Annex 1. Summary of project potential adverse environmental impacts and management matrix
Component/
Activity
|
Issues
|
Anticipated/Potential environmental Impact
| Scale of the impacts (local regional) | Effects on Environment | Social/ health impacts | Mitigation measures | Responsibilities |
Support for Agricultural Inputs
|
Incorrect disposal and use of treated seeds and fertilizers
|
potential land degradation in the case of cultivation of agricultural crops on the step slopes as well as pollution and siltation of lakes and rivers threats to human health and wildlife due to poor handling of treated seeds and fertilizers;
contamination of ground and surface water with fertilizers;
increase in usage agrochemicals that might cause environmental pollution that would affect wildlife; and
negative impacts on the health of farmers in the case of inappropriate agrochemicals handling.
| Local and regional | Land degradation due to salinization of soil; Increased ground waters level and over saturation of soil; Soil erosion of the upper layer; and thus reduced soil fertility.
Increased water courses pollution with drainage waters and siltation of the water reservoirs
Accidental expose of environment and of farmers during their inappropriate handling and usage
| Adverse health impacts |
Development, adjustment to national standards and norms and distribution of special instructions with necessary requirements for the safe storage, handling and application of treated seed material and fertilizers. All farmers should be informed about the content of the instructions.
Apply nationally established requirements and norms for grain production;
The seed material procured under this trust fund will be in accordance with International Maize and Wheat Improvement Center CIMMYT quality standards for grain seeds.
Proper disposal of waste materials and rubbish. If disposal by burial or fire, it should not cause negative impact to either the air, soil nor ground water supplies. Minimize damage to natural setting.
|
FAO PIU&MoA,
TAAS
local authorities&jamoates
MoA
FAO PIU, MoA
FAO&MoA
CEP (local level); local authorities; sanitary bodies
of the Ministry of health
|
Increased and incorrect use of treated seeds or overuse of fertilizer
|
Overuse and/or incorrect use of mineral fertilizers may result in nutrient build up in water courses, affecting aquatic life and causing eutrophication of water bodies.
• Deterioration in water quality from pesticide residues and potential for increases in pesticides in aquatic biota (e.g., fish).
• Contamination of water supplies resulting from spraying or chemical spills near drinking water sources.
• Possible impacts on non-target species (especially bees, birds, domestic animals, and natural enemies of pests) from high toxicity pesticides.
• Deterioration in soil quality from pesticide residues.
|
Local, regional
|
Ground and surface water may contain high levels of N and P and colloids which may have adverse health effects
Reduced dissolved minerals in surface and ground water; degradation of natural habitats.
|
Adverse impacts on the ground waters as sources of drinking water in rural areas and respectively adverse impacts on the health of population
|
Train (consult, instruct) population for application of treated seed material and fertilizers according the developed and approved instruction for treated seed material and fertilizers handling and use;
Monitor that all provided seed and fertilizers should be sown on agreed land sites, not on step slopes
A training program (including consulting, guiding, instruction) on sustainable land use practices, including information about full implications of mono-culture on soil fertility, land degradation and crops quality
Training on environmental legislation (can be combined with other proposed trainings)
Public awareness and information dissemination campaign;
|
MoA&FAO, CEP (local inspectors)
Environmental inspectors
FAO/MoA,
FAO&CEP
FAO as facilitator and provider of information materials
|
Community Seed Groups
|
Improper storage of seeds and fertilizers, and pesticides
Increased and incorrect use of treated seeds or overuse of fertilizer, pesticides
|
negative impacts on the health of farmers in the case of inappropriate agrochemicals and treated seeds handling.
Contamination of water and land resources
Deterioration in soil quality from pesticide residues.
Overuse and/or incorrect use of mineral fertilizers may result in nutrient build up in water courses, affecting aquatic life and causing eutrophication of water bodies.
|
Local, regional
Local, regional
|
Ground and surface water may contain high levels of N and P and colloids which may have adverse health effects
Reduced dissolved minerals in surface and ground water; degradation of natural habitats
|
Adverse impacts on the ground waters as sources of drinking water in rural areas and respectively adverse impacts on the health of population
|
Development, adjustment to national standards and norms and distribution of special instructions with necessary requirements for the safe storage, handling and application of treated seed material and fertilizers, and awareness of all farmers about the content of the instructions.
Apply nationally established requirements and norms for grain, corn production;
The seed material procured under this trust fund will be in accordance with International Maize and Wheat Improvement Center CIMMYT quality standards for grain seeds.
Train (consult, instruct) population for proper application of treated seed material and pesticides, their handling and use;
Monitor that all provided seed and fertilizers should be sown on agreed land sites, not on step slopes
A training program on sustainable land use practices, environmental legislation
Public awareness and information dissemination campaign;
Proper disposal of waste materials and rubbish. If disposal by burial or fire, it should not cause negative impact to either the air, soil nor ground water supplies. Minimize damage to natural setting.
|
PMU&MoA
PMU&MoA
PMU&MoA
PMU&MoA
Environmental inspectors
PMU&environmental inspectors,
PMU&MoA
PMU&Environmental Inspectors
|
Agro-Input Supply Market Development
|
Increased use of pesticides, fertilizers
|
Overuse and/or incorrect use of mineral fertilizers may result in nutrient build up in water courses, affecting aquatic life and causing eutrophication of water bodies.
