1.2 ຂໍ້ມູນ ການຕິດຕໍ່ພົວພັນ ຂອງບຸກຄົນທີ່ສໍາຄັນ ແລະ ສະຖາບັນ ທີ່ມີສ່ວນຮ່ວມ ໃນການປະເມີນເອກກະສານ ເຕັກໂນໂລຢີ

ຊື່ໂຄງການ ທີ່ອໍານວຍຄວາມສະດວກ ໃນການສ້າງເອກກະສານ/ປະເມີນ ເຕັກໂນໂລຢີ (ຖ້າກ່ຽວຂ້ອງ)

Resilient Mountain Solutions Initiative, ICIMOD (RMS initiative)

ຊື່ສະຖາບັນ (ຫຼາຍສະຖາບັນ) ທີ່ອໍານວຍຄວາມສະດວກ ໃນການສ້າງເອກກະສານ / ປະເມີນ ເຕັກໂນໂລຢີ (ຖ້າກ່ຽວຂ້ອງ)

ICIMOD International Centre for Integrated Mountain Development (ICIMOD) - ເນໂປ

1.3 ເງື່ອນໄຂ ກ່ຽວກັບ ການນໍາໃຊ້ຂໍ້ມູນເອກະສານ ທີ່ສ້າງຂື້ນ ໂດຍຜ່ານ ອົງການພາບລວມຂອງໂລກ ທາງດ້ານແນວທາງ ແລະ ເຕັກໂນໂລຢີ ຂອງການອານຸລັກ ທໍາມະຊາດ (WOCAT)

ຜູ້ປ້ອນຂໍ້ມູນ ແລະ ບຸກຄົນສຳຄັນ ທີ່ໃຫ້ຂໍ້ມູນ (ຫຼາຍ) ຍິນຍອມ ຕາມເງື່ອນໄຂ ໃນການນຳໃຊ້ຂໍ້ມູນ ເພື່ອສ້າງເປັນເອກກະສານຂອງ WOCAT:

ແມ່ນ

1.4 ແຈ້ງການວ່າ ດ້ວຍຄວາມຍືນຍົງຂອງ ເຕັກໂນໂລຢີ

ການນໍາໃຊ້ ເຕັກໂນໂລຢີ ດັ່ງກ່າວໄດ້ອະທິບາຍ ເຖິງບັນຫາ ກ່ຽວກັບ ການເຊື່ອມໂຊມຂອງດິນບໍ? ຖ້າບໍ່ດັ່ງນັ້ນ ມັນບໍ່ສາມາດ ຢັ້ງຢືນໄດ້ວ່າ ເປັນເຕັກໂນໂລຊີ ໃນການຄຸ້ມຄອງ ທີ່ດິນແບບຍືນຍົງ? :

ບໍ່ແມ່ນ

2.1 ຄໍາອະທິບາຍສັ້ນຂອງ ເຕັກໂນໂລຢີ

ການກຳໜົດຄວາມໝາຍ ຂອງເຕັກໂນໂລຢີ:

A soil cement water collection pond to store rainwater, runoff and household kitchen waste water free from soap and detergent for supplemental irrigation purpose during dry seasons.

2.2 ການອະທິບາຍ ລາຍລະອຽດ ຂອງເຕັກໂນໂລຢີ

ການພັນລະນາ:

In Nepal's mid-hills mountain farmers face problems during dry seasons to irrigate their fields, as they entirely depend on rain- water. Soil cement water collection pond are ideal to tackle this challenge, as they can capture excess rainfall during monsoon, which is later available during prolonged seasonal water shortage.

The Resilient Mountain Village (RMV) project of ICIMOD together with its local partner, CEAPRED tested and demonstrated soil cement ponds with a capacity of 24000 liters. The conservation ponds were used for irrigating high value off-season horticultural crops (vegetables, fruit, and spices). These crops were irrigated with drip irrigation and micro sprinklers. The ponds were fed from rainwater, upland springs and taps, and household wastewater from kitchen free from soap and detergent. They were established during the dry season during 3 months. They were prepared by selecting a suitable site with a sufficient catchment; mapping out the area and depth of the pond; digging out the soil; removing protruding stones and roots; and compacting and smoothing the sides and bottom of the pond. Then gravel and pebbles were used for the base and the floor and side walls were leveled off. Initial mixture of soil, sand and cement (3:3:1) was applied to roughly plaster all the side walls and gravel was mixed in the mixture while plastering the floor. The following day, the roughly plastered pond was watered and was covered with wet jute sack to keep it moist. This was continued for 3-4 days. Then again a second mixture of soil, sand and cement (2:2:1) was applied to smoothly plaster the floor and side walls. The pond was watered for the next 3-4 days and was covered with wet jute sacks. Around 4-5 days after the second plaster, the pond was filled with water. For safety, pond was enclosed with a gabion wire/ bamboo fence (or using any locally available material). The total establishment cost for a soil cement pond with 24000 liters capacity was USD 311.

