Course code: 501403 | Subject title: SCIENCE AND TECHNOLOGY OF ENVIRONMENT | ||||
Credits: 6 | Type of subject: Mandatory | Year: 2 | Period: 2º S | ||
Department: Earth Sciences | |||||
Lecturers: | |||||
CASTILLO MARTINEZ, FEDERICO JOSE (Resp) [Mentoring ] | IMBERT RODRIGUEZ, JUAN BOSCO [Mentoring ] |
General ecology. Ecology applied to agricultural ecosystems. Ecological factors. Cycle of matter and flow of energy in ecosystems. Ecology of populations. Human influence on ecosystems. Contamination of water, soil and, air. Changes in natural and agro-ecosystems. Global change. Sustainable development. Ecosystem services. Environmental legislation. Introduction to the evaluation of environmental impact (EEI)
CT-1 Ability to develop activities in the field of the agro-food and rural environment engineering assuming a social, ethical and sustainable compromise
CT-2 Ability for an efficient oral and written communication
CT-7 Ability for the resolution of problems with creativity, initiative, methodology and critical reasoning
CG2: Adequate knowledge of physical problems, technologies, machinery and systems of hydric and energetic supply, limits imposed by budgetary factors and building regulations, relationships between facilities or buildings and farms, agro-food industries and gardening-related spaces and landscaping with its social and environmental surroundings, as well as the need to relate those and the environment with human needs and environmental preservation
CE 14: Ability to learn, understand and use the principles of ecology. Ability to develop environmental impact studies and their evaluation and correction.
CE 28: Ability to learn, understand and use the principles of environmental and landscape engineering: legislation and environmental management; Principles of sustainable development; Strategies of market and professional practice; Valuation of environmental assets; Hydrology; Erosion; Plant material: production, use and maintenance; Ecosystems and biodiversity; Physical environment and climate change; Analysis, management and territorial development plans; Principles of landscaping; Specific design tools and graphical expression; Practical development of environmental impact studies; Environmental and landscape restoration projects; Projects and green areas maintenance plans; Development projects; Instruments for the management of the territory and the landscape; Management and planning of projects and construction
- To know both theoretically and practicaly the structure and function of natural and agricultural ecosystems
- To know both theoretically and practicaly the principles of Environmental Impact on ecosystems
- To know the guidelines and procedures of Environmental Impact Assessment of plans, programmes and projects
- To analyze and interprete the biological characteristics of living beings and their interaction with environmental factors, including pollutants
- To synthesize information from different sources about pollutants and their effects on ecosystems
- To evaluate the work of other students or groups
Methodology - Activity |
Face-to-face hours |
Not face-to-face hours |
A-1 Lectures and participatory teaching |
20 |
45 |
A-2 Practical works |
20 |
20 |
A-3 Discussions, ideas-sharing session, tutoring groups |
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A-4 Project-based learning work |
18 |
25 |
A-5 Reading materials |
|
|
A-6 Individual study |
|
|
A-7 Examinations, assessment tests |
2 |
|
A - 8 Individual tutoring
|
|
|
... |
|
|
Total |
60 |
90 |
Appearance |
Criteria |
Instrument |
Weight |
Resit |
Participation
Evaluation skills: CG-2, CE-14, CE-28
|
Assistance to theoretical sessions and practices.
Practical classes are mandatory
Intervention and contributions. |
Teacher registration |
5% |
Non-recoverable
|
|
Clarity, organization, creativity and synthesis in the drafting. Thoroughness in data processing. Identification of theoretical and practical knowledge and application of them.
|
Individual work by answering a series of thinking questions or group work in scientific format
|
25% |
15%recoverable |
Fulfillment of a cross-synthesis work in group following a project-based learning format Evaluation skills: CG-2, CE-14, CE-28, CT-1, CT-2, CT-7 |
|
Group work to solve the issues set out and analyze the results.
Oral presentation valued with an evaluation form . |
30% |
Non-recoverable
|
Knowledge of the subject
Evaluation skills: CG-2, CE-14, CE-28
|
Identification and understanding of concepts and theoretical-practical knowledge
|
Theoretical and practical examination
The minimum grade in this test to pass the course will be 5 (five). In case of not reaching this grade, the maximum score in the overall computation of the course will be 4.9.
|
40% |
Recoverable
a) have not reached a minimum grade of 5 in the theoretical and practical examination (b) have not achieved a minimum grade of 5 in the overall calculation of the subject In the recovery test the students must reach a minimum grade of 5 to pass the subject. The final grade will be calculated together with the continuous assessment |
THEORY OUTLINE
Lesson 1. Introduction to ecology and environmental impact. Relationship with other sciences. The scientific method and its application to the resolution of environmental problems.
MODULE 1. INTRODUCTION AND CONCEPT OF ECOSYSTEM
Lesson 2. The ecosystem. Ecosystem concept. Concepts related to the definition of ecosystem. Examples of ecosystems. Stratification of ecosystems.