Deterioration in water quality from pesticide residues and potential for increases in pesticides in aquatic biota (e.g., fish).
Possible impacts on non-target species (especially bees, birds, domestic animals, and natural enemies of pests) from high toxicity pesticides if farmers will have more incomes to buy them.
Impact on biodiversity
|
Local, regional
|
Ground and surface water may contain high levels of N and P and colloids which may have adverse health effects
Reduced dissolved minerals in surface and ground water; degradation of natural habitats.
Increased land degradation processes
degradation of natural habitats
|
Adverse impacts on the ground waters as sources of drinking water in rural areas and respectively adverse impacts on the health of population
Adverse impact on natural habitats and land resources
|
Training program on pest management, including:
- Agricultural and Physical Control Methods,
- Biological Control Methods:
• Extension of crop varieties resistant to insect pests
• Support to diversification and reduction of mono-cropping
• Awareness of the financial and environmental impact of crop rotation
• Dissemination of technologies such as intercropping of target species to attract insect pests away from the main cash crop
• Extension of biological pesticides. Their application before application of chemical pesticides in order to get ideal results.
• Nurturing and protecting predators for insects, making good use of predators
- Chemical control methods:
1. Use of non-pesticide chemicals where these are appropriate and cost-effective in control.
2. Dissemination of knowledge about "biological pesticides" where these are cost effective.
3. Application of highly effective, low toxicity, and low residue pesticides
4. Extend control techniques that have low toxicity to human beings, domestic animals, and fauna; low residues in agricultural products; and little environmental pollution. Such techniques include:
• Use of low toxicity and low residue pesticides.
• Spraying of pesticides before transplanting.
• Applying timely, effective low concentration pesticides to control various insect pest species
• When the density of insect pests is above a critical threshold to ensure optimal effectiveness of each pesticide application.
• Maintaining safe intervals between pesticide applications.
|
PMU&MoA(TAAS) Environmental inspectors)
|
|
|
|
|
|
|
5. Use of safe spray equipment (e.g.. backpack sprayers. optimal nozzle sizes) to increase the efficiency of pesticide use and control effectiveness.
6. Extension and training in safe methods of pesticide application (e.g., correct clothing. spraying in still conditions, application of soil-based pesticides as relevant).
Secondary pests/field sanitation
- Safety issues
Safe storage of chemicals (pesticides and fertilizers, and treated seeds (e.g. away from children and food, etc); Safety in storage, handling, and disposal of chemical wastes and containers; Chemical application methods and protective clothing requirements; Proper disposal of chemical wastes and used chemical containers (e.g., by deep burial).
- Practical Demonstration on the use of local solutions for the control of key pests
Field demonstrations program
|
PMU&MoA (TAAS)
|
Annex 2. Monitoring Plan Matrix
Project component/ activity
|
What should be monitored/indicators?
|
Where to monitor?
|
How to monitor and sources of information?
|
When to monitor/frequency?
|
Costs
|
Responsabilities
|
Support for Agricultural Inputs
|
Safe treated seeds storage, handling and use
Safe Fertilizers transporting, storage, handling and use:
(used amount and number of application – tones; correct storage and disposal of chemicals);
Sustainable land use practices (areas with crop rotation);
Conducted trainings and public awareness activities (number of trainings and trained people; published information materials)
|
Dushanbe, Selected rayons
|
PIU Progress reports
PIU Progress reports
MoA and PIU progress reports;
MoA and PIU Training reports
|
monthly
monthly
Quarterly
Monthly
|
The cost for these activities are included in the cost for PIU operation.
|
FAO PIU; MoA, local authorities,
Jamoats CEP local inspectors
FAO PIU, MoA
jamoats
CEP (local inspectors)
MoA, responsible people of FAO PIU, CEP local inspector
MoA, responsible people of FAO PIU
|
Community Seed Fund Groups
|
Safe treated seeds storage, handling and use
Safe Fertilizers transporting, storage, handling and use:
(used amount and number of application – tones; correct storage and disposal of chemicals);
Sustainable land use practices (areas with crop rotation);
Conducted trainings and public awareness activities (number of trainings and trained people; published information materials)
|
Dushanbe, Selected rayons
|
PMU Progress reports
PMU Progress reports
MoA and PMU Training reports
MoA and PMU Training reports
|
monthly
monthly
Quarterly
Monthly
|
The cost for these activities are included in the cost for PIU operation.