The main maintenance activity was to maintain the gabion wire/bamboo fence to prevent livestock and people from entering the pond, and to remove the sediment that accumulates in the pond. The sediment has to be removed once a year carefully by hand and if cracks occur, it should be sealed with a mixture of soil, sand and cement (3:3:1). The total annual maintenance cost for 24000 liters soil cement tank was USD 68.

This technology has somehow helped small-land holding farmers to irrigate their rain-fed land during dry months which has increased the crop production and their income as well.

Land user's particularly liked that their production increased and that they were able to grow up to three crops per year. Trough this the farmers were able to diversify their crops, and they were less vulnerable to the dry season. In addition, soil cement water ponds are more efficient than plastic-lined conservation ponds which are easily damaged by rats. Although cost effective, the fixed price for this technology is quite high, particularly for smallholder farmers. To lessen this financial burden, local governments can provide subsidies to women and marginalized groups interested in this technology. Self-help groups with a revolving grants system would help expand the use of these ponds and ensure sustained use across Nepal.

2.3 ຮູບພາບຂອງເຕັກໂນໂລຢີ

2.5 ປະເທດ / ເຂດ / ສະຖານທີ່ບ່ອນທີ່ ເຕັກໂນໂລຢີ ໄດ້ຮັບການນໍາໃຊ້ ແລະ ທີ່ຖືກປົກຄຸມດ້ວຍການປະເມີນຜົນ

2.6 ວັນທີໃນການຈັດຕັ້ງປະຕິບັດ

ຖ້າຫາກວ່າ ບໍ່ຮູ້ຈັກ ປີທີ່ຊັດເຈນ ແມ່ນໃຫ້ປະມານ ວັນທີເອົາ:

• ຕໍ່າກວ່າ 10 ປີ ຜ່ານມາ (ມາເຖິງປະຈຸບັນ)

2.7 ການນໍາສະເໜີ ເຕັກໂນໂລຢີ

ໃຫ້ລະບຸ ເຕັກໂນໂລຢີ ໄດ້ຖືກຈັດຕັ້ງປະຕິບັດຄືແນວໃດ?

• ໂດຍຜ່ານໂຄງການ / ການຊ່ວຍເຫຼືອຈາກພາຍນອກ

ຄວາມຄິດເຫັນ (ປະເພດ ໂຄງການ ແລະ ອື່ນໆ):

ICIMOD demonstrated this technology through the program of Resilient Mountain Village (RMV) with the help of its implementing local partner, The Center for Environmental and Agricultural Policy Research, Extension and Development (CEAPRED) in its pilot project sites in Kavrepalanchok district.

3.1 ຈຸດປະສົງຫຼັກ (ຫຼາຍ) ຂອງເຕັກໂນໂລຢີ

• ປັບປຸງ ການຜະລິດ

• Improve water availability during dry seasons

3.2 ປະເພດການນໍາໃຊ້ທີ່ດິນ ໃນປະຈຸບັນ() ທີ່ເຕັກໂນໂລຢີ ໄດ້ຖືກນໍາໃຊ້

ການນຳໃຊ້ທີ່ດິນ ປະສົມພາຍໃນພື້ນທີ່ດຽວກັນ:

ບໍ່ແມ່ນ

3.3 ການນຳໃຊ້ທີ່ດິນ ມີການປ່ຽນແປງຍ້ອນການຈັດຕັ້ງທົດລອງເຕັກໂນໂລຢີ ແມ່ນບໍ່?

ການນຳໃຊ້ທີ່ດິນ ມີການປ່ຽນແປງຍ້ອນການຈັດຕັ້ງທົດລອງເຕັກໂນໂລຢີ ແມ່ນບໍ່?

