance latent heat flux measurements and its implication for partitioning into transpiration and evaporation. Agric Forest Meteorol 330:109305, DOI:10.1016/j.agrformet.2022.109305

    https://literatur.thuenen.de/digbib_extern/dn065916.pdf

  8. 7

    Buchen-Tschiskale C, Well R, Flessa H (2023) Tracing nitrogen transformations during spring development of winter wheat induced by 15N labeled cattle slurry applied with different techniques. Sci Total Environ 871:162061, DOI:10.1016/j.scitotenv.2023.162061

    https://literatur.thuenen.de/digbib_extern/dn066047.pdf

  9. 8

    Kemmann B, Ruf T, Matson A, Well R (2023) Waterlogging effects on N2O and N2 emissions from a Stagnosol cultivated with Silphium perfoliatum and silage maize. Biol Fertil Soils 59(1):53-71, DOI:10.1007/s00374-022-01673-6

    https://literatur.thuenen.de/digbib_extern/dn065645.pdf

  10. 9

    Cao H, Henze DK, Zhu L, Shephard MW, Cady-Pereira K, Dammers E, Sitwell M, Heath N, Lonsdale C, Bash JO, Miyazaki K, Flechard CR, Fauvel Y, Wichink Kruit RJ, Feigenspan S, Brümmer C, Schrader F, Twigg M, Leeson S, Tang YS, et al (2022) 4D-Var inversion of European NH3 emissions using CrIS NH3 measurements and GEOS-Chem adjoint with bi-directional and uni-directional flux schemes. JGR Atmospheres 127(9):e2021JD035687, DOI:10.1029/2021JD035687

    https://literatur.thuenen.de/digbib_extern/dn064933.pdf

  11. 10

    Eysholdt M, Kunkel R, Rösemann C, Wendland F, Wolters T, Zinnbauer M, Fuß R (2022) A model-based estimate of nitrate leaching in Germany for GHG reporting. J Plant Nutr Soil Sci 185(6):850-863, DOI:10.1002/jpln.202200119

    https://literatur.thuenen.de/digbib_extern/dn065445.pdf

  12. 11

    Cheng Y, Elrys AS, Wang J, Xu C, Ni K, Zhang J, Wang S, Cai Z, Pacholski AS (2022) Application of enhanced-efficiency nitrogen fertilizers reduces mineral nitrogen usage and emissions of both N2O and NH3 while sustaining yields in a wheat-rice rotation system. Agric Ecosyst Environ 324:107720, DOI:10.1016/j.agee.2021.107720

  13. 12

    Drexler S, Broll G, Flessa H, Don A (2022) Benchmarking soil organic carbon to support agricultural carbon management: A German case study. J Plant Nutr Soil Sci 185(3):427-440, DOI:10.1002/jpln.202200007

    https://literatur.thuenen.de/digbib_extern/dn064821.pdf

  14. 13

    Liebmann P, Mikutta R, Kalbitz K, Wordell-Dietrich P, Leinemann T, Preusser S, Mewes O, Perrin E, Bachmann J, Don A, Kandeler E, Marschner B, Schaarschmidt F, Guggenberger G (2022) Biogeochemical limitations of carbon stabilization in forest subsoils. J Plant Nutr Soil Sci 185(1):35-43, DOI:10.1002/jpln.202100295

    https://literatur.thuenen.de/digbib_extern/dn064227.pdf

  15. 14

    Schroeder J, Peplau T, Pennekamp F, Gregorich E, Tebbe CC, Poeplau C (2022) Deforestation for agriculture increases microbial carbon use efficiency in subarctic soils. Biol Fertil Soils 58:in Press, DOI:10.1007/s00374-022-01669-2

    https://literatur.thuenen.de/digbib_extern/dn065532.pdf

  16. 15

    Quezada JC, Guillaume T, Poeplau C, Ghazoul J, Buttler A (2022) Deforestation-free land-use change and organic matter-centered management improve the C footprint of oil palm expansion. Global Change Biol 28(7):2476-2490, DOI:10.1111/gcb.16069

