Income contribution and adoption potential of apple based agroforestry on homestead farms in West and North Shoa zones of Ethiopia

To reduce the local people high reliance on the remnant forest, the then Forestry Research Center and GTZ introduced and provided Apple tree seedlings for selected residents in the West and North Shoa Zones of Ethiopia two decades ago. However, despite the provision of such variety of seedlings, a study that assessed the contribution of the fruit trees to the household economy improvement, and the various determinant factors that limit the adoption of the technology was lacking. Therefore, this study was initiated to estimate and compare households’ income from apple based agroforestry system and identify factors that influence its adoption by smallholder farmers in both West and North Shoa Zones of Ethiopia. From three Woredas of the two zones, four potential Kebeles were purposefully chosen, and from which 600 households were randomly selected. The results showed that in both study areas, the aggregated adopter household mean annual gross income from vegetable + apple fruit was 24,337.22ETB ha -1 yr -1 and mean annual gross income of non-adopters from vegetables was 7480.53ETB ha -1 yr -1 . The income obtained from apple contributes 16.84% to the income of agri-horticultural system. The agri-horticulture system contributed three-fold higher gross revenue for adopters in addition to its nutritional value. However, adoption of apple-based agroforestry systems was significantly influenced by formal educational levels (+), a Market problem (-), Disease and Pest to maximize the benefits from the system, interdisciplinary research needs to be conducted to reduce the problem of marketing and disease and pest.


INTRODUCTION
Fruit-tree-based agroforestry involves intentional, the simultaneous association of annual or perennial crops with perennial fruit-producing trees on the same farm unit.Trees grown on farms for their non-timber forest products such as fruits, nuts, and spices constitute the basis for many vibrant and sustainable farming systems.
Because of a high market value of their products and the contribution of fruits to household dietary needs, fruittree-based agroforestry enjoys high popularity among resource-limited producers worldwide (Korwar et al., 2014).Farmers prefer fruit-producing species to other trees for on-farm planting and appreciate the dual contributions of food for consumption and the potential for income generation (Meseret, 2015).Fruit trees are considered advantageous because of the relatively high returns to labor resulting from low labor inputs (compared with annual crops); moreover, fruit tree-based systems also offer a more uniform distribution of income throughout the year than annual crop systems.
Most examples of fruit-tree-based agroforestry have developed over long periods of time in response to interactions between agro-ecological conditions, plant diversity, and farmer resources and needs.Because of this, the system performance at any given location will depend to a great extent on several site-specific features.Nevertheless, the system performance also follows some typical characteristics such as their potential benefits and limitations that are applicable to wider regions (Abhisherk, 2014).An understanding of such typical characteristics of these systems is helpful for adaptation and extension of the system to other highland areas with similar production environments.Successful establishment of fruit-based agroforestry system in the highland areas can increase farm household income, enrich their diets with essential minerals, vitamins and increase varieties of fruits available in the local markets (Gideon and Verinumbe, 2013).However, the relatively "free" availability of forest-based timber-and fuelwood products in some areas are seen as disincentives for growing tree species for those purposes (Meseret, 2015).
Promotions of on-farm tree/shrub plantings could also greatly relieve the pressure on the remnant natural forest by providing the variety of forest products (Sisay and Mekonnen, 2013).In order to minimize farmers pressure to the forest and improve the livelihood of the people the then Forestry Research Centre (FRC) in 2007, and GTZ in 2008, introduced and provided four apple varieties namely, Anna, Crispin, Dorset-golden, and Princesa, to the dwellers of North and West Shoa Zones of Ethiopia.This study is based on the premise that farmers in landscarce situations can directly benefit by incorporating fruit trees into an agricultural landscape with few other trees and this also relieve the people pressure to the natural forest.
Since, fruit trees enjoy great popularity among subsistence farmers and provide tangible benefits in short time frames (Rankoana, 2017).Despite the provision of such variety of apple tree seedlings to the farmers in the area, knowledge of critical factors that can lead to the adoption of these systems as a land management alternative is yet to be identified.Thus, the objective of this investigation was to assess the income contribution and potential for adoption of apple-based agroforestry by smallholder farmers in an area similar in many respects to other highly-populated highland areas.We hypothesized that fruit-tree-based agroforestry would be of interest to smallholder farmers, but that potential differences in adoption rates could be explained by various socioeconomic factors.

