Сравнение практик

Другое: Remote monitoring

• Use of water resources
• Use of land resources
• Environmental protection

Страна: Туркменистан

Область: Марыйская

Район: Сакарчагинский

Другой населенный пункт: Zakhmet Daikhan Farm

Страна: Кыргызстан

Область: Иссык-Кульская

Район: Ак-Суйский

Sakar-Chaga District (area of 53,000 ha; population of 132,000 people) is located in the northwestern part of Mary Region in the Murgab River delta. The majority of local residents live in the oasis hosting 80% of settlements.

Enilchek is a dendrite-type glacier originating around Khan Tengri Peak (6,995 m) with its tongue (43.2 km long and on average 2.2 km wide) descending to 2,800 m ASL.  Northern Enilchek Glacier is 38.2 km long (181.2 sq.km) and Southern Enilchek Glacier is 58.9 km long (567.2 sq.km).

Lake Merzbacher:

• 3,304 m ASL;
• volume – 0.12-0.25 km³;
• deepest point -- 75 m;
• average depth -- 35 m;
• water-surface lake area – 4.5 sq.km.

Lake Merzbacher formed at the end of the Small Ice Age (19^th century).  It has two pools called Upper and Lower Lakes divided by 400 m of elevation and 3-4 km long ice river with the same name.  In its southern part, the lower and larger part of the lake is limited by the glacial “dam”.  Every year (twice a year, in summer and winter periods) the lake’s lower part breaks into the Enilchek River Valley completely losing its water (discharge speed may exceed 1,000 m³/s) and dumping it in the course of 2-7 days via subglacial canals.  At the time of lake outburst, it accumulates 0.06-0.07 km³ of water.  Based on research data, lake bursts occur when water temperature in the lake rises to 10-15° Celsius.

Дата начала: 01.01.2009

Дата окончания: 31.12.2010

Дата начала: 01.01.2012

Дата окончания: 31.12.2013

Land salination represents the main challenge in the area due to improper irrigation technology and lack of drainage, in their turn leading to extremely low productivity. With time, the existing irrigation management system resulted in irrational use of water and land. While water distribution rates were calculated in a centralized manner depending on specific crops, in practice water supply monitoring is extremely poor – water supply (canals) infrastructure is inconsistent with farmers’ needs leading to excessive and, vice versa, insufficient watering of different sites. In addition, there exists an informal water payment system leading to the advantageous position of certain users.

Lake Merzbacher’s outbursts often destroy bridges, roads and other engineering facilities/installations located along the rivers originating in the lake down to the Ak-Suu River on the territory of China.

Set of hydro-reclamation measures: preventive land forming (leveling), composting, monitoring of ground water bedding and mineralization, decentralized water management planning, capacity building, etc.

1. Upgrading control and management systems;
2. Remote monitoring

Actions:

A series of measures were executed to prevent land degradation and improve land reclamation condition, including introduction of high-performance drainage systems and reclamation technologies, construction of a new collector and cleaning of the existing one, construction of 9 water-regulating and 2 water-measuring facilities.

Results:

• 50 hectares of degraded land rehabilitated and can be used for agricultural purposes. About 35 ha of land saved from degradation thanks to preventive land forming;
• regular seminars held for land users on potential ways of applying various advanced methods of maintaining rural economy and effective use of water resources;
• about 60 measuring stations installed to monitor the level and mineralization of ground water.

The Sary-Dzhaz River Basin which includes Enilchek -- the largest glacier in the country – is one of main sources of fresh water and a potential source for hydropower in the region.

The region is of special significance as to investigating the probability of both natural and natural-technogenic disasters.  It also plays an important role in rational water supply in Kyrgyzstan and the adjacent territory of Xinjiang Autonomous Region of China, as well as planning large-scale infrastructure projects (ex.: cascading hydro-power stations).

Based on the observation data of the last decade, climate change is the reason behind the regressing Tien Shan glaciation.  It leads to reduction of shared water resources, activation of mud flows, floods and glacial lake outbursts.  The largest known glacier-dammed Lake Merzbacher is characterized by one of the most severe and regular annual disruptive glacial floods.  It was necessary to examine hydrological, climatic and glacial changes associated with altering region- and global-scale atmospheric circulations, i.e. their effect on the central section of Enilchek Glacier (confluence point of its two branches -- Northern and Southern Enilchek).

Actions:

Enilchek Glacier research was carried out on the premises of Merzbacher Station established jointly by CAIAG and GFZ in August 2009.  Subsequently, it is planned to expand the set of measuring tools used for studying Enilchek Glacier.

Project scope included field research in the Sary-Dzhaz and Enilchek River Basins, collection of measurements from automatic meteo- and seismic stations, hydro-posts on Northern Enilchek Bridge and Southern Enilchek ablation stake.

Automatic meteorological stations provide data on temperature, precipitation, humidity, atmospheric pressure, wind and total solar radiation necessary to reveal the impact of altering climatic parameters on glacier balance, discharge of the Enilchek River and outburst discharge regime of Lake Merzbacher.  Project efforts allowed better identification of summer glacial discharge for separate glaciers (Northern and Southern Enilchek) via automatic hydro-posts.