    https://literatur.thuenen.de/digbib_extern/dn064529.pdf

  17. 16

    Oestmann J, Dettmann U, Düvel D, Tiemeyer B (2022) Experimental warming increased greenhouse gas emissions of a near-natural peatland and Sphagnum farming sites. Plant Soil 480:85-104, DOI:10.1007/s11104-022-05561-8

    https://literatur.thuenen.de/digbib_extern/dn065005.pdf

  18. 17

    Harbo LS, Schulz G, Heinemann H, Dechow R, Poeplau C (2022) Flower strips as a carbon sequestration measure in temperate croplands. Plant Soil 482(1-2):647-663, DOI:10.1007/s11104-022-05718-5

    https://literatur.thuenen.de/digbib_extern/dn065469.pdf

  19. 18

    Wintjen P, Schrader F, Schaap M, Beudert B, Brümmer C (2022) Forest-atmosphere exchange of reactive nitrogen in a remote region - Part I: Measuring temporal dynamics. Biogeosciences 19(2):389-413, DOI:10.5194/bg-19-389-2022

    https://literatur.thuenen.de/digbib_extern/dn064544.pdf

  20. 19

    Wintjen P, Schrader F, Schaap M, Beudert B, Kranenburg R, Brümmer C (2022) Forest-atmosphere exchange of reactive nitrogen in a remote region - Part II: Modeling annual budgets. Biogeosciences 19(22):5287–5311, DOI:10.5194/bg-19-5287-2022

    https://literatur.thuenen.de/digbib_extern/dn065701.pdf

  21. 20

    Oestmann J, Tiemeyer B, Düvel D, Grobe A, Dettmann U (2022) Greenhouse gas balance of Sphagnum farming on highly decomposed peat at former peat extraction sites. Ecosystems 25(2):350-371, DOI:10.1007/s10021-021-00659-z

    https://literatur.thuenen.de/digbib_extern/dn063788.pdf

  22. 21

    Dettmann U, Frank S, Wittnebel M, Piayda A, Tiemeyer B (2022) How to take volume-based peat samples down to mineral soil? Geoderma 427:116132, DOI:10.1016/j.geoderma.2022.116132

    https://literatur.thuenen.de/digbib_extern/dn065374.pdf

  23. 22

    Nyameasem JK, Zutz M, Kluß C, Huf M, Essich C, Buchen-Tschiskale C, Ruser R, Flessa H, Olfs H-W, Taube F, Reinsch T (2022) Impact of cattle slurry application methods on ammonia losses and grassland nitrogen use efficiency. Environ Pollut 315:120302, DOI:10.1016/j.envpol.2022.120302

  24. 23

    Senbayram M, Wei Z, Wu D, Shan J, Yan X, Well R (2022) Inhibitory effect of high nitrate on N2O reduction is offset by long moist spells in heavily N loaded arable soils. Biol Fertil Soils 58(1):77-90, DOI:10.1007/s00374-021-01612-x

  25. 24

    Bieri M, du Toit JCO, Feig G, Maluta NE, Mantlana B, Mateyisi M, Midgley GF, Mutanga S, Maltitz Gv, Brümmer C (2022) Integrating project-based infrastructures with long-term greenhouse gas observations in Africa [online]. Clean Air J 32(1):1-9, zu finden in < https://cleanairjournal.org.za/article/view/13081> [zitiert am 05.07.2022], DOI:10.17159/caj/2022/32/1.13081

    https://literatur.thuenen.de/digbib_extern/dn065031.pdf

  26. 25

    Maier M, Weber TKD, Fiedler J, Fuß R, Glatzel S, Huth V, Jordan S, Jurasinski G, Kutzbach L, Schäfer K, Weymann D, Hagemann U (2022) Introduction of a guideline for measurements of greenhouse gas fluxes from soils using non-steady-state chambers. J Plant Nutr Soil Sci 185(4):447-461, DOI:10.1002/jpln.202200199

    https://literatur.thuenen.de/digbib_extern/dn065104.pdf

  27. 26

    Wei Z, Shan J, Well R, Yan X, Senbayram M (2022) Land use conversion and soil moisture affect the magnitude and pattern of soil-borne N2, NO, and N2O emissions. Geoderma 407:115568, DOI:10.1016/j.geoderma.2021.115568