Study area
The study was conducted in West and North Shoa Zones of Oromia region.Dendi Woreda is one of the 19 Woredas in West Showa zone of Oromia region and consists of 48 Kebeles.It is about 78 km west of Addis Ababa along the Addis Ababa-Nekemte highway.The Woreda lies within the coordinates from 8° 43' North to 9° 17' North Latitude and 37° 47' East to 38° 20' East Longitude, by relative location, the Woreda shares boundaries with other seven Woredas: Jaldu and Ilfeta Woredas in the north, Dawo and Walliso Woredas in the south, Ejere and Ilu Woredas in the east and Ambo Woreda in the west (Dendi Woreda Agricultural and Rural Development Office (DWARDO), 2017).Among the 48 Kebeles, the study was conducted in two Kebeles of Dendi Woreda, namely Gare Area and Bejiro Kebeles'.The major fraction of Gare Arera Kebele is covered by Chilimo National Forest.
From the North Shoa Zone, Degem and Hindbu Abote Woredas were selected.Degem Woreda, lies between 9° 47 '29" -9° 47' 13'' N latitude and 38° 31' 09" -38° 32' 50" E longitudes about 125 km North of Addis Ababa.The Woreda covers a total land of 67,020 ha with a widely varying altitudinal range of 1500 -3450 m.a.s.l., accordingly; 30% of the total land area lies in high land, 38% mid high land and 32% low land.The area receives a mean annual rainfall of 1157 mm, a mean maximum temperature of 20°C and a mean minimum temperature of 8.7°C (DWARDO, 2017).Degem woreda has eighteen peasant associations from this the dominant Apple based agroforestry producer is Ali doro kebele (DWARDO, 2017) (Figure 1).

Sampling
Dendi, Degem and Hindbu Abote Woredas were selected based on the productivity of apple-based agroforestry system.Before the selection of appropriate Kebeles, consultation with the expertise of the Woreda agricultural office was made to get information related to potential fruit producer Kebeles.Consequently, four Kebeles namely, Gare Area, Bejiro, Alidoro and Yaya Dakabora were purposefully selected based on high fruit production and accessibility.
Several rules-of-thumb have been suggested for determining the minimum number of subjects (households) required to conduct multiple regression analysis.For this study, a rule-of-thumb that N ≥ 50 + 8 m, where N is the minimum number of households and m is explanatory variables, was used (Bonett and Wright, 2014).The explanatory variables hypothesized to influence the adoption of apple-based agroforestry in this study were fourteen.Thus, a total of 600 farm households were randomly selected from the purposively selected four Kebeles.In each selected apple growing Kebeles, two groups of farmers were identified as adopters and non-adopters using adoption category as stratification criteria.From each strata using simple random sampling technique, proportional to the population of Kebeles identified, study sample respondents were selected randomly from the list of household heads.Accordingly, from all selected Kebeles a total of 85 adopters and 515 non-adopters were randomly identified.

Source and methods of data collection
Both primary and secondary data were collected to address the objectives of the study.Primary data were collected from sampled household heads by conducting the formal survey using a structured questionnaire.In addition, information collected using structured questionnaire was supplemented with group discussions (GDs).The discussion was conducted to confer specific issues related to the purpose of the study by forming small groups with a homogeneous composition.Hence, eight GDs were held with selected farmers in the specific Kebeles and the researcher thoroughly investigated the advantage that adopters achieve and the various determinant factors that limit the adoption process.Secondary data that were important for supporting the primary data have been from the relevant Zonal and Woreda offices.

Method of data analysis
To meet the objectives of the study, both descriptive and econometric analysis was employed.To answer the question of factors influencing the adoption of apple-based agroforestry system, a binary logistic regression model was used.The model used to describe the relationship between dependent variable and a set of independent variables.The dependent variable was binary or dichotomous and had only two groups: adopters and non-adopters, whereas, the explanatory variables could be continuous, categorical or dummy.The logistic function was used since it represents a close approximation to the cumulative normal distribution and is easier to use than other types of model (Gujarati, 2004).Logistic regression model has been used by most of agroforestry adoption studies to analyze dichotomous adoption decisions in which the dependent variable is binary: 1 if household head is the adopter, 0 otherwise.

