Soil productivity improvement using a combination of technologies [Tanzanie]
- Création :
- Mise à jour :
- Compilateur : ALLAN BUBELWA
- Rédacteur : –
- Examinateurs : Deborah Niggli, Alexandra Gavilano, Fabian Ottiger
technologies_1221 - Tanzanie
Voir les sections
Développer tout Réduire tout1. Informations générales
1.2 Coordonnées des personnes-ressources et des institutions impliquées dans l'évaluation et la documentation de la Technologie
Spécialiste GDT:
Mwasikundima Iddifonce
Ngara District Council Kagera Tanzania
Tanzanie
Spécialiste GDT:
Nom du ou des institutions qui ont facilité la documentation/ l'évaluation de la Technologie (si pertinent)
Missenyi District Council (Missenyi District Council) - TanzanieNom du ou des institutions qui ont facilité la documentation/ l'évaluation de la Technologie (si pertinent)
Bukoba district council (Bukoba district council) - TanzanieNom du ou des institutions qui ont facilité la documentation/ l'évaluation de la Technologie (si pertinent)
Ngara District Council (Ngara District Council) - Tanzanie1.3 Conditions relatives à l'utilisation par WOCAT des données documentées
Le compilateur et la(les) personne(s) ressource(s) acceptent les conditions relatives à l'utilisation par WOCAT des données documentées:
Oui
1.4 Déclaration sur la durabilité de la Technologie décrite
Est-ce que la Technologie décrite ici pose problème par rapport à la dégradation des terres, de telle sorte qu'elle ne peut pas être déclarée comme étant une technologie de gestion durable des terres?
Non
2. Description de la Technologie de GDT
2.1 Courte description de la Technologie
Définition de la Technologie:
Use of compost basket pits, farm yard manure application, nutrient tapping sub soil agro-forestry, mulching application and productive vegetative stabilized cross slope barriers to improve soil health in Kibanja farming system.
2.2 Description détaillée de la Technologie
Description:
The technology was documented based on experiences of field SLM specialist and from the perspectives of land users (especially FFS group members) supported by the Trans boundary Agro Ecosystem Management project. The dominant crop in the technology area is banana. In this technology banana is widely spacing to 4m x 4m for the purpose of providing enough space for annual or recurrent soil nutrient feeding using compost ditches or baskets. Compost basket pits of 0.6 m depth and 3x3m width are dug between 4 banana plants. Baskets pits are dug recurrently and filled with farm manure, compost (crop residuals), leguminous green manure (tithonia) and ash and later covered with soil to activate nutrient release though microbial disintegration and avoid volatilization of greenhouse gas through direct sunlight. The size of a hole dug for the purpose of planting banana is 0.6 m depth and 0.6 m height. During digging top soil is separated from subsoil. In initial manure application, 2 tin of manure are mixed with the top soil and the mixture is put in the bottom of the hole. The center of the hole is marked with a stick and waiting is done for 1 or 2 before planting. During planting of banana, only two third 0.24m cubic of the hole is filling with soil and one third 0.12m cubic of the hole is left to form a water retention/harvest pit. Tithonia diversifolia (leguminous shrubs) are planted within the Kibanja farm purposefully for improving soil nutrient recycling though nitrogen fixing and at the same time is incorporate in compost to improve its quality. Infiltration ditches of 0.6 m depth and 0.6 m width and varying lengths are constructed for the purpose of impeding, trapping and harvesting water runoff. Fruit trees are planted in sub soil zone within the water infiltration ditches. The aim is to control nutrient competition between trees and annual/ biennial in the top soil or annual root zone and at the same time fruit tree roots in the subsoil zone is used as nutrient pump i.e. return nutrient lost through leaching to the top soil in form of mulching and litter. Improved banana varieties (FIAH 23) and certified endogenous germ plasma, de-trashing and de-suckering to maintain optimal plant geometry is part and per se of recommended husbandry practice
Purpose of the Technology: Improved food productivity, improved soil moisture content and water holding capacity. Improve nutrient recycling, organic matter content and biomass cycle. Prevent unproductive evaporation of green water and improving soil micro-climate. Combating land degradation through soil erosion caused by water runoff, chemical degradation due to nutrient leaching, biological degradation due the deadly BXW and other diseases and water degradation due to unproductive evaporation of the green water. And also plays significant role in adaptation and mitigation to drought climate. Improved economic returns accrued from surplus food production. Improve year round accessibility of food, shock resistance availability of food and varied food utilization and hence poverty reduction and improved health.