  28. 27

    Masese FO, Fuss T, Thuile Bistarelli L, Buchen-Tschiskale C, Singer G (2022) Large herbivorous wildlife and livestock differentially influence the relative importance of different sources of energy for riverine food webs. Sci Total Environ 828:154452, DOI:10.1016/j.scitotenv.2022.154452

  29. 28

    Kanukollu S, Remus R, Rücker A, Buchen-Tschiskale C, Hoffmann M, Kolb S (2022) Methanol utilizers of the rhizosphere and phyllosphere of a common grass and forb host species. Environ Microbiome 17:35, DOI:10.1186/s40793-022-00428-y

    https://literatur.thuenen.de/digbib_extern/dn065044.pdf

  30. 29

    Mganga KZ, Sietiö O-M, Meyer N, Poeplau C, Adamczyk S, Biasi C, Kalu S, Räsänen M, Ambus P, Fritze H, Pellikka PKE, Karhu K (2022) Microbial carbon use efficiency along an altitudinal gradient. Soil Biol Biochem 173:108799, DOI:10.1016/j.soilbio.2022.108799

    https://literatur.thuenen.de/digbib_extern/dn065272.pdf

  31. 30

    Sommer SG, Hafner SD, Laubach J, Weerden TJ, Leytem AB, Pacholski AS (2022) Model for calculating ammonia emission from stored animal liquid manure. Biosyst Eng 223, PART A:41-55, DOI:10.1016/j.biosystemseng.2022.08.007

    https://literatur.thuenen.de/digbib_extern/dn065456.pdf

  32. 31

    Lucas-Moffat AM, Schrader F, Herbst M, Brümmer C (2022) Multiple gap-filling for eddy covariance datasets. Agric Forest Meteorol 325(Okt. 2022):109114, DOI:10.1016/j.agrformet.2022.109114

    https://literatur.thuenen.de/digbib_extern/dn065407.pdf

  33. 32

    Don A (2022) No threat to global soil carbon stocks by wild boar grubbing. Global Change Biol 28(3):685-686, DOI:10.1111/gcb.15990

  34. 33

    Poeplau C, Prietz R, Don A (2022) Plot-scale variability of organic carbon in temperate agricultural soils - Implications for soil monitoring. J Plant Nutr Soil Sci 185(3):403-416, DOI:10.1002/jpln.202100393

    https://literatur.thuenen.de/digbib_extern/dn064730.pdf

  35. 34

    Brümmer C, Rüffer J, Delorme J-P, Wintjen P, Schrader F, Beudert B, Schaap M, Ammann C (2022) Reactive nitrogen fluxes over peatland and forest ecosystems using micrometeorological measurement techniques. Earth Syst Sci Data 14(2):743-761, DOI:10.5194/essd-14-743-2022

    https://literatur.thuenen.de/digbib_extern/dn064587.pdf

  36. 35

    Krauss M, Wiesmeier M, Don A, Cuperus F, Gattinger A, Gruber S, Haagsma WK, Peigne J, Chiodelli Palazzoli M, Schulz F, van der Heijden MGK, Vincent-Caboud L, Wittwer RA, Zikeli S, Steffens M (2022) Reduced tillage in organic farming affects soil organic carbon stocks in temperate Europe. Soil Tillage Res 216:105262, DOI:10.1016/j.still.2021.105262

    https://literatur.thuenen.de/digbib_extern/dn064225.pdf

  37. 36

    Seidel F, Lopez C ML, Bonifacio E, Kurokawa H, Yamanaka T, Celi L (2022) Seasonal phosphorus and nitrogen cycling in four Japanese cool-temperate forest species. Plant Soil 472(1-2):391-406, DOI:10.1007/s11104-021-05251-x

    https://literatur.thuenen.de/digbib_extern/dn064622.pdf

  38. 37

    Verbrigghe N, Leblans NIW, Sigurdsson BD, Vicca S, Fang C, Fuchslueger L, Soong J, Weedon JT, Poeplau C, Ariza-Carricondo C, Bahn M, Guenet B, Gundersen P, Gunnarsdotir GE, Kätterer T, Liu Z, Maljanen M, Marañón-Jiménez S, Meeran K, Oddsdottir ES, et al (2022) Soil carbon loss in warmed subarctic grasslands is rapid and restricted to topsoil. Biogeosciences 19(14):3381-3393, DOI:10.5194/bg-19-3381-2022