|
PMU; MoA, local authorities
Jamoats CEP local inspectors
PMU, MoA
jamoats
CEP (local inspectors)
PMU&MoA, CEP local inspectors
PMU&MoA
|
Agro-Input Supply Market Development
|
Conducted trainings and public awareness activities (number of trainings and trained people; published information materials)
Field demonstrations with improved crop production and agrochemicals usage technologies
Total area of farms adopting non-pesticide or IPM control measures
Number of farmers adopting non-pesticide or IPM control measures
Amount of used pesticides per farms
|
Dushanbe, Selected rayons
|
MoA and PMU Training reports
MoA and PMU Training reports
MoA reports
MoA reports
MoA reports
|
monthly
monthly
annually
annually
annually
|
The cost for these activities are included in the cost for PIU operation.
|
PMU,MoA
PMU&MoA
PMU&MoA
PIU&MoA
PIU&MoA
|
Annex 3. Agrochemicals permitted on the territory of Tajikistan (approved by Decision N4 of Chemical Security Commission of Tajikistan, June, 11, 2004)
A. Insecticides and acaricides
Aktellik 50% к.э.(pirimifosmetil) ICA “Zeneka”) England
Alfasupermethrin-tryton 10% (permethrin) - France
Apollo 50%(klofentizin) – Shering, Germany
Applaud (buprofezin), 25% - “Nippon Kayaky”, Japan
Arrivo (cipermetrin), 25% - FMS, SMA
Benzophosphat (30%) (fozalon), Pussia
Be–58 (dimetoat), 40% “Bitterfeld” Germany
Buldok 2,5% - Baier, Germany
Buldok 12,5% - Baier, Germany
Vismetrin (permetrin), 25% - -Russia
Volaton (foksim), 50% - «Baier», Germany
Geksasulfan (endosulfan) 30% - India
Danitol (fenoropatrin) 10% - «Sumimoto», Japan
Deltafos 36% - Baier Germany
Decis (deltamitrin) 2,5% - “Russel Uklaf” France
Dilor (betadihydrogeptachlorine), 80% Russia
Dimilin (diflubenzuron) 25% “Dufar”, Holland
Dimilin (diflubenzuron) 48% “Crompton (Uniroyal Chemical)”
DNOK (Dinitroortokrezol) 40% - Russia
Zolon 35%, (fozalon) “Ron-Pulenk”, France
Zolon 30%, (fozalon) “Ron-Pulenk”, France
Incegar 25% (fenoksikarb) “Ciba”, Switzerland
Kallipso 48% - Baier Germany
Karate 5% (lyambdacigalotrin) – “ICI” (Zeneka) England
Confidor 20% - Baier, Germany
Croneton 50% (etiofencarb) – Baier, Germany
Mavric 2E 25% (fluvalinat) – “Sandoz”, Switserland
Malathyon 57% - Fufanon, Denmark
Neoron 50% (Brompromilat) – Skiba, Switserland
Nissoran 10% (geksitiazoks) – Nippon Soda, Japan
Nitrafen 60% (nitroalkilfenolat), 60%, Russia
Oltingygidi kyftashuda - Uzbekistan, Turkmenistan
Oltingygird, 80% - Ukraine
Omite 30%, (propargit) «UNIROYL», SMA
Omite 57% (propargit) «UNIROLL CHEMICAL», England
Omite 570 EW, 57% (P) «CROMPTON (UNIROYAL CHEMICAL»)
Preparates N30, 30A, 30C, 30CC, 30M, 36%, Russia
Patriot 12,5% - Baier, Germany
Polo 50% - «Singenta», Switserland
Sunmite 20% (piridaben) “Nissan Chemical”, Japan
Simbush, 25% “Zenaka”, England; “Ser-Italy”, Italy
Siperkil, 25%, “Mitchel Kots”, England; “Bharat”, India
Solphak 10% (syfnutrin) – “Baier”, Germany
Sonet 10% (geksafluron) – “Daw Elanko”, SMA
Sumi-Alfa (esfenbalerat) 5% “Sumimoto”, Japan
Sumi-Alfa (esfenbalerat) 20% “Sumimoto Chemical”, Japan
Talstar 10% (bifentrin), FMS, SMA
Tiodan 35%, (endosulfan) “Hoechst”, Germany
Tiodan 50% (endosulfan) “Hoechst”, Germany
Trebon 30% (etofenprox) – “Mitzui Toyatzu”, Japan
Festak 10% (alfametrin) - :Shell”, England
Fenval 20% (fenvalerat) – “Searle”, India
Fenvalerat 20% - “Kharda Chemical”, India
Fenio 20% (fenvalerat) - :Pesticides”, India
Fozalon 35% (fozalon) – Russia, «Astra», Horvatiya
Furi 10% (zetametrin) – FMS, SMA
Khostakvik 50% (kheptenofos) – “Hoechst”, Germany
Sherpa 25% - “Ron-Pulenk”, France
Eim 12% - “Ciba”, Switzerland
Ekamet 50% - “Sandoz”, Switzerland
Endocell 35% - India
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