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A timber truck fully loaded with logs drives over a very simple wooden bridge in a forest.
© Thünen-Institut
A timber truck fully loaded with logs drives over a very simple wooden bridge in a forest.
Institute of

WF Forestry

Peer-reviewed articles by Dr. Heinz Stichnothe at the Thünen Institute

  1. 0

    Joseph B, Stichnothe H (2024) Considering grouped or individual non-methane volatile organic compound emissions in life cycle assessment of composting using three life cycle impact assessment methods. Recycling 9(3):35, DOI:10.3390/recycling9030035

    https://literatur.thuenen.de/digbib_extern/dn068194.pdf

  2. 1

    Stichnothe H, Joseph B, Preyl V, Meyer C (2024) Rural urban nutrient partnership (RUN): Life cycle assessment of multi nutrient recovery from kitchen waste and blackwater. Recycling 9(2):31, DOI:10.3390/recycling9020031

    https://literatur.thuenen.de/digbib_extern/dn068123.pdf

  3. 2

    Joseph B, Stichnothe H (2023) Estimating uncertainties in the life cycle assessment of composting household biowaste and urban green waste in Germany. J Mater Cycles Waste Manag 25(5):3065-3080, DOI:10.1007/s10163-023-01740-6

    https://literatur.thuenen.de/digbib_extern/dn066526.pdf

  4. 3

    Joseph B, Stichnothe H (2023) Influences of management practices and methodological choices on life cycle assessment results of composting mixtures of biowaste and green cuts. Waste 1(4):919-934, DOI:10.3390/waste1040053

    https://literatur.thuenen.de/digbib_extern/dn067230.pdf

  5. 4

    Mallast J, Stichnothe H, Kreuter T, Thiel E, Pommer C, Döhler J, Eißner F, Kühling I, Rücknagel J, Pamperin H, Augustin J, Hoffmann M, Simon A, Hülsbergen KJ, Maidl FX, Tauchnitz N, Bischoff J, Böttcher F (2022) A three-year data set of gaseous field emissions from crop sequence at three sites in Germany. Sci Data 9:415, DOI:10.1038/s41597-022-01549-2

    https://literatur.thuenen.de/digbib_extern/dn065112.pdf

  6. 5

    Stichnothe H (2022) Life cycle assessment of peat for growing media and evaluation of the suitability of using the Product Environmental Footprint methodology for peat. Int J Life Cycle Assessment 27(12):1270-1282, DOI:10.1007/s11367-022-02106-0

    https://literatur.thuenen.de/digbib_extern/dn065502.pdf

  7. 6

    Mallast J, Stichnothe H, Flessa H, Fuß R, Lucas-Moffat AM, Petersen-Schlapkohl U, Augustin J, Hagemann U, Kesenheimer K, Ruser R, Suarez Quinones T, Prochnow A, Dittert K, Köbke S, Huth V, Glatzel S, Räbiger T, Knieß A, Kage H, Hegewald H, Christen O (2021) Multi-variable experimental data set of agronomic data and gaseous soil emissions from maize, oilseed rape and other energy crops at eight sites in Germany. Open Data J Agric Res 7:11-19

  8. 7

    Kesenheimer K, Augustin J, Hegewald H, Köbke S, Dittert K, Räbiger T, Suarez Quinones T, Prochnow A, Hartung J, Fuß R, Stichnothe H, Flessa H, Ruser R (2021) Nitrification inhibitors reduce N2O emissions induced by application of biogas digestate to oilseed rape. Nutr Cycl Agroecosyst 120:99-118, DOI:10.1007/s10705-021-10127-8

    https://literatur.thuenen.de/digbib_extern/dn063539.pdf

  9. 8

    Stichnothe H, Amthauer Gallardo DA, Notz I (2020) Comparison of two crop sequences with and without legumes in Bulgaria. In: Eberle U, Smetana S, Bos U (eds) Proceedings 12th International conference on Life Cycle Assessment of Food (LCAFood2020), 13-16 October 2020, Berlin Virtually, Germany. Quakenbrück: DIL, pp 513-518

  10. 9

    Stichnothe H, Bessou C (2017) Challenges for life cycle assessment of palm oil production systems [online]. IJoLCAS 1(2):1-9, zu finden in <http://ijolcas.ilcan.or.id/index.php/IJoLCAS/article/view/20> [zitiert am 02.08.2017]

  11. 10

    Ruser R, Fuß R, Andres M, Hegewald H, Kesenheimer K, Köbke S, Räbiger T, Suarez Quinones T, Augustin J, Christen O, Dittert K, Kage H, Lewandowski I, Prochnow A, Stichnothe H (2017) Nitrous oxide emissions from winter oilseed rape cultivation. Agric Ecosyst Environ 249:57-69

