by Alexander Sedov | May 24, 2021 | Abstracts for INI2021, Abstracts for INI2021 – 5b. Biogeochemical N Cycle
Mitigating Reactive Nitrogen Loss and Associated Environmental Damage: Opportunities from Changes in Food Production Food security in China achieved through increasing nitrogen (N) application, together with dietary shifts towards more animal products, have...
by Alexander Sedov | May 24, 2021 | Abstracts for INI2021, Abstracts for INI2021 – 5b. Biogeochemical N Cycle
The global nitrogen cycle from 1965 to 2010 Here we provide cross-sectoral nitrogen budgets for the period 1965-2010 for 212 countries, including sub-budgets for croplands, pastures, natural vegetation, livestock systems, the food supply chain, international...
by Alexander Sedov | May 24, 2021 | Abstracts for INI2021, Abstracts for INI2021 – 5b. Biogeochemical N Cycle
Spatial characterization of reactive N flows in the agro-food system of a semiarid Mediterranean region This work aims to show the possibility of increasing nitrogen (N) use efficiency of the agro-food system of one region within the most important vegetables...
by Alexander Sedov | May 24, 2021 | Abstracts for INI2021, Abstracts for INI2021 – 5b. Biogeochemical N Cycle
Are German Forest Soils a Source or Sink for reactive Nitrogen The nitrogen dynamics of German forest soils is derived from recurrent National Forest Soil Inventories (NFSI: around years 1990 and 2007) on roughly 1800 points. While observed increases in the upper...
by Alexander Sedov | May 24, 2021 | Abstracts for INI2021, Abstracts for INI2021 – 5b. Biogeochemical N Cycle
Surface Nitrogen Budgets for Cropland and Pastureland on a Global Grid To limit harmful effects of nitrogen (N) inbalance on the environment as well as on people, it is important to identify areas of N surplus as well as deficiency. Several indicators such as N...
by Alexander Sedov | May 24, 2021 | Abstracts for INI2021, Abstracts for INI2021 – 5b. Biogeochemical N Cycle
Quantifying landscape-level annual nitrous oxide fluxes in the Tibetan Plateau Quantifying landscape nitrous oxide (N2O) fluxes and identifying how they are spatiotemporally controlled are critical for predicting N2O fluxes feedback to climate change and/or human...
