| S.No. | Category | Technology | Major interventions | No. of Farm families participated |
|
1
| Agriculture Science | Development of synthesized sustainable model for predominant cropping systems under rainfed conditions for Balaghat | Crop/variety based intervention
Soil health improvement
Crop production | 510 |
|
2
| Agriculture Science | Refinement and improvement of locally cultivated scented variety of Paddy (Chinnor) | Critical organic inputs including seed of improved Chinnor | 240 |
|
3
| Agriculture Science | Utera/Parra cropping of linseed in rice field | 1. Green manuring along with Phosphorus application @ 20
kg/ha given to rice crop
2. Sowing of linseed at dough stage of rice (10-12 days before
rice harvesting) with seed rate of 40 kg/ha
3. Dose of 20 Kg N/ha applied at 2-3 days before sowing of
linseed
4. Use of light trap and application of Delta methrin 2.8 EC @
0.002% | 100 |
|
4
| Agriculture Science | Development of sustainable model for pre dominant cropping system | • Replacement of variety and seed: Rice variety JRB-1, Pigeon pea (TJT - 501), Colocasia (Indira arbi) followed by short duration Wheat variety (JW - 3211) / Gram (JG - 63) / Mustard (Pusha Jai Kisan) /Linseed (Kartika), subsequently Moong (PDM 139) in summer under irrigated situation.
• Application of dhencha as green manure crop.
• Sowing of wheat and Gram by zero till seed drill machine, Linseed as Utera and mustard by seed drill.
• Fertilizer application based on soil test value including Bio fertilizers + inorganic fertilizers | 260 |
|
5
| Agriculture Science | Refinement and improvement of locally cultivated scented variety of Paddy (Chinnor) | Critical organic inputs including seed of improved Chinnor | 60 |
|
6
| Agriculture Science | Utera/Parra cropping of linseed in rice field | • Green manure crop incorporates in the field before planting of rice + P @ 20 kg/h
• Seed rate 30 kg/ha of linseed
• 10 kg N (25 kg Urea) was applied at sowing of linseed.
• Linseed was broadcasted 12 to 15 days before harvesting of rice crop.
• Linseed variety JLS – 67 was used.
• One spray of insecticide. | 60 |
|
7
| Agriculture Science | Development of synthesized sustainable model for predominant cropping systems under rain-fed conditions for Balaghat | • Replacement of variety and seed: Rice variety JRB-1, Pigeon pea (TJT - 501), Colocasia (Indira arbi) followed by short duration Wheat variety (JW - 3288) / Gram (JG - 12) / Mustard (Pusa Jai Kisan) Linseed (JLS - 79), subsequently Moong (Proposed) in summer under irrigated situation.
• Sowing of wheat and Gram by zero till seed drill machine, Linseed as Utera and mustard by seed drill.
• Fertilizer application based on soil test value including Bio fertilizers + inorganic fertilizers | 45 |
|
8
| Agriculture Science | Refinement and improvement of locally cultivated scented rice Chinnor | Critical organic inputs including seed of improved Chinnor | 45 |
|
9
| Agriculture Science | Development of synthesized sustainable model for predominant cropping systems under rainfed conditions for Balaghat | • Crop / variety based intervention
• Soil health improvement, collect soil sample and analyze available NPK, EC, and Organic carbon at laboratory and make soil health cards of the farmers, and applied nutrients as per soil test values.
• Crop production | 45 |
|
10
| Agriculture Science | Seed production and multiplication of locally cultivated scented variety of Paddy (Chinnor) | • The multiplication of Improved Chinnor will be done at farmer’s field.
• Branding Packing and Marketing of Improved Chinnor will be done with the help of Commodity Interest Group (CIG) (Certificate of registration is attached)
• Critical organic inputs including seed of improved Chinnor
• Use of bioinsecticides (2.5L neem oil of 3000ppm + 100gm Asafoetida per ha) | 45 |
|
11
| Agriculture Science | Utera/Parra cropping of linseed in rice field | 1. Green manuring along with Phosphorus application @ 20 kg/ha given to rice crop
2. Sowing of linseed at dough stage of rice (10-12 days before rice harvesting) with seed rate of 40 kg/ha
3. Dose of 20 Kg N/ha applied at 2-3 days before sowing of linseed
4. Use of light trap and application of Delta methrin 2.8 EC @
0.002% | 15 |
|
12
| Agriculture Science | Development of synthesized sustainable model for predominant cropping systems under rain-fed conditions for Balaghat | Crop/variety based intervention Soil health improvement Crop production | 45 |
|
13
| Agriculture Science | Refinement and improvement of locally cultivated scented variety of Paddy (Chinnor) | Critical organic inputs including seed of improved Chinnor | 30 |
|
14
| Agriculture Science | Diversification and intensification of existing rice -fallow cropping systems in Balaghat district of MP | Cultivation of short duration Rice Variety JR 206 in Kharif and Gram in Rabi Season with raised bad planting technique. providing pure seed JR 206 | 30 |
|
15
| Agriculture Science | Development of synthesized sustainable model for predominant cropping systems under rain-fed conditions for Balaghat | • Crop / variety-based intervention
• Soil health improvement, collect soil sample and analyze available NPK, EC, and Organic carbon at laboratory and make soil health cards of the farmers, and applied nutrients as per soil test values.