• ບໍ່ (ຕໍ່ເໜືອງກັບ ຄຳຖາມ 3.4)

3.4 ການສະໜອງນ້ຳ

ການສະໜອງນໍ້າ ໃນພື້ນທີ່ ທີ່ໄດ້ນໍາໃຊ້ ເຕັກໂນໂລຢີ:

• ນໍ້າຝົນ

3.5 ການນໍາໃຊ້ເຕັກໂນໂລຢີ ທີ່ຢູ່ໃນກຸ່ມການຄຸ້ມຄອງ ທີ່ດິນແບບຍືນຍົງ

• ການເກັບກັກນໍ້າ
• ການຄຸ້ມຄອງຊົນລະປະທານ (ການສະໜອງນໍ້າ, ລະບາຍ)

3.6 ມາດຕະການ ການຄຸ້ມຄອງ ທີ່ດິນແບບຍືນຍົງ ປະກອບດ້ວຍ ເຕັກໂນໂລຢີ

3.7 ປະເພດດິນເຊື່ອມໂຊມ ຫຼັກທີ່ໄດ້ນໍາໃຊ້ ເຕັກໂນໂລຢີ

3.8 ການປ້ອງກັນ, ການຫຼຸດຜ່ອນ, ຫຼືການຟື້ນຟູຂອງການເຊື່ອມໂຊມຂອງດິນ

ໃຫ້ລະບຸ ເປົ້າໝາຍ ເຕັກໂນໂລຢີ ທີ່ພົວພັນ ກັບຄວາມເຊື່ອມໂຊມຂອງດິນ:

• ຫຼຸດຜ່ອນການເຊື່ອມໂຊມຂອງດິນ

4.1 ເຕັກນິກ ໃນການແຕ້ມແຜນວາດ ເຕັກໂນໂລຢີ

4.2 ຂໍ້ມູນທົ່ວໄປກ່ຽວກັບການຄິດໄລ່ປັດໃຈຂາເຂົ້າໃນການຜະລິດ ແລະ ມູນຄ່າອື່ນໆ

ລະບຸ ວິທີການ ຄຳໃຊ້ຈ່າຍ ແລະ ປັດໄຈນໍາເຂົ້າ ທີ່ໄດ້ຄິດໄລ່:

• ຕໍ່ພື້ນທີ່ ທີ່ໄດ້ຈັດຕັ້ງປະຕິບັດ ເຕັກໂນໂລຢີ

ລະບຸ ສະກຸນເງິນທີ່ໃຊ້ສໍາລັບ ການຄິດໄລ່ຄ່າໃຊ້ຈ່າຍ:

• USA

4.3 ການສ້າງຕັ້ງກິດຈະກໍາ

	ກິດຈະກໍາ	Timing (season)
1.	Select a preferably stable ground with a sufficient catchment area	dry months
2.	Measure the area to be irrigated and estimate the size of the pond	dry months
3.	Measure and mark out the pond	1st day
4.	Dig out the soil to the pre-determined depth and remove protruding stones and roots	1st day
5.	Compacting and smoothing the sides and bottom of the pond	2nd day
6.	Apply initial mixture of soil, sand, cement (3:3:1) to roughly plaster all the the side walls and mix gravel in the mixture while plastering the floor.	2nd day
7.	The following day, the roughly plastered pond should be watered and covered with wet jute sack to keep it moist. This should be continued for 3-4 days.	3rd day
8.	Apply a second mixture of soil, sand, and cement (2:2:1) to smoothly plaster the floor and side walls.	5th day
9.	Water the pond for the next 3-4 days and cover with wet jute sack.	8th day
10.	Around 4-5 days of second plaster, fill the pond with water.	13th day
11.	For safety, the pond can be enclosed with gabion wire/ bamboo fence (or using other locally available materials)	14th day

