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1
State of Somaliland Crop Production Assessment Mission
using the PET Approach and Manual.
Final Report
November 2011
2
This report has been prepared by William Ian Robinson B.Sc. PhD. contracted from consultancy
firm AA International under the responsibility of the Food Security and Nutrition Analysis Unit and
Agricultural Sector of FAO Somalia with information from official and other sources.
AA International Ltd, Technium, Y Lanfa, Aberystwyth SY23 1AS, Wales, UK
3
Contents
Assessment Mission Highlights
1.0 OVERVIEW
2.0 SOCIO ECONOMIC CONTEXT 2.1 General 2.2 Agricultural and Livestock Sectors 3.0 AGRICULTURAL PRODUCTION FOR MARKETING YEAR 2011/12 3.1 Main factors affecting cereal production in 2011 3.2 Rainfall 3.3 Area planted 3.4 Agricultural inputs and activities 3.5 Weeds, pests and diseases 3.6 Yields 3.7 North-West Agro-Pastoralist (NWAP) zone Cereal Production 2011 3.8 Other crops 3.9 Livestock
4.0 FOOD SUPPLY SITUATION 4.1 Current market situation 4.2 State of Somaliland NWAP Cereal Supply/National Demand Balance 2011/12
Annex 1. Further information connected to the Mission
4
Acronyms
NWAP North-West Agro-Pastoralist
CBPP Contagious Bovine PleuroPneumonia
CCPP Contagious Caprine PleuroPneumonia
CFSAM FAO/WFP Crop and Food Supply Assessment Mission
UN United Nations
WFP World Food Programme
FAO Food and Agriculture Organisation
MoA Ministry of Agriculture
FSNAU Food Security and Nutrition Assessment Unit
PET Pictorial Evaluation Tool
PPR Peste de Petits Ruminants
HQ Headquarters
SWALIM Somalia Land and Water Information Management
UNDP United Nations Development Programme
GDP Gross Domestic Product
NDP National Development Plan
GNP Gross National Product
NGO Non-Governmental Organisation
ToT Terms of Trade
GoS Government of State of Somaliland
5
North West Agro Pastoralist Zone Crop Assessment Mission Highlights
1. The cereal harvest for the North-West Agro-Pastoralist zone of the State of Somaliland completed in
November 2011 is estimated at 66,451 tonnes comprising 60,997 tonnes of gu-karan sorghum grain and 5,454 tonnes of karan maize grain.
2. The estimated level of cereal production is similar to last year’s UN (WFP/FAO) estimate, with an average sorghum yield estimated at 1.79 tonnes/ha, similar to levels of production noted in the NWAP zone in the
early 1980s, significantly more than recent MoA estimates.
3. For completeness of understanding of North West Agro Pastoral (NWAP) zone domestic production, a further 650 tonnes of maize harvested at the end of the gu season 2011 (August) as assessed by FSNAU, should be
added to the total to complete the NWAP domestic production assessment of the year estimated at 67,101 tonnes.
4. In 92 villages assessed in the NW Ag-Pastoralist Zone, 5 villages will have produced no or next to no cereals,
3 villages will be in cereal deficit unless they have stocks un-noted by the Mission; and five will be in balance. The remaining 79 villages will have surplus production for storage or sale.
5. The village level synopsis does not preclude hh in deficit. 6. In 2010/2011, 275,277 tonnes commercial cereal imports (grain equivalent) were recorded through Berbera
and Togwajaale, of which 22,781 tonnes were re-exported through Togwaajale from January to October 2011.
7. If the same level of re-export is sustained, cereal imports in grain equivalents of 232,344 tonnes will be
required to meet domestic and re-export demands in the state. 8. Livestock condition is currently excellent in the NWAP, with breeding stock numbers sustained and late rains
supporting forage and browse availability. 9. In addition to commercial imports, some 4,100 tonnes of maize were imported in 2011 as food aid, for
despite the apparent state balance, IDPs and deprived and disadvantaged households need aid, which may
not necessarily be easily sourced locally from domestic production or imports. Such demands are expected to continue and may increase depending on events.
1.0 OVERVIEW 1.1 The good harvests experienced last year in the North-West Agro-Pastoralist zone (NWAP) resulting
from two consecutive good rains in 2010, were followed in mid-2011 by disappointing gu rains prompting a
thorough assessment of the performance of the two main home-grown cereals, sorghum and maize, over
production year 2011 (gu and karan seasons) and a rapid appraisal of the livestock sector.
1.2 FAO-Somalia and FAO’s Food Supply and Nutrition Assessment Unit (FSNAU) combined with the WFP
and Ministry of Agriculture (MoA) to organise a full-scale post harvest Assessment Mission (MISSION’S) in
the NWAP zone in October / November to cover farms in the rainfed production localities of Gabiley,
Hargeisa, Borama and Baki districts with a view to determine the cereal balance in State of Somaliland; and
evaluate the livestock production status.
6
1.3 The MISSION’took place after an intensive 10-day practical training programme for 21 Somali assessors
in the use of the PET (Pictorial Evaluation Tool) approach for rapid assessment of cereal production and
livestock body condition scoring1 using manuals prepared for FAO- Somalia by AA International Ltd during
the 2009 and 2010 seasons.
1.4 Following training, which included instruction and supervised practice in:
estimating yields of fields using PET manual photo-indicators during driven and walking
transects,
taking samples by crop-cutting to cross-check estimates made using the photo-indicators,
grain and forage sample dry-matter determination (drying to constant weight),
assessing browse tree density,
calculating results for each technique,
incorporating PET into MISSION’S case–study procedures
the trainees sat tests to establish levels of competence and confidence in the use of PET Livestock and for
PET Crops manuals and procedures. All trainees successfully passed the tests and received certificates of
competence, exhibiting substantial improvement in understanding of MISSION’S purpose and procedures
during the training courses.2
1.5 From the 21 assessors trained, 16 were assigned to conduct a MISSION in the NWAP zone. The
assessors were organised into four balanced teams based on background and experience, and assigned to
team-specific routes throughout the 4 districts. All teams worked in each district with each team working
for two days in contiguous localities in Gabiley, Hargeisa, Borama and Baki. In each case, two days field
work was followed by a day’s analysis in FAO HQ in Hargeisa to discuss the findings and finalise the
returns. The team component of the rapid assessment was completed between October 26th and November
5th.3
1.6 The teams:-
covered four districts;
during vehicle transects, some 4000 fields were scored qualitatively at four levels according to
the three PET colour codes and zero production to establish the order of performance in all the
localities;
during walking transects, c.1500 fields were assessed at close quarters and ascribed a PET
quantitative field score from 19 possible options including the 9 PET scores determined from
photo-indicators, 9 inter-score values and zero;
conducted 115 separate case-studies;
each day teams took two crop-cut, cross-check samples and dried them to constant weight4 to
determine dry-matter content of the crops estimated.
1.7 Secondary data used to substantiate the MISSION’s empirical findings from the case-studies and PET
returns were collected by specific team members and included-
dekadal rainfall data from March to October from rain gauges managed by Somalia Land and
Water Information Management (SWALIM) in Gabiley, Hargeisa, Borama and Baki,
market prices for cereals and selected classes of livestock collected by FSNAU,
1 Also incorporating the introduction to forage and browse assessment.
2 All trainees were required to complete two general tests on entry.
3 Analysis and report writing was conducted by the Senior Consultant from AA International Ltd, who also conducted the training, in
Nairobi. 4 Evening exercise at the end of each day using micro-wave ovens to dry but not transform.
7
Gu Season Report, FSNAU,
tractor owner reports on land cultivation for each district collected by District Agricultural
Officers,
key informant interviews of market traders.
key informant interviews from each MoA District Agricultural Officers,
1.8 The findings culminate in a cereal balance indicating the estimated condition of food supply (cereals)
from the NWAP zone for the coming marketing year (2011/12 October- November).
In the NWAP zone, sorghum and maize areas of around 44,000 ha are estimated to have been
planted despite a late and uncertain start to the gu rains that, unfortunately, heralded a
shortened gu season with an uneven distribution of less rain than usual in all four districts.
Fortunately, following breaks in precipitation in June and July, the karan rains began well in late
July and August and were sustained in the main production areas, supporting the satisfactory
growth and development of gu –sown, late-maturing sorghum and karan sown maize.
A comparatively pest and disease- free year resulted in the estimated production of 67,100
tonnes (including 650 tonnes of gu-maize harvested in August).
Given the level of dependency of the economy on the livestock industry, the Mission regards the
threat to browse and pasture production by two pernicious and highly invasive weeds cause for
serious concern. Indigenous browse trees are clearly threatened by mesquite (Prosopis spp) in
locations in the NWAP; and general grazing pastures ( local stock) throughout the NWAP and
holding/ finishing pastures for imported cattle in transit are invaded by what appears to the
Mission to be Congress weed (Parthenium hysterophorus)5.
