Microbial regulation of terrestrial nitrous oxide formation: understanding the biological pathways for prediction of emission rates
The continuous increase of the greenhouse gas nitrous oxide (N2O) in the atmosphere due
to increasing anthropogenic nitrogen input in agriculture has become a global concern. In …
to increasing anthropogenic nitrogen input in agriculture has become a global concern. In …
[HTML][HTML] Analytical techniques for measuring nitrous oxide
Nitrous oxide (N 2 O) is estimated to contribute about 6% of the global warming effect due to
greenhouse gases. N 2 O is also predicted to be the single most important ozone-depleting …
greenhouse gases. N 2 O is also predicted to be the single most important ozone-depleting …
Denitrifying pathways dominate nitrous oxide emissions from managed grassland during drought and rewetting
Nitrous oxide is a powerful greenhouse gas whose atmospheric growth rate has accelerated
over the past decade. Most anthropogenic N2O emissions result from soil N fertilization …
over the past decade. Most anthropogenic N2O emissions result from soil N fertilization …
Optimizing chamber methods for measuring nitrous oxide emissions from plot‐based agricultural experiments
DR Chadwick, L Cardenas… - European Journal of …, 2014 - Wiley Online Library
Nitrous oxide emissions (N2O) from agricultural land are spatially and temporally variable.
Most emission measurements are made with small (≪ 1 m2 area) static chambers. We used …
Most emission measurements are made with small (≪ 1 m2 area) static chambers. We used …
Soil nitrous oxide emission from agroforestry, rowcrop, grassland and forests in North America: a review
Although agricultural practices and landuse strategies are among the major sources of
nitrous oxide (N2O) emission into the atmosphere, managed agricultural soils can mitigate …
nitrous oxide (N2O) emission into the atmosphere, managed agricultural soils can mitigate …
Global Research Alliance N2O chamber methodology guidelines: Recommendations for deployment and accounting for sources of variability
AF Charteris, DR Chadwick… - Journal of …, 2020 - Wiley Online Library
Adequately estimating soil nitrous oxide (N2O) emissions using static chambers is
challenging due to the high spatial variability and episodic nature of these fluxes. We …
challenging due to the high spatial variability and episodic nature of these fluxes. We …
Soils and climate change: potential impacts on carbon stocks and greenhouse gas emissions, and future research for Australian agriculture
Organic carbon and nitrogen found in soils are subject to a range of biological processes
capable of generating or consuming greenhouse gases (CO2, N2O and CH4). In response …
capable of generating or consuming greenhouse gases (CO2, N2O and CH4). In response …
Number of chamber measurement locations for accurate quantification of landscape‐scale greenhouse gas fluxes: Importance of land use, seasonality, and …
Accurate quantification of landscape soil greenhouse gas (GHG) exchange from chamber
measurements is challenging due to the high spatial‐temporal variability of fluxes, which …
measurements is challenging due to the high spatial‐temporal variability of fluxes, which …
Spatial variability of soil N2O and CO2 fluxes in different topographic positions in a tropical montane forest in Kenya
C Arias‐Navarro, E Díaz‐Pinés, S Klatt… - Journal of …, 2017 - Wiley Online Library
Quantifying and understanding the small‐scale variability of nitrous oxide (N2O) and carbon
dioxide (CO2) emission are essential for reporting accurate ecosystem greenhouse gas …
dioxide (CO2) emission are essential for reporting accurate ecosystem greenhouse gas …
[HTML][HTML] Historical soil drainage mediates the response of soil greenhouse gas emissions to intense precipitation events
Precipitation events are increasing in intensity in the Midwestern US due to climate change.
This is resulting in flooding of poorly-drained upland soils, which can feed back on climate …
This is resulting in flooding of poorly-drained upland soils, which can feed back on climate …