4.4 ຕົ້ນທຶນ ແລະ ປັດໄຈຂາເຂົ້າທີ່ຈໍາເປັນໃນຈັດຕັ້ງປະຕິບັດ

	ລະບຸ ປັດໃຈ ນໍາເຂົ້າ ໃນການຜະລີດ	ຫົວໜ່ວຍ	ປະລິມານ	ຕົ້ນທຶນ ຕໍ່ຫົວໜ່ວຍ	ຕົ້ນທຶນທັງໝົດ ຂອງປັດໃຈຂາເຂົ້າ ໃນການຜະລິດ	% ຂອງຕົ້ນທຶນທັງໝົດ ທີ່ຜູ້ນໍາໃຊ້ທີ່ດິນ ໃຊ້ຈ່າຍເອງ
ແຮງງານ	Dig out pond	persons/unit	7.0	5.68	39.76	100.0
ແຮງງານ	Stone soiling	persons/unit	1.0	8.74	8.74
ແຮງງານ	Cementing	persons/unit	10.0	8.74	87.4
ແຮງງານ	Wiring	persons/unit	2.0	8.74	17.48
ອຸປະກອນ	Spade	piece	3.0	2.0	6.0	100.0
ອຸປະກອນ	Measuring tape	piece	2.0	1.0	2.0	100.0
ອຸປະກອນ	Shovel	piece	3.0	7.0	21.0	100.0
ອຸປະກອນ	Hammer	piece	3.0	4.0	12.0	100.0
ອຸປະກອນ	Cement mixing iron pan	piece	2.0	3.0	6.0	100.0
ອຸປະກອນ	Trowel	piece	3.0	2.0	6.0	100.0
ວັດສະດຸກໍ່ສ້າງ	Sand	bags	24.0	0.87	20.88
ວັດສະດຸກໍ່ສ້າງ	Cement	bags	6.0	7.43	44.58
ວັດສະດຸກໍ່ສ້າງ	Water proofing liquid	bottle	1.0	2.62	2.62
ວັດສະດຸກໍ່ສ້າງ	Gabion wire sheets	sq.ft	120.0	0.31	37.2
ຕົ້ນທຶນທັງໝົດ ໃນການຈັດຕັ້ງປະຕິບັດ ເຕັກໂນໂລຢີ					311.66
ຄ່າໃຊ້ຈ່າຍທັງໝົດ ສຳລັບການສ້າງຕັ້ງເຕັກໂນໂລຢີ ເປັນສະກຸນເງີນໂດລາ					311.66

ຖ້າຫາກຜູ້ນຳໃຊ້ທີ່ດິນ ນຳໃຊ້ມູນຄ່າຕ່ຳກວ່າ 100% ໃຫ້ລະບຸ ແມ່ນໃຜເປັນຜູ້ຊ່ວຍ ໃນລາຍຈ່າຍທີ່ເຫຼືອ:

The Center for Environmental and Agricultural Policy Research, Extension and Development (CEAPRED) covered the remaining cost

ຄວາມຄິດເຫັນ:

Duration of establishment phase: 3 month(s)

4.5 ບໍາລຸງຮັກສາ / ແຜນຈັດຕັ້ງປະຕິບັດ ກິດຈະກໍາ

	ກິດຈະກໍາ	ໄລຍະເວລາ / ຄວາມຖີ່
1.	Maintain and repair wire fence to prevent livestock and humans from entering the pond	once in a year
2.	Removing accumulated sediment once a year carefully by hand	dry months/once in a year

4.6 ຄ່າໃຊ້ຈ່າຍ ແລະ ປັດໄຈນໍາເຂົ້າທີ່ຈໍາເປັນສໍາລັບການບໍາລຸງຮັກສາກິດຈະກໍາ / ແຜນປະຕິບັດ (ຕໍ່ປີ)

	ລະບຸ ປັດໃຈ ນໍາເຂົ້າ ໃນການຜະລີດ	ຫົວໜ່ວຍ	ປະລິມານ	ຕົ້ນທຶນ ຕໍ່ຫົວໜ່ວຍ	ຕົ້ນທຶນທັງໝົດ ຂອງປັດໃຈຂາເຂົ້າ ໃນການຜະລິດ	% ຂອງຕົ້ນທຶນທັງໝົດ ທີ່ຜູ້ນໍາໃຊ້ທີ່ດິນ ໃຊ້ຈ່າຍເອງ
ແຮງງານ	Clean and maintaining the pond	persons/unit	3.0	5.68	17.04	100.0
ແຮງງານ	Maintain and repair wire fence	persons/unit	2.0	7.0	14.0	100.0
ວັດສະດຸກໍ່ສ້າງ	Gabion wire	sq.ft	120.0	0.31	37.2	100.0
ຕົ້ນທຶນທັງໝົດ ທີ່ໃຊ້ໃນການບໍາລຸງຮັກສາ ເຕັກໂນໂລຢີ					68.24
ຄ່າໃຊ້ຈ່າຍທັງໝົດ ສຳລັບການບົວລະບັດຮກສາເຕັກໂນໂລຢີ ເປັນສະກຸນເງີນໂດລາ					68.24

ຄວາມຄິດເຫັນ:

The cost given above is for unit technology having 24000 liters capacity as in 2020.

4.7 ປັດໄຈ ທີ່ສໍາຄັນ ທີ່ສົ່ງຜົນກະທົບ ຕໍ່ຄ່າໃຊ້ຈ່າຍ

ໃຫ້ອະທິບາຍ ປັດໃຈ ທີ່ສົ່ງຜົນກະທົບ ຕໍ່ຕົ້ນທຶນ ໃນການຈັດຕັ້ງປະຕິບັດ:

Cost of cement and sand
Members of a household contributed as labour in all sites.

