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Regenerative Agriculture Literature Review
  • Agro-ecology & Regenerative Agriculture Knowledge Commons (with a focus on Climate Change)
  • Introduction
    • Purpose of this document and how to contribute
    • Why regenerative agriculture?
    • What is Regenerative Agriculture?
  • Part 1: Physical Science Underpinning Regenerative Agriculture
  • Physical cycles and interactions
    • Carbon sequestration
      • Soil carbon
      • Vegetation and carbon
    • Water cycle
    • Other nutrient cycles
      • Role of Fungi
      • Mineral nitrogen use and impacts
  • Biodiversity
  • Production Systems
  • Grazing
  • Cropping
  • Trees
  • Pigs and poultry
  • Measurement of impacts relative to industrial agriculture
  • Land degradation and productivity
  • Human health
  • Challenges of measuring complexity
  • Part 2: Social sciences and regenerative agriculture
    • Identifying, mapping and accounting regenerative agriculture
    • Barriers to adoption of regenerative agriculture
    • Enablers for adoption of regenerative agriculture
    • Pathways to Regenerative Agriculture
  • References
    • Introduction
    • Soil carbon
    • Vegetation and carbon
    • Water Cycle
    • Role of Fungi
    • Mineral nitrogen use and impacts
    • Grazing
    • Cropping
    • Trees
    • Pigs and poultry
    • Land degradation and productivity
    • Human health
    • Measuring complexity
    • Identifying, mapping and accounting
    • Barriers and Enablers and Pathways
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  1. References

Water Cycle

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  1. Eiseltová, M., Pokorný, J., Hesslerová, P. and Ripl, W. (2012) ‘Evapotranspiration—a driving force in landscape sustainability’. , InTech, Croatia, pp.305-328.

  2. Biodiversity for a Livable Climate (2018) Compendium of Scientific and Practical Findings Supporting Eco-Restoration to Address Global Warming, vol. 2, no. 1,

  3. Ellison, D., Morris, C.E., Locatelli, B., Sheil, D., Cohen, J., Murdiyarso, D., Gutierrez, V., Van Noordwijk, M., Creed, I.F., Pokorny, J. & Gaveau, D. (2017) Trees, forests and water: Cool insights for a hot world. Global Environmental Change, vol. 43, p. 51-56,

  4. Anderegg, W.R., Konings, A.G., Trugman, A.T., Yu, K., Bowling, D.R., Gabbitas, R., Karp, D.S., Pacala, S., Sperry, J.S., Sulman, B.N. & Zenes, N. (2018) Hydraulic diversity of forests regulates ecosystem resilience during drought. Nature, vol. 561, no. 7724, p. 538-541,

  5. Mariotte, P., Vandenberghe, C., Kardol, P., Hagedorn, F. & Buttler, A. (2013) Subordinate plant species enhance community resistance against drought in semi‐natural grasslands. Journal of Ecology, vol. 101, no. 3, p. 763-773,

  6. Gordon, L.J., Steffen, W., Jönsson, B.F., Folke, C., Falkenmark, M. & Johannessen, Å. (2005) Human modification of global water vapor flows from the land surface. Proceedings of the National Academy of Sciences, vol. 102, no, 21, p. 7612-7617,

  7. LeMordant, L., Gentine, P., Swann, A.S., Cook, B.I. & Scheff, J. (2018) Critical impact of vegetation physiology on the continental hydrologic cycle in response to increasing CO2. Proceedings of the National Academy of Sciences, vol. 115, no. 16, p. 4093-4098,

  8. Green, J.K., Konings, A.G., Alemohammad, S.H., Berry, J., Entekhabi, D., Kolassa, J., Lee, J.E. & Gentine, P. (2017) Regionally strong feedbacks between the atmosphere and terrestrial biosphere. Nature Geoscience, vol. 10, no. 6, p. 410-414,

  9. Green, J.K., Seneviratne, S.I., Berg, A.M., Findell, K.L., Hagemann, S., Lawrence, D.M. & Gentine, P. (2019) Large influence of soil moisture on long-term terrestrial carbon uptake. Nature, vol. 565, p. 476–479,

  10. Pérez-Gutiérrez, J.D. & Kumar, S. (2019) Simulating the influence of integrated crop-livestock systems on water yield at watershed scale. Journal of Environmental Management, vol. 239, p. 385-394,

In Evapotranspiration—Remote sensing and modeling
https://bio4climate.org/resources/compendium/
https://doi.org/10.1016/j.gloenvcha.2017.01.002
https://doi.org/10.1038/s41586-018-0539-7
https://doi.org/10.1111/1365-2745.12064
https://dx.doi.org/10.1073%2Fpnas.0500208102
https://doi.org/10.1073/pnas.1720712115
https://doi.org/10.1038/ngeo2957
https://doi.org/10.1038/s41586-018-0848-x
https://doi.org/10.1016/j.jenvman.2019.03.068