1.9 Irrespective of the state balance, food insecurity possibly triggered by more difficult access to cereals in
the coming year, may be a problem for increased numbers of households in 2011/12 if there are more
households in crisis due to, for instance, to military interventions. In this regard, the Mission anticipates
food aid, at least similar to the 4,100 tonnes of maize distributed in 2011, is likely to be required.
2. SOCIO ECONOMIC CONTEXT
2.1 General
2.1.1 State of Somaliland is in its second decade of administrative independence from the two other
administrative zones of Somalia, Puntland and South-Central Somalia. Comprising an area of 0.1376 million
square kilometres with population estimates ranging from 1.8 million people (UNDP 2005) to 3.5 million
people (Government of State of Somaliland, 2010) the autonomous (unrecognised) state is located in the
North West corner of the Horn of Africa bordering Ethiopia, Djibouti, the partner regions of Somalia and
Gulf of Aden.
The socio-economic context of the State of Somaliland, although easy to experience and appreciate when
visiting Hargeisa and noting a) rapid expansion of buildings, b) bustling markets, c) busy arterial roads
linking Berbera port to the capital and to the Ethiopian border; d) active internal commercial centres in the
rural areas, and e) ubiquitous, highly-sophisticated, telecommunications and money market networks, is
much harder to define in strict economic terms. Enduring peace and political stability in State of Somaliland
since 1995/6, fostered by functioning governmental structures , has enabled private enterprise to
flourish, the export trade of livestock to prosper, and an import (with re-export) trade to become firmly
5 NB- needs urgent confirmation by a weed specialist; but the look and nature of the weed, reports of milk and meat taint, plus
reports of allergic reactions from some householders, suggest that Congress weed has invaded from Ethiopian pastures and farmland, where it is already of serious concern.
8
established, all facets supporting numerous private development initiatives in recent years supported by
the Diaspora and placing the State of Somaliland in a far superior situation to the partner administrations
of Somalia with regard to economic growth.
2.1.2 Although the absence of specific macro-economic data for Somalia in general and the State of
Somaliland in particular, makes estimating the Gross Domestic Product (GDP) difficult, given the description
above, it is widely accepted (World Bank (2002); World Bank (2006)) that the State of Somaliland’s per
capita GDP is greater than those of the populations in the two Somalia partner administrations. From data
that are available6, assuming an average nominal per capita income of $300, and $600 at purchasing parity
price (PPP), and a population of 1.8 million (using UNDP 2005 value), the State of Somaliland’s GDP would
be about $0.5 billion in nominal prices and $1.05 billion in PPP terms; the figures are approximately
doubled, when the higher population estimate of 3.5 million, noted in 2.1.1, is applied. However, in
accordance with UN policy, the population estimate applied in this report is the lower estimate of 1.8
million people.7
2.1.3 Due to the same dearth of macroeconomic data, extrapolated estimates of the contributions by
sector viz agriculture -predominantly livestock, services and industry to the national economy are equally
difficult to find and just as difficult to confirm. The State of Somaliland’s National Development Plan (NDP)
2012 – 2016 identifies recent contributions to GDP as 65% from livestock (with agriculture), 25% from
services and 10% from industry. However, the same document also identifies the significant contribution of
remittances, citing studies in Hargeisa and Bor’ao indicating that remittances a) constitute nearly 40
percent of the income of urban households, b) account for roughly 14 percent of average rural
consumption; and c) contribute 20% to the GDP8. It has not been possible to reconcile the 120% total
resulting from the addition of each of the components noted above. Perhaps it would be better to include
remittances in a statement of Gross National Product (GNP) with a concomitant reduction in the
percentages of the other components. In any event, remittances are clearly an integral component in
revenues at all levels of the economy.
2.1.4 Government revenue9, formalised via a State of Somaliland Ministry of Finance established in 1995,
has increased significantly in the past three years with contributions from customs duties comprising some
50%, sales taxes 16%, income and corporation taxes 9%, other miscellaneous taxes 11% with government
sales of goods, services, licenses, fines and other income making up the remaining 14%. The Ministry of
Finance is responsible for budgeting and fiscal affairs of the government, with public expenditure
predominantly for staff salaries and recurrent administrative costs based on submissions from Ministries.
Security dominates public expenditure accounting for 49.67% of the 2011 budget. Social services and
production sectors are only allocated 12.36% and 3.17% of the budget respectively, however, actual
expenditure in these two categories are much higher than the budget indicates because all projects/
programmes supported by international organisations and donors focussing on education, health, water,
agriculture and livestock (social services and production sectors) are funded via the international agency
implementers or through such agencies acting as “gatekeepers” to implementing non-governmental
organisations, with Ministries performing monitoring functions.
2.1.5 As a traditional pastoral economy, with livestock contributing to 65% of the GDP, live animals and
livestock products constitute the principal exports from the State of Somaliland. The main destination of
the exports of cattle, sheep, goats and camels is Saudi Arabia, with Yemen in second place. Such livestock
6 CIA ( 2011) World fact Book
7 Adjusted to 1.99 million as mid-marketing year poulation 2011/12 for the cereal balance in Table 11.
8 Shire, S. (2005) Somaliland National Development Plan.
9 Government Of Somaliland ( 2011) Somaliland National Development Plan 2012-2016
9
exports were seriously affected by a 9-year ban on exports to Saudi Arabia, which was lifted in November
2009. The removal of the ban, ostensibly in place due to the presence of Rift Valley Fever, has since
resulted in a surge in the number of livestock exports that has continued until today. After hides and skins,
frankincense and other natural gums and resins constitute the third largest export commodity as noted in
Table 1.
Table 1: Exports through Berbera Port (2005-2010)
Year
Livestock
(head)
Hides &
skins(pieces)
Gums (Beeyo)
(kg)
2005 1183225 3123723 272720
2006 1321107 2090620 423011
2007 1452442 2609375 614706
2008 1332077 4041121 883677
2009 1675410 3522565 -
2010 2747120 4784041 307005
2.1.6 The State of Somaliland imports comprise food, manufactured goods, building materials and fuel
purchased from trading partners including near neighbours in the Horn and East Africa, China, Brazil,
Middle East, India, Pakistan, Malaysia and Italy. Official food imports, shown in Table 2 from 2005 to 2009,
indicate the high level of dependency on commercially imported cereals and cereal products, noted to be
247,600 tonnes in 2009.
Table 2: Food Imports (tonnes) through Berbera Port (2005-2009)10
Year Sugar Rice
Wheat &
W flour
cooking
oil/beans Pasta Dates Biscuits Total
2005 129441 50555 48927 28031 14114 2305 2842 276215
2006 126037 87996 51319 22571 19544 3045 3666 314178
2007 174076 89762 50228 33388 19033 3866 3548 373901
2008 194523 61288 63105 38538 18903 3474 5575 385406
2009 155965 59645 169187 30148 18776 3015 4232 440968
2.1.7 The State of Somaliland financial system is highly dollarized due to a free-trade policy and the
consequent substantial presence of US Dollars in the economy. The average exchange rate over the past 5
years, as reported by the Ministry of Planning, is shown in Table 3 juxtaposed with the Ministry’s consumer
price index, and shows a surprising stability.
Table 3 Average Exchange Rate and Price Index (2007-2011)
Year US $ in SLSH11
Forex
Index
General consumer
price (The cost of
a basket in SLSH)
Price
index
2007 6288 100 69878 100
2008 6168 98 72258 103
10
Government of Somaliland,( 2011) Somaliland National Development Plan 2012-2016, Hargeisa. 11
SLSH =Somaliland shillings.
10
2009 6749 107 86093 123
2010 6422 102 84618 121
2011 5747 91 72449 116
Source: Ministry of National Planning and Development , Hargeisa
2.2 Agriculture and Livestock Sectors
2.2.1 As noted, the economy of State of Somaliland depends, to a great extent, on livestock production,
which has historically and culturally been the mainstay of livelihoods for the majority of the people. The
pastoral / agro-pastoral systems involve over 70% of the population, contribute 65% of the GDP and about
85% of export earnings, provide employment to a wide range of professionals and other service providers,
and contribute 50% of Government revenues12. The main outlet of the livestock sector, live animal export
to Saudi Arabia, Yemen and the Gulf States through Berbera port, has, however, been regularly disrupted
by a series of trade embargos. Such bans adversely affect the national economy as well as the livelihoods
of pastoralist families. The latest ban ended in 2009; since the ban was lifted, livestock exports have grown
dramatically as shown in Table 1.
