Forster, J., Vaughan, N.E., Gough, C., Lorenzoni, I. and Chilvers, J., (2020) Mapping feasibilities of greenhouse gas removal: Key issues, gaps and opening up assessments. Global Environmental Change, 63, p.102073.

Waller, L., Rayner, T., Chilvers, J., Gough, C.A., Lorenzoni, I., Jordan, A. and Vaughan, N., (2020) Contested framings of greenhouse gas removal and its feasibility: Social and political dimensions. Wiley Interdisciplinary Reviews: Climate Change. 11, e649.

Sharmina, M., Edelenbosch, O.Y., Wilson, C., Freeman, R., Gernaat, D.E.H.J., Gilbert, P., Larkin, A., Littleton, E.W., Traut, M., Van Vuuren, D.P., Vaughan, N.E., F. R. Wood , and C. Le Quéré (2020) Decarbonising the critical sectors of aviation, shipping, road freight and industry to limit warming to 1.5–2° C. Climate Policy, 1-20.

Littleton, E.W., Harper, A.B., Vaughan, N.E., Oliver, R.J., Duran-Rojas, M.C. and Lenton, T.M. (2020) JULES-BE: representation of bioenergy crops and harvesting in the Joint UK Land Environment Simulator vn5. Geoscientific Model Development. 13, pp.1123–1136. 

Zhang, B., Hastings, A., Clifton-Brown, J. C., Jiang, D., & Faaij, A. P. (2020). Modelled spatial assessment of biomass productivity and technical potential of Miscanthus× giganteus, Panicum virgatum L. and Jatropha on marginal land in China. Global Change Biology. Bioenergy.

Shepherd, A., Littleton, E., Clifton‐Brown, J., Martin, M., & Hastings, A. (2020). Projections of global and UK bioenergy potential from Miscanthus× giganteus—Feedstock yield, carbon cycling and electricity generation in the 21st century. GCB Bioenergy, 12(4), 287-305.

Donnison, C., Holland, R. A., Hastings, A., Armstrong, L. M., Eigenbrod, F., & Taylor, G. (2020). Bioenergy with Carbon Capture and Storage (BECCS): Finding the win–wins for energy, negative emissions and ecosystem services—size matters. GCB Bioenergy, 12(8), 586-604.

Shepherd, A., Clifton‐Brown, J., Kam, J., Buckby, S., & Hastings, A. (2020). Commercial experience with miscanthus crops: Establishment, yields and environmental observations. GCB Bioenergy.

Gough, C. and Mander, S. (2019) Beyond Social Acceptability: Applying Lessons from CCS Social Science to Support Deployment of BECCS. Current Sustainable Renewable Energy Reports, 6(4), pp.116-123.

Zhang, B., Hastings, A., Clifton‐Brown, J. C., Jiang, D., & Faaij, A. P. (2019). Spatiotemporal assessment of farm‐gate production costs and economic potential of Miscanthus× giganteus, Panicum virgatum L., and Jatropha grown on marginal land in China. GCB Bioenergy, 12(5), 310-327.

Röder, M., Thiffault, E., Martínez-Alonso, C., Senez-Gagnon, F., Paradis, L. and Thornley, P. (2019) Understanding the timing and variation of greenhouse gas emissions of forest bioenergy systems. Biomass and bioenergy. 121, pp.99-114.

Albanito, F., Hastings, A., Fitton, N., Richards, M., Martin, M., Dowell, N.M., Bell, D., Taylor, S.C., Butnar, I., Li, P.H. and Slade, R. (2019) Mitigation potential and environmental impact of centralized versus distributed BECCS with domestic biomass production in Great Britain. GCB Bioenergy

Harper, A.B., Powell, T., Cox, P.M., House, J., Huntingford, C., Lenton, T.M., et al. (2018) Land-use emissions play a critical role in land-based mitigation for Paris climate targets. Nature Communications9:2938

Gough, C., Garcia Freites, S., Jones, C., Mander, S., Moore, B., Pereira, C., Röder, M., Vaughan, N.E. and Welfle, A. (2018) Challenges to the use of BECCS as a keystone technology in pursuit of 1.5°C. Global Sustainability 1:e5

Vaughan, N.E., Gough, C., Mander, S., Littleton, E.W., Welfle, A., Gernaat, D.E.H.J. and van Vuuren, D.P. (2018) Evaluating the use of biomass energy with carbon capture and storage in low emission scenarios. Environmental Research Letters13:044014

Keller, D.P., Lenton, A., Scott, V., Vaughan, N.E., Bauer, N., Ji, D., Jones, C.D., Kravitz, B., Muri, H., and Zickfeld, K. (2018) The Carbon Dioxide Removal Model Intercomparison Project (CDRMIP): rationale and experimental protocol for CMIP6. Geoscientific Model Development11: 1133-1160