A5011350674- Conservation, Biodiversity, and Resource Management
- Energy and Environment Impacts
- Cooperative Studies and Economics
- Plant responses to elevated CO2
- Plant and animal studies
- Atmospheric chemistry and aerosols
- Hydropower, Displacement, Environmental Impact
- Wine Industry and Tourism
- Social and Economic Solidarity
- E-Government and Public Services
- Antioxidant Activity and Oxidative Stress
Universidade do Estado do Amazonas
2024
Universidade Federal do ABC
2020
Volatile isoprenoids take part in a wide range of forest-atmosphere processes that scale from plant cell regulation to atmospheric particle formation. Major drivers leaf emissions are light and temperature - i.e., seasonality age, suggesting phenological type (i.e., evergreen or brevideciduous) may exert control over emission rates. The Amazon Forest is the greatest most diverse source volatile isoprenoid emissions, but lack leaf-level studies logistical challenges measuring such remote...
This work aimed to understand how Brazilian municipalities have been disclosing information on the novel Coronavirus pandemic. Starting from a representative sample of urban and rural according Institute Geography Statistics (IBGE) typology, it analyzes active passive transparency aspects based search for institutional websites responses requests access information. Next, presents descriptive statistics collected data, identifying profile data related virus in municipalities. It was possible...
The Amazon forest is the largest source of isoprene emissions, and seasonal pattern leaf-out phenology in this has been indicated as an important driver variation emissions. Still, it unclear how emissions vary between different leaf phenological types forest. To evaluate influence type over we measured leaf-level emission capacity functional traits for 175 trees from 124 species angiosperms distributed among brevideciduous evergreen a central Evergreen emitters were less likely to store...