Description

This professional master’s degree will help you to advance your professional engineering career and contribute to environmental conservation”

##IMAGE##

The figures and data provided by the United Nations with Cone to the consumption of environmental resources and pollution leave no doubt as to the urgent need to implement effective measures and develop new projects. In this scenario, engineers play a leading role thanks to their technical knowledge and how their activity transforms The environment.

Thus, their technical and technological initiatives can contribute to reducing water consumption and pollution, or to implementing methodologies that will decontaminate the air or soil. However, to achieve this, engineers must have some knowledge of Conservation Ecology, which they will be able to acquire through this TECH Conservation Ecology.

In this way, through a 100% online program, graduates will be able to delve into ecology, environmental epidemiology and public health, land management, technical developments on the diagnosis and recovery of the landscape, as well as geographic information systems. All this, with a theoretical approach, but at the same time practical thanks to the case studies provided by the specialists who teach this program.

Engineering professionals are, therefore, upon an excellent opportunity to study a professional master’s degree at their own convenience. You only need an electronic device with an Internet connection to access the Virtual Classroom where the syllabus of this program is hosted. What is more, the Relearning system, used by TECH in all its programs, will allow students to reduce the long study hours so common to other methods.

Take this program and acquire an advanced education in geographic information systems and modernizing environmental systems”

This professional master’s degree in Conservation Ecology contains the most complete and up-to-date program on the market. The most important features include:

  • Practical cases presented by experts in Ecology and Engineering
  • The graphic, schematic, and practical contents with which they are created, provide scientific and practical information on the disciplines that are essential for professional practice
  • Practical exercises where self-assessment can be used to improve learning
  • Its special emphasis on innovative methodologies
  • Theoretical lessons, questions to the expert, debate forums on controversial topics, and individual reflection assignments
  • Content that is accessible from any fixed or portable device with an Internet connection

Do you have an engineering project in mind that favors human wel-being? Before taking the plunge, enroll in the professional master’s degree in Conservation Ecology”

The program’s teaching staff includes professionals from the sector who contribute their work experience to this educational program, as well as renowned specialists from leading societies and prestigious universities.

Its multimedia content, developed with the latest educational technology, will allow professionals to learn in a contextual and situated learning environment, i.e., a simulated environment that will provide immersive education programmed to prepare in real situations.

The design of this program focuses on Problem-Based Learning, by means of which professionals must try to solve the different professional practice situations that are presented to them throughout the program. For this purpose, the student will be assisted by an innovative interactive video system created by renowned and experienced experts.

If you have a computer with an Internet connection, you already have the necessary tool to take this 100% online program. Enroll now"

##IMAGE##

With this academic program you will gain an improved understanding of the way ecosystems function and their link to engineering"

Objectives

Creating engineering projects requires sound knowledge of the environment and its conservation, which is why, with this program, professionals will be able to acquire the necessary knowledge of ecology, wildlife protection, and environmental conservation. A learning that will be much more dynamic and visual thanks to the video summaries, detailed videos and the specialized readings provided throughout the program.

##IMAGE##

Delve into the study of the effects of pollution on human health and generate technical actions to reduce its impact”

General Objectives

  • Analyze some classical environmental models in detail
  • Identify the organizational levels of nature, from individual specimens to the whole ecosystem
  • Become familiar with the history of territorial planning from antiquity to present day, its different phases - pre-industrial, industrial and post-industrial– and the importance of the natural environment in this planning
  • Understand both intrinsic and extrinsic factors that affect compound toxicity and organism response to it

Specific Objectives

Module 1. Ecology

  • Describe and understand the physico-chemical processes that structure and make ecosystems function
  • Establish and understand the interrelationships between the different components that structure and allow an ecosystem to function
  • Qualitatively and quantitatively analyze the structural and functional aspects of the different organizational levels
  • Gain systematic and standardized understanding of the samples obtained in order to render reliable and comparable data

Module 2. Wildlife Management

  • Describe the morphological and functional organization of organisms, and understand the basis of taxonomy and biological classifications
  • Know the main biomes of the earth and general ecological processes, the factors that affect them and their dynamics
  • Use procedures to estimate, represent and interpret biodiversity at various scales, population, taxonomic, ecological, their interactions in the natural and anthropized environment, and their environmental significance