2.2.2 The pastoralist / agro pastoralist system comprises herds and flocks of indigenous cattle, sheep,
goats and camels utilising grazing and browse through varying degrees of migration to and from
traditional, clan-based , seasonally-foraged ranges. Cattle are found more frequently in the western parts
of the country, which receive relatively large amounts of rainfall, while goats, sheep, and camels are bred
mainly in the drier central and northern regions of the country. However, most pastoralist herds are mixed,
a strategy which enables herders to exploit different types of rangeland, hedging bets against disease
challenges and maximising survival and recovery rates following droughts.
2.2.3 Increasingly, agro-pastoralism ,rather than nomadic pastoralism, the former characterized by
maintenance of a permanent home, and, as well as keeping livestock that may or may not be transhumant-
i.e. move between seasons along prescribed routes’ growing rainfed cereals during at least one of the two
main seasons (gu or deyr) in a farming area, is becoming the farming system of choice in all parts of the
State of Somaliland13, as access to pasture and the previously-enjoyed freedom of untrammelled
movement of the nomad, disappears.
2.2.4 Under agro-pastoralist systems, livestock ownership varies from a few resident animals on the farm
producing milk, ghee and live animals for home-use and sale, to the transhumant management of
hundreds of head of various livestock according to wealth, agro-ecology, location and preference.
According to “the State of Somaliland in Figures” (Ministry of National Planning and Development), there
were 18,570,000 head of livestock in the country in 2009 (Table 5). However, as many of such livestock
move in waves into Ethiopia at the beginning of the gu rainy season in April and return to the State of
Somaliland at the start of the Ethiopian dry season in September, numbers are speculative. Elsewhere,
internal movement takes place in Toghdeer from North-West to South-East regions and animals normally
stationed along the coast move inland at the start of the rains and head back to the coast again in
December.
Table 5: Livestock Population Estimates- thousands of head (2005-9), State of Somaliland
12
Government Of Somaliland ( 2011) Somaliland National Development Plan 2012-2016, Hargeisa 13
Most effectively practised in the eponymous North-West Agro- Pastoralist Zone.
Year Goats Sheep Camels Cattle Total
11
2.2.5 The main (gu) rainy season extends from April to September. For rainfed cropping purposes, in the
western regions there are two distinct seasons, gu (April to June) and karan (late July to September); and,
in the eastern regions gu (April to June) and deyr (September to November). The western regions receive
the highest amount of rainfall, which can reach over 500 mm annually and supports the bulk of the State
of Somaliland’s cereal production in the North-West Agro-Pastoralist (NWAP) zone encompassing the four
main rainfed-cereal producing districts of Borama and Baki in Awdal, and Gabiley and Hargeisa in Woqooyi
Galbeed.
2.2.6 Described as predominantly subsistence in nature in that the principal crops, sorghum and maize, are
grown under input-free conditions mostly for house-hold consumption, the description masks the
production, in sizeable locations, of large surpluses of grains from high-yielding, local, late–maturing
sorghum landraces, whose products are a) consumed as the main staple, b) sold locally to others and c)
stored in underground pits to provide food security for the producer households.
2.2.7 In all areas, crop residues and failed sorghum and maize sowings contribute significantly to livestock
feeding and the heavy sowing rates used for both crops reflect the dual–purpose nature of household
planting policies.
2.2.8 Spate irrigation, so-common and well-developed in Eritrea and Eastern Tigray, is limited in the State
of Somaliland to very small areas in Beer and Oodweyne districts where a few hundred of hectares of
cereals and fodder are grown for sale; and even fewer hectares in Alaybaday, south-west of Hargeisa,
which produce small areas of vegetables and fruits. Pump-set irrigation is limited to small, commercial units
near the major towns producing vegetables and fruits In general, irrigated agriculture occupies less than
2000 ha of the area cultivated.
3.0 AGRICULTURAL PRODUCTION FOR MARKETING YEAR 2011/12
3.1 Main factors affecting cereal production in 2011
3.1.1 Regarding factors affecting production, the provision of short-term agricultural credit through Non-
Governmental Organisations (NGOs) or banks has not been a feature of agricultural production in the State
of Somaliland for some 25 years. The concept of self-help and family support genuinely dominates the
approach to finance. In any event, cereal production in the NWAP zone is essentially low-input with no use
of improved seeds, fertilisers, herbicides or pesticides. Funding is based on with paying cash with very
little, if any, external assistance, however, remittances feature markedly and have clearly played a role in
creating a distinction, in all localities, between tractor-owner farmers and those who hire the tractor
services by the hour. Mechanised land preparation is the norm supported through the private tractor- hire
services noted above. Consequently, the major influences on production are: - rainfall- its quantity and
distribution, the type and quality of local seeds used, the timing and quality of cultivation and any other
husbandry operations, weeding and pest and disease challenges.
3.2 Rainfall
2005 7,341 7,906 1,578 373 17,198
2006 7,517 8,041 1,596 378 17,532
2007 7,698 8,178 1,614 384 17,873
2008 7,883 8,317 1,630 389 18,219
2009 8,072 8,458 1,646 394 18,570
12
3.2.1 Average annual rainfall in the NWAP is in the order of 400 mm to 500 mm as noted in Figure 1. The
pattern is bimodal beginning with gu rains in March/ April, followed by a short dry period in June/July; and
restarting with karan rains in August that end in October/ November.
Figure 1: Long term average monthly rainfall (mm) in NWAP
0
100
200
300
400
500
600
Gabiley
Hargeisa
Borama
3.2.2 This year, the rainfall as measured in the SWALIM (FAO) weather stations and confirmed by the 115
farmer case-studies showed different patterns and variations from the norm as exhibited in Figures 2 and
3.
3.2.3 In Figure 2, compared to the long term average (LTA), the gu rains in Borama and Gabiley are
shown to start late at the end of April, be sustained in May; be noticeable, albeit with breaks, in June and
July; and continue as the karan rains into October. Shown by dekad in graph form, they present a widely
fluctuating picture throughout the season, a fluctuation matched by typical spatial variation common in
semi-arid areas, with neighbouring villages often experiencing very different rainfall patterns.
3.2.4 In Figure 3, the Gu rains in Hargeisa and Dilla in Baki are also shown starting late at the end of April,
then are recorded as being very heavy in May in Hargeisa, but much less heavy in Dilla; disappearing in
June and July and restarting as useful karan rains in August, to end in September in both districts.
3.2.5 The patterns recorded at the weather stations are confirmed in the 115 farming case–studies
conducted by the Mission, and, as noted by the good performance of April- May sown, late-maturing
sorghums that withstood early water logging and the often-prolonged dry-spells noted in June and July
that virtually eliminated the gu sown maize.14 The farmer observations summarised in Figures 2 and 3 in
tables below the dekadal rainfall data, summarise the farmer reports on the occurrence of a) the onset of
gu rains, b) occurrence of dry-spells, c) the onset of karan rains and d) the end of the season. It must be
noted that rain fell after the Mission had left the area and that such rains have not been included in the
summaries.
3.2.6 In summary, the late start, lower than average rains in June and July were less than satisfactory for most areas, but the season was rescued by heavier than usual rains in August that continued into September in all areas and are noted to have continued into October/ November supporting grain-fill of later-sown sorghum and seed set and grain-fill of karan maize.
14
FSNAU, Gu season report, 2011.
13
Figure 2 Dekadal Rainfall (mm) in 2011 vs Long term averages (LTA) Borama and Gabiley
0
10
20
30
40
50
60
Mar Apr May Jun Jul Aug Sep
Gebiley
LTA
Farmers' Rainfall Summary
March April May June July August Sept Oct
Borama Start 50% 50%
Break 100% 100%
Restart 37.5% 62.50%
End 37.50% 62.50%
Farmers' Rainfall Summary
March April May June July August Sept Oct
Gabiley Start 50% 50%
Break 20% 100% 100%
Restart 25% 75%
End 20% 80%
14
Figure 3 Dekadal Rainfall (mm) in 2011 vs Long term averages (LTA) Hargeisa and Dilla
0
20
40
60
80
100
120
140
Mar Apr May Jun Jul Aug Sep
Dilla
LTA
Farmers' Rainfall Summary
March April May June July August Sept Oct
Hargeisa Start 66% 33%
Break 25% 100% 100%
Restart 33% 66%
End 25% 75%
Farmers' Rainfall Summary
March April May June July August Sept Oct
Dilla Start 25% 75%
Break 100% 100%
Restart 100%
End 100%
15
3.3 Area planted.
3.3.1 In the absence of cadastral surveys or fully-functional MoA information retrieval services from
farming families, rapid assessment missions, including the MISSION, need to rely on a variety of sources to
determine the best estimates of planted or harvested area of cereals under investigation. The FAO (2009)
Joint Guidelines for the MISSION identifies possible sources of area sown or harvested as contractors
including tractor-hire services, and harvesting or threshing contractors, as well as identifying possible lines
of progressive derivation from such data as are available e.g. developed from a) population statistics, b)
numbers of households farming, c) areas normally farmed, d) traditional cropping patterns- all conditioned
by factors affecting such characteristics for the seasons under investigation through case-studies and key
informant interviews. In this case the Mission collected and collated data from:-
District Agricultural Officers in Hargeisa, Boroma/ Baki, Gabiley listing the number of farms recorded
in each district, estimated areas of cereals planted.