Variables used in the empirical model and hypothesized effects
Dependent variables: In this study, adoption of apple-based AF system used as a dependent variable.

Independent variables:
It is hypothesized that farmers' decision to adopt or reject new technologies at any time is influenced by the combination of various factors.This includes both dummy and continuous variables such as: household characteristics, socioeconomic characteristics and institutional characteristics in which farmers operate.In this study fourteen explanatory variables were considered as the determinant factors for the adoption of the system (Table 1).

Production and income from apple based agroforestry system
In selected districts, sampled household heads mainly depends on crop and livestock production.Among the total sampled households in Degem districts, about 87.5% of Adopters and 97.1% of non-adopters rely on crop production.Besides, in Dendi District 76.8% of adopters and 77.6% non-adopters relays on crop production.Farmers in the study area plant various vegetables solely or in integration with apple tree and use the product for household consumption and/or as an income source.The mean annual production (in Quintal) and income from vegetables and apple fruit (in ETB) are summarized in Tables 2 to 10.

Enset (Ensete ventricosum):
Annual Enset production of adopters and non-adopters was 122.20 and 24.73 number ha -1 yr -1 .The gross financial return for adopters was 11245 ETB ha -1 yr -1 and for non-adopters 2317 ETB ha -1 yr -1 . The income difference was statistically significant (P<0.01).Hence, adopters' income from Enset production exceeds non-adopters 5 times.Non-adopters' annual income from the whole produced vegetables were 6768.69ETB ha -1 yr -1 and adopters obtained 29,277.75ETBha -1 yr -1 (Table 3).An independent sample t-test was carried out to compare the mean gross annual income of adopters and nonadopters.There was a positively significant gross annual income difference between adopters and non-adopters, p = 0.001 (two-tailed).
Adopters' annual income from the whole produced vegetables and apple fruit were 39525.250ETBha -1 yr -1 , and non-adopters obtained 6768.69ETBha -1 yr -1 (Table 4).An independent sample t-test was carried out to compare the mean gross annual income of adopters and non-adopters.There was a positively significant income difference between adopters and non-adopters, p = 0.001 (two-tailed).Apple fruit contributes 35% of the income for the agri-horticultural system., respectively.The gross financial return for adopters was 10639 ETB ha -1 yr -1 and for nonadopters 5136 ETB ha -1 yr -1
Adopters' annual incomes from the whole produced vegetables were 18869.86ETB ha -1 yr -1 and nonadopters obtained 8356.13ETBha -1 yr -1 (Table 6).An independent sample t-test was carried out to compare the mean gross annual income of adopters and non- adopters.There was a positively significant gross annual income difference between adopters and non-adopters, p = 0.001 (two-tailed).Adopters' annual income from the whole produced vegetables and apple fruit were 20697.1 ETB ha -1 yr -1 and non-adopters obtained 8356.13ETB ha -1 yr -1 (Table 7).An independent sample t-test was carried out to compare the mean gross annual income of adopters and nonadopters.There was a positively significant gross annual income difference between adopters and non-adopters, p = 0.001 (two-tailed).Apple fruit contributes 8.83% of the income for the agri-horticultural system.
The aggregated analysis was conducted to determine households' annual income from the homestead farmland.Adopters' annual income from the whole produced vegetables and apple fruit were 24337.22ETB ha -1 yr -1 and non-adopters obtained 7480.53ETB ha -1 yr -1 (Table 10).An independent sample t-test was carried out to compare the mean gross annual income of adopters and non-adopters.There was a positively significant gross annual income difference between adopters and non-adopters, p = 0.001 (two-tailed).Apple fruit  contributes 16.84% of the income for the agri-horticultural system.Results of the present study agree with the findings of the study that was conducted in Pakistan to assess the economic comparison of Agriculture (sugarcane cultivation) with Agroforestry (sugarcane cultivation in combination with trees).The result showed that the benefit cost ratio of sugarcane system was computed as 2.16 whereas net present worth was found as Rs.149810.2.Beside Benefit cost ratio of sugarcane in combination with trees was computed to be 2.28 whereas net present worth found to be Rs.151098.5 (Anjum et al., 2011).Furthermore, income obtained from apple contributes 17% of the total income from an agrihorticultural system.Ndalama (2015) reported that in the rural household communities of Balaka, Malawi, adoption of agroforestry contributed 51.7% of the farm households' income.