    https://literatur.thuenen.de/digbib_extern/dn065273.pdf

  39. 38

    Ni K, Pacholski AS (2022) Soil moisture and temperature effects on granule dissolution and urease activity of urea with and without inhibitors - an incubation study. Agriculture 12(12):2037, DOI:10.3390/agriculture12122037

    https://literatur.thuenen.de/digbib_extern/dn065664.pdf

  40. 39

    Sakhaee A, Gebauer A, Ließ M, Don A (2022) Spatial prediction of organic carbon in German agricultural topsoil using machine learning algorithms. Soil 8:587-604, DOI:10.5194/soil-8-587-2022

    https://literatur.thuenen.de/digbib_extern/dn065404.pdf

  41. 40

    Peplau T, Schroeder J, Gregorich E, Poeplau C (2022) Subarctic soil carbon losses after deforestation for agriculture depend on permafrost abundance. Global Change Biol 28(17):5227-5242, DOI:10.1111/gcb.16307

    https://literatur.thuenen.de/digbib_extern/dn065080.pdf

  42. 41

    Walther S, Besnard S, Nelson JA, El-Madany TS, Migliavacca M, Weber U, Carvalhais N, Ermida SL, Brümmer C, Schrader F, Prokushkin A, Panov AV, Jung M (2022) Technical note: A view from space on global flux towers by MODIS and Landsat: the FluxnetEO data set. Biogeosciences 19(11):2805-2840, DOI:10.5194/bg-19-2805-2022

    https://literatur.thuenen.de/digbib_extern/dn064934.pdf

  43. 42

    Wolters T, Bach T, Eisele M, Eschenbach W, Kunkel R, McNamara I, Well R, Wendland F (2022) The derivation of denitrification conditions in groundwater: combined method approach and application for Germany. Ecol Indic 144:109564, DOI:10.1016/j.ecolind.2022.109564

    https://literatur.thuenen.de/digbib_extern/dn065514.pdf

  44. 43

    Heiskanen J, Brümmer C, Buchmann N, Calfapietra C, Chen H, Gielen B, Gkritzalis T, Hammer S, Hartman S, Herbst M, Janssens IA, Jordan A, Juurola E, Karstens U, Kasurinen V, Kruijt B, Lankreijer H, Levin I, Linderson M-L, Loustau D, et al (2022) The Integrated Carbon Observation System in Europe. BAMS 103(3):E855-E872, DOI:10.1175/BAMS-D-19-0364.1

    https://literatur.thuenen.de/digbib_extern/dn064804.pdf

  45. 44

    Seitz D, Fischer LM, Dechow R, Wiesmeier M, Don A (2022) The potential of cover crops to increase soil organic carbon storage in German croplands. Plant Soil:in Press, DOI:10.1007/s11104-022-05438-w

    https://literatur.thuenen.de/digbib_extern/dn064873.pdf

  46. 45

    Grosz BP, Kemmann B, Burkart S, Petersen S, Well R (2022) Understanding the impact of liquid organic fertilisation and associated application techniques on N2, N2O and CO2 fluxes from agricultural soils. Agriculture 12(5):692, DOI:10.3390/agriculture12050692

    https://literatur.thuenen.de/digbib_extern/dn065119.pdf

  47. 46

    Schroeder J, Peplau T, Gregorich E, Tebbe CC, Poeplau C (2022) Unexpected microbial metabolic responses to elevated temperatures and nitrogen addition in subarctic soils under different land uses. Biogeochemistry 160(1):105-125, DOI:10.1007/s10533-022-00943-7

    https://literatur.thuenen.de/digbib_extern/dn065023.pdf

  48. 47

    Just C, Poeplau C, Don A, Wesemael B van, Kögel-Knabner I, Wiesmeier M (2021) A simple approach to isolate slow and fast cycling organic carbon fractions in Central European soils - importance of dispersion method. Front Soil Sci 1:692583, DOI:10.3389/fsoil.2021.692583