Numbers of functioning tractors in each district, demands for services, details of working practices
(cultivation norms, hours per day); notions of availability of fuel, spare-parts; prices charged.
Numbers of households farming from FSNAU livelihood surveys, areas cultivated, crops grown.
115 case –studies to determine factors affecting area planted this year;
Key informant interviews- MoA District Agricultural Officers, market traders, tractor ploughing
contractors.
3.3.2 In each district, the late start to the gu rains delayed most ploughing until April-May resulting in local
bottle-necks as farmers queued for tractor services once the rains had started. Inevitably, as demand grew
prices increased from 60,000 SSL / hour (10 US $) to 65,000 SSL (12US$). Delays of 8-10 days in a queue
were the norm rather than the exception and payment was required in advance to guarantee services
within that time span. According to the data collected from tractor owners, ploughing began in March and
continued in April and May. With units working double shifts, services were offered 7 days a week at a
stated work-rate of 18 hours a day for three months, therefore, according to the contractors a possible
1620 hrs per unit might have been provided. Table 6 provides a summary of estimates per district,
including data adjusted by the Mission for a 90 day operational period, 1 day/week reserved for breakages-
repairs, maintenance; and 20% time for movement between fields.
Table 6 Tractor services – Owners and Mission estimates
District Tractors Av.hours (owners)
Av.hours (Mission)
Total hours (Mission)
Total area (ha)
Borama/Baki 41 1,500 1170 47,970 10,660
Hargeisa 35 1,500 1170 40,950 9,100
Gabiley 107 1,620 1170 125,190 27,820
Total 47,580
Average ploughing rate in the predominantly silty-loam soils is 4.5 hrs/ ha.
3.3.3 The area estimated at 47,580 ha excludes areas ploughed by oxen and areas ploughed or re-
ploughed in August for karan crops. Further, given the good main roads and easy access, tractors are
known to plough out of their districts and even to leave State of Somaliland and plough across the border
in Ethiopia. By the same token, tractors from Ethiopia also plough in the NWAP zone. It is important,
therefore, to triangulate area estimates with other sources. In this regard, returns from the 115 case-
studies provide an updated key to current practices. The returns show that a) most farmers only ploughed
16
once; b) average areas sown per farm to sorghum, immediately after ploughing, are noted as 1.6 ha in
Hargeisa; 1.7 ha in Gabiley; 1.46 ha in Baki and 2.0 ha in Borama. Similar figures for late-sown (karan)
maize are 0.57 ha in Hargeisa; 0.5 ha in Gabiley; 0.44 ha in Baki and 0.36 ha in Borama. Such reported
areas are greater than the 1.2 ha of sorghum and 0.3 ha of maize determined by FSNAU in the long-
standing livelihoods’ analysis used in previous assessments and are considered by the Mission to be a
better reflection of area planted this year and have, consequently, been adopted for use in calculating
district area estimates, that are cross –checked against the tractor-use data to determine their feasibility/
credibility. The resulting total NWAP zone area estimates at 43,820 ha, are provided by farming location in
Annex 1 and are summarised by district in Table 7 below, the estimate used falls easily within the tractor-
use based estimate of 47,580 ha.
3.3.4 FAO’s public- private, tractor supply initiative under the EC Food Facility, required tractor-owners
benefitting from the sale of 10 tractors through the MoA at a subsidized rate, to provide free-services to
selected needy farm families. The Mission can confirm that such services were provided and were reported
to the Mission by case-study farmers in Hargeisa district, who were considered in need of such support.
3.3.5 Given that all sorghum and maize seeds used in the NWAP zone, as identified during the Mission case
– studies, are local seeds, the sorghum universally carried over from the previous harvest in 2010 and the
latter- purchased in local markets, appropriate seeds are noted to have been readily available at sowing
time. Sorghum seed rates provided to the Mission at 10- 32 kg/ha for both cereals reflect over-sowing
rather than under-sowing, explained, by the farmers, as a means of a) maximising germination-given that
the seeds are not certified/ tested and are kept for a year on- farm; b) combating competition from weeds
and c) providing forage for livestock as both thinning during dry spells in the rainy season; and as stover
after harvest. In any event, there was no suggestion that sorghum seeds this year were in short supply,
therefore, ability to find seeds is unlikely to have inhibited area planted. Maize seeds, sown at similar rates
per hectare, albeit over a much smaller area per farm, were mostly purchased from local markets reflecting
the poorer keeping quality of maize, and the failure of the gu crop in the area.
3.3.6 Dry spells in May, June and July, prompted replanting of sorghum in 40% of case-studies in Hargeisa,
17% of case-studies in Borama/ Baki but only in 10% of case studies in Gabiley, where the preferred local
varieties of sorghum are mostly late-maturing, goose- neck landraces of the “adengap” type that withstand
marginal conditions of both water-logging and protracted dry spells during development, making replanting
unnecessary. The numerous gu maize failures15 were not replanted, although a greater area of second
season maize was planted with the karan rains in August particularly in Hargeisa and Gabiley as noted in
Table 7.
3.3.7 Using the tables presented in Annex 1, areas sown to sorghum and maize have been estimated from
the UNDP 2005 population statistics, updated i) by District Agricultural Office 2011 farm registrations for
the villages omitted from the original surveys; and ii) by case–study area data. The estimated areas by
district are summarised in Table 7, juxtaposed with estimates for 2010 prepared by the FAO- WFP Rapid
Surplus Supply Mission.
3.3.8 This year, total area sown to cereals summarised in Table 7 at 43,820 ha is c. 6,500 ha lower than
the 50,290 ha estimated in 2010. This is because the calculations this year are based on a total of farms
drawn from a) previous village rainfed farms noted last year from the UNDP 2005/ FSNAU livelihoods
analysis, plus b) MoA “new” village rainfed farm registrations -confirmed as active in November 2011 by
each of the District Agricultural Officers and the FSNAU Senior Agronomist. In 2010, the area planted was
15
FSNAU ( 2011) NW Gu/ Karan Crop Establishment Estimates
17
computed from a total drawn from a) previous village UNDP (2005)/ FSNAU rainfed farms, supplemented
by b) Mission estimated numbers of “urban” or “unattached” farmers from Hargeisa Town (5%
households), Borama Town (70% households), Dilla and Gabliley towns and urban centres (100%
households). It is anticipated that each year, information flows will improve as cadastral surveys and
regular planting assessments are extended to cover all agro-pastoralist villages.
Table 7 Sorghum and maize area (ha) 2011/10
District Sorghum
'11
Sorghum
'10
Maize 2011 Maize 2010
Borama 5,541 8,691 688 2,028
Baki 2,282 4,320 997 1,008
Hargeisa 7,261 8,829 2,587 2,060
Gebiley 18,904 19,725 5,560 3,629
Total 33,988 41,565 9,832 8,725
3.4 Agricultural inputs / activities.
3.4.1 The farming systems described in Section 2 indicates that 90% of the agriculture in the NWAP is
rainfed and is based on a low-input: low-output premise conditioned by the unreliable nature of the rain;
cheap access to land allowing unlimited horizontal expansion for farmers investing in mechanised services;
historically available fuel, readily available household labour and the tradition of guz labour/ oxen sharing
for weeding and harvesting as required.
3.4.2 The main staples, sorghum and maize and occasional stands of pearl millet are sown to local seeds at
reasonably heavy rates following minimal cultivation, one pass and sow, in most cases. Mission case
studies confirm that this year, local seeds, either kept from the previous year or bought from local markets,
were the only seed source, sown in the NWAP zone at rates that varied from 10- 32 kg/ha. Sorghum was
sown in April and May; and re-sown in late July / August following dry-spells in June and July, particularly
in locations in Hargeisa district.
3.4.3 No inputs such as fertilisers, manure, soil conditioners, pesticides or growth promoters for are used
by cereal growers or noted to be available in the markets. The case-studies show that field operations in
the cereal sector following tractor ploughing comprise only a) oxen harrowing “baq-baq”, b) weeding, c)
bird-scaring and d) harvesting. The secondary cultivation, harrowing, being undertaken by most farmers
to reduce weeds, thin over-planted sections of the fields and aid rainfall distribution in the shallow ridge
and furrow systems that result from the harrowing; weeding used to reduce weed competition and to
collect fodder for livestock; and the others to secure the harvest. The very best farmers, producing
upwards of 5 t/ha of “adengap” sorghum are noted to have ploughed twice, harrowed at least once and
weeded two or three times during the season. Their crops would not have been out of place anywhere in
the world.