Lesson 3. Agricultural ecosystems. Agricultural and livestock farms as ecosystems. Special features of the agricultural systems. Agricultural landscapes.
MODULE 2. STRUCTURE AND FUNCTION OF ECOSYSTEMS AND AGRO-ECOSYSTEMS
Lesson 4. Primary production and plant biomass. Concepts of primary production. Transformation of radiant energy and organic matter in organic matter. Net primary production in natural and agricultural ecosystems. Plant biomass in natural and agricultural ecosystems. Stress and disturbance.
Lesson 5. Secondary production and animal biomass. Trophic webs. Transformation of food in secondary production. Secondary production in natural and agricultural ecosystems. Biomass and biomass pyramids. Stress and disturbance. Animal biomass in agroecosystems. Energy flow on natural and agricultural ecosystems.
Lesson 6. The dead organic matter and its decomposition. Dead organic matter in terrestrial ecosystems. Dynamics of dead organic matter. Factors that control the decomposition of organic matter. Role of organic matter in terrestrial ecosystems. Impact of agriculture on soil organic matter.
Lesson 7. Circulation of matter in the ecosystem. The materials of life. Cycles of carbon, nitrogen and phosphorus. External and internal cycles of nutrients in ecosystems: agroecosystems, forests and rivers. Examples of alterations in the cycles at the local level.
Lesson 8. Diversity and biodiversity. Definitions. How to measure diversity? Types of diversity. Some relationships between species richness and abundance. Factors that determine the diversity in an ecosystem. Diversity gradients. Spectra of diversity and species loss. Diversity, agriculture and biodiversity.
MODULE 3. ENVIRONMENTAL IMPACT OF HUMAN ACTIVITIES
Lesson 9. Introduction to environmental impact. Factors of degradation of the biosphere. Regulation systems. Feedback. Pollution and its ecological implications. Dispersal and movement of polluting substances. Accumulation of pollutants in the food chains.
Lesson 10. Water pollution. Nature and importance of the chemical and biological pollution. Ecological consequences of water pollution. Impact of agriculture on water pollution. Plant protection products. Fertilizers. Eutrophication of lakes and reservoirs. Organic pollution in rivers. Diagnosis of organic pollution of waters. Quality of water. Purification of water.
Lesson 11. Air pollution. Atmospheric pollutants. Mode of action. Influence of air pollution on the biocoenosis and ecosystems. Air pollution and agriculture. Consequences of increased CO2 and temperature on agricultural and forest ecosystems.
Lesson 12. Soil pollution. Soil pollution and agriculture. Phytosanitary products. Fertilizers. Salinization. Heavy metals. Solid waste. Bioremediation and phytoremediation. Use of purification.sludges.
Lesson 13. Global biogeochemical cycles and their disturbance by human activities. Impact of agriculture on the global cycles of C, N and P. Connections between global cycles. Regulation. The Gaia theory.
Lesson 14. Global change. Components. Causes and effects. Changes in natural and agro-food ecosystems. Ecological footprint and sustainability. Ecological engineering. Sustainable development. Ecosystem services.
Lesson 15. International statements and conventions. The EU's environmental policy. Environmental legislation. European, Spanish and regional regulations. Introduction to the evaluation of environmental impact (EEI)
PRACTICAL OUTLINE
Practical work 1. Characterization of a river habitat
Practical work 2. Identification of aquatic invertebrates
Practical work 3. Determination of water quality: Physicochemical analyses
Practical work 4. Determination of water quality: Biotic indeces
Practical work 5. Model: Eutrophization of freshwaters
Practical work 6. Structure and function of soil fauna in different types of habitats
Practical work 7. Estimates of population abundances: birds and herbaceous plants
Practical work 8. Biodiversity and dasometry of trees at UPNa’s campus
Practical work 9. Video on sustainability of natural resources
Practical work 10. Exercises and problems
Access the bibliography that your professor has requested from the Library.
Batty LC, Hallberg KB 2010 Ecology of Industrial Pollution, Cambridge Univ. Press
Begon M, Harper JL, Townsend CR 2006 Ecology. From individuals to ecosystems. Blackwell Publishing, Oxford.
Hannah L 2011 Climate Change Biology Elsevier
Krebs CJ 2013 Ecology. The experimental analysis of distribution and abundance. Benjamin Cummings, San Francisco
Jones ISF 2011 Engineering Strategies for Greenhouse Gas Mitigation Cambridge Uni. Press
Legge AH 2009 Air Quality and Ecological Impacts Elsevier
Letcher TM 2009 Climate change: Observed Impacts on Planet Earth Elsevier
Molles MC Jr 2012 Ecology. Concepts and Applications. Mc Graw Hill, Boston.
Smith RL, Smith TM 2001 Ecology & Field Biology. Benjamin Cummings, San Francisco
Spellman FR 2010 The Science of Environmental Pollution CRC Press
Vandermeer JH 2011 The Ecology of Agroecosystems Jones and Bartlett Publ.