    https://literatur.thuenen.de/digbib_extern/dn064226.pdf

  49. 48

    Rodrigues L, Hardy B, Huyghebeart B, Fohrafellner J, Fornara DA, Barancikova G, Barcena TG, De Boever M, Di Bene C, Feiziene D, Kätterer T, Laszlo P, O’Sullivan L, Seitz D, Leifeld J (2021) Achievable agricultural soil carbon sequestration across Europe from country-specific estimates. Global Change Biol 27(24):6363-6380, DOI:10.1111/gcb.15897

    https://literatur.thuenen.de/digbib_extern/dn064256.pdf

  50. 49

    Wagner C, Nyord T, Vestergaard A, Hafner SD, Pacholski AS (2021) Acidification effects on in situ ammonia emissions and cereal yields depending on slurry type and application method. Agriculture 11(11):1053, DOI:10.3390/agriculture11111053

    https://literatur.thuenen.de/digbib_extern/dn064110.pdf

  51. 50

    Dettmann U, Kraft NN, Rech R, Heidkamp A, Tiemeyer B (2021) Analysis of peat soil organic carbon, total nitrogen, soil water content and basal respiration: Is there a ‘best’ drying temperature? Geoderma 403:115231, DOI:10.1016/j.geoderma.2021.115231

    https://literatur.thuenen.de/digbib_extern/dn063648.pdf

  52. 51

    Rummel PS, Well R, Pausch J, Pfeiffer B, Dittert K (2021) Carbon availability and nitrogen mineralization control denitrification rates and product stoichiometry during initial maize litter decomposition. Appl Sci 11(11):5309, DOI:10.3390/app11115309

    https://literatur.thuenen.de/digbib_extern/dn063682.pdf

  53. 52

    Andrino A, Guggenberger G, Sauheitl L, Burkart S, Boy J (2021) Carbon investment into mobilization of mineral and organic phosphorus by arbuscular mycorrhiza. Biol Fertil Soils 57:47-64, DOI:10.1007/s00374-020-01505-5

    https://literatur.thuenen.de/digbib_extern/dn062830.pdf

  54. 53

    Drexler S, Gensior A, Don A (2021) Carbon sequestration in hedgerow biomass and soil in the temperate climate zone. Reg Environ Change 21:74, DOI:10.1007/s10113-021-01798-8

    https://literatur.thuenen.de/digbib_extern/dn063768.pdf

  55. 54

    Rohe L, Anderson T-H, Flessa H, Goeske A, Lewicka-Szczebak D, Wrage-Mönnig N, Well R (2021) Comparing modified substrate-induced respiration with selective inhibition (SIRIN) and N2O isotope approaches to estimate fungal contribution to denitrification in three arable soils under anoxic conditions. Biogeosciences 18(15):4629-4650, DOI:10.5194/bg-18-4629-2021

    https://literatur.thuenen.de/digbib_extern/dn063919.pdf

  56. 55

    Rohe L, Apelt B, Vogel H-J, Well R, Wu G-M, Schlüter S (2021) Denitrification in soil as a function of oxygen availability at the microscale. Biogeosciences 18(3):1185-1201, DOI:10.5194/bg-18-1185-2021

    https://literatur.thuenen.de/digbib_extern/dn063355.pdf

  57. 56

    Frerichs C, Daum D, Pacholski AS (2021) Determination of ammonia exposure of potted herbs in organic cultivation. Acta Hortic (Wageningen) 1327:167-174, DOI:10.17660/ActaHortic.2021.1327.22

  58. 57

    Bracken C, Lanigan GJ, Richards KG, Müller C, Tracy SR, Well R, Carolan R, Murphy PNC (2021) Development and verification of a novel isotopic N2O measurement technique for discrete static chamber samples using cavity ring-down spectroscopy. Rapid Comm Mass Spectrometry 35(8):e9049, DOI:10.1002/rcm.9049

  59. 58

    Köhn D, Welpelo C, Günther A, Jurasinski G (2021) Drainage ditches contribute considerably to the CH4 budget of a drained and a rewetted temperate fen. Wetlands 41:71, DOI:10.1007/s13157-021-01465-y