3.5 Weeds, pests and diseases.
3.5.1 Weeds are noted to be considered the most difficult pest this year; fewer than 3% of the farmers
interviewed failed to weed, with most weeding accomplished under conditions of reciprocal support (guz).
Whereas weeds are often considered useful as fodder by the agro-pastoralist, one weed in particular in
18
NWAP zone is cause for concern. The weed for which a high proportion of farmers requested support to
eliminate appears, to the Mission, to be “Congress weed ” (Parthenium hysterophorus)16 imported into
Ethiopia in the 1980s with food aid wheat from the USA, which now seems to have crossed the border and
is invading the NWAP zone farmland and pastures, rapidly replacing the indigenous grasses following
cultivation or over-grazing.
3.5.2 Other pest and disease problems in 2011 are noted to be normal or mild in most districts with, no
confirmed outbreaks of migratory pests; and few reported outbreaks or incidents of non-migratory pests of
any consequence i.e. although most pests are noted frequently as present; levels of infestation are
reported as low and are not causes for concern. In this regard the Mission notes the following exceptions:-
Local birds –local quelea require bird scaring early in the morning and in the early evening in all
areas where production of grain, particularly sorghum, is considered a serious enterprise. Failure to
scare away local birds is noted to have reduced crop production by at least 2 tonnes per ha in the
worst cases seen near woodland during walking transects in Hargeisa District.
Stalk borer- infestations in Hargeisa District, coupled with poor rainfall, are noted to have reduced
crops to unharvestable levels (Annex 1- see zeros).
Smut, sorghum head smut is noted to be present in all districts. The current practices of saving
smut-contaminated heads and using home-saved seed with no seed treatment suggest that the
problem of head smut will only get worse.
Although the woody weed mesquite (Prosopis spp.) is outlawed nationally as a noxious species in
Sudan, and has devastated the rangelands in western Eritrea, it’s presence in State of Somaliland
appears to be tolerated and, possibly, even encouraged in peri-urban areas. Although any attempt
to eliminate mesquite is probably now impossible in Hargeisa, serious consideration should be given
to stopping its spread to the ranges and farms before it presents an overwhelming challenge to the
well-established browse trees in the whole NWAP zone.
3.6 Yields
3.6.1 This year, yields of harvestable crops have been estimated using the PET approach (Pictorial
Evaluation Tool – crop photo indicators). Sight of the PET manual and its photo-indicators was also offered
by the assessors to farmers interviewed during the case studies for them to select their choice of photo-
indicator from the selection available, and comment on the yield associated with their pick.
3.6.2 The PET approach required the four assessing teams to:-
identify levels of production in all fields passed during movement in vehicles throughout their
localities according to the PET colour codes and zero;
quantify estimates of yields of cereals in all fields passed during walking transects in each sampled
area, within their pre-coded localities according to a range of 19 possible options (9 PET photo-
indicator standards, 9 inter-score values and zero);
prepare weighted averages of scores from the walking transects for each village included in the
sample;
extrapolated from the scores to include adjacent areas with similar characteristics.
3.6.3 In such a way, sorghum production in all localities in the NWAP zone was classified by colour code;
and some 1500 sorghum fields were independently scored, within the localities, to determine average yield
16
Mission identified, NB- identification needs confirmation by a taxonomist/ weed specialist. When eaten by livestock when mixed with fodder or in times of duress, when eaten by ruminants the weed taints milk and meat and causes dermatitis in humans. All such effects were reported to the Mission.
19
estimates. The estimates obtained were cross-checked against the returns from 115 case-studies including
farmer estimates both with and without PET; and from 1 square metre, crop-cut sample yields of grain that
were dried to constant weight.
3.6.4 Regarding sorghum yields, the results of the assessment show weighted average yields for all
locations ranging from zero to over 3 tonnes per hectare. Some individual farm / field yields were assessed
by the teams at more than 5 tonnes using PET photo-indicators, levels that were confirmed the same day
from dry matter analyses of the samples taken from such fields. By the same token, other fields were
assessed using PET photo-indicators at 0.25 tonnes per hectare, resulting in an overall average yield in the
NWAP zone of 1.79 t/ha.
3.6.5 Regarding maize yields, as noted in the earlier FSNAU (2011) report, the gu planted maize was
unsuccessful resulting in only 645 tonnes of grain that had already been harvested by the time of this
Mission. The karan planted maize was, for the most part tasselled but not silked. Consequently, as PET
photo-indicators are designed to assess harvestable crops using plant density and quality/ size of
harvestable products per plant, and as the latter component – the maize cobs were clearly absent,
conservative estimates based on plant size and density alone have been made with most crops in the blue
colour code, with a range of zero to 1.0 tonnes per hectare and with a weighted average of c. 0.5 t/ha. It
is recommended that a further visit by two certified PET assessors is made to the main maize areas in
Gabiley and Hargeisa, where the greatest areas are reported, in 4-6 weeks time to review the situation.
3.6.6 Estimates for all locations for both crops are presented in Annex 1 and are summarised by district in
the relevant columns in Table 8 in the next section.
3.7 North-West Agro-Pastoralist zone Cereal Production, 2011.
3.7.1 Cereal production from Borama, Baki, Hargeisa and Gabiley districts of the NWAP zone for the gu-
karan sorghum and karan maize is estimated at 66,451 tonnes of which 60,997 tonnes are sorghum from
an estimated 33,988 ha and 5454 tonnes are maize from 9832 ha. Gabiley is estimated to be by far the
biggest producer of both crops providing 66% of both sorghum and maize from 55% of the total area.
3.7.2 Table 8 provides as summary of production by district, and indicates how the estimate has been
made from population data, supplemented by new farm registrations from the DAOs. Further details, by
rainfed farming village in each district, are presented in Annex 1.
20
Table 8 NWAP zone cereal production (sorghum and maize), 201117.
District Farming hh1
Sorghum Area/hh (ha)2
Sorghum Sorghum yield Sorghum prod.
Maize Area/hh
Maize Maize yield Maize Cereal
Area (t) (ha)2 Area Prod Prod.
(ha) (ha) (t) (t)
PET code
t/ha PET code
t/ha
Borama 2,770 2 5,540 yellow 1.55 8,587 0.36 997 blue 0.43 432 9,019
Baki 1,563 1.46 2,282 yellow 1.82 4,155 0.44 688 blue 0.54 373 4,528
Hargeisa 4,538 1.6 7,261 blue 1.06 7,711 0.57 2587 blue 0.40 1,024 8,735
Gabiley 11,120 1.7 18,904 yellow 2.14 40,544 0.5 5560 blue 0.65 3,625 44,169
NWAP 19,991 1.7 33,987 yellow 1.79 60,997 0.49 9,832 blue 0.55 5,454 66,452
1.Derived from MoA, Hargeisa listings (2011); UNDP 2005 popn data, FSNAU livelihoods analysis.
2 Derived from Mission case-studies
3.7.3 These data compare favourably with the production estimates in the forecasts made by FSNAU earlier
in the year at crop establishment, and are similar to production levels noted last year by the WFP/FAO
Surplus Sorghum mission for sorghum (59,734) tonnes but are substantially less than the 14,185 tonnes
expected from maize in 2010. Sorghum production is also far closer than previously thought to levels of
production reported in the 1980s,when cereal production on the plateau averaged 2.00 tonnes per
hectare18, than to recent estimates from the MoA, as shown in Table 9.
Table 9 MoA ,Hargeisa Crop Production – Maize, Sorghum (2007-2009)
Crops Indicator 2007 2008 2009
Maize Area (ha) 6384 2680 1075
Production(t) 4022 1252 330
Yield (t/ha) 0.6 0.5 0.3
Sorghum Area (ha) 31179 24750 21870
Production (t) 22722 16275 10526
Yield(t/ha) 0.7 0.7 0.5
Total Area (ha) 37563 27430 22945
Production (t) 26744 17527 10856
3.8 Other crops.
3.8.1 Apart from the two main cereals, other cereals reported to the Mission as growing this year are pearl
millet and rice. Only one field of pearl millet in Gabiley, and a few harvested fields of pearl millet in Borama
District were noted. No rice was noted during the Mission or reported to Mission teams. Consequently,
neither cereal is noted to have been grown sufficiently to be included in the assessment.
17
PET codes refer to PET colour codes for photo-indicators. See PET Crops Somalia, 2010. 18
Abdi Musa (Personal communication) 2011
21
3.8.2 Historically, the main cash crops in Somalia have been grown in other regions. State of Somaliland,
as noted in Section 2, has been always been associated with pastoralism and livestock production,
therefore the history of cropping has been limited. Recent introductions of rainfed sesame and cowpeas are
noted and may expand in future years but are currently insignificant in terms of area or impact.
