Research output
Scientific publications:
11. Singh, C., Fetzer, I., Staal, A., Ribeiro, V., Tramberend, S., Greve, P., van der Ent, R., Lathuillière, M. & Wang-Erlandsson, L. Landholders leverage over moisture flows and forest resilience in South America. (in preparation)
10. Singh, C. & Persson, U.M. Global patterns of commodity-driven deforestation and associated carbon emissions. (in review) Nature Food.
9. Singh, C., van der Ent, R., Fetzer, I. & Wang-Erlandsson, L. Multi-fold increase in rainforests tipping risk beyond 1.5–2°C warming. (in review) Earth System Dynamics.
8. Gislason, S., Bruun, T. S., Wirsenius, S., Birkved, M., Singh, C., Udesen, F., & Maresca, A. (2024). How methods to assess land-use changes influence the resulting global warming potential and cost of optimized diets: a case study on Danish pigs applying life cycle assessment methodology. The International Journal of Life Cycle Assessment.
7. Wassénius, E., Bunge, A.C., Scheuermann, M.K., Resare Sahlin, K., Pranindita, A., Ohlsson, M., Blandon, A., Singh, C., Malmcrona Friberg, K. & Villarrubia-Gómez, P. (2023). Creative destruction in academia: a time to reimagine practices in alignment with sustainability values. Sustainability Science.
6. Singh, V., Karan, S. K., Singh, C., & Samadder, S. R. (2023). Assessment of the capability of SWAT model to predict surface runoff in open cast coal mining areas. Environmental Science and Pollution Research. [request Pdf]
5. Wang-Erlandsson, L., Tobian, A., van der Ent, R. J., Fetzer, I., te Wierik, S., Porkka, M., Staal, A., Jaramillo, F., Dahlmann, H., Singh, C., Greve, P., Gerten, D., Keys, P. W., Gleeson, T., Cornell, S. E., Steffen, W., Bai, X., & Rockström, J. (2022). A planetary boundary for green water. Nature Reviews Earth & Environment. [request Pdf]
4. Singh, C., van der Ent, R., Wang-Erlandsson, L., & Fetzer, I. (2022). Hydroclimatic adaptation critical to the resilience of tropical forests. Global Change Biology.
3. Singh, C., Karan, S.K., Sardar, P., & Samadder, S.R. (2022). Remote sensing-based biomass estimation of dry deciduous tropical forest using machine learning and ensemble analysis. Journal of Environmental Management. [request Pdf]
2. Singh, C., Wang-Erlandsson, L., Fetzer, I., Rockström, J., & Van Der Ent, R. (2020). Rootzone storage capacity reveals drought coping strategies along rainforest-savanna transitions. Environmental Research Letters.
1. Kumar, A., Samadder, S. R., Kumar, N., & Singh, C. (2018). Estimation of the generation rate of different types of plastic wastes and possible revenue recovery from informal recycling. Waste management. [request Pdf]
Working papers:
1. Singh, C. (2021). Self-influencing feedback of deforestation on the actors responsible. International Institute for Applied Systems Analysis (IIASA).
Conferences (only first author presentations included):
13. Landholders leverage over moisture flows and forest resilience in South America.(to-be-presented) IUFRO World Congress 2024, June-2024, Stockholm, Sweden.
12. Deforestation Driver and Carbon Emission Model (DeDuCE): Enhancing accuracy in assessing agricultural commodities’ contribution to deforestation and carbon emissions. (to-be-presented) 5th International Conference on Global Food Security, April-2024, Leuven, Belgium.
11. Global warming beyond 1.5-2°C multiplies the rainforests’ tipping risk. Addressing Key Uncertainties in Modelling Physical and Ecological Tipping Dynamics in the Earth System (towards TIPMIP), Nov-2023, Templin, Germany.
10. Global warming beyond 1.5-2°C multiplies the rainforests’ tipping risk. EGU General Assembly, May-2023, Vienna, Austria.
9. Transient ecohydrology of the rainforests under rapidly changing climate. The XIth Scientific Assembly of the International Association of Hydrological Sciences (IAHS), June-2022, Montpellier, France.
8. Two decades of forest monitoring shows instability in the rainforests. EGU General Assembly, May-2022,Vienna, Austria.
7. Transient ecohydrology of the rainforests under rapidly changing climate. Living Planet Symposium, May-2022, Bonn, Germany.
6. Observing stability and instability of terrestrial tropical ecosystems. Climate Research School, Bolin Centre for Climate Research, Stockholm University, Nov.-2021, Stockholm, Sweden.
5. Dry periods influence the ecohydrology of the rainforest. AGU Fall Meeting, Dec.-2021, New Orleans, USA.
4. Water stress and their implications on the ecohydrology of rainforests. EGU General Assembly, Apr.-2021 (Online).
3. Rootzone storage capacity reveals drought coping strategies along rainforest-savanna transitions. Climate Research School, Bolin Centre for Climate Research, Stockholm University, Oct.-2020, Stockholm, Sweden.
2. Rootzone storage potential indicates the extent of rainforest resilience. EGU General Assembly, May-2020 (Online).
1. Assessing water stress dynamics of the Amazonian rainforest through rootzone storage capacity: A time-series approach. EGU General Assembly, Apr.-2019, Vienna, Austria.