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Institute of

AK Climate-Smart Agriculture

Peer-reviewed scientific paper

  1. 0

    Kemmann B, Brokötter J, Götze H, Kelsch A, Frössl J, Riesch S, Heinemann P, Kukowski S, Pacholski AS, Flessa H (2025) Ammonia emissions from urea fertilization - Multi-annual micrometeorological measurements across Germany. Agric Ecosyst Environ 381:109416, DOI:10.1016/j.agee.2024.109416

    https://literatur.thuenen.de/digbib_extern/dn069198.pdf

  2. 1

    Lattaud J, Eglinton TI, Haghipour N, Schiedung M, Bröder L (2025) Biomarker 14C evidence for sources and recycling of pre-aged organic carbon in Arctic permafrost regions. Geochim Cosmochim Acta 393:75-85, DOI:10.1016/j.gca.2025.02.010

    https://literatur.thuenen.de/digbib_extern/dn069525.pdf

  3. 2

    Micucci G, Lewicka-Szczebak D, Sgouridis F, Well R, Buchen-Tschiskale C, McNamara NP, Krause S, Lynch I, Roos F, Ullah S (2025) Combining the 15N gas flux method and N2O isotopocule data for the determination of soil microbial N2O sources. Rapid Comm Mass Spectrometry 39(6):e9971, DOI:10.1002/rcm.9971

    https://literatur.thuenen.de/digbib_extern/dn069333.pdf

  4. 3

    Edlinger A, Herzog C, Garland G, Walder F, Banerjee S, Keel SG, Mayer J, Philippot L, Romdhane S, Schiedung M, Schmidt MWI, Seitz B, Wüst-Galley C, van der Heijden MGA (2025) Compost application enhances soil health and maintains crop yield: Insights from 56 farmer-managed arable fields. J Sustain Agric Environ 4(1):e70041, DOI:10.1002/sae2.70041

    https://literatur.thuenen.de/digbib_extern/dn069412.pdf

  5. 4

    Eckei J, Well R, Maier M, Matson A, Dittert K, Rummel PS (2025) Determining N2O and N2 fluxes in relation to winter wheat and sugar beet growth and development using the improved 15N gas flux method on the field scale. Biol Fertil Soils 61(3):489-505, DOI:10.1007/s00374-024-01806-z

    https://literatur.thuenen.de/digbib_extern/dn068266.pdf

  6. 5

    Well R, Ruoss N, Grosz BP, Brunotte J, Buchen-Tschiskale C, Lewicka-Szczebak D, Schäfer BC (2025) Effect of agricultural management system (“cash crop”, “livestock” and “climate optimized”) on nitrous oxide and ammonia emissions. Biol Fertil Soils 61(3):469-488, DOI:10.1007/s00374-024-01843-8

    https://literatur.thuenen.de/digbib_extern/dn068479.pdf

  7. 6

    Grunwald D, Poeplau C, Koch HJ, Jacobs A (2025) Effect of sugar beet (Beta vulgaris L.) cultivation on soil organic carbon stocks in Germany. Soil Use Manag 41(1):e70022, DOI:10.1111/sum.70022

    https://literatur.thuenen.de/digbib_extern/dn069578.pdf

  8. 7

    Götze H, Buchen-Tschiskale C, Eder L, Pacholski AS (2025) Effects of inhibitors and slit incorporation on NH3 and N2O emission processes after urea application. Agric Ecosyst Environ 378:109307, DOI:10.1016/j.agee.2024.109307

    https://literatur.thuenen.de/digbib_extern/dn068857.pdf

  9. 8

    Panagea IS, Quataert P, Alonso-Ayuso M, Bárcena TG, De Boever M, Diacono M, Jacobs A, Jensen JL, Seidel F, Seitz D, Spiegel H, Vanden Nest T, Don A, Ruysschaert G (2025) Forage vs. grain legumes : contrasting effects on soil organic carbon stocks - evidence from 30 European field experiments. Eur J Soil Sci 76(2):e70086, DOI:10.1111/ejss.70086

    https://literatur.thuenen.de/digbib_extern/dn069649.pdf

  10. 9

    Lang TTM, Schindler L, Nakajima C, Hülsmann L, Knorr KH, Borken W (2025) Greenhouse gas fluxes from two drained pond sediments : a mesocosm study. Biogeochemistry 168(2):38, DOI:10.1007/s10533-025-01229-4

    https://literatur.thuenen.de/digbib_extern/dn069662.pdf

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