Direct Nitrous Oxide Emissions From Tropical And Sub-Tropical Agricultural Systems : A Review and Modelling of Emission Factors

We acknowledge the financial support from the CGIAR Research Programs on Climate Change, Agriculture and Food Security (CCAFS). Grant ref. n. P25.Peer reviewedPublisher PD

Methane emissions from rice paddies globally: A quantitative statistical review of controlling variables and modelling of emission factors

Funding Information: This work was funded by Climate Change, Agriculture and Food Security (CCAFS), Kellogg's and the University of Aberdeen . We are grateful for the help and advice from modellers, stakeholders, the cool farm alliance (CFA) and those who by their publications on GHG emissions from rice paddies have made this work possible. Special thanks to the cool farm alliance, stakeholders, experts, and modellers who have helped us improve our understanding and guided us in the right direction when needed given the Covid pandemic restrictions, making project engagement between those involved limited to online engagement. Publisher Copyright: © 2023Peer reviewedPublisher PD

Measurement of N2O emissions over the whole year is necessary for estimating reliable emission factors

We thank Dali Nayak, Thomas Cornulier and Arindam Datta for data collection and helpful discussions during the development of this analysis. This work was supported by the National Natural Science Foundation of China (41671464). P.S. and M.A. acknowledge support from the UK-China Virtual Joint Centre, N-Circle (grant number BB/N013484/1). Z.S. appreciates the financial support from the China Scholarship Council (201706010406) to support her study in the UKPeer reviewedPostprin

Climate Change – Refining the Impacts for Ireland: STRIVE Report (2001-CD-C3-M1) ISBN: 978-1-84095-297-1

International Context: As a mid-latitude country Ireland can expect its future temperature changes to mirror quite closely those of the globe as a whole. Best estimates of global temperature change by the end of the present century are currently in the region 1.8–4.0°C1. Regional Context: Weighted Ensemble Downscaling from Global Climate Models Global climate models (GCMs) have greatly improved in reliability and resolution as computing power has increased and better inputs from earth observation have become available. Despite this, they remain too coarse in terms of their grid size to enable climate scenarios at the scale necessary for impact analysis to be achieved. This study employs a statistical downscaling approach to overcome these difficulties and also to provide new information on model uncertainty with a view to reducing uncertainty in key sectors such as water resource management, agriculture and biodiversity

Re-assessing Nitrous Oxide Emissions from Croplands Across Mainland China

Reliable quantification of nitrous oxide emission is a key to assessing efficiency of use and environmental impacts of N fertilizers in crop production. In this study, N2O emission and yield were quantified with a database of 853 field measurements in 104 reported studies and a regression model was fitted to the associated environmental attributes and management practices from China’s croplands. The fitted emission model explained 48% of the variance in N2O emissions as a function of fertilizer rate, crop type, temperature, soil clay content, and the interaction between N rate and fertilizer type. With all other variables fixed, N2O emissions were lower with rice than with legumes and then other upland crops, lower with organic fertilizers than with mineral fertilizers. We used the subset of the dataset for rice - covering a full range of different typical water regimes, and estimated emissions from China’s rice cultivation to be 31.1 Gg N2O-N per year. The fitted yield model explained 35% of the variance in crop yield as a function of fertilizer rate, temperature, crop type, and soil clay content. Finally, the empirical models for N2O emission and crop yield were coupled to explore the optimum N rates (N rate with minimum N2O emission per unit yield) for combinations of crop and fertilizer types. Consequently, the optimum N application rate ranged between 100 kg N ha−1 and 190 kg N ha−1 respectively with organic and mineral fertilizers, and different crop types. This study therefore improved on existing empirical methods to estimate N2O emissions from China’s croplands and suggests how N rate may be optimized for different crops, fertilizers and site conditions

Mitigation potential and environmental impact of centralized versus distributed BECCS with domestic biomass production in Great Britain

ACKNOWLEDGEMENTS This work was carried out under the UK Energy Research Council (UKERC)‐funded project ‘Assessing potential, feasibility and impacts of Bioenergy with CCS (BECCS) in the UK (Access‐BECCS)’. We thank Dr Ajay Gambhir for valuable comments and discussion.Peer reviewedPublisher PD

Model comparison and quantification of nitrous oxide emission and mitigation potential from maize and wheat fields at a global scale

This work was carried out by the International Maize and Wheat Improvement Center (CIMMYT) in collaboration with farmers and funded by the CGIAR research programs (CRPs) on Climate Change, Agriculture and Food Security (CCAFS). CCAFS' work is supported by CGIAR Fund Donors and through bilateral funding agreements. For details, please visit https://ccafs.cgiar.org/donors. The views expressed in this paper cannot be taken to reflect the official opinions of these organizations. The dataset associated with this manuscript will be available together with the supplementary materials of this manuscript.Peer reviewedPublisher PD

Treatment of organic resources before soil incorporation in semi-arid regions improves resilience to El Niño, and increases crop production and economic returns

We are grateful for support from the DFID-NERC El Niño programme in project NE P004830, “Building Resilience in Ethiopia’s Awassa region to Drought (BREAD)”, the ESRC NEXUS programme in project IEAS/POO2501/1, “Improving organic resource use in rural Ethiopia (IPORE)”, and the NERC ESPA programme in project NEK0104251 “Alternative carbon investments in ecosystems for poverty alleviation (ALTER)”. We are also grateful to Anke Fischer (James Hutton Insitute) for her comments on the paper.Peer reviewedPublisher PD

A systems model describing the impact of organic resource use on farming households in low to middle income countries

We are grateful for support from the DFID-NERC El Niño programme in project NE P004830, “Building Resilience in Ethiopia’s Awassa region to Drought (BREAD)”, the ESRC NEXUS programme in project IEAS/POO2501/1, “Improving organic resource use in rural Ethiopia (IPORE)”, and the NERC ESPA programme in project NEK0104251 “Alternative carbon investments in ecosystems for poverty alleviation (ALTER)”. We are also grateful to Dr. V.U.M. Rao (Former Project Coordinator, AICRP on Agrometeorology, CRIDA, Hyderabad) and Dr. S.K. Chaudhari (DDG, NRM Division, KAB-II, ICAR, New Delhi) for their assistance in collecting meteorological data of Parbhani, Maharashtra.Peer reviewedPostprin