Opsomming

Description

La technologie coniste à maintenir Cordyla pinnata dans les zones de culture pour stabiliser le sol, lutter contre l'érosion éolienne et hydrique et améliorer la fertilité du sol en l'associant au parcage naturel et au paillage.

Darou Rahmane est un village situé dans le département de Nioro du Rip, zone polycole par excellence dans le bassin arachidier. Dans cette partie du Sénégal, les exploitants agricoles sont confrontés à plusieurs contraintes parmi lesquelles l’érosion éolienne et hydrique, la perte de fertilité des sols, les nématodes, les termites et les plantes parasites (Striga hermonthica), les coupes abusives et les feux de brousse. C’est pour réduire ces contraintes et maintenir la fertilité dans leurs champs qu’ils perpétuent une pratique traditionnelle, le parc à dimb (Cordyla pinnata) associé au parcage naturel et au paillage.

But de la technologie: Le parc à dimb consiste, au moment du défrichement, à sélectionner et à maintenir dans les champs les pieds de Cordyla pinnata. En dehors de son rôle dans l’atténuation de l’érosion éolienne et de son ombrage, cet arbre est choisi surtout pour son importance dans l’alimentation (fruits) et la pharmacopée locales. En outre, il fournit un bois d’œuvre très prisé par l’artisanat local et national (meubles, ustensiles de cuisine, œuvres d’art dont le plus connu est le tam-tam ou djembé). En raison de son faible potentiel d’amélioration de la fertilité, la culture sous parc à Cordyla pinnata est associée au parcage naturel du bétail et au paillage.

Activités d'établissement et de maintenance et entrées: Le parcage naturel est aussi une pratique très ancienne consistant à installer les troupeaux dans les champs après les récoltes et à leur faire changer de place régulièrement afin d’assurer un bon recouvrement de la parcelle avec le fumier. Le troupeau communautaire est utilisé d'un commun accord pour la fumure des champs. Au moment de la préparation des champs, cette fumure est labourée afin de favoriser son incorporation dans la couche du sol où se développe le système racinaire des espèces cultivées. Quand au paillage, il consiste à coucher sur le sol les résidus des récoltes (mil, maïs, sorgho) pour lutter contre l’érosion éolienne. Ces résidus, mélanger avec les excréments des animaux, constitue une fumure permettant d’améliorer la fertilité du sol.
Pour faire face à la faible disponibilité des terres, les paysans de Darou Rahmane pratiquent également la rotation du mil-arachide, mais dans la même parcelle, en laissant une partie du champ en jachère pour le parcage du bétail.

Environnement naturel / humain: La mise en place de la pratique ne requiert aucun investissement financier, la main d'œuvre est localement disponible. La technologie permet aux populations de diversifier leurs revenus à travers l'exploitation du dimb tout en améliorant leurs productions agricoles grâce au parcage et au paillage. Cependant, pour assurer la durabilité de l'espèce, il faudrait procéder à la régénération naturelle assistée de Cordyla et recourir à l'assistance technique du service forestier pour étudier les possibilités de reboisement.

Location

Location: Village de Darou rahmane, Département de Nioro du Rip, Senegal

No. of Technology sites analysed:

Geo-reference of selected sites

-15.975, 14.895

Spread of the Technology:

In a permanently protected area?:

Date of implementation:

Type of introduction

through land users' innovation
as part of a traditional system (> 50 years)
during experiments/ research
through projects/ external interventions

Parc à Cordyla pinnata (CSE-LADA (Dakar, Sénégal))

Classification of the Technology

Main purpose

improve production
reduce, prevent, restore land degradation
conserve ecosystem
protect a watershed/ downstream areas – in combination with other Technologies
preserve/ improve biodiversity
reduce risk of disasters
adapt to climate change/ extremes and its impacts
mitigate climate change and its impacts
create beneficial economic impact
create beneficial social impact

Land use

Land use mixed within the same land unit: Ja - Agro-silvopastoralism

Cropland
- Annual cropping: oilseed crops - groundnuts, cereals - maize, cereals - millet, cereals - sorghum
Number of growing seasons per year: 1

