Sustainable intensification of rice farming is crucial to meeting human food needs while reducing environmental impacts. Rice production represents 8% of all anthropogenic emissions of CH4, a potent greenhouse gas. Cultivation practices that minimize the number of days the rice fields are flooded, such as irrigation using the alternate …
Journal: Agriculture, Ecosystems &Amp; Environment, Volume 356: 108652 (2023), ISBN . DOI: 10.1016/j.agee.2023.108652 Sites: US-HRA, US-HRC
Rice cultivation contributes 11% of the global 308 Tg CH4 anthropogenic emissions. The alternate wetting and drying (AWD) irrigation practice can conserve water while reducing CH4 emissions through the deliberate, periodic introduction of aerobic soil conditions. This paper is the first to measure the impact of AWD on rice field …
Journal: Environmental Science & Technology, Volume 53 (2): 671-681 (2019), ISBN . DOI: 10.1021/acs.est.8b05535 Sites: US-HRA, US-HRC
The importance of understanding turbulent scalar exchange over agricultural landscapes motivated this study of the surface renewal (SR) method for deployment in place of or alongside eddy covariance (EC) instrumentation. High-frequency (20 Hz) scalar data were used with turbulence and similarity parameters for SR measurements of …
Journal: Agricultural And Forest Meteorology, Volume 279: 107763 (2019), ISBN . DOI: 10.1016/j.agrformet.2019.107763 Sites: US-HRA
Networks of remotely monitored research sites are increasingly the tool used to study regional agricultural impacts on carbon and water fluxes. However, key national networks such as the National Ecological Observatory Network and AmeriFlux lack contributions from the Lower Mississippi River Basin (LMRB), a highly productive agricultural …
Journal: Agricultural & Environmental Letters, Volume 2 (1): 170003 - 170003 (2017), ISBN . DOI: 10.2134/ael2017.01.0003 Sites: US-BdA, US-BdC, US-Cst, US-Goo, US-HRA, US-HRC, US-ULM