Effect of Soil Microbiome from Church Forest in the Northwest Ethiopian Highlands on the Growth of Olea europaea and Albizia gummifera Seedlings under Glasshouse Conditions

Loss of beneficial microbes and lack of native inoculum have hindered reforestation efforts in the severely-degraded lands worldwide. This is a particularly pressing problem for Ethiopia owing to centuries-old unsustainable agricultural practices. This study aimed to evaluate the inoculum potential of soils from church forest in the northwest highlands of Ethiopia and its effect on seedling growth of two selected native tree species (Olea europaea and Albizia gummifera) under a glasshouse environment. Seedlings germinated in a seed chamber were transplanted into pots containing sterilized and/or non-sterilized soils collected from under the canopy of three dominant church forest trees: Albizia gummifera (AG), Croton macrostachyus (CM), and Juniperus procera (JP) as well as from adjacent degraded land (DL). A total of 128 pots (2 plant species × 4 soil origins × 2 soil treatments × 8 replicates) were arranged in a factorial design. Overall, seedlings grown in AG, CM, and JP soils showed a higher plant performance and survival rate, as a result of higher soil microbial abundance and diversity, than those grown in DL soils. The results showed significantly higher plant height, root collar diameter, shoot, and total mass for seedlings grown in non-sterilized forest soils than those grown in sterilized soils. Furthermore, the bacterial relative abundance of Acidobacteria, Actinobacteria, and Nitrospirae was significantly higher in the non-sterilized forest soils AG, CM, and JP (r2 = 0.6–0.8, p < 0.001). Soil pH had a strong effect on abundance of the bacterial community in the church forest soils. More specifically, this study further demonstrated that the effect of soil microbiome was noticeable on the performance of Olea seedlings grown in the soil from CM. This suggests that the soils from remnant church forests, particularly from the canopy under CM, can serve as a good soil origin, which possibly would promote the native tree seedling growth and survival in degraded lands.

Willingness to pay for church forest conservation: a case study in northwestern Ethiopia

Church forests provide a safe habitat for plants and animals, sources of food and traditional medicine, seed bank for native tree species, reduce soil erosion and rich in biodiversity. But the economic values of these important benefits of church forests were not well documented. Therefore, this study was conducted to estimate the mean and total willingness to pay for church forest conservation using open-ended and double bounded contingent valuation formats. In doing so, both cash and labour contributions were used to measure the respondents’ willingness to pay. Primary data were collected from 300 randomly selected households and analyzed using descriptive statistics and bivariate probit model. The estimated mean willingness to pay from the double bounded format (239.79 Ethiopian Birr) is higher than from the open-ended format (178 Ethiopian Birr). Similarly, the estimated mean willingness to contribute labour was also 71.51 and 94.34 man-days for the open-ended and double bounded contingent valuation format, respectively. The comparison indicated that the mean and total willingness to pay from the double bounded format is higher than in the open-ended format. Therefore, researchers, policymakers, and forestry experts should give special attention to the double bounded format rather than to the open-ended format to elicit respondents’ willingness to pay for the conservation of church forests.

Review: Church forests—the green spots of Ethiopian highlands

Mekonen AB, Gebreegziabher BG, Wassie WA, Tsegay BA. 2019. Review: Church forests—the green spots of Ethiopian highlands. Asian J For 3: 45-53. In the central and northern highlands of Ethiopia, the diversity and biomass of native vegetation are almost restricted to church forests which are the only remnant natural forest in the region. The church forests are sacred because the church is believed to be the house of God and everything in its compound is sacred and respected. However, they are under severe threats by both anthropogenic and a few natural disturbances. This review paper summarizes the role of Ethiopian church forests in the boundaries of Ethiopian Orthodox Tewahido Churches (EOTC), in biodiversity conservation, source of seed and seedling of native vegetation, ecological importance, ecosystem values and services to the community and to the globe in general. It also emphasizes the main challenges of these forests i.e., humans disturbance and natural disturbances. It states the conservation strategies of church forest. We conclude that the EOTCs besides its religious activities played a great role in conserving the forests. However, most church forests have no clear and documented demarcations which enhances disturbance. The churches are also cultivating fast-growing exotic species replacing native trees for their income. Finally, we recommend that the head priests should evoke and customize the conservation of sacred groves using religious thought. The government should acknowledge the church for conservation and decide to have a clear boundary for the church forest to minimize further encroachment. Forest genetic resources conservation program (in situ type), Participatory Forest Management (PFM), and rehabilitation activities have to be implemented in addition to the church conservation effort using religious thoughts, religious sanctions, and legal protection for the integrity of these remnant sacred groves. Further studies are recommended to fill the gap of sacred groves in addressing the cause of disturbance and to provide possible solutions for better conservation.

Woody Species Diversity, Structure, and Regeneration Status of Yemrehane Kirstos Church Forest of Lasta Woreda, North Wollo Zone, Amhara Region, Ethiopia

This study is aimed at generating data on woody species diversity, structure, and regeneration status of some species and was conducted in Yemrehane Kirstos Church Forest of Lasta Woreda, North Wollo Zone, Amhara Region, Ethiopia. Six transect lines were laid following altitudinal gradient. Quadrats of size 20 m × 20 m (400m2) were used to collect data that were established systematically at every 100 m interval along the transect lines. Data on woody species was collected from a total of 34 sampling quadrats of 400m2. To collect data on seedlings and saplings, five subplots of 1 m × 1m (1m2) size located at the four corners and centre of the main plot were used. Species diversity was determined using the Shannon-Wiener index (H′). A total of 39 woody species belonging to 38 genera and 29 families were identified in Yemrehane Kirstos Church Forest. The overall Shannon-Wiener diversity index (H′) and evenness values for the entire forest were 2.88 and 0.79, respectively. The six most abundant woody species in their order of highest density were Juniperus procera, Olea europaea subsp. cuspidata, Maytenus arbutifolia, Osyris quadripartita, Calpurnia aurea, and Debregeasia saeneb. The densities for mature woody species, saplings, and seedlings were 506.6, 514.7, and 415.4 individuals ha−1, respectively. The basal area of the forest is 72 m2 ha−1. The population structure and regeneration status of the forest indicated that there have been high forest degradation and severe anthropogenic disturbances in the area and, therefore, conservation of species, ecosystem restoration, and sustainable use of the forest genetic resources are recommended as a result of this study.