3.8.3 Regarding fruit and vegetables, presently less than 2000 ha are cultivated under irrigation, producing
limited quantities of fruit and vegetables for the commercial centres. Presently, no data are available
regarding performance; however, the Mission is making recommendations for installing a simple recording
system based on indicator units on selected farms, to provide annual snap-shots of production to monitor
development of the sub-sector.
3.8.4 Of greater significance in the NWAP zone are the widespread acacia forests whose stocks of Acacia
bussei and Acacia etbaica throughout State of Somaliland are well known and appreciated and support
millions of browsing goats and camels. At the same time, the widespread presence of Zyziphus and
Balanites species offer wild-fruit marketable options for herders. It is noted that charcoal making threatens
A. bussei and Balanites spp; however, the Mission notes that all indigenous trees are more seriously
threatened by the uncontrolled expansion of Prosopis species that will eventually invade the NWAP zone if
left unchecked.
3.9 Livestock
3.9.1 Livestock in the NWAP zone are raised extensively under systems with various degrees of
transhumance ranging from settled farmers to nomads crossing borders between states. Numbers are,
therefore, extremely difficult to estimate and are usually derived from numerical progressions from the
latest census, cross-matched with vaccination campaign records. The latest estimates available to the
Mission come from the Ministry of Planning, Hargeisa and show a steady increase up to 2009 as noted
below in the extract from Table 5 presented earlier in the report :-
3.9.2 Since 2009, the buoyant export trade with the Gulf States has fostered livestock production, so
despite the sale of millions of head each year, it is probable, from the returns from the 115 case-studies
that the numbers of breeding stock are increasing, indicating of a healthy industry. Production
characteristics are not known and should be made the subject of a comprehensive livestock recording
scheme using indicator units, within herds, to determine performance. In the meantime, data regarding
breeding performance have been collected during the 115 Mission case-studies. These data are given in
Table 10 and are likely to represent the cattle, sheep and goats kept under the more residential agro-
pastoralist systems.
3.9.3 In addition to case study data, livestock were condition-scored during driven and walking transects
according to PET protocols. Weighted average and modes of PET scores by species and by district are also
included in Table 10. The returns show that throughout the NWAP zone livestock are in very good
condition before they enter the coming dry season with what is estimated to be plenty of forage (stover)
and browse, although pastures are less well-conserved and are seriously affected by what appears to be
Year Goats Sheep Camels Cattle Total
2009 8,072,000 8,458,000 1,646,000 394,000 18,570,000
22
Congress weed in many grazing areas. Due to the nature of semi-arid areas, water supplies vary according
to location from being plentiful to already depleted.
Table 10 Livestock indicators (transects and case-studies), 2011
Borama/Baki Gabiley Hargeisa NWAP
Transhumance 30% herds/flocks 5% herds/flocks 50% herds/flocks 26%
Cattle
Calving % 61% 62% 73% 65%
PET condition Av 3.1; mode 3-4 Av 3.3; mode 3-4 Av 3.3; mode 3-4 Av 3.2: mode 3-4
Sheep / goat
Lamb/kid % 67% 74% 73% 71%
PET condition Av 3.0; mode 3-4 Av 3.3; mode 3-4 Av 3; mode 3-4 Av 3.2: mode 3-4
Camels
PET condition Av 3.0; mode. 3 Av 2.8; mode 2-3 Av 2.5; mode 2-3 Av 2.8; mode 2-3
3.9.4 The common livestock diseases of PPR, haemorrhagic septicaemia, blackleg, anthrax, sheep pox,
CBPP, CCPP were all obvious by their absence in case-study reports. All such diseases have, apparently,
been kept effectively under control through vaccinations, seemingly sought out by the farmers themselves.
With the exception of abortions in small ruminants reported around Baki/ Borama border, no serious
outbreaks of diseases are noted.
3.9.5 In conclusion, animals are in good condition, healthy and are sustaining incomes of agro-pastoralists
in a firm market made buoyant by exports.
4.0 FOOD SUPPLY SITUATION
4.1 Current market situation
4.1.1 The livestock export market chain culminating in Berbera, which for 50% of small ruminants and
most of the cattle begins in Ethiopia, provides a suitable corridor for the reciprocal movement of foodstuffs
and other goods across State of Somaliland, particularly imported cereals and fuel.
4.1.2 Somalia generally imports commercially around 60% of its cereal requirements. In 2011, around
408,000 tonnes of cereal equivalents of rice and wheat were registered as imported between January and
July through Bossasso, Berbera and Mogadishu19 of which a substantial proportion has been coming
through Berbera. For instance, data from the Ministry of Planning for 2009 show that gross cereal imports
into Berbera were 247,000 tonnes comprising wheat and wheat flour at 169,000 tonnes, rice at 59,000
tonnes and pasta at 19,000 tonnes20. Despite worsening conditions reported in the press, commercial
imports through the 3 ports are noted to have increased by 36% this year to July, so it may be expected
that cereal flow through Berbera has also increased. But where does it go? Re-export figures through Tog
Wajaale show that the greater amount of rice is exported but very little wheat flour and no wheat leaves to
19
FSNAU (2011) Technical Series Report VI. 46 Food Security and Nutrition Analysis- Post Gu 2011. FSNAU, Nairobi 20
Compare to 2011 imports in paragraph 4.2.2.
23
Ethiopia, so may we assume that such quantities are consumed locally? There are no figures available for
cereal flow from Berbera into Puntland or South-Central Somalia, however, given the role of the other two
ports they are for the sake of the following cereal balance, considered to be negligible.
4.1.3 Under the umbrella of a free and open market, self–regulation by brokers apparently stabilises the
cereal market, which shows very little fluctuation, at least in Hargeisa, given the turmoil surrounding the
greater state of Somalia and its government.
4.1.4 Figure 4 provides a 3 year view of market prices in Borama and Hargeisa of 50kg bags of sorghum
and maize. Interestingly, the September price illustrates a culmination of a downward trend and complete
convergence over the period starting in January 2009 to arrive, using the official exchange rates shown in
Table 3, at 522 US$ / tonne in September 2011 for both commodities (one tonne of white sorghum and
white maize), having started the period in Hargeisa at 889 US $ /tonne in January 2009, and peaked in
May 2010 in Borama at 1012 US $ /tonne for white sorghum and 833 US$ per tonne for white maize.
4.1.5 Market prices for livestock for the same two markets over similar periods are given in Figure 5. Again
both pairs of graphs exhibit similar trends, but upward this time compared to the downward trend of grain
prices, with Borama prices fluctuating due to being a smaller market with less certain supply and demand
characteristics.
Figure 4a Borama Market; - Sorghum and maize 2009/10/11 monthly average price (SLSH).
Figure 4b Hargeisa Market; Sorghum and maize 2009/10/11 monthly average price (SLSH).
0
50000
100000
150000
200000
250000
300000
350000
WHITE SORGHUM 50KG WHITE MAIZE 50KG
24
Figure 5a Borama Market; Local Quality Goat and Export Quality Sheep 2009/10/11 monthly average price
(SLSH).
Figure 5b Hargeisa Market; Local Quality Goat and Export Quality Sheep 2009/10/11 monthly average price
(SLSH).
0
50000
100000
150000
200000
250000
300000
350000
400000
450000
Janu
ary
April
July
Oct
ober
Janu
ary
April
July
Oct
ober
Janu
ary
April
July
Oct
ober
GOAT LOCAL QUALITY
SHEEP EXPORT QUALITY
4.1.6 Downward trends in cereal prices and upward trends in livestock prices translate to favourable terms of trade (ToT) for agro-pastoralists who keep grain and sell livestock. The prices shown below present such a favourable picture in 2011, as shown in Figure 6 where ToT for a local slaughter goat vs 50 kg bag white sorghum increasing from 1:1 to 2:1 over the 3 year period, peaking at 3 :1 in October ( just before Haj period) in 2011; and, at a similar time in 2010.
Figure 6 Terms of Trade, local slaughter goat vs 50 kg bag white sorghum
Terms of Trade: Local Quality Goats versus White Sorghum (50 Kg)
JAN FEB MAR APR MAY JUN JUL AUG SEP OCT NOV DEC JAN FEB MAR APR MAY JUN JUL AUG SEP OCT NOV DEC JAN FEB MAR APR MAY JUN JUL AUG SEP OCT NOV DEC
1 1 1 1 2 2 1 1 2 2 2 1 1 1 1 2 2 2 2 2 3 2 3 2 2 2 2 2 2 2 2 2 2 3 n/a n/a
2009 2010 2011
4.2 State of Somaliland NWAP Cereal Supply/National Demand Balance 2011/12
25
4.2.1 The NWAP zone projected cereal supply for the 2011/12 (31st October 2011 to November 1st 2012) marketing year is summarised in Table 11. 4.2.2 The domestic cereal production estimate for marketing year from the NWAP zone of the State of Somaliland 2011/ 2012 is 67,101 tonnes from the evaluated harvest sorghum and maize, November 2011 harvest of 60,997 tonnes of sorghum and 5,454 tonnes of maize (66,451 tonnes); plus 650 tonnes for gu maize to be harvested next August (based on this year’s low estimate by FSNAU, 2011 and no inclusion of Toghdeer crops). 4.2.3 Table 11 suggests that out of 92 villages, 5 villages will have produced no or next to no cereals, 3 villages will be in cereal deficit unless they have stocks; and five will be in balance. The remaining villages will have surplus production, which does not preclude hh in deficit. Table 11 Cereal production from NWAP villages.
