AMOF Transformation Plan
Lead Research Organisation:
University of Leeds
Department Name: National Centre for Atmospheric Science
Abstract
AMOF will be a "one-stop-shop" meeting the observational needs of the UK atmospheric science community. From the outside, AMOF will appear as one facility: the divisions between AMF and NFARR will disappear.
AMOF will continue the following principles developed from AMF, CFARR, and MSTRF:
1. Emphasis on the provision of data and metadata to defined, high standards;
2. Transparency of operating procedures. Documentation of Standard Operating Procedures (SOPs);
3. Consistency with international standards wherever possible (e.g. ACTRIS);
4. Close collaboration with CEDA to ensure effective dissemination and archiving of data and metadata;
5. Provision of software tools to aid working with, visualising and combining data;
6. Provision of a robust reliable service to the community that is open and transparent in its operation;
7. Provision of a joined-up service from data acquisition through quality control to delivery and long-term access.
AMOF's main link to users will be the website www.amof.ac.uk, which will become live on 11 March 2020. This is a completely new website designed for AMOF, covering all the products offered by the Facility, the application process, and other information about the Facility.
AMOF core deliverable is the delivery of a world-class facility to support experimental measurements in atmospheric science, including well-appointed observatory sites for fieldwork, capable of hosting short- or long-term deployments of visiting instruments.
AMOF will continue the following principles developed from AMF, CFARR, and MSTRF:
1. Emphasis on the provision of data and metadata to defined, high standards;
2. Transparency of operating procedures. Documentation of Standard Operating Procedures (SOPs);
3. Consistency with international standards wherever possible (e.g. ACTRIS);
4. Close collaboration with CEDA to ensure effective dissemination and archiving of data and metadata;
5. Provision of software tools to aid working with, visualising and combining data;
6. Provision of a robust reliable service to the community that is open and transparent in its operation;
7. Provision of a joined-up service from data acquisition through quality control to delivery and long-term access.
AMOF's main link to users will be the website www.amof.ac.uk, which will become live on 11 March 2020. This is a completely new website designed for AMOF, covering all the products offered by the Facility, the application process, and other information about the Facility.
AMOF core deliverable is the delivery of a world-class facility to support experimental measurements in atmospheric science, including well-appointed observatory sites for fieldwork, capable of hosting short- or long-term deployments of visiting instruments.
Organisations
Publications
Adcock K
(2023)
12 years of continuous atmospheric O 2 , CO 2 and APO data from Weybourne Atmospheric Observatory in the United Kingdom
in Earth System Science Data
Andersen S
(2021)
Long-term NO<sub><i>x</i></sub> measurements in the remote marine tropical troposphere
in Atmospheric Measurement Techniques
Andersen S
(2022)
Fundamental oxidation processes in the remote marine atmosphere investigated using the NO-NO 2 -O 3 photostationary state
in Atmospheric Chemistry and Physics
Andersen S
(2023)
Extensive field evidence for the release of HONO from the photolysis of nitrate aerosols
in Science Advances
Andrés Hernández M
(2022)
Overview: On the transport and transformation of pollutants in the outflow of major population centres - observational data from the EMeRGe European intensive operational period in summer 2017
in Atmospheric Chemistry and Physics
Bai L
(2022)
An Atmospheric Data-Driven Q-Band Satellite Channel Model With Feature Selection
in IEEE Transactions on Antennas and Propagation
Bannan T
(2022)
Monitoring and Understanding Urban Transformation: A Mixed Method Approach
in Frontiers in Sustainable Cities
Bergamaschi P
(2022)
High-resolution inverse modelling of European CH 4 emissions using the novel FLEXPART-COSMO TM5 4DVAR inverse modelling system
in Atmospheric Chemistry and Physics
Bloss WJ
(2021)
Insights into air pollution chemistry and sulphate formation from nitrous acid (HONO) measurements during haze events in Beijing.
in Faraday discussions