Establishment / maintenance activities and inputs: Establishment activities: land tilling, harrowing, demarcation and spacing of holes for planting banana, digging holes, manure application before banana planting, planting bananas, to demarcate, level and space Fanya chini/infiltration ditches/trenches using A-frame and arm outstretched level, ditch/trench digging, vegetative stabilization of Fanya chini/infiltration ditches, planting of fruit trees within ditches. Maintenance activities: weeding to destroy noxious weeds, in between planting of maize, de-suckering to maintain optimal plant geometry, de-trashing, maintenance and replenishment of banana pits, harvest beans and maize, sediment removal and repairing of infiltration ditches/trenches.
Natural / human environment: Natural (bio-physical) environment: The technology area land use type is cropland with annual crops (maize and beans), perennial crops (banana and pineapples) and fruit tree (avocados and jackfruit “Artocarpus heterophyllus”). The technology involves a combination of the following measures: agronomic, vegetative and structural. Climatic zone is sub-humid with an average of 210 length of growing period (LGP). Average slope category is gentle lying between 2-5%. Soil texture classes range from combination of top loam to a red clayey subsoil with medium soil depth categories. Main criteria for a human (socioeconomic) environment: the level of mechanization is hand tools. Production system is mixed (both subsistence and market oriented or commercial). The average costs of inputs required is 1472,62 USD. Land ownership is largely individual not titled and partly communal.
2.3 Photos de la Technologie
2.5 Pays/ région/ lieux où la Technologie a été appliquée et qui sont couverts par cette évaluation
Pays:
Tanzanie
Région/ Etat/ Province:
United Republic of Tanzania, Kagera Region
Autres spécifications du lieu:
Ngara District council, Kirushya ward, Kirushya Village.
Spécifiez la diffusion de la Technologie:
- répartie uniformément sur une zone
S'il n'existe pas d'informations exactes sur la superficie, indiquez les limites approximatives de la zone couverte:
- < 0,1 km2 (10 ha)
Commentaires:
The technology is documented from the perspectives of group of land users (SLM FFS) supported by the Trans Boundary Agro-Ecosystem Management Project.
Map
×2.6 Date de mise en œuvre de la Technologie
Si l'année précise est inconnue, indiquez la date approximative: :
- il y a moins de 10 ans (récemment)
2.7 Introduction de la Technologie
Spécifiez comment la Technologie a été introduite: :
- par le biais de projets/ d'interventions extérieures
Commentaires (type de projet, etc.) :
Supported by the Trans Boundary Agro Ecosystem Management Project (Kagera TAMP) in year 2012, a group of 25 members of ENDELEVU Farmer Filed School (FFS) started to learn and test out application of the technology.
3. Classification de la Technologie de GDT
3.1 Principal(aux) objectif(s) de la Technologie
- améliorer la production
- réduire, prévenir, restaurer les terres dégradées
- préserver l'écosystème
- créer un impact économique positif
3.2 Type(s) actuel(s) d'utilisation des terres, là où la Technologie est appliquée
Les divers types d'utilisation des terres au sein du même unité de terrain: :
Oui
Précisez l'utilisation mixte des terres (cultures/ pâturages/ arbres):
- Agroforesterie
Terres cultivées
- Cultures annuelles
- Cultures pérennes (non ligneuses)
- Plantations d’arbres ou de buissons
Cultures annuelles - Précisez les cultures:
- céréales - maïs
- légumineuses et légumes secs - fèves
- plantes à racines et à tubercules - patates douces, igname, taro, colocase, autres
- plantes à racines et à tubercules - manioc
Cultures pérennes (non ligneuses) - Précisez les cultures:
- bananier/plantain/abaca
- ananas
Plantations d'arbres et d'arbustes - Précisez les cultures:
- avocat
- café, cultivé en plein champ
- manguier, mangostane, goyave
- jack fruits
Nombre de période de croissance par an: :
- 2
Précisez:
Longest growing period in days: 120, Longest growing period from month to month: September to December Second longest growing period in days: 90 Second longest growing period from month to month: March to May
Pâturages
Commentaires:
Major land use problems (compiler’s opinion): Poor soil moisture (moisture stress), poor soil fertility, loss of vegetative cover and unproductive loss of green water, erosion and washout of the top soil by rainfall runoff.
