Abstract
Non-steady-state (NSS) chamber techniques have been used for decades to measure nitrous oxide (N2 O) fluxes from agricultural soils. These techniques are widely used because they are relatively inexpensive, easy to adopt, versatile, and adaptable to varying conditions. Much of our current understanding of the drivers of N2 O emissions is based on studies using NSS chambers. These chamber techniques require decisions regarding multiple methodological aspects (e.g., chamber materials and geometry, deployment, sample analysis, and data and statistical analysis), each of which may significantly affect the results. Variation in methodological details can lead to challenges in comparing results between studies and assessment of reliability and uncertainty. Therefore, the New Zealand Government, in support of the objectives of the Livestock Research Group of the Global Research Alliance on Agricultural Greenhouse Gases (GRA), funded two international projects to, first, develop standardized guidelines on the use of NSS chamber techniques and, second, refine them based on the most up to date knowledge and methods. This introductory paper summarizes a collection of papers that represent the revised guidelines. Each article summarizes existing knowledge and provides guidance and minimum requirements on chamber design, deployment, sample collection, storage and analysis, automated chambers, flux calculations, statistical analysis, emission factor estimation and data reporting, modeling, and "gap-filling" approaches. The minimum requirements are not meant to be highly prescriptive but instead provide researchers with clear direction on best practices and factors that need to be considered. Health and safety considerations of NSS chamber techniques are also provided with this introductory paper.
Highlights
For many decades, researchers have used static or “non-steady-state” (NSS) chamber techniques to measure nitrous oxide (N2O) fluxes from agricultural soils
Health and safety considerations of NSS chamber techniques are provided with this introductory paper
N2O fluxes have typically been estimated from chamber measurements taken once on a given sampling day, whereas spatially and temporally integrated cumulative emissions are based on daily flux measurements taken from a given number of replicate chambers, at a given sampling frequency, over the entire experimental period
Summary
Researchers have used static or “non-steady-state” (NSS) chamber techniques to measure nitrous oxide (N2O) fluxes from agricultural soils. Initial versions of the guidelines, which were selfpublished by the GRA in 2012 and slightly revised in 2015, summarized existing knowledge and provided guidance and recommendations, with each chapter focusing on one key aspect of chamber methodologies, including design; deployment protocol; air sample collection, storage, and sample analysis; data analysis; and experimental data reporting. It included additional chapters on automated chamber systems and health and safety (H&S) considerations.
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