Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity
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Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity
Summary
Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity is a doctoral thesis[1].
Key Facts
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity authored Camille Rousset[2].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's instance of is recorded as doctoral thesis[3].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's publisher is recorded as Research@Lincoln[4].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's copyright license is recorded as Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International[5].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's language of work or name is recorded as English[6].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's country of origin is recorded as New Zealand[7].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's publication date is recorded as +2021-00-00T00:00:00Z[8].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's main subject is recorded as environmental resource management[9].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's main subject is recorded as Crop and pasture biochemistry and physiology[10].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's main subject is recorded as nitrous oxide[11].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's main subject is recorded as soil moisture[12].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's main subject is recorded as greenhouse gas emissions[13].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's main subject is recorded as leaching[14].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's main subject is recorded as nitrate leaching[15].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's main subject is recorded as leaching[16].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's work available at URL is recorded as https://researcharchive.lincoln.ac.nz/handle/10182/13862[17].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's Handle ID is recorded as 10182/13862[18].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's title is recorded as Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity[19].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's copyright holder is recorded as Camille Rousset[20].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's thesis submitted to is recorded as Lincoln University[21].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's on focus list of Wikimedia project is recorded as NZThesisProject[22].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's copyright status is recorded as copyrighted[23].
- Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's thesis committee member is recorded as Tim Clough[24].
Body
Designation and Status
Mitigating N2O emissions from pasture soils by optimising irrigation scheduling based on relative gas diffusivity's instance of is recorded as doctoral thesis[3].