Tangarife-Escobar, A.; Guggenberger, G.; Feng, X.; Munoz, E.; Chanca, I.; Peichl, M.; Smith, P.; Sierra, C.: Radiocarbon isotopic disequilibrium shows little incorporation of new carbon in mineral soils of a boreal forest ecosystem. Journal of Geophysical Research: Biogeosciences 129 (9), e2024JG008191 (2024)
von Fromm, S. F.; Hoyt, A. M.; Sierra, C.; Georgiou, K.; Doetterl, S.; Trumbore, S. E.: Controls and relationships of soil organic carbon abundance and persistence vary across pedo-climatic regions. Global Change Biology 30 (5), e17320 (2024)
Ramirez, J. A.; Craven, D.; Herrera-Ramirez, D.; Posada, J. M.; Reu, B.; Sierra, C. A.; Hoch, G.; Handa, I. T.; Messier, C.: Non-structural carbohydrate concentrations in tree organs vary across biomes and leaf habits, but are independent of the fast-slow plant economic spectrum. Frontiers in Plant Science 15, 1375958 (2024)
Muñoz, E.; Chanca, I.; González-Sosa, M.; Sarquis, A.; Tangarife-Escobar, A.; Sierra, C.: On the importance of time in carbon sequestration in soils and climate change mitigation. Global Change Biology 30 (3), e17229 (2024)
Tangarife-Escobar, A.; Guggenberger, G.; Feng, X.; Dai, G.; Urbina-Malo, C.; Azizi-Rad, M.; Sierra, C. A.: Moisture and temperature effects on the radiocarbon signature of respired carbon dioxide to assess stability of soil carbon in the Tibetan Plateau. Biogeosciences 21 (5), pp. 1277 - 1299 (2024)
Estupinan-Suarez, L. M.; Mahecha, M. D.; Brenning, A.; Kraemer, G.; Poveda, G.; Reichstein, M.; Sierra, C.: Spatial patterns of vegetation activity related to ENSO in Northern South America. Journal of Geophysical Research: Biogeosciences 129 (1), e2022JG007344 (2024)
Sierra, C.; Ahrens, B.; Bolinder, M. A.; Braakhekke, M. C.; von Fromm, S. F.; Kätterer, T.; Luo, Z.; Parvin, N.; Wang, G.: Carbon sequestration in the subsoil and the time required to stabilize carbon for climate change mitigation. Global Change Biology 30 (1), e17153 (2024)
Munoz, E.; Chanca, I.; Sierra, C.: Increased atmospheric CO2 and the transit time of carbon in terrestrial ecosystems. Global Change Biology 29 (23), pp. 6441 - 6452 (2023)
Eglinton, T. I.; Graven, H. D.; Raymond, P. A.; Trumbore, S. E.; Aluwihare, L.; Bard, E.; Basu, S.; Friedlingstein, P.; Hammer, S.; Lester, J.et al.; Sanderman, J.; Schuur, E. A. G.; Sierra, C. A.; Synal, H.-A.; Turnbull, J. C.; Wacker, L.: Making the case for an International Decade of Radiocarbon. Philosophical Transactions of the Royal Society of London - Series A: Mathematical Physical and Engineering Sciences 381 (2261), 20230081 (2023)
Munoz, E.; Sierra, C. A.: Deterministic and stochastic components of atmospheric CO2 inside forest canopies and consequences for predicting carbon and water exchange. Agricultural and Forest Meteorology 341, 109624 (2023)
Stoner, S.; Trumbore, S. E.; González-Pérez, J. A.; Schrumpf, M.; Sierra, C. A.; Hoyt, A. M.; Chadwick, O.; Doetterl, S.: Relating mineral–organic matter stabilization mechanisms to carbon quality and age distributions using ramped thermal analysis. Philosophical Transactions of the Royal Society of London - Series A: Mathematical Physical and Engineering Sciences 381 (2261), 20230139 (2023)
Stoner, S.; Schrumpf, M.; Hoyt, A. M.; Sierra, C. A.; Doetterl, S.; Galy, V.; Trumbore, S. E.: How well does ramped thermal oxidation quantify the age distribution of soil carbon? Assessing thermal stability of physically and chemically fractionated soil organic matter. Biogeosciences 20 (15), pp. 3151 - 3163 (2023)
Sarquis, A.; Sierra, C. A.: Information content in time series of litter decomposition studies and the transit time of litter in arid lands. Biogeosciences 20 (9), pp. 1759 - 1771 (2023)
Giraldo, J. A.; Valle, J. I. d.; González-Caro, S.; David, D. A.; Taylor, T.; Tobón, C.; Sierra, C. A.: Tree growth periodicity in the ever-wet tropical forest of the Americas. Journal of Ecology 111 (4), pp. 889 - 902 (2023)
A new study shows a natural solution to mitigate the effects of climate change such as extreme weather events. Researchers found that a diverse plant community acts as a buffer against fluctuations in soil temperature. This buffer, in turn, can have a decisive influence on important ecosystem processes.
The Deutsche Forschungsgemeinschaft (DFG) is to fund a Research Unit in the Jena Experiment for a further four years with around five million euros. The new focus is on the stabilising effect of biodiversity against extreme climate events such as heat, frost or heavy rainfall.
Microorganisms decompose falling leaves, thus improving soil quality and counteracting climate change. But how do these single-celled organisms coordinate their distribution of tasks? An international research team has investigated this hitherto poorly understood process.