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Showing 1 - 20 results of 208 for search '(( rain ((larger decrease) OR (marked decrease)) ) OR ( via ((site decrease) OR (teer decrease)) ))', query time: 0.47s Refine Results
  1. 1
    Nitrogen-Rich Barium–Organic Framework for Capture and Cocatalysts Free Chemical Fixation of CO<sub>2</sub> via Cyclic Carbonates and Oxazolidinones

    Nitrogen-Rich Barium–Organic Framework for Capture and Cocatalysts Free Chemical Fixation of CO<sub>2</sub> via Cyclic Carbonates and Oxazolidinones by Aasif Helal (6203780)

    Published 2025
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  2. 2
    TH5487 decreases RSV replication in lungs.

    TH5487 decreases RSV replication in lungs. by Lang Pan (5145221)

    Published 2024
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  3. 3
    Time series of forest cover and road cover percentages for the three research-sites.

    Time series of forest cover and road cover percentages for the three research-sites. by Paul Mathäss (21587593)

    Published 2025
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  4. 4
    Time series showing the trends in the collected açai volumes for the research-sites in Brazil and Bolivia.

    Time series showing the trends in the collected açai volumes for the research-sites in Brazil and Bolivia. by Paul Mathäss (21587593)

    Published 2025
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  5. 5
    Stakeholders’ preferred changes regarding roads and other infrastructure for NTFPs extraction in the three research-sites.

    Stakeholders’ preferred changes regarding roads and other infrastructure for NTFPs extraction in the three research-sites. by Paul Mathäss (21587593)

    Published 2025
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  6. 6
    Time series showing trends in the collected Brazil nut volumes for each of the three research-sites.

    Time series showing trends in the collected Brazil nut volumes for each of the three research-sites. by Paul Mathäss (21587593)

    Published 2025
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  7. 7
    Stakeholders’ perception (% of interviewed) on the production conditions and yields of Brazil nut and Açai between 2010 and 2020 in the three research sites.

    Stakeholders’ perception (% of interviewed) on the production conditions and yields of Brazil nut and Açai between 2010 and 2020 in the three research sites. by Paul Mathäss (21587593)

    Published 2025
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  8. 8
    The MAP region, and the three research-sites: southern Acre, Brazil, eastern Pando, Bolivia and the southwestern Madre de Dios, Peru.

    The MAP region, and the three research-sites: southern Acre, Brazil, eastern Pando, Bolivia and the southwestern Madre de Dios, Peru. by Paul Mathäss (21587593)

    Published 2025
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  9. 9
    Image 1_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf

    Image 1_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf by Francesca Bietto (21511316)

    Published 2025
    “…</p>Results<p>Our research demonstrates that GDC decreases Caco-2/HT29-MTX Trans-Epithelial Electrical Resistance (TEER) and increases paracellular permeability, without inflammation or cytotoxicity. …”
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  10. 10
    Table 1_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.docx

    Table 1_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.docx by Francesca Bietto (21511316)

    Published 2025
    “…</p>Results<p>Our research demonstrates that GDC decreases Caco-2/HT29-MTX Trans-Epithelial Electrical Resistance (TEER) and increases paracellular permeability, without inflammation or cytotoxicity. …”
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  11. 11
    Image 5_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf

    Image 5_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf by Francesca Bietto (21511316)

    Published 2025
    “…</p>Results<p>Our research demonstrates that GDC decreases Caco-2/HT29-MTX Trans-Epithelial Electrical Resistance (TEER) and increases paracellular permeability, without inflammation or cytotoxicity. …”
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  12. 12
    Image 4_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf

    Image 4_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf by Francesca Bietto (21511316)

    Published 2025
    “…</p>Results<p>Our research demonstrates that GDC decreases Caco-2/HT29-MTX Trans-Epithelial Electrical Resistance (TEER) and increases paracellular permeability, without inflammation or cytotoxicity. …”
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  13. 13
    Image 2_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf

    Image 2_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf by Francesca Bietto (21511316)

    Published 2025
    “…</p>Results<p>Our research demonstrates that GDC decreases Caco-2/HT29-MTX Trans-Epithelial Electrical Resistance (TEER) and increases paracellular permeability, without inflammation or cytotoxicity. …”
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  14. 14
    Image 3_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf

    Image 3_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf by Francesca Bietto (21511316)

    Published 2025
    “…</p>Results<p>Our research demonstrates that GDC decreases Caco-2/HT29-MTX Trans-Epithelial Electrical Resistance (TEER) and increases paracellular permeability, without inflammation or cytotoxicity. …”
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  15. 15
    Mean daily sediment transport (g m<sup>-2</sup> day<sup>-1</sup>) under different vegetation types and soil cover in southeastern Utah, USA, 2004 to 2018.

    Mean daily sediment transport (g m<sup>-2</sup> day<sup>-1</sup>) under different vegetation types and soil cover in southeastern Utah, USA, 2004 to 2018. by Andrew Kulmatiski (833256)

    Published 2025
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  16. 16
    The variance explained in sediment transport increased with sample size, but sampling beyond roughly 500 data points provided diminishing improvements.

    The variance explained in sediment transport increased with sample size, but sampling beyond roughly 500 data points provided diminishing improvements. by Andrew Kulmatiski (833256)

    Published 2025
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  17. 17
    Mean sediment transport (g m<sup>-2</sup> day<sup>-1</sup>) by season (Spring, Summer, Winter).

    Mean sediment transport (g m<sup>-2</sup> day<sup>-1</sup>) by season (Spring, Summer, Winter). by Andrew Kulmatiski (833256)

    Published 2025
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  18. 18
    Study area (a), location of 52 sediment collection devices (b) and photograph of one of the collection devices in the field, western USA.

    Study area (a), location of 52 sediment collection devices (b) and photograph of one of the collection devices in the field, western USA. by Andrew Kulmatiski (833256)

    Published 2025
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  19. 19
    Variables used to describe variation in sediment transport.

    Variables used to describe variation in sediment transport. by Andrew Kulmatiski (833256)

    Published 2025
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  20. 20
    Variable importance in Random Forest model of seasonal sediment transport with 1468 observations from 2009 to 2018.

    Variable importance in Random Forest model of seasonal sediment transport with 1468 observations from 2009 to 2018. by Andrew Kulmatiski (833256)

    Published 2025
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