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© Thünen-Institut/AK
[Translate to English:]
Institute of

AK Climate-Smart Agriculture

Peer-reviewed scientific paper by Julia Schröder

  1. 0

    Schroeder J, Peplau T, Pennekamp F, Gregorich E, Tebbe CC, Poeplau C (2024) Deforestation for agriculture increases microbial carbon use efficiency in subarctic soils. Biol Fertil Soils 60(1):17-34, DOI:10.1007/s00374-022-01669-2

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

  2. 1

    Schroeder J, Damatîrca C, Bölscher T, Chenu C, Elsgaard L, Tebbe CC, Skadell LE, Poeplau C (2024) Liming effects on microbial carbon use efficiency and its potential consequences for soil organic carbon stocks. Soil Biol Biochem 191:109342, DOI:10.1016/j.soilbio.2024.109342

    https://literatur.thuenen.de/digbib_extern/dn067614.pdf

  3. 2

    Liu B, Schroeder J, Ahnemann H, Poeplau C, Tebbe CC (2023) Crop diversification improves the diversity and network structure of the prokaryotic soil microbiome at conventional nitrogen fertilization. Plant Soil 489(1-2):259-276, DOI:10.1007/s11104-023-06011-9

    https://literatur.thuenen.de/digbib_extern/dn066320.pdf

  4. 3

    Peplau T, Poeplau C, Gregorich E, Schroeder J (2023) Deforestation for agriculture leads to soil warming and enhanced litter decomposition in subarctic soils. Biogeosciences 20(5):1063-1074, DOI:10.5194/bg-20-1063-2023

    https://literatur.thuenen.de/digbib_extern/dn066189.pdf

  5. 4

    Finn D, Schroeder J, Samad MS, Poeplau C, Tebbe CC (2023) Importance of sample pre-treatments for the DNA-based characterization of microbiomes in cropland and forest soils. Soil Biol Biochem 184:109077, DOI:10.1016/j.soilbio.2023.109077

  6. 5

    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

  7. 6

    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

  8. 7

    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

  9. 8

    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

  10. 9

    Schroeder J, Jannoura R, Beuschel R, Pfeiffer B, Dyckmans J, Murugan R, Chavannavar S, Wachendorf C, Joergensen RG (2020) Carbon use efficiency and microbial functional diversity in a temperate Luvisol and a tropical Nitisol after millet litter and N addition. Biol Fertil Soils 56:1139-1150, DOI:10.1007/s00374-020-01487-4

    https://literatur.thuenen.de/digbib_extern/dn062724.pdf

  11. 10

    Poeplau C, Schroeder J, Gregorich E, Kurganova I (2019) Farmers' perspective on agriculture and environmental change in the circumpolar north of Europe and America. Land 8(12):190, DOI:10.3390/land8120190

    https://literatur.thuenen.de/digbib_extern/dn061859.pdf

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