Ir para conteúdo
Confira abaixo nossos artigos científicos publicados:
- Canova, M. A. et al., 2019. Different ecosystem services, same (dis)satisfaction with compensation: a critical comparison between farmers’ perception in Scotland and Brazil. Ecosystem Services, 35:164-172.
- Lapola, D. M. et al., 2019. Heat stress vulnerability and risk at the (super) local scale in six Brazilian capitals. Climatic Change, 154:477-492.
- Fleischer, K. et al., 2019. Amazon forest response to CO2 fertilization dependent on plant phosphorus acquisition. Nature Geoscience, 12:736–741.
- Pereira, I. S. et al., 2019. Performance of Laser-Based Electronic Devices for Structural Analysis of Amazonian Terra-Firme Forests. Remote Sens, 11:510.
- Lapola, D. M. et al., 2019. A climate‐change vulnerability and adaptation assessment for Brazil's protected areas. Conservation Biology, Accepted Author Manuscript, doi:10.1111/cobi.13405.
- Lapola, D. M. et al., 2018. Living with the risk of the Amazon forest dieback while research gaps limit resilience-building action. PNAS, 115:46:11671-11679.
- Lapola, D. M. 2018. Bytes and boots to understand the future of the Amazon forest. New Phytologist, 219:845-847.
- Barton, D. N. et al., 2018. (Dis) integrated valuation assessing the information gaps in ecosystem service appraisals for governance support. Ecosystem Services, 29:529-541.
- Dunford, R. et al., 2018. Integrating methods for ecosystem service assessment: experiences from real world situations. Ecosystem Services, 29:499-514.
- Zulian, G. et al., 2018. Practical application of spatial ecosystem service models to aid decision support. Ecosystem Services, 29:465-480.
- Dick, J. et al., 2018. Stakeholders’ perspectives on the operationalisation of the ecosystem service concept: results from 27 case studies. Ecosystem Services, 29:552-565.
- Norby, R. J. et al., 2016. Model-data synthesis for the next generation of forest free-air CO 2 enrichment (FACE) experiments. New Phytologist: 209:17-28.
- Silva, R. A. et al., 2016. Operationalizing payments for ecosystem services in Brazil’s sugarcane belt: how do stakeholder opinions match with successful cases in Latin America? Ecosystem Services, 22:128-138.
- Di Giulio, G. M. et al., 2016. Plano nacional de adaptação à mudança do clima: possibilidades e desafios. Jornal Da Ciência (SBPC), 10.Out.2016.
- Darela-Filho, J. P. D. et al., 2016. Socio-climatic hotspots in Brazil: how do changes driven by the new set of IPCC climatic projections affect their relevance for policy?. Climatic Change, 1:1-13.
- EU Bioenergy Policies at the crossroad (2016), Openness Brief, Nº 04.
- Hofhansl, F. Andersen 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. 4:19, doi:10.3389/feart.2016.00019.
- Jonas, M. et al., 2014. Sustaining ecosystem services: overcoming the dilemma posed by local actions and planetary boundaries. Earth’s Future, 2:407-420.
- Lapola, D. M.; Norby, R. J., 2014. AmazonFACE: Assessing the effects of increased atmospheric CO2 on the ecology and resilience of the Amazon forest – Science Plan & Implementation Strategy. Brasília: Ministério de Ciência, Tecnologia e Inovação, 54p.
- Dalla-Nora, E. L. et al., 2014. Why have land use change models for the Amazon failed to capture the amount of deforestation over the last decade? Land Use Policy, 39:403-411.
- Ometto, J. P. H. B. et al., 2014. Amazon forest biomass density maps: tackling the uncertainty in carbon emission estimates. Climatic Change, 124:545-560.
- Lapola, D. M. et al., 2014. Pervasive transition of the Brazilian land-use system. Nature Climate Change, 4:27-35.
- Lapola, D. M.; Oyama, A. D.; Nobre, C. A., 2009. Exploring the range of climate-biome projections for tropical South America: The role of CO2 fertilization and seasonality. Global Biogeochemical Cycles, 23:GB3003.
- Lapola, D. M.; Joerg, A. P.; Bondeau, A., 2009. Modeling the land requirements and potential productivity of sugarcane and jatropha in Brazil and India using the LPJmL dynamic global vegetation model. Biomass & Bioenergy, 33:1087-1095.
- Schaldach, R.; Flörke M., Lapola, D. M., 2009. A model-based assessment of the potential role of irrigated cropland for biogas production in Europe. Advances in Geosciences, 21:85-90.
- Bruna, E. M.; Lapola, D. M.; Vasconcelos, H. L., 2003. Contrasting responses to induction cues by ants inhabiting Maieta guianensis (Melastomataceae). Biotropica, 35:295-300.
- Lapola, D. M.; Antonialli-Junior W. F.; Giannotti, E., 2003. Arquitetura de ninhos da formiga Neotropical Ectatomma brunneum (Formicidae: Ponerinae) em ambientes alterados. Revista Brasileira de Zoociências, 5:177-188.
- Fernandes, F. M. et al., 2003. Curva de sobrevivência e estimativa de entropia em Lucilia cuprina (Diptera: Calliphoridae). Iheringia (Zoologia), 93:319-324.