  12. 11

    Lamers P, Searcy E, Hess JR, Stichnothe H (eds) (2016) Developing the global bioeconomy : technical, market, and environmental lessons from bioenergy. Amsterdam; Boston; Heidelberg: Elsevier, 197 p

  13. 12

    Junker F, Gocht A, Marquardt S, Osterburg B, Stichnothe H (2015) Biofuel sustainability requirements - the case of rapeseed biodiesel [online]. German J Agric Econ 64(4):274-285, zu finden in <http://www.gjae-online.de/inhaltsverzeichnisse/pages/protected/show.prl?params=recent%3D1%26type%3D2&id=820&currPage=&type=2> [zitiert am 01.12.2015]

  14. 13

    Styles D, Gibbons J, Williams AP, Stichnothe H, Chadwick DR, Healey JH (2015) Cattle feed or bioenergy? Consequential life cycle assessment of biogas feedstock options on dairy farms. GCB Bioenergy 7(5):1034-1049, DOI:10.1111/gcbb.12189

  15. 14

    Styles D, Gibbons J, Williams AP, Dauber J, Stichnothe H, Urban B, Chadwick DR, Jones DL (2015) Consequential life cycle assessment of biomass, biofuel and biomass energy options within an arable crop rotation. GCB Bioenergy 7:1305-1320, DOI:10.1111/gcbb.12246

  16. 15

    Stichnothe H, Schuchardt F, Rahutomo S (2014) European renewable energy directive: Critical analysis of important default values and methods for calculating greenhouse gas (GHG) emissions of palm oil biodiesel. Int J Life Cycle Assessment 19(6):1294-1304, doi:10.1007/s11367-014-0738-x

  17. 16

    Luo Y, Stichnothe H, Schuchardt F, Li GX, Mendoza Huaitalla R, Xu W (2014) Life cycle assessment of manure management and nutrient recycling from a Chinese pig farm. Waste Manag Res 32(1):4-12, DOI:10.1177/0734242X13512715

  18. 17

    Stichnothe H, Azapagic A (2013) Life cycle assessment of recycling PVC window frames. Resources Conserv Recycl 71:40-47, DOI:10.1016/j.resconrec.2012.12.005

  19. 18

    Amienyo D, Gujba H, Stichnothe H, Azapagic A (2013) Life cycle environmental impacts of carbonated soft drinks. Int J Life Cycle Assessment 18(1):77-92, doi:10.1007/s11367-012-0459-y

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    Schuchardt F, Stichnothe H, Vorlop K-D (2011) Abwasser- und Abfallverwertung in Palmölmühlen als Beitrag zum Klimaschutz. Landbauforsch 61(2):93-100

    https://literatur.thuenen.de/digbib_extern/bitv/dn048632.pdf

  21. 20

    Milà i Canals L, Azapagic A, Doka G, Jefferies D, King H, Mutel C, Nemecek T, Roches A, Sim S, Stichnothe H, Thoma G, Williams A (2011) Approaches for addressing life cycle assessment data gaps for bio-based products. J Ind Ecol 15(5):707-725, DOI:10.1111/j.1530-9290.2011.00369.x

  22. 21

    Stichnothe H, Morgan A, Gujba H, Azapagic A (2011) Estimating the carbon footprint of paint: some important considerations. Surface Coatings Int 94(3):108-114

  23. 22

    Stichnothe H, Schuchardt F (2011) Life cycle assessment of two palm oil production systems. Biomass Bioenergy 35(9):3976-3984, DOI:10.1016/j.biombioe.2011.06.001

  24. 23

    Azapagic A, Stichnothe H (2011) Life cycle sustainability assessment of biofuels. Woodhead Publ Ser Energy 15:37-59

  25. 24

    Azapagic A, Stichnothe H (2011) Sustainability assessment of biofuels. In: Azapagic A, Perdan S (eds) Sustainable development in practice : case studies for engineers and scientists. 2nd ed. Ames, Iowa: Wiley-Blackwell, pp 142-169

  26. 25

    Azapagic A, Stichnothe H, Espinoza-Orias N (2011) Sustainability issues in food provisioning systems. In: Azapagic A, Perdan S (eds) Sustainable development in practice : case studies for engineers and scientists. 2nd ed. Ames, Iowa: Wiley-Blackwell, pp 326-347

  27. 26

    Espinoza-Orias N, Stichnothe H, Azapagic A (2011) The carbon footprint of bread. Int J Life Cycle Assessment 16(4):351-365, doi:10.1007/s11367-011-0271-0

  28. 27

    Stichnothe H, Schuchardt F (2010) Comparison of different treatment options for palm oil production waste on a life cycle basis. Int J Life Cycle Assessment 15(9):907-915, doi:10.1007/s11367-010-0223-0

  29. 28

    Stichnothe H, Schuchardt F, Vorlop K-D (2010) Ökobilanzen von Palmöl - Schall und Rauch? Chemie Ingenieur Technik 82(9):1434, DOI:10.1002/cite.201050066

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