26
2011 NWAP Zone Crop Assessment Detail
District North-West Somaliland Sorghum Area ha Sorghum Transects Production Maize Area ha Maize Transects Production Production Production
Agropastoral Villages Farming Case-studies Total area Driven Walking Sorghum Case-studies Total area Driven T Walking T Maize Cereals Cereals
Villages POP 2005+ households ha/hh ha PET code Sorg t/ha Prod tonnes ha/hh ha PET code Maiz t/ha Prod tonnes Prod tonnes t/hh
Borama Qaloocan 1100 157 2.00 314 red 3.00 943 0.36 57 blue 0.6 34 977 6.2
Borama Tul i 1600 229 2.00 457 yel low 2.20 1006 0.36 82 blue 0.4 33 1039 4.5
Borama Shirwac lagu baanay750 107 2.00 214 blue 1.10 236 0.36 39 blue 0.4 15 251 2.3
Borama Walaal goo 750 107 2.00 214 yel low 1.90 407 0.36 39 blue 0.4 15 423 3.9
Borama Abu qays 1300 186 2.00 371 blue 0.70 260 0.36 67 blue 0.4 27 287 1.5
Borama Hol-Hol 800 114 2.00 229 yel low 1.60 366 0.36 41 blue 0.4 16 382 3.3
Borama Jir-Ji rka 500 71 2.00 143 yel low 2.10 300 0.36 26 blue 0.4 10 310 4.3
Borama Qol i jeed 3500 500 2.00 1000 yel low 1.60 1600 0.36 180 blue 0.4 72 1672 3.3
Borama Goryawal l 840 136 2.00 272 yel low 2.20 598 0.36 49 blue 0.6 29 628 4.6
Borama Sh. Yusef 70 93 2.00 186 yel low 2.90 539 0.36 33 blue 0.7 23 563 6.1
Borama Hayaabo 350 50 2.00 100 yel low 1.60 160 0.36 18 blue 0.4 7 167 3.3
Borama Sugsugley 140 20 2.00 40 yel low 2.10 84 0.36 7 blue 0.6 4 88 4.4
Borama Ashocado 2205 315 2.00 630 yel low 1.60 1008 0.36 113 blue 0.4 45 1053 3.3
Borama Ceelbahay 1050 150 2.00 300 yel low 1.10 330 0.36 54 blue 0.4 22 352 2.3
Borama Degmo Iaqas 1540 220 2.00 440 blue 0.70 308 0.36 79 blue 0.4 32 340 1.5
Borama Arragunuud 2205 315 2.00 630 blue 0.70 441 0.36 113 blue 0.4 45 486 1.5
Borama District 18700 2770 2.00 5541 1.55 8586 0.36 997 0.43 432 9017 3.3
Baki Duud Weine 550 79 1.46 115 yel low 2.90 333 0.44 35 blue 0.7 24 357 4.5
Baki Jaaraahorato 1450 207 1.46 302 yel low 1.20 363 0.44 91 blue 0.4 36 399 1.9
Baki Qabri dhaawad 450 64 1.46 94 yel low 1.20 113 0.44 28 blue 0.4 11 124 1.9
Baki Waxaro waal isay 400 57 1.46 83 blue 0.20 17 0.44 25 blue 0.4 10 27 0.5
Baki Dharaar- waxar 450 64 1.46 94 yel low 1.20 113 0.44 28 blue 0.4 11 124 1.9
Baki Saati le 500 71 1.46 104 yel low 2.10 219 0.44 31 blue 0.6 19 238 3.3
Baki Geed dikhs i 850 121 1.46 177 yel low 2.40 425 0.44 53 blue 0.7 37 463 3.8
Baki Dawaley 350 50 1.46 73 yel low 2.10 153 0.44 22 blue 0.6 13 167 3.3
Baki Admadoni 1050 150 1.46 219 yel low 1.60 350 0.44 66 blue 0.4 26 377 2.5
Baki Dhuxunka 420 60 1.46 88 yel low 1.20 105 0.44 26 blue 0.4 11 116 1.9
Baki Dabaccado 945 135 1.46 197 yel low 2.10 414 0.44 59 blue 0.6 36 450 3.3
Baki Di la 539 77 1.46 112 yel low 2.10 236 0.44 34 blue 0.6 20 256 3.3
Baki Old baki 490 70 1.46 102 yel low 2.10 215 0.44 31 blue 0.6 18 233 3.3
Baki Baki 2499 357 1.46 521 yel low 2.10 1095 0.44 157 blue 0.6 94 1189 3.3
Baki District 10943 1563 1.46 2282 1.82 4150 0.44 688 0.54 368 4518 2.9
Hargeisa Xadhig xadhig 2000 286 1.60 457 0 0 0 0.57 163 0 0 0 0 0.0
Hargeisa Toon 1400 200 1.60 320 0 0 0 0.57 114 0 0 0 0 0.0
Hargeisa Habaas Wein 1200 171 1.60 274 0 0 0 0.57 98 0 0 0 0 0.0
Hargeisa Cuna Qabad 700 100 1.60 160 0 0 0 0.57 57 0 0 0 0 0.0
Hargeisa Garabis 2600 371 1.60 594 0 0 0 0.57 212 0 0 0 0 0.0
Hargeisa Xagal 1500 214 1.60 343 yel low 1.60 549 0.57 122 blue 0.4 49 597 2.8
Hargeisa Malowle 3500 500 1.60 800 yel low 1.30 1040 0.57 285 blue 0.4 114 1154 2.3
Hargeisa Gadhka yogol 1700 243 1.60 389 yel low 1.80 699 0.57 138 blue 0.6 83 782 3.2
Hargeisa Aburi in 1500 214 1.60 343 yel low 2.20 754 0.57 122 blue 0.7 86 840 3.9
Hargeisa Lafta faraweine 3600 514 1.60 823 0 0 0 0.57 293 blue 0.4 117 117 0.2
Hargeisa Abaarso 2800 400 1.60 640 yel low 1.90 1216 0.57 228 blue 0.4 91 1307 3.3
Hargeisa Caaraale 1000 143 1.60 229 red 3.20 731 0.57 81 blue 1.0 81 813 5.7
Hargeisa Bholdeet 700 100 1.60 160 blue 1.60 256 0.57 57 blue 0.6 34 290 2.9
Hargeisa Xaraf 1400 200 1.60 320 yel low 1.50 480 0.57 114 blue 0.6 68 548 2.7
Hargeisa Dhaboolag 2000 250 1.60 400 yel low 1.70 680 0.57 143 blue 0.6 86 766 3.1
Hargeisa Goryo 1050 150 1.60 240 blue 0.23 55 0.57 86 blue 0.6 51 107 0.7
Hargeisa Hareed 1050 150 1.60 240 yel low 1.70 408 0.57 86 blue 0.6 51 459 3.1
Hargeisa 0romada 700 103 1.60 165 yel low 1.60 264 0.57 59 blue 0.6 35 299 2.9
Hargeisa MaygaataW 770 113 1.60 181 yel low 1.60 289 0.57 64 blue 0.6 39 328 2.9
Hargeisa MaygaataYar 770 115 1.60 184 yel low 1.60 294 0.57 66 blue 0.6 39 334 2.9
Hargeisa District 31940 4538 1.60 7261 1.06 7716 0.57 2587 0.40 1025 8741 1.9
Gabi ley Hidhinta 2500 357 1.70 607 yel low 1.40 850 0.50 179 blue 0.4 71 921 2.6
Gabi ley Geed abeera 1500 136 1.70 231 yel low 1.40 323 0.50 68 blue 0.4 27 350 2.6
Gabi ley Arroyaanbo 1200 171 1.70 291 yel low 2.40 699 0.50 86 blue 0.7 60 759 4.4
Gabi ley Korjiga 1350 193 1.70 328 yel low 1.90 623 0.50 96 blue 0.6 58 681 3.5
Gabi ley Gogoysa bari 1400 200 1.70 340 yel low 1.85 629 0.50 100 blue 0.6 60 689 3.4
Gabi ley Gogayso ga lbet 1050 150 1.70 255 red 3.10 791 0.50 75 yel low 1.0 75 866 5.8
Gabi ley Botor 1000 143 1.70 243 yel low 2.50 607 0.50 71 yel low 1.0 71 679 4.8
Gabi ley Galoolay 1700 243 1.70 413 yel low 3.00 1239 0.50 121 yel low 1.0 121 1360 5.6
Gabi ley Goray 1400 200 1.70 340 yel low 2.20 748 0.50 100 blue 0.7 70 818 4.1
Gabi ley Ijaara 2400 343 1.70 583 yel low 2.30 1341 0.50 171 blue 0.7 120 1461 4.3
Gabi ley Boodhlay 1900 271 1.70 461 yel low 2.90 1338 0.50 136 blue 0.7 95 1433 5.3
Gabi ley GeedBholag 1750 250 1.70 425 yel low 2.30 978 0.50 125 blue 0.7 88 1065 4.3
Gabi ley Idhanka deeryahanka2500 357 1.70 607 blue 0.80 486 0.50 179 blue 0.4 71 557 1.6
Gabi ley Balaygs cas 800 114 1.70 194 blue 1.20 233 0.50 57 blue 0.4 23 256 2.2
Gabi ley Kalabaydh 4000 571 1.70 971 yel low 2.70 2623 0.50 286 yel low 1.0 286 2909 5.1
Gabi ley Ilka weine 2200 314 1.70 534 yel low 2.60 1389 0.50 157 blue 0.7 110 1499 4.8
