Sistem Manajemen Air

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Sistem Manajemen Air – The Master’s Degree Program in Agricultural Water Resources Management (MPSAP) is a multidisciplinary master’s degree program that aims to apply and utilize science and technology through specialization or profession to solve problems in agricultural water resources management. The multi-sectoral and multi-disciplinary management problem of agricultural water resources requires master’s level expertise with interest in resource management policy (KPS) and resource management techniques/engineering (RPS).

). Therefore, the prepared courses must have a suitable combination of scientific fields in order to achieve the goal. Basic engineering and ecosystem sciences as upstream disciplines are prerequisites for understanding sustainable agricultural water resource management. draft

Sistem Manajemen Air

(IWRM) as an integrated discipline becomes a foundation in water resources management supported by applied science, professional ethics and understanding of information systems and water resources economics.

Aspek Penting Dalam Pengelolaan Sumber Daya Air

– IWRM) as “a process that promotes the coordinated development and management of water, land and related resources to maximize economic and social outcomes.” Equitable prosperity without compromising the sustainability of vital ecosystems. IWRM is based on three principles: social justice, economic efficiency and environmental sustainability. Considering these principles means answering the following questions: – How do decisions/actions affect other users’ access to water or benefits from its use? – Will the decision/action lead to the optimal use of financial and water resources? – How can decisions/actions affect the functioning of natural systems? Social equity means ensuring equal access for all users (especially marginalized and poor user groups) to sufficient quantity and quality of water needed to maintain human well-being. The right to benefit of all water users should also be considered in water allocation. Benefits can include benefiting from resources through recreational use or financial benefits from using water for economic purposes. Economic efficiency means bringing the most benefit to the best possible number of users with available financial and water resources. This requires that the most economically efficient option be selected. Economic value is not just about price, but must consider current and future social and environmental costs and benefits. Ecological sustainability requires that aquatic ecosystems are recognized as users and adequate allocations are made to maintain their natural functions. Achieving this criterion also requires that uses and developments that adversely affect these systems be avoided or limited. Operationally, the IWRM approach involves using knowledge from different disciplines as well as insights from multiple stakeholders to design and implement efficient, equitable and sustainable solutions to water and development problems.

As such, IWRM is a comprehensive participatory planning and implementation tool for managing and developing water resources in a way that balances social and economic needs and that ensures ecosystem protection for future generations. The various uses of water—for agriculture, for healthy ecosystems, for people and livelihoods—require coordinated action. The IWRM approach is an open and flexible process that brings together decision-makers in the various sectors that affect water resources and brings together all stakeholders to determine balanced and balanced policies and decisions in response to the water challenges they face.

The Master’s Program in Agricultural Water Resources Management (MPSAP) aims to produce graduates at the Master’s level who are able to manage water resources in a comprehensive, integrated and sustainable manner. Some of the required documents are:

The curriculum of the Master’s Program in Agricultural Water Resources Management (MPSAP) has been prepared keeping in mind the market needs and the academic level required for the master’s degree. The curriculum is designed in such a way that lecture activities are designed for 3 semesters and research activities are designed for 1 semester. Therefore, the completion time of this study program is 4 semesters. The academic load for the Master of Agricultural Water Resources Management (MPSAP) program is as follows:

Sosialisasi Pakta Integritas Iso 37001:2016

Provide an understanding of the ecological foundations for sustainable water resource development. Discusses the interrelationships of ecology with other sciences, ecosystem principles and concepts, ecosystem structure and function, population ecology and community ecology, classification of macroecosystems in Indonesia. Linking biogeochemical cycles with natural resources, pollution and environmental contamination. Community measurement methods and techniques, ecological models of culture and local wisdom, ecological perspectives for community empowerment, political ecology and political economy. Ecological concepts are then used as a fundamental landscape framework for water resource management.

It discusses various policies in the field of water resources management along with the various sets of laws and regulations that underpin efforts to implement agricultural water resources management, including customary laws and traditions of local communities. Institutional dynamics of water resources, which includes aspects of jurisdictional boundaries, property rights, agency rules, and the application of an institutional approach.

