On the predictability of turbulent fluxes from land: PLUMBER2 MIP experimental description and preliminary results
Abramowitz et al., including Caldararu, S
Biogeosciences Discussion (2024)
Higher global gross primary productivity under future climate with more advanced representations of photosynthesis
Knauer, K., Cuntz, M., Smith, B., Canadell, J.G., Medlyn B.E., Bennett, A., Caldararu5, S., Haverd, H.
Science Advances (2023)
Nitrogen Availability and Summer Drought, but not N:P Imbalance Drive Carbon Use Efficiency of a Mediterranean Tree-Grass Ecosystem
Nair, R., Luo, Y., El-Madany, T., Rolo, V., Pacheco-Labrador, J., Caldararu, S., Morris, K. A., Schrumpf, M., Carrara, A., Moreno, G., Reichstein, M., and Migliavacca, M.
EGUsphere (2023)
Beyond model evaluation – combining experiments and models to advance terrestrial ecosystem science
Caldararu, S., Rolo, V., Stocker, B. D., Gimeno, T. E., and Nair, R
Biogeosciences (2023)
Modelled forest ecosystem carbon-nitrogen dynamics with integrated mycorrhizal processes under elevated CO2
Thurner, M. A., Caldararu, S., Engel, J., Rammig, A., and Zaehle, S
Biogeosciences Discussion (2023)
Predicting resilience through the lens of competing adjustments to vegetation function
Sabot, M.E.B., De Kauwe, M.G., Pitman, A.J., Ellsworth, D.S., Medlyn, B.E., Caldararu, S. et al.
Plant, Cell and Environment (2022)
Mismatch of N release from the permafrost and vegetative uptake opens pathways of increasing nitrous oxide emissions in the high Arctic
Lacroix, F., Zaehle, S., Caldararu, S., Schaller, J., Stimmler, P., Holl, D., Kutzbach, L. and Goeckede, M
Global Change Biology (2022)
Long‐term ecosystem nitrogen limitation from foliar δ 15 N data and a land surface model
Caldararu, S., Thum, T., Yu, L., Kern, M., Nair, R., Zaehle, S
Global Change Biology (2022)
The three major axes of terrestrial ecosystem function
Migliavacca, M., et al., inclduing Caldararu, S.
Nature (2021)
Low phosphorus supply constrains plant responses to elevated CO2: A meta-analysis
Jiang, M, Caldararu, S, Zhang, H, et al.
Global Change Biology (2021)
Whole-plant optimality predicts changes in leaf nitrogen under variable CO2 and nutrient availability
Caldararu, S., Thum, T., Yu, L. and Zaehle, S.
New Phytologist (2020)
A new terrestrial biosphere model with coupled carbon, nitrogen, and phosphorus cycles (QUINCY v1.0; revision 1772)
Thum, T., Caldararu, S., Engel, J., Kern, M., Pallandt, M., Schnur, R., Yu, L., and Zaehle, S.
Geoscientific Model Development (2019)
Towards a more physiological representation of vegetation phosphorus processes in land surface models
Jiang, M. , Caldararu, S. , Zaehle, S. , Ellsworth, D. S. and Medlyn, B. E.
New Phytologist (2019)
The quasi-equilibrium framework re-visited: analyzing long-term CO2 enrichment responses in plant-soil models
Jiang, M., Zaehle, S., De Kauwe, M. G., Walker, A. P., Caldararu, S., Ellsworth, D. S., and Medlyn, B. E.
Geoscientific Model Development (2019)
The impacts of data constraints on the predictive performance of a general process-based crop model (PeakN-crop v1.0)
Caldararu, S., Purves, D. W., and Smith, M. J.
Geoscientific Model Development (2017)
The effect of using the plant functional type paradigm on a data-constrained global phenology model
Caldararu, S., Purves, D. W., and Smith, M. J.
Biogeosciences (2016)
Phenology as a strategy for carbon optimality: a global model
Caldararu, S.; Purves, D. W. and Palmer, P. I.
Biogeosciences (2014)
Inferring Amazon leaf demography from satellite observations of leaf area index
Caldararu, S.; Palmer, P. I.and Purves, D. W.
Biogeosciences (2012)