Major land use problems (land users’ perception): Low banana productivity, unbearable persistence of the deadly BXW and other diseases, drought intolerance, food insecurity and a poverty stricken community.
3.4 Approvisionnement en eau
Approvisionnement en eau des terres sur lesquelles est appliquée la Technologie:
- pluvial
3.5 Groupe de GDT auquel appartient la Technologie
- agroforesterie
- Amélioration de la couverture végétale/ du sol
- gestion intégrée de la fertilité des sols
3.6 Mesures de GDT constituant la Technologie
pratiques agronomiques
- A1: Couverture végétale/ du sol
- A2: Matière organique/ fertilité du sol
pratiques végétales
- V1: Couverture d’arbres et d’arbustes
- V2: Herbes et plantes herbacées pérennes
structures physiques
- S2: Diguettes, digues
Commentaires:
Type of agronomic measures: mulching, manure / compost / residues, pits
Type of vegetative measures: aligned: -linear, scattered / dispersed
3.7 Principaux types de dégradation des terres traités par la Technologie
érosion hydrique des sols
- Wt: perte de la couche superficielle des sols (couche arable)/ érosion de surface
dégradation chimique des sols
- Cn: baisse de la fertilité des sols et réduction du niveau de matière organique (non causée par l’érosion)
dégradation biologique
- Bc: réduction de la couverture végétale
- Bp: augmentation des insectes nuisibles (ravageurs)/ maladies, baisse des prédateurs
dégradation hydrique
- Ha: aridification
Commentaires:
Main causes of degradation: soil management (Flat cultivation along the slope, no use of slope cross barriers), crop management (annual, perennial, tree/shrub) (Use of unimproved local varieties susceptible to diseases and pests), change of seasonal rainfall (Unforeseen changes in rainfall), droughts (Long dry spell season), population pressure (Exessive use of land without fertility replenishment), poverty / wealth (incapacity to invest in sustainable land canservation measures.), education, access to knowledge and support services (Lack of SLM knoledge.), governance / institutional (Weak institutions with lack of operational capacities)
3.8 Prévention, réduction de la dégradation ou réhabilitation des terres dégradées
Spécifiez l'objectif de la Technologie au regard de la dégradation des terres:
- prévenir la dégradation des terres
- réduire la dégradation des terres
4. Spécifications techniques, activités, intrants et coûts de mise en œuvre
4.1 Dessin technique de la Technologie
Spécifications techniques (associées au dessin technique):
Technical knowledge required for field staff / advisors: low (The principles governing use of SLM were taught before in colleges to field staff and agricultural advisers and therefore simple retraining courses and learning by doing on the job on the suffice)
Technical knowledge required for land users: moderate (Need training on construction of slope cross barriers e.g. on application of A-frame and arm outstretched methods and the principle behind BXW control and use of certified/improved banana varieties.)
Technical knowledge required for Sub national level (Regional and District): moderate (SLM participatory training techniques/skills.)
Main technical functions: control of raindrop splash, control of dispersed runoff: retain / trap, control of dispersed runoff: impede / retard, improvement of ground cover, increase in organic matter, increase in nutrient availability (supply, recycling,…), increase of infiltration, increase / maintain water stored in soil, increase of biomass (quantity)
Secondary technical functions: stabilisation of soil (eg by tree roots against land slides)
Mulching
Material/ species: Hyparrhenia spps
Quantity/ density: 1500bu/ha
Remarks: Layed accross the slope at e reccommended depth of 15 cm.
Manure / compost / residues
Material/ species: Farm Yard Manure, banana debris, tithonia
Quantity/ density: 15 ton/ha
Remarks: Applied during planting and in routine fertility replenishment.