Grazing land

Forest/ woodlands

Water supply

rainfed
mixed rainfed-irrigated
full irrigation

Purpose related to land degradation

prevent land degradation
reduce land degradation
restore/ rehabilitate severely degraded land
adapt to land degradation
not applicable

Degradation addressed

soil erosion by water - Wt: loss of topsoil/ surface erosion

soil erosion by wind - Et: loss of topsoil

chemical soil deterioration - Cn: fertility decline and reduced organic matter content (not caused by erosion)

biological degradation - Bc: reduction of vegetation cover, Bq: quantity/ biomass decline, Bs: quality and species composition/ diversity decline

SLM group

area closure (stop use, support restoration)
improved ground/ vegetation cover

SLM measures

agronomic measures - A2: Organic matter/ soil fertility

vegetative measures - V1: Tree and shrub cover

Natural environment

Average annual rainfall

< 250 mm
251-500 mm
501-750 mm
751-1,000 mm
1,001-1,500 mm
1,501-2,000 mm
2,001-3,000 mm
3,001-4,000 mm
> 4,000 mm

Agro-climatic zone

humid
sub-humid
semi-arid
arid

Specifications on climate

Thermal climate class: tropics

Slope

flat (0-2%)
gentle (3-5%)
moderate (6-10%)
rolling (11-15%)
hilly (16-30%)
steep (31-60%)
very steep (>60%)

Landforms

plateau/plains
ridges
mountain slopes
hill slopes
footslopes
valley floors

Altitude

0-100 m a.s.l.
101-500 m a.s.l.
501-1,000 m a.s.l.
1,001-1,500 m a.s.l.
1,501-2,000 m a.s.l.
2,001-2,500 m a.s.l.
2,501-3,000 m a.s.l.
3,001-4,000 m a.s.l.
> 4,000 m a.s.l.

Technology is applied in

convex situations
concave situations
not relevant

Soil depth

very shallow (0-20 cm)
shallow (21-50 cm)
moderately deep (51-80 cm)
deep (81-120 cm)
very deep (> 120 cm)

Soil texture (topsoil)

coarse/ light (sandy)
medium (loamy, silty)
fine/ heavy (clay)

Soil texture (> 20 cm below surface)

coarse/ light (sandy)
medium (loamy, silty)
fine/ heavy (clay)

Topsoil organic matter content

high (>3%)
medium (1-3%)
low (<1%)

Groundwater table

on surface
< 5 m
5-50 m
> 50 m

Availability of surface water

excess
good
medium
poor/ none

Water quality (untreated)

good drinking water
poor drinking water (treatment required)
for agricultural use only (irrigation)
unusable

Water quality refers to:

Is salinity a problem?

Occurrence of flooding

Species diversity

high
medium
low

Habitat diversity

high
medium
low

Characteristics of land users applying the Technology

Market orientation

subsistence (self-supply)
mixed (subsistence/ commercial)
commercial/ market

Off-farm income

less than 10% of all income
10-50% of all income
> 50% of all income

Relative level of wealth

very poor
poor
average
rich
very rich

Level of mechanization

manual work
animal traction
mechanized/ motorized

Sedentary or nomadic

Sedentary
Semi-nomadic
Nomadic

Individuals or groups

individual/ household
groups/ community
cooperative
employee (company, government)

Gender

women
men

Age

children
youth
middle-aged
elderly

Area used per household

< 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

Scale

small-scale
medium-scale
large-scale

Land ownership

state
company
communal/ village
group
individual, not titled
individual, titled

Land use rights

open access (unorganized)
communal (organized)
leased
individual

Water use rights

open access (unorganized)
communal (organized)
leased
individual

Access to services and infrastructure

health

poor

good

education

poor

good

technical assistance

poor

good

employment (e.g. off-farm)

poor

good

markets

poor

good

energy

poor

good

roads and transport

poor

good

drinking water and sanitation

poor

good

financial services

poor

good

Impacts

Socio-economic impacts

Crop production

decreased

increased

risk of production failure

increased

decreased

product diversity

decreased

increased

expenses on agricultural inputs

increased

decreased

farm income

decreased

increased

Socio-cultural impacts

food security/ self-sufficiency

reduced

improved

Cordyla pinnata

health situation

worsened

improved

Amélioration des moyens de subsistance et du bien-être humain

en baisse

augmenté

Le fruit du Cordyla pinnata est très prisé dans l'alimentation.