Water level and ice surface fluctuations in Lake Merz-bacher were subject to monitoring and registration via water pressure sensors developed GFZ, OpenGPS Sensor (laser scanning technology) and visual observations (high-resolution web-cameras).

Results:

The CAIAG monitoring network was established under research grants and third-party project investments.  The installed GPRS-modems allowed to automatically transfer data to CAIAG server on a daily basis.

The network of interlinked stations was created already under the GCO-CA Project, including MRZ1 and MRZ2 stations close to Lake Merzbacher on northern and southern walls of Northern and Southern Enilchek Glaciers.  The third ICED Station – to measure glacier speed and monitor the dam -- was installed on the ice dam.

The project allowed the e-mapping of the Sary-Dzhaz River Basin, making and assessing Enilchek Glacier geophysical and capacity measurements, as well as identifying lineaments, breaks and crossbars near outburst-prone Lake Merzbacher.  Analyses of satellite imagery allowed identifying rock slides in the form of paleoseismic dislocations within the 50 km radius of the merger point of the Sary-Dzhaz River and the Enilchek River (its left-bank tributary).  The deciphered paleoseismic dislocations prove the region’s high seismicity.  In the future, project results can be used for designing and building the Sary-Dzhaz Hydropower Station.

Financial and economic:

The received results manifest an important contribution to planning and implementing secure economic development efforts in the Sary-Dzhaz River Basin, in particular, designing, building and operating hydropower plants in the region.

Environmental:

Project outcomes serve basis for assessing and forecasting climatic and ecological variability of water resources.

Social:

• reduced probability of sudden destruction of engineering facilities;
• increased security for the residents of the Sary-Dzhaz River Basin.

Lessons learnt:

• salinized land was rehabilitated not only thanks to reclamation actions but also by composting. In particular, high-quality humus is produced to enhance soil salinity parameters;
• the process of designing water use plans for individual farmers launched;
• one new collector built.

Recommendations:

It is necessary to focus on strengthening the role of local associations in rendering irrigation services and managing the canal’s water level.  Local water users will be rendered an opportunity to design effective irrigation water management schemes.  The experience of decentralized water planning and management accumulated by water tenants will be documented and distributed as a part of knowledge-management (capacity-building) strategy.  It is necessary to closely cooperate with the newly established Agriculture Advisory Service working on sustainable land and water management, as well as to disseminate corresponding practices in other areas.

Lessons learnt:

Research and monitoring of Southern and Northern Enil-chek Glaciers and Lake Merzbacher are of paramount importance due to the prospects of developing water, hydropower and mineral resources in the target basin.

Recommendations:

Long-term monitoring of glaciers and lakes is necessary to prevent the devastating outbursts of high-altitude lakes.

Domestic tools (outcomes of research by domestic R&D organizations)

Foreign tools (transfer of foreign experience)

1. Затраты на внедрение: Высокие

2. Примерная стоимость капиталовложений на 1 га:

3. Затраты на поддержание и эксплуатацию: Высокие

4. Экспертная поддержка: Не требуется

1. Затраты на внедрение: Высокие

2. Примерная стоимость капиталовложений на 1 га:

3. Затраты на поддержание и эксплуатацию: Высокие

4. Экспертная поддержка: Не требуется

Project title: Local-level capacity building and investment for sustainable management of land resources.

Project duration: 2009-2010.

Project goal and objectives: overcoming barriers to higher efficiency and performance of water supply systems in climate change induced drought conditions.

Project beneficiaries: Zakhmet Daikhan Farm (approximately 300 daikhan households).

Project implementer: Ministry of Nature Protection of Turkmenistan and German Technical Cooperation Agency (GIZ).

Project title: Examination of Enilchek Glacier to determine its balance, morphological and dynamic characteristics, and climatic and hydrological conditions.

Project duration: 2012-2013.

Project goal and objectives: measure a series of parameters necessary for explanation, simulation and forecasting of glacial, water, and atmospheric sub-systems in terms of potential risks of geo-catastrophes and water resources changes.

Project long-term goals: forecast climate and water resources change trends in Kyrgyzstan and Central Asia.

Scale of implementation and project beneficiaries: populations of the Sary-Dzhaz River Basin of the Kyrgyz Republic and the river’s lower reaches on the territory of the People's Republic of China.

Project implementer: Central Asian Institute for Applied Geosciences (CAIAG).

http://www.turkmenistan.ru/?page_id=3&lang_id=ru&elem_id=17207&type=event&layout=print&sort=date_desc 

1. Central Asian Institute for Applied Geosciences, 2012-2013 Research Program;
2. Magnetometer Survey of Southern and Northern Enilchek (Inylchek) Glaciers in the area of Lake Merzbacher;
3. Presentation about the work of the institute;
4. On the geo-risk monitoring system in Central Asia;

SIC ICWC

 SIC ICWC