Pits
Material/ species: Compost basket pits
Quantity/ density: 156
Remarks: Pits of 5.3m cubic dig between each 4 banana stools used annually for composting the banana field.
Aligned: -linear
Vegetative material: C : perennial crops
Number of plants per (ha): 625
Spacing between rows / strips / blocks (m): 4m
Width within rows / strips / blocks (m): 4m
Scattered / dispersed
Vegetative material: O : other
Trees/ shrubs species: Mangoes
Fruit trees / shrubs species: Mangoes
Perennial crops species: Banana
Other species: Pineapples, Cassava and Yarms.
Retention/infiltration ditch/pit, sediment/sand trap
Spacing between structures (m): 5
Depth of ditches/pits/dams (m): 0.6
Width of ditches/pits/dams (m): 0.6
Length of ditches/pits/dams (m): 15
Structural measure: Fanya chini bund
Spacing between structures (m): 5
Depth of ditches/pits/dams (m): 0.6
Width of ditches/pits/dams (m): 0.6
Length of ditches/pits/dams (m): 15
Height of bunds/banks/others (m): 0.3
Width of bunds/banks/others (m): 0.6
Length of bunds/banks/others (m): 15
Structural measure: Banana water infiltration pits
Spacing between structures (m): 4
Depth of ditches/pits/dams (m): 0.2
Width of ditches/pits/dams (m): 0.6
Length of ditches/pits/dams (m): 0.6
Construction material (earth): Soil dug to form trenches is thrown down slope to form embankment of fanya chini bund.
Slope (which determines the spacing indicated above): 2 - 5%
Vegetation is used for stabilisation of structures.
4.2 Informations générales sur le calcul des intrants et des coûts
autre/ monnaie nationale (précisez):
Tanzanian shillings
Indiquez le taux de change des USD en devise locale, le cas échéant (p.ex. 1 USD = 79.9 réal brésilien): 1 USD = :
1700,0
Indiquez le coût salarial moyen de la main d'œuvre par jour:
1.18
4.3 Activités de mise en place/ d'établissement
Activité | Calendrier des activités (saisonnier) | |
---|---|---|
1. | Land tilling (starting a new banana farm) | March |
2. | Harrowing | April |
3. | a) Demarcation and spacing of holes for planting banana. b) Digging of holes. | April |
4. | Applying manure during banana planting | May |
5. | Planting banana | May |
6. | Planting fruit trees (jack fruits and avocados) | May |
7. | a) Planting pineapples on Fanya chini bund. b) Selective boundary planting of Tithonia | September |
8. | a) To demarcate contour line using A-FRAME and arm stretched level method. b) Digging and construction of water retention ditches and fanya chini bund. | September |
9. | Tools (hand hoe, forked hole, machetes, sickles, spade, mattock, forked wooden poles and A-frame) |
4.4 Coûts et intrants nécessaires à la mise en place
Spécifiez les intrants | Unité | Quantité | Coûts par unité | Coût total par intrant | % des coût supporté par les exploitants des terres | |
---|---|---|---|---|---|---|
Main d'œuvre | labour | ha | 1,0 | 713,15 | 713,15 | 100,0 |
Equipements | tools | ha | 1,0 | 87,65 | 87,65 | 100,0 |
Matériel végétal | seeds | ha | 1,0 | 0,29 | 0,29 | |
Matériel végétal | seedlings | ha | 1,0 | 65,0 | 65,0 | |
Matériel végétal | mulching materials | ha | 1,0 | 22,06 | 22,06 | |
Engrais et biocides | compost/manure | ha | 1,0 | 44,12 | 44,12 | |
Coût total de mise en place de la Technologie | 932,27 | |||||
Coût total de mise en place de la Technologie en dollars américains (USD) | 0,55 |
Commentaires:
Duration of establishment phase: 4 month(s)
4.5 Activités d'entretien/ récurrentes
Activité | Calendrier/ fréquence | |
---|---|---|
1. | Weeding to control and destroy noxious weeds. | February and October |
2. | In between planting of maize and beans. | February and October |