• Crop production | 45 |
|
16
| Agriculture Science | Refinement and improvement of locally cultivated scented variety of Paddy (Chinnor | • The multiplication of Improved Chinnor will be done at farmer’s field.
• Branding Packing and Marketing of Improved Chinnor will be done with the help of farmer producer groups.
• Critical organic inputs including seed of improved Chinnor.
• Use of bioinsecticides (2.5L neem oil of 3000ppm + 100gm Asafoetida per ha) | 45 |
|
17
| Agriculture Science | Development of synthesized sustainable model for predominant cropping systems under rain-fed conditions for Balaghat | • Crop / variety-based intervention
• Soil health improvement, collect soil sample and analyze available NPK, EC, and Organic carbon at laboratory and make soil health cards of the farmers, and applied nutrients as per soil test values.
• Crop production | 30 |
|
18
| Agriculture Science | Refinement and improvement of locally cultivated scented variety of Paddy (Chinnor) | • The multiplication of Improved Chinnor will be done at farmer’s field.
• Branding Packing and Marketing of Improved Chinnor will be done with the help of farmer producer groups. | 30 |
|
19
| Agriculture Science | Enhancement of root proliferation and Nutrient uptake through application of VAM | • Crop / variety-based intervention
• Soil health improvement, collect soil sample and analyze available NPK, EC, and Organic carbon at laboratory and make soil health cards of the farmers, and applied nutrients as per soil test values.
• Crop production | 30 |
|
20
| Animal Science | Animal health camp | Feed ingredients and green fodder and vaccination | 277 |
|
21
| Animal Science | Vaccination, deworming, mineral mixture + vitamin supplements and first aid | Feed ingredients and vaccination | 239 |
|
22
| Enterprise Based | Backyard poultry | Dual purpose poultry | 90 |
|
23
| Enterprise Based | Fish cultivation | Rearing of high yielding fish species | 45 |
|
24
| Enterprise Based | Fish cultivation | Fish Spawn (Rohu, Katala and Mirgal) and Fish feed | 45 |
|
25
| Enterprise Based | Back Yard poultry | Rearing dual purpose poultry in scavenger system | 50 |
|
26
| Enterprise Based | Fish Farming | Cultivation of high yielding fish Sps. | 45 |
|
27
| Enterprise Based | Back Yard Poultry | Dual purpose poultry rearing in scavenger system | 100 |
|
28
| Enterprise Based | Fish Farming | Rearing of high yielding mix fish Sps. Rohu, Katala and mirgal in existing community ponds | 45 |
|
29
| Entrepreneurship Module | Fish Farming | Farming of high yielding fish species | 48 |
|
30
| Entrepreneurship Module | Fish Farming | Rearing of high yielding fish species. rearing mixed breed Roho Katla and Mirgal to maximum utilization of feed according to their feeding habit. | 45 |
|
31
| Horticulture Science | Water Chest nut cultivation (Lalgulara) | Complete package of Practices of Water Chest nut cultivation (Lalgulara) | 15 |
|
32
| Horticulture Science | Cultivation of horticultural crops under irrigated and rain-fed condition | Cultivation of fruit tree species on the field.
Sowing of seasonal vegetables
Supply of quality planting materials | 45 |
|
33
| Horticulture Science | Cultivation of horticultural crops under irrigated and rain-fed condition | • Cultivation of fruit tree species on the field.
• Sowing of seasonal vegetables
• Supply of quality planting materials | 90 |
|
34
| Horticulture Science | Cultivation of horticultural crops under irrigated and rain-fed condition | Cultivation of fruit tree species on the field.
Sowing of seasonal vegetables
Supply of quality planting materials | 15 |
|
35
| Horticulture Science | Water Chest nut cultivation | Complete package of Practices of Water Chest nut cultivation (Lalgulara) | 45 |
|
36
| Horticulture Science | Cultivation of horticultural crops under irrigated and rain-fed condition” | • Cultivation of fruit tree species on the field.