  60. 59

    Grosz BP, Well R, Dechow R, Köster JR, Khalil MI, Merl S, Rode A, Ziehmer B, Matson A, He H (2021) Evaluation of denitrification and decomposition from three biogeochemical models using laboratory measurements of N2, N2O and CO2. Biogeosciences 18(20):5681-5697, DOI:10.5194/bg-18-5681-2021

    https://literatur.thuenen.de/digbib_extern/dn064088.pdf

  61. 60

    Boysen LR, Brovkin V, Warlind D, Peano D, Lanso AS, Delire C, Burke E, Poeplau C, Don A (2021) Evaluation of soil carbon dynamics after forest cover change in CMIP6 land models using chronosequences. Environ Res Lett 16(7):074030, DOI:10.1088/1748-9326/ac0be1

    https://literatur.thuenen.de/digbib_extern/dn064024.pdf

  62. 61

    Kalks F, Noren G, Mueller CW, Helfrich M, Rethemeyer J, Don A (2021) Geogenic organic carbon in terrestrial sediments and its contribution to total soil carbon. Soil 7(2):347-362, DOI:10.5194/soil-7-347-2021

    https://literatur.thuenen.de/digbib_extern/dn064229.pdf

  63. 62

    Poeplau C (2021) Grassland soil organic carbon stocks along management intensity and warming gradients. Grass Forage Sci 76(2):186-195, DOI:10.1111/gfs.12537

    https://literatur.thuenen.de/digbib_extern/dn063709.pdf

  64. 63

    Riggers C, Poeplau C, Don A, Frühauf C, Dechow R (2021) How much carbon input is required to preserve or increase projected soil organic carbon stocks in German croplands under climate change? Plant Soil 460:417-433, DOI:10.1007/s11104-020-04806-8

    https://literatur.thuenen.de/digbib_extern/dn063271.pdf

  65. 64

    Schneider F, Klinge M, Brodthuhn J, Peplau T, Sauer D (2021) Hydrological soil properties control tree regrowth after forest disturbance in the forest steppe of central Mongolia. Soil 7(2):563-584, DOI:10.5194/soil-7-563-2021

    https://literatur.thuenen.de/digbib_extern/dn063889.pdf

  66. 65

    Schroeder J, Kammann L, Helfrich M, Tebbe CC, Poeplau C (2021) Impact of common sample pre-treatments on key soil microbial properties. Soil Biol Biochem 160:108321, DOI:10.1016/j.soilbio.2021.108321

    https://literatur.thuenen.de/digbib_extern/dn063708.pdf

  67. 66

    Peplau T, Schroeder J, Gregorich E, Poeplau C (2021) Long-term geothermal warming reduced stocks of carbon but not nitrogen in a subarctic forest soil. Global Change Biol 27(20):5341-5355, DOI:10.1111/gcb.15754

    https://literatur.thuenen.de/digbib_extern/dn063760.pdf

  68. 67

    Ließ M, Gebauer A, Don A (2021) Machine learning with GA optimization to model the agricultural soil-landscape of Germany: An approach involving soil functional types with their multivariate parameter distributions along the depth profile. Front Environ Sci 9:692959, DOI:10.3389/fenvs.2021.692959

    https://literatur.thuenen.de/digbib_extern/dn063767.pdf

  69. 68

    Wu D, Senbayram M, Moradi G, Mörchen R, Knief C, Klumpp E, Jones DL, Well R, Chen R, Bol R (2021) Microbial potential for denitrification in the hyperarid Atacama Desert soils. Soil Biol Biochem 157:108248, DOI:10.1016/j.soilbio.2021.108248

  70. 69

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    Castellano-Hinojosa A, Loick N, Dixon E, Matthews GP, Lewicka-Szczebak D, Well R, Bol R, Charteris A, Cárdenas LM (2019) Improved isotopic model based on 15N tracing and Rayleightype isotope fractionation for simulating differential sources of N2O emissions in a clay grassland soil. Rapid Comm Mass Spectrometry 33(5):449-460, DOI:10.1002/rcm.8374

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    Jung M-Y, Gwak J-H, Rohe L, Giesemann A, Kim J-G, Well R, Madsen EL, Herbold CW, Wagner M, Rhee S-K (2019) Indications for enzymatic denitrification to N2O at low pH in an ammonia-oxidizing archaeon. ISME J 13:2633-2638, DOI:10.1038/s41396-019-0460-6

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