3. | De-suckering to maintain mother and two baby plants. | |
4. | De-trashing and trimming of unwanted leaves. | |
5. | Maintenance and replenishment of banana pits. | |
6. | Applying manure using banana compost basket pits | January |
7. | Harvesting of beans and maize. | |
8. | Mulching application | After harvest of maize and beans |
9. | Gap filling and trimming of unwanted leaves/branches (Avocados, Jack fruits and Pineapples) | within rain period |
10. | Maintenance by removing soil sediments. | During and after rainfall |
4.6 Coûts et intrants nécessaires aux activités d'entretien/ récurrentes (par an)
Spécifiez les intrants | Unité | Quantité | Coûts par unité | Coût total par intrant | % des coût supporté par les exploitants des terres | |
---|---|---|---|---|---|---|
Main d'œuvre | labour | 1499,72 | 100,0 | |||
Equipements | Seeds beans (20 kg/ha) | ha | 1,0 | 8,24 | 8,24 | 100,0 |
Matériel végétal | Seeds Maize (2 kg/ha) | ha | 1,0 | 0,77 | 0,77 | 100,0 |
Matériel végétal | Mulching materials (75 bundles) | ha | 1,0 | 22,06 | 22,06 | 100,0 |
Engrais et biocides | Compost/manure (325 kg) | ha | 1,0 | 9,56 | 9,56 | 100,0 |
Coût total d'entretien de la Technologie | 40,63 | |||||
Coût total d'entretien de la Technologie en dollars américains (USD) | 0,02 |
Commentaires:
Machinery/ tools: hand hoe, forked hole, machetes and sickles, hand hoe, forked hole, machetes and spade, hand hoe, forked hole, spade, mattock and A-frame
The costs were calculated based on per unity entity of land plot (quarter an acre plot) where the technology was demonstrated/tested .
4.7 Facteurs les plus importants affectant les coûts
Décrivez les facteurs les plus importants affectant les coûts :
Labour is the most determinant factor.
5. Environnement naturel et humain
5.1 Climat
Précipitations annuelles
- < 250 mm
- 251-500 mm
- 501-750 mm
- 751-1000 mm
- 1001-1500 mm
- 1501-2000 mm
- 2001-3000 mm
- 3001-4000 mm
- > 4000 mm
Spécifications/ commentaires sur les précipitations:
The average annual rainfal is 1300mm. The dry season is from June to August. Rainfall season starts from September to May. There is a dry spell in January/February and June - August is dry season.
Zone agro-climatique
- subhumide
Thermal climate class: tropics. Average temperature is 21°C. The area receives bimodal type of rainfall with average lenght of growing period is 210 days
5.2 Topographie
Pentes moyennes:
- plat (0-2 %)
- faible (3-5%)
- modéré (6-10%)
- onduleux (11-15%)
- vallonné (16-30%)
- raide (31-60%)
- très raide (>60%)
Reliefs:
- plateaux/ plaines
- crêtes
- flancs/ pentes de montagne
- flancs/ pentes de colline
- piémonts/ glacis (bas de pente)
- fonds de vallée/bas-fonds
Zones altitudinales:
- 0-100 m
- 101-500 m
- 501-1000 m
- 1001-1500 m
- 1501-2000 m
- 2001-2500 m
- 2501-3000 m
- 3001-4000 m
- > 4000 m
Indiquez si la Technologie est spécifiquement appliquée dans des:
- situations convexes
Commentaires et précisions supplémentaires sur la topographie:
Landforms: Mountain slopes (ranked 1, the area is largely a convex mountanous land slope), plateau/plains (ranked 2) and ridges (ranked 3)
5.3 Sols
Profondeur moyenne du sol:
- très superficiel (0-20 cm)
- superficiel (21-50 cm)
- modérément profond (51-80 cm)
- profond (81-120 cm)
- très profond (>120 cm)
Texture du sol (de la couche arable):
- grossier/ léger (sablonneux)
- moyen (limoneux)
Matière organique de la couche arable:
- faible (<1%)
Si disponible, joignez une description complète du sol ou précisez les informations disponibles, par ex., type de sol, pH/ acidité du sol, capacité d'échange cationique, azote, salinité, etc.