Module 3. Environment and Society

  • Know and understand the psychological models used for the analysis of environmental problems
  • Develop a critical awareness of the potential articulation of the fields of research on environmental problems
  • Learn about the reciprocal relationships between the individual and the socio-physical environment from the perspective of Environmental Psychology
  • Acquire the basic scientific, theoretical and methodological knowledge to implement psychosocial assessment and intervention programs for problems arising from the relationship of individuals with their physical space and environment

Module 4. Environmental Microbiology

  • Identify and understand the basis of microbial diversity and its role in the biosphere
  • Know and understand the physiological state of microorganisms in the environment and the dynamics of microbial communities
  • Understand modern techniques to estimate and interpret microbial biodiversity, and assess their potential application in environmental and industrial processes
  • Analyze the importance of using microorganisms to solve environmental problems: water supply treatment, wastewater treatment and biomining techniques

Module 5. Wildlife Management and Conservation

  • Identify space management
  • Know the action plans carried out for endangered species conservation
  • Understand management tools used by institutions
  • Analyze wildlife conservation planning and management

Module 6. Environmental Epidemiology and Public Health

  • Understand the processes toxins undergo upon entering a living organism and the response mechanisms that are activated to counteract their impact
  • Know the different methods used to asses toxicity and the requirements that validate them
  • Understand the mechanisms of toxicity at a cellular level
  • Learn the toxic effects on different organs and systems of living beings
  • Detect the mode of action of different types of toxins at the molecular, cellular and systemic levels
  • Differentiate the sources of pollution found in ecosystems, both natural and anthropogenic, and toxin mobility between the different compartments of ecosystems
  • Identify the main methods used in risk assessment and environmental remediation strategies that have been developed to counteract the effect of pollutants

Module 7. Geographical Information Systems

  • Generally introduce geographic databases
  • Know the database work The procedures
  • Solve environmental problems with the help of a GIS
  • Prevent and plan for environmental risk using these computer tools

Module 8. Landscape Diagnosis and Restoration

  • Present the concept of landscape in its different dimensions and its treatment in the regulatory context
  • Understand the system underlying the landscape and the factors that determine the different types of landscape
  • Understand the spatial dimension of landscape phenomena at different scales
  • Define and characterize the different types of landscapes
  • Learn how to evaluate the landscape in terms of quality, fragility and capacity of use according to its characteristics and using different techniques

Module 9. Spatial Planning and Environment

  • Know the conceptualization and theoretical bases on which land use planning, models, plans, justifications, etc. are based
  • Distinguish the evolution of land-use plans since they began to be systematically developed in the 20th century, up to present day
  • Know the methods of environmental analysis used to assess, conserve and manage natural resources
  • Become familiar with the European Legislation that regulates everything involved in spatial planning
  • Know how to value natural resources, their management and conservation, when formulating policies, regulations, plans and development programs

Module 10. Modeling Environmental Systems

  • Describe the concept of model and study the use of mathematical models in environmental sciences
  • Understand the difference between discrete and continuous models
  • Distinguish between spatially homogeneous and heterogeneous models
  • Explain potential problems in building and validating models and sensitivity analyses
  • Study the mathematical expression of some general behaviors
  • Know how to verify and validate a model by comparison with experimental data
##IMAGE##

You will take a step further in your professional career thanks to the comprehensive content you will acquire on landscape restoration”

Professional Master's Degree in Conservation Ecology

Today, Ecology and Engineering are two closely related disciplines, largely due to the growing environmental awareness of both society and the professionals themselves. The environmental degradation of recent decades has made it increasingly necessary for engineers to possess greater knowledge about the conservation of ecosystems through projects specifically designed to protect them or initiatives that take into account the environmental impact from the outset. Thus, this Master's Degree in Conservation Ecology offers students a complete specialization in topics such as Land Management, Environmental Microbiology and modernization of environmental systems. Undoubtedly, this will allow them to advance in their career with solid foundations thanks to the innovative didactic resources offered by the program.

Design the best strategies for modernization of environmental systems

Always 100% online, this Professional Master's Degree in Conservation Ecology offers engineers a specialization in Ecology, Environmental Epidemiology and Public Health, Land Management, Landscape Diagnosis and Recovery, as well as Geographic Information Systems. Although the focus is mainly theoretical, the degree also offers practical case studies presented by experts in the field. This is a great opportunity for engineering professionals to perfect their knowledge comfortably and in their own time, as they only need a device with an Internet connection to access the online syllabus. In addition, thanks to the Relearning system employed by TECH, students can save time and reduce the amount of hours needed for study compared to other teaching methodologies.

"