Encontre aqui todos os artigos e textos publicados pela equipe de pesquisadores do AmazonFACE.
Lapola, D.M., I.P. Hartley, R. Norby, C.A.N. Quesada, A. Esquivel-Muelbert,
A. Rammig, B.T.T. Portela, C. Blanco, F. Santana, I.S. Pereira, I. Aleixo, K. Fleischer, L.F. Lugli, L. Fuchslueger, L. Rowland, M.C.G. Padgurschi, M.S. Monteiro, S. Garcia, T.F. Domingues. (2024). AmazonFACE: Assessing the effects of increased atmospheric CO2 on the ecology and resilience of the Amazon forest – 2025-2030 Science Plan. Ministério da Ciência, Tecnologia e Inovação – MCTI, Brasília, DF, Brazil. 92p.
Damasceno, A. R., Garcia, S., Aleixo, I. F., Menezes, J. C. G., Pereira, I. S., De Kauwe, M. G., … & Domingues, T. F. (2024). In situ short‐term responses of Amazonian understory plants to elevated CO2. Plant, Cell & Environment, 47(5), 1865-1876.
Martins, N.P., Valverde-Barrantes, O., Fuchslueger, L., Lugli, L.F., Grandis, A., Hofhansl, F., Takeshi, B., Ushida, G. and Quesada, C.A. (2024), Fine root presence and increased phosphorus availability stimulate wood decay in a central Amazonian rainforest. Oikos, 2024: e09996.
Hoosbeek, M.R., Schaap, K.J. & Quesada, C.A. Carbon, nitrogen and phosphorous contents, related enzyme activities and organic matter fractions of litter and soil in a terra firme forest in Central Amazonia. Eur J Forest Res (2023).
Ellsworth, D. S., Crous, K. Y., De Kauwe, M. G. et al. (2022). Convergence in phosphorus constraints to photosynthesis in forests around the world. Nature communications, 13(1), 1-12.
Reichert, T., Rammig, A., Fuchslueger, L., et al. (2022). Plant phosphorus‐use and‐acquisition strategies in Amazonia. New Phytologist, 234(4), 1126-1143.
Menezes, J., Garcia, S., Grandis, A., et al. (2022). Changes in leaf functional traits with leaf age: when do leaves decrease their photosynthetic capacity in Amazonian trees? Tree physiology, 42(5), 922-938.
Rammig, A., & Lapola, D. M. (2021). The declining tropical carbon sink. Nature Climate Change, 11(9), 727-728.
Schaap, K. J., Fuchslueger, L., Hoosbeek, M. R. et al. (2021). Litter inputs and phosphatase activity affect the temporal variability of organic phosphorus in a tropical forest soil in the Central Amazon. Plant and Soil, 469(1), 423-441.
Martins, N. P., Fuchslueger, L., Fleischer, K., et al. (2021). Fine roots stimulate nutrient release during early stages of leaf litter decomposition in a Central Amazon rainforest. Plant and Soil, 469(1), 287-303.
Sampaio, G., Shimizu, M. H., Guimarães-Júnior, et al. (2021). CO2 physiological effect can cause rainfall decrease as strong as large-scale deforestation in the Amazon. Biogeosciences, 18(8), 2511-2525.
Laynara F. Lugli, 2020. Digging deeper? Biomass allocation patterns in trees and lianas in tropical seasonal forests. New Pythologist
Anja Rammig, 2020. Tropical carbon sinks are saturating at different times on different continents. Nature.
Amanda L. Cordeiro, 2020. Fine-root dynamics vary with soil depth and precipitation in a low-nutrient tropical forest in the Central Amazonia. Journal of Plant-Environment Interactions.
Fleischer, K. et al., 2019. Amazon forest response to CO2 fertilization dependent on plant phosphorus acquisition. Nature Geoscience 12: 736-741.
Pereira, I. S, H. E. M. Nascimento, M. B. Vicari, M. Disney, E. DeLucia… & F. Hofhansl. 2019. Performance of laser-based electronic devices for structural analysis of Amazonian terra-firme forests. Remote Sensing 11: 510.
Grossman, D., D. M. Lapola. 2018. Floresta em risco: as mudanças climáticas destruirão a floresta Amazônica? / Jungle at risk: will climate change destroy the Amazon forest? Campinas: AmazonFACE/Biblioteca Unicamp. 63p.
Lapola, D. M., P. Pinho, C. A. Quesada, B. B. N. Strassburg, A. Rammig, B. Kruijt, F. Brown, J. P. H. B. Ometto, A. Premebida, J. A. Marengo, W. Vergara, C. A. Nobre. 2018. Limiting the high impacts of Amazon forest dieback with no-regrets science and policy action. Proceedings of the National Academy of Sciences of the USA 115: 11671-11679.
Lapola, D. M. 2018. Bytes and boots to understand the future of the Amazon forest. New Phytol, 219: 845-847. doi:10.1111/nph.15342.
Norby, et al. 2016. Model-data synthesis for the next generation of forest free-air CO2 enrichment (FACE) experiments. New Phytol. 209(1):17-28. doi: 10.1111/nph.13593
Grossman, D. 2016. Amazon rainforest to get a growth check. Science 352: 635-636.
Hofhansl, et al. (2016). Amazon forest ecosystem “responses to elevated atmospheric CO2 and alterations in nutrient availability: filling the gaps with model-experiment integration. Front. Earth Sci. doi: 10.3389/feart.2016.00019.
Popkln, G. 2015. Weighing the world’s trees. Nature 523: 20-22.
Garcia R. 2014. Amazonia sob teste. Folha de Sao Paulo 07.Mai.2014. C9.
Lapola D. M. & R. J. Norby (orgs.) 2014. AmazonFACE, Assessing the effects of increased CO2 on the ecology and resilience of the Amazon forest – Science Plan & Implementation Strategy. MCTI, Brasilia, 54p.
Tollefson, J. 2013. Experiment aims to steep rainforest in carbon dioxide. Nature 496: 405-406.