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on the use of water, land and energy resources,
as well as the environment of Central Asia

Comparison of practices

Название практики Introduction of Integrated Water Resources Management (IWRM) principles on the Aspara small transboundary river Improving water use planning technology based on CROPWAT 8.0 Software
Category Water resources Water resources
Tool Public participation principle Model CROPWAT 8.0
Field of application

Use of water resources

Use of water resources

Usability of practice for adaptation to climate change High High
Implemented by USAID/CAREC
UN FAO in the Republic of Tajikistan, Sh. Shotemur Tajik Agrarian University (TAU)
Used by

Country: Kyrgyzstan

Country: Tajikistan

Province: Districts of Republican Subordination

District: Shahrinaw

Other settlement: Mirob” Water User Association (WUA)

Local specifics

Transboundary river

Mirob WUA is located in the Kafirnigan and Varzob River Basins (river catchment areas); deep (below 3 m) ground water occurrence; middle loamy soils

Practice usage period

Start date: 01.04.2012

End date: 31.10.2016

Start date: 01.01.2012

End date: 31.12.2013

Problem solved through this practice

Imperfections of the water management mechanism in the Isfara small transboundary river basin

Need to enhance water use planning and water consumption calculation techniques for agricultural crops with the account of climatic conditions and crop development phases based on decade water use planning hydro-modules proceeding from precipitation availability.

Tools used in the practice

The principle of stakeholder engagement in decision-making associated with water management of small transboundary river; IWRM planning technique

CROPWAT 8.0 Software

Description of the practice and its results

The Aspara River originates in the Western Tien Shan on the territory of Kyrgyzstan and flows northwards crossing the border with Kazakhstan.  The river’s total length exceeds 44 km, and its catchment area amounts to approximately 66 km2.  The Aspara River Basin is located in Chu Region in Kyrgyzstan’s northwest and Jambyl Region in Southern Kazakhstan.  The basin is shared by several different ethnicities where they live and work.  The basin’s population is rapidly growing, and the agriculture is developing.  In many places along the course of the river, especially in its lower streams, the water doesn't meet quality and sanitary standards.  Liquid waste produced by the population, industry and livestock production as well as solid waste constitute major sources of environmental pollution.

Project efforts were carried out in Jambyl Region of the Republic of Kazakhstan and Chu Region of the Kyrgyz Republic.

Actions:

Establishment of 2 stakeholder groups, i.e. Small Basin Councils (SBC) – on both Kazakhstan’s and Kyrgyzstan’s sides of the river – representing local authorities, NGOs, water users and local communities.  The SBCs already held 6 joint meetings proving the value of SBCs as platforms to exchange opinions and information as well as take joint decisions on enhancing the overall situation in the basin.

In addition, hydrometric posts were reconstructed and underwent certification, and the automated water distribution and accounting system was installed on the Mailybai Canal. The water supply system in the village of Cholok-Aryk also underwent reconstructed.  A demo-site to demonstrate drip irrigation equipment and technology was established on the premises of Ravshan Farm receiving its irrigation water via the Mailybai Canal.

Results:

Thus, the creation of national Small Basin Councils (SBC) on the Aspara River ensured a platform for exchanging opinions and information as well as joint decision-making to improve the overall situation in the Aspara River Basin, including the development of the IWRM basin-specific plan.

Actions:

  • Analysis of existing methods of water resources use planning in dekhan farms of the Gissar Valley;
  • Designing a water use planning technique with the account of irrigation patterns in dekhan farms.

Results:

Financial and economic:

effective use of irrigation water; reduced water consumption per harvest unit.

Ecological:

improved ecological and reclamation condition of irrigated land.

Technical:

executed decade hydro-modules based on precipitation availability allowing dekhan farms to plan their water consumption and draw up crop irrigation schedules depending on expected weather conditions in the Gissar Valley as well as to coordinate other technological and weather-dependent processes associated with crops cultivation.

Social:

prevention of conflicts, controversies and misunderstanding among water users related to irrigation water distribution.

Lessons learnt and recommendations made

Lessons learnt:

Introduction of IWRM principles is the pre-requisite of stable and fair water supply irrespective of a given water user’s location.

Recommendations:

Currently, when local stakeholders are represented in SBCs and are engaged in joint water management, it is necessary to continue the capacity-building efforts to build-up SBCs’ efficiency.  In the long term, it might be necessary and possible to establish a joint body to manage the whole Aspara River Basin shared by Kazakhstan and Kyrgyzstan.

Lessons learnt:

CROPWAT 8.0 Software allows enhancing the technology of water use planning via specification of irrigation modes depending on expected precipitation availability.

Recommendations:

It is necessary to widely apply CROPWAT 8.0 Software.

Source of practice

Foreign tools (transfer of foreign experience)

Foreign tools (transfer of foreign experience)

Readiness for implementation

1. Cost of implementation: High

2. Approximate cost of investment per 1 ha:

3. O&M costs: High

4. Expert support: Not needed

1. Cost of implementation: High

2. Approximate cost of investment per 1 ha:

3. O&M costs: High

4. Expert support: Not needed

Brief information on the project

Development and implementation of basin plans constitute principal elements of integrated water resources management.  Multi-agency coordination mechanism via basin councils or coordination groups is an important advantage of IWRM.  This approach allows streamlined coordination and synergy of actions on all levels of management hierarchy.

Project title: Stakeholder partnership in joint policy-making: assistance to transboundary cooperation in small watersheds of Central Asia.

Project duration: Apr 2012-Oct 2016

Project goal and objectives: introduction of the integrated water resources management (IWRM) practice in three transboundary watersheds and its scaling-up in Central Asia.

Project beneficiaries: communities of the Aspara small transboundary river basin, specialists of water and environmental agencies, farmers.

Project implementer: USAID/CAREC.

Project title: Improving water use planning technology based on CROPWAT 8.0 Software.

Project duration: 2012-2013.

Project goal and objectives: design a science-based water use planning technique using CROPWAT 8.0 Software to calculate water consumption for different crops with the account of climatic conditions and crops development phases based on decade water use planning hydro-modules proceeding from precipitation availability.

Project beneficiaries: water users of Mirob WUA.

Project implementer: Sh. Shotemur TAU.

Funding source USAID United Nations Food and Agriculture Organization (UN FAO) in the Republic of Tajikistan
Information sources

carecnet.org

Report by the Operation of Hydro and Reclamation Systems Chair of Sh. Shotemur TAU, Dushanbe, 2013, 46 p.

Contacts of a person, who filled this form

SIC ICWC

SC ICWC

Form submission date 02.04.2018 03.04.2018

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