Soil texture: Medium (ranked 1, range from combination of top loam to a red clayey subsoil) and coarse/light (ranked 2)
Soil fertility: Medium (due to washout of the top soil by rainfall water runoff and excessive nutrient mining/uptake without replenishment)
Topsoil organic matter: Low (due to washout of the top soil by rainfall water runoff and poor mismanagement of crop residuals)
Soil drainage/infiltration: Poor (the slope nature of the landscape does not give water enough time to infiltrate instead water is lost downstream through runoff)
Soil water storage capacity: Medium (soil textural class range from combination of top loam to a red clayey subsoil)
5.4 Disponibilité et qualité de l'eau
Profondeur estimée de l’eau dans le sol:
> 50 m
Disponibilité de l’eau de surface:
moyenne
Qualité de l’eau (non traitée):
faiblement potable (traitement nécessaire)
Commentaires et précisions supplémentaires sur la qualité et la quantité d'eau:
Ground water table: >50m (ranked 1, water can be accessed in down the river valleys streams) and 5-50m (ranked 2)
Availability of surface water: Water is available in natural flowing downstream rivers
Water quality untreated: Poor drinking water (treatment required, water in river stream untreated is poor because is contaminated by runoff pollutants)
5.5 Biodiversité
Diversité des espèces:
- faible
Commentaires et précisions supplémentaires sur la biodiversité:
Species diversity is reduced by human induced activities e.g. farm opening and expansion, starting of new human settlements, uncontrolled fire burning e.t.c.
5.6 Caractéristiques des exploitants des terres appliquant la Technologie
Orientation du système de production:
- subsistance (auto-approvisionnement)
- exploitation mixte (de subsistance/ commerciale)
Revenus hors exploitation:
- moins de 10% de tous les revenus
Niveau relatif de richesse:
- pauvre
- moyen
Individus ou groupes:
- groupe/ communauté
Niveau de mécanisation:
- travail manuel
Genre:
- femmes
- hommes
Indiquez toute autre caractéristique pertinente des exploitants des terres:
Population density: 50-100 persons/km2
Annual population growth: 2% - 3%
5% of the land users are rich and own 15% of the land (owning 1-2 ha, moden house, motorcycles).
75% of the land users are average wealthy and own 80% of the land (owning 0.5-1 ha, average house, bicycles).
20% of the land users are poor and own 5% of the land (owning < 0.5 ha, poor house, no transport).
Off-farm income specification: In general most of the village community are average farmers who largely rely on on farm income.
Market orientation: Mixed (ranked 1, Production is both for domestic food production and commercial use) and subsistence (ranked 2)
Level of mechanization: Manual work (Largely manual by using hand tools)
5.7 Superficie moyenne des terres utilisées par les exploitants des terres appliquant la Technologie
- < 0,5 ha
- 0,5-1 ha
- 1-2 ha
- 2-5 ha
- 5-15 ha
- 15-50 ha
- 50-100 ha
- 100-500 ha
- 500-1 000 ha
- 1 000-10 000 ha
- > 10 000 ha
Cette superficie est-elle considérée comme de petite, moyenne ou grande dimension (en se référant au contexte local)?
- petite dimension
Commentaires:
Average area of land owned or leased by land users applying the Technology: < 0.5 ha (5% of the land users), 0.5-1 ha (80% 0f the land users) and 1-2 ha (15 % of the land users)
5.8 Propriété foncière, droits d’utilisation des terres et de l'eau
Propriété foncière:
- état
- individu, sans titre de propriété
Droits d’utilisation de l’eau:
- accès libre (non organisé)
Commentaires:
The land is a state property, use right is largely individual not titled. water resources and grazing range lands are owned communally and are free for all.