Ecological impacts

evaporation

increased

decreased

soil moisture

decreased

increased

soil cover

reduced

improved

soil loss

increased

decreased

nutrient cycling/ recharge

decreased

increased

soil organic matter/ below ground C

decreased

increased

biomass/ above ground C

decreased

increased

plant diversity

decreased

increased

emission of carbon and greenhouse gases

increased

decreased

wind velocity

increased

decreased

Off-site impacts

References

Compiler

Déthié Soumaré Ndiaye

Editors

Reviewer

Fabian Ottiger
Alexandra Gavilano

Date of documentation: Maart 24, 2011

Last update: Junie 17, 2019

Resource persons

Déthié Soumaré Ndiaye - SLM specialist
Anas Ibnou Malick Ndiaye - SLM specialist
Mamadou Mbodj - SLM specialist
Abdoul Wahab Ndiaye - SLM specialist
Marième Diallo - SLM specialist
Julie Zähringer - SLM specialist

Full description in the WOCAT database

https://qcat.wocat.net/af/wocat/technologies/view/technologies_1027/

Linked SLM data

n.a.

Documentation was faciliated by

Institution

CDE Centre for Development and Environment (CDE Centre for Development and Environment) - Switzerland
CSE (CSE) - Senegal
Relais communautaire Poste de santé de Diamaguène - Senegal

Project

Recueil d'expériences de gestion durable des terres au Sénégal (GEF-FAO / LADA)

Parc à Cordyla pinnata avec parcage naturel et paillage (Senegal)

Description

La technologie coniste à maintenir Cordyla pinnata dans les zones de culture pour stabiliser le sol, lutter contre l'érosion éolienne et hydrique et améliorer la fertilité du sol en l'associant au parcage naturel et au paillage.

Location

Classification of the Technology

Main purpose

Land use

Water supply

Purpose related to land degradation

Degradation addressed

SLM group

SLM measures

Technical drawing

Technical specifications

Establishment and maintenance: activities, inputs and costs

Calculation of inputs and costs

Most important factors affecting the costs

Establishment activities

Maintenance activities

Natural environment

Average annual rainfall

Agro-climatic zone

Specifications on climate

Slope

Landforms

Altitude

Technology is applied in

Soil depth

Soil texture (topsoil)

Soil texture (> 20 cm below surface)

Topsoil organic matter content

Groundwater table

Availability of surface water

Water quality (untreated)

Is salinity a problem?

Occurrence of flooding

Species diversity

Habitat diversity

Characteristics of land users applying the Technology

Market orientation

Off-farm income

Relative level of wealth

Level of mechanization

Sedentary or nomadic

Individuals or groups

Gender

Age

Area used per household

Scale

Land ownership

Land use rights

Water use rights

Access to services and infrastructure

Impacts

Socio-economic impacts

Socio-cultural impacts

Ecological impacts

Off-site impacts

Cost-benefit analysis

Benefits compared with establishment costs

Benefits compared with maintenance costs

Climate change

Gradual climate change

Climate-related extremes (disasters)

Other climate-related consequences

Adoption and adaptation

Percentage of land users in the area who have adopted the Technology

Of all those who have adopted the Technology, how many have done so without receiving material incentives?

Number of households and/ or area covered

Has the Technology been modified recently to adapt to changing conditions?

To which changing conditions?

Conclusions and lessons learnt

Strengths: land user's view

Strengths: compiler’s or other key resource person’s view

Weaknesses/ disadvantages/ risks: land user's viewhow to overcome

Weaknesses/ disadvantages/ risks: compiler’s or other key resource person’s viewhow to overcome

References

Compiler

Editors

Reviewer