5.1 ອາກາດ

5.2 ພູມິປະເທດ

ໃຫ້ລະບຸ ເຕັກໂນໂລຢີ ທີ່ໄດ້ຖືກນຳໃຊ້:

• ບໍ່ກ່ຽວຂ້ອງ

5.3 ດິນ

ຖ້າເປັນໄປໄດ້ ແມ່ນໃຫ້ຕິດຄັດ ການພັນລະນາດິນ ຫຼື ຂໍ້ມູນສະເພາະຂອງດິນ, ຕົວຢ່າງ, ຄຸນລັກສະນະ ປະເພດຂອງດິນ, ຄ່າຄວາມເປັນກົດ / ເປັນດ່າງຂອງດິນ, ສານອາຫານ,​ ດິນເຄັມ ແລະ ອື່ນໆ.

Soil fertility is medium

Soil drainage / infiltration is good

Soil water storage capacity is medium

5.4 ມີນໍ້າ ແລະ ຄຸນນະພາບ

ມີບັນຫາ ກ່ຽວກັບນໍ້າເຄັມບໍ່?

ບໍ່ແມ່ນ

ເກີດມີນໍ້າຖ້ວມ ໃນພື້ນທີ່ບໍ່?

ບໍ່ແມ່ນ

ຄວາມຄິດເຫັນ ແລະ ຂໍ້ກໍານົດ ເພີ່ມເຕີມ ກ່ຽວກັບ ຄຸນນະພາບ ແລະ ປະລິມານ ຂອງນ້ຳ:

Water source is mainly spring.
More in rainy season (June- September), less in April/May; source: spring

5.5 ຊີວະນາໆພັນ

ຄວາມຄິດເຫັນ ແລະ ລັກສະນະສະເພາະ ເພີ່ມເຕີມກ່ຽວກັບ ຊີວະນາໆພັນ:

Nepal harbors 3.2 % and 1.1 % world's known flora and fauna respectively despite occupying only 0.1 % of global area. Particularly, beta diversity is high in Nepal (BCN and DNPWC, 2011).

5.6 ຄຸນລັກສະນະ ຂອງຜູ້ນໍາໃຊ້ທີ່ດິນ ທີ່ໄດ້ນໍາໃຊ້ເຕັກໂນໂລຢີ

ໃຫ້ລະບຸ ຄຸນລັກສະນະ ຂອງຜູ້ນໍາໃຊ້ທີ່ດິນ:

Land users applying the Technology are mainly common / average land users

Population density: 154 - 453 persons per km2 ( Census, 2011)

Annual population growth : 2% - 3%

Among 100% land users, 80% of the land users are average wealthy and own 90% of the land (ranked by land users). 20% of the land users are poor and own 10% of the land.

Off-farm income specification:
Occasional opportunities for off-farm income present themselves in the form of daily labour wages.
Due to loss of farmland and increasing urbanization and loss of farmlands many people are switching from agriculture to non-farm occupations such as working in brick kilns.
The opening of the BP Highway has led to the establishment of many hotels and restaurants and the development of local market places such as Bhakundebesi.
Most local businesspersons are small entrepreneurs with limited investment capacity.
Some households’ members receive regular salaries, whilst an increasing number of Nepalis are working in India, the Middle East, Malaysia, and elsewhere and sending remittance incomes home.

Market orientation of production system: Vegetables- commercial


Level of mechanization: Manual labor consists of planting, irrigation , harvesting, while field preparation is carried out by animals, also machines but just in valley bottom.

5.7 ເນື້ອທີ່ສະເລ່ຍຂອງດິນ ທີ່ຜູ້ນຳໃຊ້ທີ່ດິນ ໃຊ້ເຮັດເຕັກໂນໂລຢີ

5.8 ເຈົ້າຂອງທີ່ດິນ, ສິດໃຊ້ທີ່ດິນ, ແລະ ສິດທິການນໍາໃຊ້ນໍ້າ

ເຈົ້າຂອງດິນ:

• ບຸກຄົນ, ທີ່ມີຕໍາແໜ່ງ

ສິດທິ ໃນການນໍາໃຊ້ທີ່ດິນ:

• ບຸກຄົນ

ສິດທິ ໃນການນໍາໃຊ້ນໍ້າ:

• ເປີດກວ້າງ (ບໍ່ມີການຈັດຕັ້ງ)
• ຊຸມຊົນ (ທີ່ມີການຈັດຕັ້ງ)

ສິດນຳໃຊ້ທີ່ດິນ ແມ່ນ ອີງໃສ່ລະບົບກົດໝາຍແບບດັ້ງເດີມບໍ?

