ສະຖານທີ່

Lebanon

ອະທິບາຍຫຍໍ້ ສະພາບແວດລ້ອມ ພາຍໃນພື້ນທີ່

All soils
Terraces, plains, Mountainous areas|
Mediterranean Climate

ສະພາວະທາງສັງຄົມ ແລະ ເສດຖະກິດ ຂອງຜູ້ຄົນທີ່ດໍາລົງຊີວິດ ໃນສະຖານທີ່ ແລະ / ຫຼືໃກ້ຄຽງ

private lands; land rental
Agriculture
Poor to middle income

ບົນພື້ນຖານປະເພດ ແລະ ຕົວຊີ້ວັດ (ຫຼາຍ) ອັນໃດ (ບໍ່ກ່ຽວຂ້ອງກັບຍຸດທະສາດ) ຊຶ່ງຈຸດປະສົງ ໃນການຈັດຕັ້ງປະຕິບັດ ນໍາໃຊ້ເຕັກໂນໂລຢີ ທີ່ໄດ້ຮັບການພິຈາລະນາ ວ່າເປັນການຈັດຕັ້ງທີ່ "ດີທີ່ສູດ"?

Conservation agriculture aims at the conservation of land, soil and water resources while minimizing production costs and achieving similar results when compared to conventional agriculture.|

ບັນຫາຕົ້ນຕໍໃນການຈັດຕັ້ງປະຕິບັດທີ່ດີທີ່ສຸດ

Water scarcity
Fragility of soils
Soil degradation
Conservation of organic matters and soil nutrients|Overall objective: Conservation Agriculture is promoted and is implemented on a large scale in five to seven countries under approaches adapted to local conditions in each country/area.

ການຈັດຕັ້ງປະຕິບັດ ທີ່ດີແມ່ນແນ່ໃສ່ການແກ້ໃຂບັນຫາ ການເຊື່ອມໂຊມຂອງດິນ

Soil erosion
Soil deterioration
Soil moisture
Destruction of the production cycles and the supporting ecosystems

ແຈ້ງຈຸດປະສົງ ຂອງການປະຕິບັດທີ່ດີທີ່ສຸດ

Overall Objective:
Conservation Agriculture is promoted and is implemented on a large scale in five to seven countries under approaches adapted to local conditions in each country/area.
|Specific objectives
1. Implement CA practices and develop a critical mass of applied CA in selected countries;
|2. Improve the capacity of the agricultural stakeholders in implementing CA practices.
|3. Set up favorable institutional,regulatory and economic
framework conditions for CA implementation
|4. Raise the awareness of relevant stakeholders on the need and importance of CA
|5. Improve average agricultural crop yield per unit area of land while retaining sustainability of agricultural practices
|6. Improve farmer income and living standards by decreasing
production costs
|7. Decrease vulnerability of agricultural systems to climatic changes and variations of drought periods

ລາຍລະອຽດຂອງກິດຈະກໍາຕົ້ນຕໍ, ໂດຍຈຸດປະສົງ

Achieving favorable framework conditions through the active support, cooperation and commitment of national authorities.
Introducing into academia adapted curricula covering the concept of CA to mainly four (4)target groups (1)universities with department in agriculture and/or related disciplines, (2) Vocational/Technical students,
(3) Extension staff, and (4) Farmers.
|Capacity building through participatory on the job trainings and on‐farm trials and demonstrations will be undertaken for extension staff and farmers.
|Peer‐to‐Peer exchange to enhance exchange of experiences and highlight success stories and setbacks for analysis and evaluation.
Awareness raising and information campaigns targeting governmental organizations, public institutions, syndicates, cooperatives, and private sector for a better understanding of CA principles and practices.
|Production of information material and their wide dissemination to indirect and ultimate beneficiaries.
|Technical information sheets/fact sheets for extension staff and farmers on various topics developed based on results of implemented projects.
On‐farm demonstrations in strategic locations (agro‐ecological zones) to establish a critical mass of CA applications in selected agro‐ecological zones, which will act as nuclei for even further expansion later on;
|Demonstration and multiplication plots with cover crops/forage crops at the level of the research centers;|Establishment of CA user groups in each country.

