Sumários

CLASS 3 - 3.3 Evapotranspiration estimates in LA – approach 1 - Reference evapotranspiration (ETo) and crop coefficients in LA. Practical applications. 3.4 ET estimates in LA – approach 2 - Landscape coefficients (KL). Plant water requirements estimates for defined projects.

26 Fevereiro 2025, 14:00 Maria Teresa Gomes Afonso do Paço

3.3 Evapotranspiration estimates in LA – approach 1 - Reference evapotranspiration (ETo) and crop coefficients in LA. Practical applications. 3.4 ET estimates in LA – approach 2 - Landscape coefficients (KL). Plant water requirements estimates for defined projects.

CLASS 2 - 3.2 Evapotranspiraton (ET) estimates.

21 Fevereiro 2025, 10:00 Maria Teresa Gomes Afonso do Paço

Conclusion of the previous theme.
3.2 Evapotranspiraton (ET) estimates.

CLASS 1 - Presentation of the discipline and contextualization. Module 1: Soil-plant-atmosphere relationships. 1. General concepts. 2. Plant water requirements. 3. Specificities of irrigation in Landscape Architecture (LA) and estimation of plant water requirements 3.1 Special cases in AP: microclimatic and hydraulic interactions between strata, synergies.

19 Fevereiro 2025, 16:00 Maria Teresa Gomes Afonso do Paço

Presentation of the discipline and contextualization.       
Module 1: Soil-plant-atmosphere relationships.   
1. General concepts. 
2. Plant water requirements. 
3. Specificities of irrigation in Landscape Architecture (LA) and estimation of plant water requirements  
3.1 Special cases in AP: microclimatic and hydraulic interactions between strata, synergies.

Practical application.

CLASS 1 - Presentation of the discipline and contextualization. Module 1: Soil-plant-atmosphere relationships. 1. General concepts. 2. Plant water requirements. 3. Specificities of irrigation in Landscape Architecture (LA) and estimation of plant water requirements 3.1 Special cases in AP: microclimatic and hydraulic interactions between strata, synergies.

19 Fevereiro 2025, 14:00 Maria Teresa Gomes Afonso do Paço

Presentation of the discipline and contextualization.       
Module 1: Soil-plant-atmosphere relationships.   
1. General concepts. 
2. Plant water requirements. 
3. Specificities of irrigation in Landscape Architecture (LA) and estimation of plant water requirements  
3.1 Special cases in AP: microclimatic and hydraulic interactions between strata, synergies.

Practical application.