ແມ່ນ

5.9 ການເຂົ້າເຖິງການບໍລິການ ແລະ ພື້ນຖານໂຄງລ່າງ

ຄວາມຄິດເຫັນ:

Health facilities: There are nine health facilities centre in Namobuddha municipality, Kavre. The main health facilities are Methinkot Hospital, which is a 15-bed district level government hospital, and Dapcha Health Center, which is run by Kathmandu.

Education: There are eight academic institutes for higher studies ( higher secondary schools and colleges). The main academic institutes are:
Dapcha Krishna
Multiple Campus (community), Dapcha;
Janahit Secondary School (public), Khanalthok
Janak Multiple Campus (community), Methinkot
Janak Secondary School (public), Methinkot
Kanpur Campus(community), Kanpur and
Kanpur Secondary School
(public), Kanpur.

Employment ( off-farm): Due to loss of farmlands and increasing urbanization, many people are switching from agriculture to non-farm occupations such as working in brick kilns. The opening of the BP Highway has led to the establishment of many hotels and restaurants and the development of local market places such as Bhakundebesi. Most local businesspersons are small entrepreneurs with limited investment capacity.

Market: Bhakundebesi is the emerging marketplace due to its strategic location in the middle of the municipality astrid the BP Highway. Most local business activities in the municipality take place in Bhakundebesi bazaar. It is a major place for local people to purchase consumer goods.

Energy
Cooking fuel:
In 2011, 88% of households mainly used firewood for cooking, followed by liquefied petroleum gas (LPG) (4.92%). In Puranogaun Dapcha, almost all households (99.8%) relied on firewood for cooking. LPG was relatively popular in Dapcha Chatrebhanjh (10.3%) and Khanalthok (11.5%). Less than 6% of households used biogas for cooking, with its use relatively high in Mathurapati Fulbari (19.3%) and Methinkot (15.9%) (CBS, 2011).

Lighting :
93% of households used electricity for lighting while 5% depended on kerosene. Dependency on kerosene was relatively high in Khanalthok (8.1%) and Methinkot (7.4%). There was little solar lighting except for in Khanalthok where 3% of households relied on it (CBS, 2011).

Roads and Transportation:
Namobuddha Municipality is easily accessible by motorable road from neighboring areas via the BP Highway, which splits the municipality into almost two equal halves . The highway, which runs from Banepa to Bardibas in the Terai, is the shortest route from the Kathmandu Valley to the eastern hills and Terai. The limited width of the road and its sharp bends mean that public transportation along the BP Highway is mostly by small buses and jeeps.

Drinking water and Sanitation:
In 2011, about 60% of households had access to taps or piped water with accessibility varying across the municipality. While about 80% of PuranogauDapcha households had taps or piped water, only 37.5% of households in Simalchour Syampati enjoyed such services. Other sources of drinking water were covered wells (12.3%), uncovered wells (20.2%) and water spouts (6.3%). Methinkot (40.8%) and Simalchour Syampati (31.4%) residents were most reliant on uncovered wells. Covered wells served sizeable household populations in Dapcha Chatrebhanjh (35.3%) and Simalchour Syampati (23%) (CBS, 2011).

Toilet facilities: In 2011, about 63% of households had accessto toilet facilities, with about 40% overall having flushtoilets. The least toilet coverage was in Kanpur Kalapaniand Simalchour Syampati VDCs where 63% and 58% ofhouseholds respectively did not have their own toilets. Almost all households in Puranogaun Dapcha had their own toilets, mostly flush toilets (CBS, 2011).


Waste Management: – Namobuddha is in the early phase of urbanization with no systematic waste management.The Municipality Office is searching for a landfill site.

6.1 ການສະແດງຜົນກະທົບ ພາຍໃນພື້ນທີ່ ທີ່ໄດ້ຈັດຕັ້ງປະຕິບັດ ເຕັກໂນໂລຢີ

ຜົນກະທົບທາງເສດຖະກິດສັງຄົມ

ການຜະລິດ

ມີນໍ້າ ແລະ ຄຸນນະພາບ

ລາຍໄດ້ ແລະ ຄ່າໃຊ້ຈ່າຍ

ຜົນກະທົບດ້ານວັດທະນາທໍາສັງຄົມ

ຜົນກະທົບຕໍ່ລະບົບນິເວດ

ດິນ

6.2 ຜົນກະທົບທາງອ້ອມ ຈາກການນໍາໃຊ້ເຕັກໂນໂລຢີ

6.3 ການປ້ອງກັນ ແລະ ຄວາມບອບບາງ ຂອງເຕັກໂນໂລຢິ ໃນການປ່ຽນແປງສະພາບດິນຟ້າອາກາດ ແລະ ກ່ຽວຂ້ອງກັບອາກາດທີ່ມີການປ່ຽນແປງທີ່ຮຸນແຮງ / ໄພພິບັດທາງທໍາມະຊາດ (ຮັບຮູ້ໄດ້ໂດຍຜູ້ນໍາໃຊ້ທີ່ດິນ)