ຄໍາອະທິບາຍສັ້ນ ແລະ ຂໍ້ກໍາໜົດ ຂອງເຕັກໂນໂລຢີ

The application of CA provokes a number of positive environmental, economic and social benefits on global, regional, local and farm level:
It provides a sustainable production system, not only conserving but also enhancing the natural resource base and increasing the variety of soil biota, fauna and flora (including wild life) in the agricultural production systems without sacrificing yields at the high production levels.
No‐till fields act as a sink for CO2 and CA applied on a global scale could provide a major contribution to control air pollution in general and global warming in particular. Farmers applying CA practice could eventually be rewarded with carbon credits.
By not tilling the soil, farmers can save between 30 and 40% of time and labour, and in mechanized agriculture, fossil fuels, as compared to tillage‐based cropping.
Soils under CA have very high water infiltration capacities, reducing surface runoff and thus soil erosion significantly.
CA is not low output agriculture but delivers yields that are comparable or greater than those obtained with modern tillage‐based intensive agriculture, but in a sustainable way.
For the farmer, CA is mostly attractive because it allows a reduction of the production costs, time and labour, particularly at times of peak demand such as land preparation and planting, and in mechanized systems it reduces the costs
 CA is not low output agriculture but delivers yields that are comparable or
greater than those obtained with modern tillage‐based intensive
agriculture, but in a sustainable way. Yields tend to increase over the
years with a simultaneous decrease in yield variations.
 For the farmer, CA is mostly attractive because it allows a reduction of the
production costs, reduction of time and labour, particularly at times of
peak demand such as land preparation and planting, and in mechanized
systems it reduces the costs
Economical effects
More immediate and crucial to a farmer are the economical benefits. A reduction
in production costs, savings in energy (fuel, labour) and capital (wear and tear), all
goes to translate farming into a more profitable enterprise. The reduction of
production |

ຊື່ ແລະ ທີ່ຢູ່ຂອງສະຖາບັນການພັດທະນາ ເຕັກໂນໂລຢີ

GIZ|GIZ - Desertification and Land Degradation Project - Ministry of Agriculture - Beirut - Lebanon. www.codanet.net

ການພັດທະນາ ເຕັກໂນໂລຢີ ມີການຮ່ວມມືບໍ່?

ແມ່ນ

ລາຍຊື່ບັນດາຄູ່ຮ່ວມ:

ACSAD; Ministry of Agriculture; Universities

ລະບຸ ຂົງເຂດວຽກງານໃດ ທີ່ໄດ້ຮັບການສົ່ງເສີມໃຫ້ນໍາໃຊ້ ເຕັກໂນໂລຢີ

• ການລິເລີ່ມລະຫວ່າງປະເທດ

ການມີສ່ວນຮ່ວມ ຂອງພາກສ່ວນທີ່ກ່ຽວຂ້ອງ, ປະກອບດ້ວຍ CSOs, ຜຸ້ທີ່ມີສ່ວນໃນການພັດທະນາ ເຕັກໂນໂລຢີບໍ່?

ແມ່ນ

ລາຍຊື່ພາກສ່ວນກ່ຽວຂ້ອງໃນທ້ອງຖິ່ນມີສ່ວນຮ່ວມ:

Farmers and cooperatives; NGOs (arc en ciel)

ສໍາລັບພາກສ່ວນກ່ຽວຂ້ອງ ທີ່ລະບຸໄວ້ຂ້າງເທິງ, ລະບຸ ພາລະບົດບາດ ຂອງເຂົາເຈົ້າໃນການອອກແບບ, ການແນະນໍາ, ການນໍາໃຊ້ ແລະ ບໍາລຸງຮັກສາ ເຕັກໂນໂລຢີ, ຖ້າມີ.

Farmers and cooperatives: implementation of the concept at the farm level; maintenance and promotion
NGOs: Promotion of the CA through the different awareness raising and training events organised with farmers; implementation in project sites

ມີປະຊາກອນ ທີ່ອາໃສຢຸ່ໃນພື້ນທີ່ ແລະ ພື້ນທີ່ຢູ່ໃກ້ຄຽງ ໄດ້ເຂົ້າຮ່ວມ ໃນການພັດທະນາ ເຕັກໂນໂລຢີບໍ່?

ແມ່ນ

ໂດຍຄ່າຫຍັງ?