Gabi ley Ilma dedo 1500 214 1.70 364 red 3.70 1348 0.50 107 yel low 1.0 107 1455 6.8
Gabi ley Lo' ka aroor 750 107 1.70 182 yel low 2.90 528 0.50 54 blue 0.7 38 566 5.3
Gabi ley Gogol wanaag 1850 200 1.70 340 yel low 1.90 646 0.50 100 blue 0.7 70 716 3.6
Gabi ley Boqor 2000 333 1.70 566 red 3.80 2151 0.50 167 yel low 1.0 167 2318 7.0
Gabi ley Hunshaly 1300 155 1.70 264 yel low 1.23 324 0.50 78 yel low 0.7 54 378 2.4
Gabi ley Il in 1400 200 1.70 340 red 3.00 1020 0.50 100 yel low 1.0 100 1120 5.6
Gabi ley Banka 2112 300 1.70 510 yel low 1.40 714 0.50 150 blue 0.4 60 774 2.6
Gabi ley Waaja la 3840 600 1.70 1020 yel low 1.30 1326 0.50 300 blue 0.4 120 1446 2.4
Gabi ley Arabsyo 3395 485 1.70 825 yel low 1.20 989 0.50 243 blue 0.4 97 1086 2.2
Gabi ley Sati le 1500 243 1.70 413 yel low 2.30 950 0.50 122 blue 0.7 85 1035 4.3
Gabi ley Juffa 1050 150 1.70 255 yel low 1.60 408 0.50 75 blue 0.6 45 453 3.0
Gabi ley Jamee-a 1050 96 1.70 163 yel low 1.23 201 0.50 48 blue 0.4 19 220 2.3
Gabi ley Har addat 1190 170 1.70 289 yel low 1.60 462 0.50 85 blue 0.6 51 513 3.0
Gabi ley La lays 1050 150 1.70 255 yel low 1.8 459 0.50 75 blue 0.6 45 504 3.4
Gabi ley Taysa 3000 428 1.70 728 yel low 1.6 1164 0.50 214 blue 0.4 86 1250 2.9
Gabi ley Elba i 2100 300 1.70 510 yel low 2.0 1020 0.50 150 blue 0.6 90 1110 3.7
Gabi ley Ichiwaja 1400 300 1.70 510 yel low 2.8 1428 0.50 150 blue 0.7 105 1533 5.1
Gabi ley Gudka 2499 357 1.70 607 blue 0.8 486 0.50 179 blue 0.4 71 557 1.6
Gabi ley L.Tinka 3290 470 1.70 799 yel low 2.0 1598 0.50 235 blue 0.6 141 1739 3.7
Gabi ley Caabuda 840 120 1.70 204 yel low 2.4 490 0.50 60 blue 0.6 36 526 4.4
Gabi ley Guulmayado 840 120 1.70 204 yel low 2.8 571 0.50 60 blue 0.7 42 613 5.1
Gabi ley Saaray 1470 210 1.70 357 yel low 2.5 893 0.50 105 blue 0.6 63 956 4.6
Gabi ley Bus 3290 470 1.70 799 yel low 3.1 2477 0.50 235 yel low 1.0 235 2712 5.8
Gabi ley Botor hoose 3199 457 1.70 777 yel low 2.5 1942 0.50 229 blue 0.6 137 2079 4.6
Gabi ley Beeyo Liban 840 120 1.70 204 yel low 1.9 388 0.50 60 blue 0.6 36 424 3.5
Gabi ley Tospale 2450 350 1.70 595 yel low 2.8 1666 0.50 175 blue 0.7 123 1789 5.1
Gabiley District 77855 11120 1.70 18904 2.14 40544 0.50 5560 0.65 3629 44173 4.0
NWAP zone 139438 19992 1.70 33988 1.79 60997 0.49 9832 0.55 5454 66451 3.3
27
Annex 1 Further assumptions to be considered for the whole State of Somaliland based on production
noted above are:-
Mid-year 2012 population in State of Somaliland is estimated at 1.99 million people extrapolated
from 1.8 million (UNDP 2005) increased by 1.5% per annum.
Average per caput mixed cereal consumption in 2011/12 is assumed to be 135 kg/annum21;
Food grain domestic consumption requirement 2011/12 is 268,650 tonnes cereal grains.
No grain is used for livestock feed consumption.
Seed requirement of 1000 tonnes for the next season; based on 2011 cropped areas plus 10% and
15 kg/ha seed rates: sorghum requirement for 35,000 ha is 525 tonnes; maize- gu and karan
requirement for 12,000 ha is 185 tonnes; plus further seeds a) 16,000 ha of possible reseeding and
a possible 2,000 ha of cereals sown in other locations.
7014 tonnes domestic post-harvest losses; 10 percent domestic production sorghum and 15%
domestic production maize. In the light of no information regarding losses in peasant farms in State
of Somaliland, the Mission has adopted norms from studies carried out earlier and elsewhere (FAO
1977: Analysis of an FAO Survey of Post-harvest Crop Losses in Developing Countries).
209,563 tonnes net commercial cereal grain equivalent imports 2011/12
o NB Compare with total commercial cereal grain equivalent imports in 2011 through Berbera
and Togwajaale estimated at 275,277 tonnes a year of mixed cereals viz
c 60,000 tonnes of milled rice imported 2011(extrapolated to December using data
2010); converted to paddy at 83,300 tonnes
c. 80,000 tonnes of wheat flour imported 2011 (extrapolated to December using
data 2010) converted to wheat grain at 104,000 tonnes22.
38,480 tonnes pasta, converted to wheat grain at 69,477 tonnes
Total Berbera import 256,777 tonnes grain equivalent.
1,432 tonnes sorghum, extrapolated to December using 2010 data;
17,343 tonnes maize, extrapolated to December using 2010 data;
Total Togwajaale import 18,500 tonnes.
o Total re-exported cereals through Togwaajale are estimated at 22,781 tonnes
4175 tonnes of wheat flour converted to wheat grain at 5,430 tonnes;
10,726 tonnes of milled rice converted to paddy rice at 14,801 tonnes;
1,412 tonnes pasta converted to wheat grain at 2550 tonnes.
o Net cereal imports 2011 are estimated at 252,496 tonnes of cereal grain equivalents.
Closing stocks of cereals for marketing year 2011/12 are estimated to be the same as opening
stocks 2011. Although formal sorghum stocks are reported by MoA to be minimal, it is highly likely
that, after three good sorghum harvests long-term stocks of sorghum are held in private
underground stores.
Therefore, in the partial cereal grain balance below “x opening stocks = y closing stocks.”
Given that the required net imports at 209,563 tonnes are estimated below the commercial imports
recorded in 2011, it is anticipated that a) if livestock prices stay firm and b) if the level of remittances are
sustained, State of Somaliland will have the revenue to import enough grain commercially to make good
domestic production shortfalls.
However, at the household level, incomes vary, necessitating support for those in precarious food
situations and abysmal living conditions. Food aid in 2011 is noted to have been 4,100 tonnes of maize in
addition to the commercial imports. Such needs are to be determined in conjunction with WFP and may
again be supported by food aid imports if local purchasing proves too complicated.
21
No disaggregated data by cereal type available 22
NB Government of Somaliland (GoS) data show 150,000 tonnes of wheat/ wheat products- 2009 data.
28