ການປ່ຽນແປງດິນຟ້າອາກາດ ເທື່ອລະກ້າວ

ການປ່ຽນແປງດິນຟ້າອາກາດ ເທື່ອລະກ້າວ

	ລະດູການ	ເພີ່ມຂື້ນ ຫຼື ຫຼຸດລົງ	ການນໍາໃຊ້ ເຕັກໂນໂລຢີ ສາມາດ ຮັບມື ໄດ້ຄືແນວໃດ?
ອຸນຫະພູມປະຈໍາປີ		ເພີ່ມຂື້ນ	ບໍ່ຮູ້

ອາກາດ ທີ່ກ່ຽວພັນກັບຄວາມຮຸນແຮງ (ໄພພິບັດທາງທໍາມະຊາດ)

ໄພພິບັດທາງອຸຕຸນິຍົມ

	ການນໍາໃຊ້ ເຕັກໂນໂລຢີ ສາມາດ ຮັບມື ໄດ້ຄືແນວໃດ?
ພະຍຸຝົນ	ດີ
ພາຍຸລົມທ້ອງຖິ່ນ	ດີ

ໄພພິບັດທາງພູມອາກາດ

	ການນໍາໃຊ້ ເຕັກໂນໂລຢີ ສາມາດ ຮັບມື ໄດ້ຄືແນວໃດ?
ແຫ້ງແລ້ງ	ປານກາງ

ໄພພິບັດທາງອຸທົກກະສາກ

	ການນໍາໃຊ້ ເຕັກໂນໂລຢີ ສາມາດ ຮັບມື ໄດ້ຄືແນວໃດ?
ໂດຍທົ່ວໄປ (ແມ່ນໍ້າ) ນໍ້າຖ້ວມ	ບໍ່​ດີ

ອາກາດ ທີ່ກ່ຽວພັນກັບຄວາມຮຸນແຮງອື່ນໆ (ໄພພິບັດທາງທໍາມະຊາດ)

ອື່ນໆ (ລະບຸແຈ້ງ)	ການນໍາໃຊ້ ເຕັກໂນໂລຢີ ສາມາດ ຮັບມື ໄດ້ຄືແນວໃດ?
reducing growing period	ດີ

6.4 ການວິເຄາະຕົ້ນທຶນ ແລະ ຜົນປະໂຫຍດ

ຈະເຮັດປະໂຫຍດເພື່ອປຽບທຽບກັບຄ່າໃຊ້ຈ່າຍກັບສິ່ງກໍ່ສ້າງ (ຈາກທັດສະນະຂອງຜູ້ນຳໃຊ້ທີ່ດິນ) ໄດ້ແນວໃດ?

ຈະໄດ້ຮັບຜົນປະໂຫຍດເມື່ອປຽບທຽບກັບ / ຄ່າໃຊ້ຈ່າຍໃນການບຳລຸງຮັກສາທີເ່ກີດຂື້ນອິກ (ຈາກທັດສະນະຄະຕິຂອງຜູ້ນຳໃຊ້ທີ່ດິນ) ໄດ້ແນວໃດ?

6.5 ການປັບຕົວຮັບເອົາເຕັກໂນໂລຢີ

• > 50%

ທັງໝົດນັ້ນ ແມ່ນໃຜ ໄດ້ປັບຕົວເຂົ້າ ໃນການນໍາໃຊ້ ເຕັກໂນໂລຢີ, ມີຈັກຄົນ ທີ່ສາມາດເຮັດເອງໄດ້, ຕົວຢ່າງ, ປາດສະຈາກ ການຊ່ວຍເຫຼືອ ທາງດ້ານອຸປະກອນ / ການຈ່າຍເປັນເງິນ?

• 11-50%

ຄວາມຄິດເຫັນ:

Till now 24 land user families of Namobuddha Municipality have adopted this technology.
Among 24 land user families, 18 have adopted this technology with external material support through Resilient Mountain Village (RMV) project and 6 land users families have adopted this technology without any external support.

Comments on spontaneous adoption (Through survey results) : There is no trend towards spontaneous adoption of the technology because this technology is quiet expensive, compared to plastic- lined conservation pond.