Determinants of apple tree adoption
Fourteen explanatory variables were identified to explain factors influencing the adoption of apple tree-based agroforestry system in North and West Shoa Zones.The effects of the independent variables on the log odds of adopting apple based agroforestry system are reported as odds ratio alongside the parameter estimates.For independent variables, the odds ratio (  e ) represent the amount by which the odds favoring the decision to adopt apple based agroforestry system (adopter =1) changes for a change in that independent variable (Tables 11 to 13).Out of fourteen explanatory variables included explaining the dependent variable, three were found to be significant.Formal educational level of the household head, market problem and the problem of pest and disease were significant independent variables.
The formal education level of the household head as expected had a positive influence in the adoption of apple-based agroforestry system.Keeping other factors constant, the odd ratio indicated that increase in educational level by one year increase the favor of adoption by a factor of 5.008.The endpoints of a 95% confidence interval (CI) of the odds ratio is (2.495, 10.050).However, the finding is against the study carried out by Mwema et al. (2012) who found out that a higher level of formal schooling is associated with less collection and dependency on fruit producing trees.A higher level of education provides a wider range of employment opportunities and as a result alternative sources of income.
The market problem was statistically significant (p < 0.01) and had the negative relationship with the adoption of apple-based agroforestry system.Keeping other factors constant, the odd ratio indicated that as apple fruit market problem increase the favor of adoption decrease by a factor of 4.746.The endpoints of a 95% confidence interval (CI) of the odds ratio is (2.406, 9.361).Because the marketing aspects are also important to the farmer, they need to have access to information about the market (e.g.prices, demand and supply, expectations).A farmer will not decide to change their production system unless they see the security of marketing possibilities.Farmers are not likely to be interested in producing commodities if transport costs are high.They will also be reluctant to make or continue investments in AF if prices fluctuate widely.Knowledge of market is critical, as it can help identify whether agroforestry interventions have the possibility of saturating them and therefore bringing prices down.During the Group Discussion that conducted in Bejiro Kebele farmers stated that the demand for apple fruit is very low and a majority of the people did not even know what Apple is.Besides in Degem Woreda, farmers stated that to sell apple fruit they travel to Addis Ababa, which is about 125 km far from their residence because the people there well know the fruit's nutritional values.Considering the serious market problem, non-adopters becomes reluctant to plant the apple tree, and one farmer among the group discussant stated "why do you bother us to plan apple fruit; what tangible benefits did adopters obtain?It helps us if we plant vegetables in the homestead farmland rather than taking space through planting apple fruit tree." Disease and pest were statistically significant (p < 0.01) and has negative relationship with the adoption of applebased agroforestry system.Keeping other factors constant, the odd ratio indicated that as apple fruit

Figure 1 .
Figure 1.Map of the study area.

Table 1 .
Definition of independent variables, which were included in the econometric model and expected sign.

Table 2 .
Households total annual income from vegetable productions in the homestead farmland in Degem district.
***, ** Significant at 1 and 5% probability level; Mean values with different superscript letters along the same rows are statistically different.Source: Own survey.

Table 3 .
Mean household heads total annual income from vegetable in Degem District (North Shoa Zone).
*** Significant at 1% probability level; Mean values with different superscript letters along the same rows are statistically different (P<0.01).Source: Own survey.

Table 4 .
Mean household heads total annual income from Apple fruit + vegetable in Degem District (North Shoa Zone).

Table 5 .
Households total annual vegetable productions in the homestead farmland in Dendi district.
***, ** Significant at 1 and 5% probability level; Mean values with different superscript letters along the same rows are statistically different.Source: Own survey.

Table 6 .
Mean household heads total annual income from vegetable in Dendi District (West Shoa Zone).

Table 7 .
Mean household heads total annual income from Apple fruit + vegetable in Dendi District (West Shoa Zone).

Table 8 .
Households total annual vegetable productions in the homestead farmland in both district (North and West Shoa Zones).

Table 9 .
Mean household heads total annual income from vegetable in North and West Shoa Zones.

Table 10 .
Mean household heads total annual income from Apple fruit + vegetable in North and West Shoa Zones.

Table 11 .
Maximum likelihood estimate of the binary logit model for Adoption determinant factors in Degem District.