5.9 Accès aux services et aux infrastructures
santé:
- pauvre
- modéré
- bonne
éducation:
- pauvre
- modéré
- bonne
assistance technique:
- pauvre
- modéré
- bonne
emploi (par ex. hors exploitation):
- pauvre
- modéré
- bonne
marchés:
- pauvre
- modéré
- bonne
énergie:
- pauvre
- modéré
- bonne
routes et transports:
- pauvre
- modéré
- bonne
eau potable et assainissement:
- pauvre
- modéré
- bonne
services financiers:
- pauvre
- modéré
- bonne
6. Impacts et conclusions
6.1 Impacts sur site que la Technologie a montrés
Impacts socio-économiques
Production
production agricole
Quantité avant la GDT:
25 kg
Quantité après la GDT:
50 kg
Commentaires/ spécifiez:
banana bunch
diversité des produits
Commentaires/ spécifiez:
pending development and upscalling of value addition technology.
Revenus et coûts
dépenses pour les intrants agricoles
Commentaires/ spécifiez:
caused by use of manure and grass mulch.
revenus agricoles
Commentaires/ spécifiez:
due to increased production and expected income from fruit tree and pineapples
diversité des sources de revenus
Commentaires/ spécifiez:
imcome from fruit trees and pineapples
charge de travail
Commentaires/ spécifiez:
caused by increased workload.
Impacts socioculturels
institutions communautaires
Quantité avant la GDT:
0 - FFS
Quantité après la GDT:
1 - FFS
Commentaires/ spécifiez:
FFS has induced farmer group solidarity and togetherness.
connaissances sur la GDT/ dégradation des terres
Commentaires/ spécifiez:
Increase in SLM skills and knoledge due training issued through FFS. People visiting the area where the technology is tested or demonstrated
situation des groupes socialement et économiquement désavantagés
Commentaires/ spécifiez:
Active participation of both men and females
Improved livelihoods and human well-being
Commentaires/ spécifiez:
Improved crop productivity and the diversification of income sources results to farmer capacity to meet eduction and health services. Production of pineapple and fruit tree (avocados and jack fruit) means increased number of food per table and balanced diet to farmer.
Impacts écologiques
Cycle de l'eau/ ruissellement
récolte/ collecte de l'eau
Quantité avant la GDT:
poor
Quantité après la GDT:
improved
Commentaires/ spécifiez:
due to the use of water infiltration ditches and fanya chini bund
ruissellement de surface
Commentaires/ spécifiez:
use of closs slope barriers and mulching.
évaporation
Quantité avant la GDT:
poor
Quantité après la GDT:
improved
Commentaires/ spécifiez:
educed unproductive loos of green water by use of mulching.
Sols
humidité du sol
Quantité avant la GDT:
poor
Quantité après la GDT:
improved
Commentaires/ spécifiez:
reduced unproductive loos of green water by use of mulching.
couverture du sol
Commentaires/ spécifiez:
use of mulching rotated by cover crops (beans) and trashline.
perte en sol
Commentaires/ spécifiez:
Use of closs slope barriers and mulching
cycle/ recharge des éléments nutritifs
Commentaires/ spécifiez:
the use of reguminous plants (beans and tithonia)
matière organique du sol/ au dessous du sol C
Commentaires/ spécifiez:
use of farm yard manure and compost basket feeding
Biodiversité: végétale, animale
biomasse/ au dessus du sol C
Commentaires/ spécifiez:
biomass due to improved managment of crop debris and residual and use of mulch.
espèces bénéfiques
Commentaires/ spécifiez:
improved habitat for micro fauna caused by use of manure and compost
Réduction des risques de catastrophe et des risques climatiques
impacts de la sécheresse
Commentaires/ spécifiez:
reduced hazards towards drought and reduced growing period.
émissions de carbone et de gaz à effet de serre
Commentaires/ spécifiez:
reduced volatization of methane gas due to good managment of FYM.