6.6 ການປັບຕົວ

ໄດ້ມີການດັດປັບ ເຕັກໂນໂລຢີ ເພື່ອໃຫ້ແທດເໝາະກັບເງື່ອນໄຂ ການປ່ຽນແປງບໍ?

ບໍ່ແມ່ນ

6.7 ຈຸດແຂງ / ຂໍ້ດີ / ໂອກາດ ໃນການນໍາໃຊ້ ເຕັກໂນໂລຢີ

ຈຸດແຂງ / ຂໍ້ດີ / ໂອກາດໃນການນໍາໃຊ້ທີ່ດິນ
Water stored in this tank is sufficient to irrigate 2-3 ropani (1 ropani = 508 sq.m.) land in one season.
This technology can be enhanced by sharing the advantages of this technology with large number of people.
It is more sustainable and efficient than plastic-lined conservation pond.

ຈຸດແຂງ / ຈຸດດີ / ໂອກາດ ຈາກທັດສະນະຂອງຜູ້ປ້ອນຂໍ້ມູນ ຫຼື ບຸກຄົນສຳຄັນ
Good income can be achieved even from a small piece of land by sales of vegetables in the dry season .
These ponds are fed with rainwater and household kitchen wastewater free from soap and detergent and from springs and taps. The pond water was mainly used for micro irrigation including drip irrigation and micro-sprinkler.
It helps to promote the use of other water conserving techniques like mulching when using the harvested water.
It has reduced the dependence on large scale water supply schemes.
How can they be sustained / enhanced? Harvest all possible sources of water.

6.8 ຈຸດອ່ອນ / ຂໍ້ເສຍ / ຄວາມສ່ຽງ ໃນການນໍາໃຊ້ ເຕັກໂນໂລຢີ ແລະ ວິທີການແກ້ໄຂບັນຫາ

ຈຸດອ່ອນ / ຂໍ້ເສຍ / ຄວາມສ່ຽງໃນມຸມມອງຂອງຜູ້ນໍາໃຊ້ທີ່ດິນ	ມີວິທີການແກ້ໄຂຄືແນວໃດ?
Soil cement tank is expensive for poor farmers.	Subsidized cost for poor farmers.
It is unsafe for small children.	Protection structures should be constructed.

ຈຸດອ່ອນ/ຂໍ້ບົກຜ່ອງ/ຄວາມສ່ຽງ ຈາກທັດສະນະຂອງຜູ້ປ້ອນຂໍ້ມູນ ຫຼື ບຸກຄົນສຳຄັນ	ມີວິທີການແກ້ໄຂຄືແນວໃດ?
Cement and sand rate is very expensive for poor farmers.	Make it available in the local market at a subsidized cost for poor farmers.
The ponds attract insects, mainly mosquitoes, that cause disease; and the ponds are unsafe for small children.	Regularly clean the pond and fence them.

7.1 ວິທີການ / ແຫຼ່ງຂໍ້ມູນ

7.2 ເອກກະສານອ້າງອີງທີ່ເປັນບົດລາຍງານ

ຫົວຂໍ້, ຜູ້ຂຽນ, ປີ, ISBN:

ICIMOD (2018) Building Mountain Resilience: Solutions from the Hindu Kush Himalaya. Kathmandu: ICIMOD

ມີຢູ່ໃສ?ມູນຄ່າເທົ່າໃດ?

ICIMOD

ຫົວຂໍ້, ຜູ້ຂຽນ, ປີ, ISBN:

SCWMC (2004) Soil Conservation and Watershed Management Measures and Low Cost Techniques. Kathmandu: Government of Nepal, Soil Conservation and Watershed Management Component - Department of Soil Conservation and Watershed Management

ມີຢູ່ໃສ?ມູນຄ່າເທົ່າໃດ?

DSCWM, Kathmandu

7.3 ເຊື່ອມຕໍ່ກັບຂໍ້ມູນທີ່ກ່ຽວຂ້ອງໂດຍກົງ

ຫົວຂໍ້ / ພັນລະນາ:

Namobuddha Municipality, Nepal Situation Analysis for Green Municipal Development, 2018

URL:

https://gggi.org/site/assets/uploads/2018/07/GGGI_GMD-Assessment_Namobuddha.pdf

ຫົວຂໍ້ / ພັນລະນາ:

Farmers in Kavre reaping benefits from soil cement tanks, 2021

URL:

https://www.icimod.org/article/farmers-in-kavre-reaping-the-benefits-of-soil-cement-tanks/