• Sowing of seasonal vegetables
• Supply of quality planting materials | 15 |
|
37
| Horticulture Science | Cultivation of horticultural crops under irrigated and rain-fed condition | • Sowing of seasonal vegetables.
• Supply of quality planting materials | 75 |
|
38
| ICT | Information Communication Technology | Agricultural information covering all modules | 1000 |
|
39
| Natural Resource Management | Fodder production through agro - forestry system | Cultivation of tree species in the wasteland areas/Bunds of cultivated lands.
Sowing of fodder crops between tree species. | 60 |
|
40
| Natural Resource Management | Fodder production through hydroponics | Growing of fodder crops using hydroponic
technique, (Kharif and Summer crop:-
Maize, Sweet Sorghum, Bajara, Cowpea,
Ricebeen: Rabi Crops:- Wheat, Oat, Barley,
Barseem,)
Fodder production through azolla using
hydroponic technique, | 15 |
|
41
| Natural Resource Management | Fodder production through agro forestry | • Cultivation of tree species in the wasteland areas/Bunds of cultivated lands.
• Sowing of fodder crops between tree species.
• Grass cuttings/ slips were planted on the sides of the farm bunds, which helps to maximizing utilization of land areas | 94 |
|
42
| Natural Resource Management | Fodder production through agro forestry on cultivated and degraded lands. | Cultivation of MP chari in kharif and JB-1 during rabi season in cultivable land
Growing of fast growing fodder tree species (Shahtut, Kachnar, Siris and subabul) on farm bunds
Growing of improved fodder grasses (Napier and Guinea) on sides of farm bunds.
Cultivation of perennial multipurpose shrub, tree and perennial grass species on the degrade | 90 |
|
43
| Natural Resource Management | Fodder production through agro forestry on cultivated and degraded lands. | • Cultivation of fodder Sorghum in kharif and Barseem in rabi season on cultivable land
• Growing of fast growing fodder tree species (Shahtut / Kachnar, Moringa / Siris or Subabul) on farm bunds
• Growing of improved fodder grasses (Napier and Guinea) on sides of farm bunds.
• Cultivation of perennial multipurpose shrub, tree and perennial grass species on the degraded lands, and around water bodies to combat erosion problems | 45 |
|
44
| Natural Resource Management | Green Fodder production through hydroponics | • Growing of fodder crops using hydroponic technique, (Kharif and Summer crop: - Maize, Sweet Sorghum, Bajara, Cowpea,
• Ricebeen: Rabi Crops: - Wheat, Oat, Barley, Barseem,)
• Fodder production through azolla using hydroponic technique, | 35 |
|
45
| Natural Resource Management | Fodder production through agro forestry on cultivated and degraded lands | Cultivation of tree species in the wasteland areas/Bunds of cultivated lands. • Sowing of fodder crops between tree species. • Grass cuttings/ slips were planted on the sides of the farm bunds, which helps to maximizing utilization of land areas | 30 |
|
46
| Natural Resource Management | Fodder production through agro forestry on cultivated and degraded lands. | • Cultivation of fodder Sorghum in kharif and Barseem in rabi season on cultivable land
• Growing of fast growing fodder tree species (Shahtut / Kachnar, Moringa / Siris or Subabul) on farm bunds
• Growing of improved fodder grasses (Napier and Guinea) on sides of farm bunds.
• Cultivation of perennial multipurpose shrub, tree and perennial grass species on the degraded lands, and around water bodies to combat erosion problems | 75 |
|
47
| Natural Resource Management | 1. Fodder production through agro forestry on cultivated and degraded lands. | • Cultivation of MP chari in kharif and JB-1 during rabi season in cultivable land
• Growing of fast growing fodder tree species (Shahtut, Kachnar, Siris and subabul) on farm bunds
• Growing of improved fodder grasses (Napier and Guinea) on sides of farm bunds.
• Cultivation of perennial multipurpose shrub, tree and perennial grass species on the degraded lands, and around water bodies to combat erosion problems | 60 |
|
48
| Natural Resource Management | Fodder production through agro forestry on cultivated and degraded lands. | • Cultivation of MP chari in kharif and JB-1 during rabi season in cultivable land
• Growing of fast growing fodder tree species (Shahtut, Kachnar, Siris and subabul) on farm bunds
• Growing of improved fodder grasses (Napier and Guinea) on sides of farm bunds.
• Cultivation of perennial multipurpose shrub, tree and perennial grass species on the degraded lands, and around water bodies to combat erosion problems | 45 |