) scope, sustainable planning and management, water resources development, dynamic system as well as evaluation and monitoring system. Knowledge and concept of water resources system planning, identification of water management systems, surface and underground water resources, sustainable use of water resources, watershed management and water quality, social values ​​and environmental effects of water consumption, as well as water consumption rules and regulations

Water resource management requires understanding human behavior based on environmental ethics. So that it is necessary to deepen and analyze the concepts of social systems, local knowledge, local wisdom, very few traditions (urban and rural culture link), native/exogenous technology, sustainable management of agricultural water resources, cultural value development. Orientation, cultural ecological typology, development of local technology/participatory technology, performance of different agricultural ecosystems and alternatives for the future development of agricultural water resources from an ecological perspective, link between institutions in technology development (micro-macro), local irrigation dynamics of groups/organizations. management, analysis of the methods of community cooperative development, development of creative social and cultural energy, socio-cultural changes in the perspective of human ecological changes and cultural changes towards community self-reliance. Understanding the importance of intellectual competence in realizing sustainable management of water resources.

Sistem Informasi Manajemen Bangunan Irigasi

Understanding the problems of water resources in a complex environment includes various variables that are related to each other, so solving the problems of natural and environmental resources should be done holistically based on a systemic approach. It explains the concepts of systems science and modeling for the analysis and control of environmental problems and how to apply them comprehensively.

About the use of statistical methods for hydrological data analysis, including: hypothesis testing of mean values, variance values, non-parametric tests, analysis of variance, time series analysis (no trend test, constant test, continuity test, trend analysis , production from synthetic data), use of regression model and correlation of hydrological data, and test the accuracy of flow measurements at the hydrometric station of the river flow.

The water resources research method discusses the concept and application of the philosophy of science in water resources research activities in order to find solutions to solve development and environmental problems and search for scientific truth.

Spatial planning system and water resources environment using the concept of integrated spatial planning for river basin units is a concept for improving spatial quality from the aspect of sustainable coordination between different human activities in economic, ecological and socio-cultural regional units. Spatial planning and water resources planning systems are related to the hierarchy of placement of different agricultural activities in sustainable environmental, economic and socio-cultural systems, in the framework of the balance between the increase of human activities and the dynamic carrying capacity of the environment. Definition and concept of water resources system planning, identification of water management systems, surface and underground water resources, sustainable use of water resources, watershed management, planning for water resources management, including efforts to plan agricultural water needs by considering aspects It is social, economic and environmental. .

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This course discusses water resource problems from an economic perspective as well as efforts to manage resources in order to maximize benefits to society in a sustainable manner. It discusses the interaction between the economy, the environment and the characteristics of water resources from the perspective of classical – neo-classical – and ecological economics. Market and environmental failures, the topics discussed are: the problem of shortage and pollution of agricultural water resources, the consequences of water as an economic commodity, economic principles and models, their application in dealing with the problem of allocation of water resources between regions, between sectors and during the time. Determining the price and economic value of water for the agricultural sector. Challenges of managing water resources, managing demand and supply of water resources in an integrated manner. Explain ecosystem functions and services and how to internalize the environment in a business activity. Describes various environmental assessment techniques and their applications in natural resource and environmental management cases.

This course discusses the behavior of watersheds (DAS) including rainfall, interception, infiltration, evapotranspiration, runoff, erosion, flooding. Infiltration and runoff models, hydrological models and watershed planning models.

Understanding the concept of soil and water management as a unit in the ecosystem. Understanding soil and water performance and their characteristics in development activities. Learn a basic understanding of water resource conservation. Knowing the factors that cause soil degradation and water pollution. Physical, chemical and biological degradation processes of soil and water. Non-erosive and erosive destruction. Degradation of soil and water due to mining and industrial activities. Describe efforts to manage water resources and combat pollution.

Explains the concept of environmental quality standards (BML) especially in relation to water resources and various parameters of environmental quality. Provides an understanding of techniques and tools for measuring environmental quality data, including techniques for measuring water quality parameters. Provide an understanding of sampling techniques and how to handle samples. Provides insight into the interpretation of observational data, field investigations, and laboratory analysis results. Explain the concept of qualitative data collection, preparation of tools and their interpretation.

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Presenting or presenting the results of the research conducted for the development of the thesis and participating in the planned seminars in accordance with the provisions of the seminar committee. Learn the techniques of compiling scientific articles and literature searches related to the preparation of scientific articles.

Deepening of important references in the field of resource management, both in the form of literature studies, reviews and field observations related to the reality of industrial development and agricultural environment.

Discuss water resources infrastructure (water structures and other buildings that directly and indirectly support water resources management activities), various problems of water resources infrastructure. Mechanisms and strategies

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