• ວິທີການ ແບບມີສ່ວນຮ່ວມ

ອະທິບາຍ ຜົນກະທົບ ທາງກົງຕໍ່ພື້ນທີ່ການຜະລິດ (2 ຜົນກະທົບຫຼັກໂດຍແບ່ງໝວດໝູ່)

It improves the productivity by reducing the production costs.
The successful change of the production system and the increased income raises the self‐confidence of entire farming communities.
Poverty reduction:  Reduced labour requirements for tilling and weeding allow farmers to spend their time on other income‐generating activities.
CA ensure a sustainable yield over time
Conservation of biodiversity, mainly in the dry-lands|
Conservation of water and land resources
Food security:This increases yield stability thus reducing considerably the risk of crop failure due to drought.
Contribution to empowerment of farming communities

ພັນລະນາ ຄວາມໝາຍ ຂອງຜົນກະທົບ ທາງອ້ອມ ທີ່ກະທົບໃສ່ນອກພື້ນທີ່ (ຕົວຢ່າງ, ທີ່ບໍ່ປະກົດໃນພື້ນທີ່ ແຕ່ຢູ່ອ້ອມແອ້ມພື້ນທີ່)

Reduction in soil erosion and related risks
Reduction of surface run-off and improvement of underground water

ຜົນກະທົບຕໍ່ຊີວະນາໆພັນ ແລະ ສະພາບການປ່ຽນແປງດິນຟ້າອາກາດ

ອະທິບາຍເຫດຜົນ:

It provides a sustainable production system, not only conserving but also enhancing the natural resource base and increasing the variety of soil biota, fauna and flora (including wild life) in the agricultural production systems. As CA depends on biological processes to work, it enhances the biodiversity in an agricultural production system on a micro‐ as well as macro level.
No‐till fields act as a sink for CO2 and CA applied on a global scale could provide a major contribution to control air pollution in general and global warming in particular.
Soil tillage is, among all farming operations, the single most energy consuming and thus, in mechanized agriculture, an air‐polluting operation.
CA enables an efficient use of rainwater (“More crop per drop”). This increases yield stability thus reducing considerably the risk of crop failure due to drought.

ໄດ້ມີການວິເຄາະຕົ້ນທຶນການຜະລິດບໍ?

ໄດ້ມີການວິເຄາະຕົ້ນທຶນການຜະລິດບໍ?

ແມ່ນ

ເຕັກໂນໂລຢີ ໄດ້ເຜີຍແຜ່ / ການນໍາສະເໜີສະຖານທີ່ອື່ນໆ?

ເຕັກໂນໂລຢີ ໄດ້ເຜີຍແຜ່ / ການນໍາສະເໜີສະຖານທີ່ອື່ນໆ?

ແມ່ນ

ຢູ່ໃສ?

In several countries of the region

ທ່ານສາມາດກໍານົດ 3 ເງື່ອນໄຂຫຼັກ ໃນການຈັດຕັ້ງປະຕິບັດ ເຕັກໂນໂລຢີ ທີ່ປະສົບຜົນສໍາເລັດ ແລະ ຈັດຕັ້ງປະຕິບັດໄດ້ດີບໍ?

Favorable weather and soil conditions. Replicable elsewhere with some adaptation
Farmers willing to implement new concepts. Replicable elsewhere with some adaptation
Clear reduction in the production costs and improvement of yield. Replicable elsewhere with some adaptation

ການເຮັດຊໍ້າ

ໃນທັດສະນະມູມມອງຂອງທ່ານ, ການຈັດຕັ້ງປະຕິບັດ ເຕັກໂນໂລຢີ ສາມາດເອົາໄປນໍາໃຊ້ໄດ້ຢູ່ພື້ນທີ່ອື່ນໆບໍ ເຖິງວ່າມີບາງລະດັບການປັບຕົວ?

ແມ່ນ

ໃນລະດັບໃດ?

• ທ້ອງຖິ່ນ
• ລະຫວ່າງປະເທດ
• ແຫ່ງຊາດ
• ອະນຸພາກ
• ລະດັບພາກພື້ນ
• ສາກົນ

ທີ່ກ່ຽວຂ້ອງກັບຊັບພະຍາກອນມະນຸດ

The reduction in the time spent on tillage and other mechanized operations allows the farmers to undertake other activities and to diversify their income generating activities

ທີ່ກ່ຽວຂ້ອງກັບລັກສະນະດ້ານວິຊາການ

The reduction in the use of heavy machinery improves the soil structure and increases water infiltration rates