6.2 Impacts hors site que la Technologie a montrés
dommages sur les champs voisins
Commentaires/ spécifiez:
reduced rainfall runoff to down ward stream
dommages sur les infrastructures publiques/ privées
Commentaires/ spécifiez:
reduced damage to the nearby road infrastructure
6.3 Exposition et sensibilité de la Technologie aux changements progressifs et aux évènements extrêmes/catastrophes liés au climat (telles que perçues par les exploitants des terres)
Changements climatiques progressifs
Changements climatiques progressifs
Saison | Augmentation ou diminution | Comment la Technologie fait-elle face à cela? | |
---|---|---|---|
températures annuelles | augmente | bien |
Extrêmes climatiques (catastrophes)
Catastrophes météorologiques
Comment la Technologie fait-elle face à cela? | |
---|---|
pluie torrentielle locale | pas connu |
tempête de vent locale | pas bien |
Catastrophes climatiques
Comment la Technologie fait-elle face à cela? | |
---|---|
sécheresse | bien |
Catastrophes hydrologiques
Comment la Technologie fait-elle face à cela? | |
---|---|
inondation générale (rivière) | pas bien |
Autres conséquences liées au climat
Autres conséquences liées au climat
Comment la Technologie fait-elle face à cela? | |
---|---|
réduction de la période de croissance | bien |
Commentaires:
The technology could be made to be more tolerant to flood by modifying retention ditches to drainage ditches and by introduction of wind breakers.
6.4 Analyse coûts-bénéfices
Quels sont les bénéfices comparativement aux coûts de mise en place (du point de vue des exploitants des terres)?
Rentabilité à court terme:
légèrement négative
Rentabilité à long terme:
très positive
Quels sont les bénéfices comparativement aux coûts d'entretien récurrents (du point de vue des exploitants des terres)?
Rentabilité à court terme:
légèrement négative
Rentabilité à long terme:
très positive
Commentaires:
Heavy investment and recurrent costs at the beginning but costs are surpassed by rewards in the long run.
6.5 Adoption de la Technologie
- 1-10%
Si disponible, quantifiez (nombre de ménages et/ou superficie couverte):
46 families and 100% of the area covered
De tous ceux qui ont adopté la Technologie, combien d'entre eux l'ont fait spontanément, à savoir sans recevoir aucune incitation matérielle, ou aucune rémunération? :
- 51-90%
Commentaires:
Comments on acceptance with external material support: External material support was used on area used for FFS.
80% of land user families have adopted the Technology without any external material support
23 land user families have adopted the Technology without any external material support
4% of land user families have adopted the Technology with external material support 23 land user families have adopted the Technology with external material support
Comments on spontaneous adoption: 80% farmers have adopted the technology partially without any material support.
There is a moderate trend towards spontaneous adoption of the Technology
Comments on adoption trend: the technology increasingly adopted are mulching, spacing and compost basket feeding
6.7 Points forts/ avantages/ possibilités de la Technologie
Points forts/ avantages/ possibilités du point de vue de l'exploitant des terres |
---|
The technology is easy to learn and understand by a common peasant farmer |
The technology open a room for availability of improved varieties and diversification of income sources |
Observable rewards in terms of increased production and environmental conservation. |
Change of attitudinal and behavioral change (mind set) towards environmental conservation. |
Points forts/ avantages/ possibilités du point de vue du compilateur ou d'une autre personne ressource clé |
---|
The technology has provided options for farmers to blend their vast experience and innovations in managing their often-limited resources with new methods and advice from outside. |
The promotion of the technology through FFS has strengthened partnership between farmers, extension providers, private sector and researchers. |
The FFS programme has created unity in the people at grass root level |
6.8 Faiblesses/ inconvénients/ risques de la Technologie et moyens de les surmonter
Faiblesses/ inconvénients/ risques du point de vue de l’exploitant des terres | Comment peuvent-ils être surmontés? |
---|---|
High initial investment capital needed due to high costs of farm inputs. | Farmer support by financial institutions |
Technology promotion need closeness of extension services but there is no reliable plan for facilitators motivation. | Find reliable means and ways of motivating both field extension officers and grassroots facilitators (paraprofessionals). |
Faiblesses/ inconvénients/ risques du point de vue du compilateur ou d'une autre personne ressource clé | Comment peuvent-ils être surmontés? |
---|---|
Finances for scaling up technology use in the future is questionable. | Link farmers with rural financial institutions and put more efforts in commercial and market oriented SLM activities. |
7. Références et liens
7.1 Méthodes/ sources d'information
- visites de terrain, enquêtes sur le terrain
- interviews/entretiens avec les exploitants des terres
Quand les données ont-elles été compilées (sur le terrain)?
02/08/2014
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