Soil in Atsbi Wenberta

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Dambo in Era at the fringe of Des'a forest Dambo in Era at the fringe of Des'a forest.tif
Dambo in Era at the fringe of Des’a forest

The soils of the Atsbi Wenberta woreda (district) in Tigray (Ethiopia) reflect its longstanding agricultural history, highly seasonal rainfall regime and relatively low temperatures. The northern part of the district is on the high uplifted Atsbi Horst (with metamorphic rock and consolidated Palaeozoic fluvio-glacial deposits), whereas the southern part is dominated by the Des’a forest on Antalo Limestone. In between there is the fluvial landscape of Hayqi Meshal. Particularities in the southern part of the district are soil catenas on intervening plains behind tufa dams and in a polje. [1] [2] [3]

Contents

Factors contributing to soil diversity

Climate

Annual rainfall depth is very variable with an average of around 800 mm. [4] Most rains fall during the main rainy season, which typically extends from June to September. Mean temperature in woreda town Atsbi is 17 °C, oscillating between average daily minimum of 9.4 °C and maximum of 24.3 °C. The contrasts between day and night air temperatures are much larger than seasonal contrasts. [5]

Geology

The following geological formations are present in the southern part: [6]

On the northern Atsbi Horst:

Topography

As part of the Ethiopian highlands the land has undergone a rapid tectonic uplift, leading the occurrence of plateaus, valleys and gorges.

Land use

Generally speaking the level lands and intermediate slopes are occupied by cropland, while there is rangeland and shrubs on the steeper slopes. Remnant forests occur around Orthodox Christian churches, in a few inaccessible places and especially in the Des’a forest. A recent trend is the widespread planting of eucalyptus trees.

Environmental changes

Soil degradation in this district became important when humans started deforestation almost 5000 years ago. [9] [10] Depending on land use history, locations have been exposed in varying degrees to such land degradation.

Geomorphic regions and soil units

Given the complex geology and topography of the district, it has been organised into land systems - areas with specific and unique geomorphic and geological characteristics, characterised by a particular soil distribution along the soil catena. [11] [12] [13] Soil types are classified in line with World Reference Base for Soil Resources and reference made to main characteristics that can be observed in the field.

Enticho Sandstone plateau

Typical catena on an Enticho Sandstone plateau, mesa and footslope (Atsbi Horst) Enticho Sandstone mesa (Atsbi Horst).tif
Typical catena on an Enticho Sandstone plateau, mesa and footslope (Atsbi Horst)
Leptic Cambisol profile Leptic Cambisol in Atsbi Ethiopia profile.jpg
Leptic Cambisol profile
Leptic Cambisol Leptic Cambisol in Atsbi Ethiopia.jpg
Leptic Cambisol

Mesas in Enticho Sandstone

Colluvial slopes at the edge Enticho Sandstone plateaus

Undulating plain (Atsbi horst)

Typical catena in the undulating plain on Precambrian rock (Atsbi Horst) Undulating plain on Precambrian rock (Atsbi Horst).tif
Typical catena in the undulating plain on Precambrian rock (Atsbi Horst)
Haplic Fluvisol profile Haplic Fluvisol in Atsbi Ethiopia profile.jpg
Haplic Fluvisol profile
Haplic Fluvisol on Precambrian rock Haplic Fluvisol in Atsbi Ethiopia.jpg
Haplic Fluvisol on Precambrian rock
Haplic Cambisol profile Haplic Cambisol in Atsbi Ethiopia profile.jpg
Haplic Cambisol profile
Haplic Cambisol Haplic Cambisol in Atsbi Ethiopia.jpg
Haplic Cambisol

Gently rolling topography on Precambrian rock (Atsbi Horst)

Typical catena in the gently rolling topography on Precambrian rock (Atsbi Horst) Gently rolling topography on Precambrian rock (Atsbi Horst).tif
Typical catena in the gently rolling topography on Precambrian rock (Atsbi Horst)
Leptic Luvisol on the Atsbi horst Leptic Luvisol on the Atsbi horst.tif
Leptic Luvisol on the Atsbi horst

Rolling landscape on Precambrian rocks (Atsbi horst)

Typical catena on rolling topography on Precambrian rock (Atsbi Horst) Rolling topography on Precambrian rock (Atsbi Horst).tif
Typical catena on rolling topography on Precambrian rock (Atsbi Horst)

Severely incised Precambrian rock

Typical catena on severely incised Precambrian rock (Atsbi Horst) Severely incised Precambrian rock (Atsbi Horst).tif
Typical catena on severely incised Precambrian rock (Atsbi Horst)

Fluvial landscape of Hayqi Mesal

Typical catena in the fluvial landscape of Hayqi Mesal CeF1 Des'a fluvial landscape catena.tif
Typical catena in the fluvial landscape of Hayqi Mesal

Des’a forest

Typical catena in Des'a forest CeH1 Des'a forest catena.tif
Typical catena in Des’a forest
Mollic Calcaric Cambisol in Des'a Forest Mollic Calcaric Cambisol in Des'a Forest.tif
Mollic Calcaric Cambisol in Des'a Forest
Rendzic Leptosol in Desa Forest Ethiopia profile Rendzic Leptosol in Desa Forest Ethiopia profile.jpg
Rendzic Leptosol in Desa Forest Ethiopia profile
Rendzic Leptosol in Desa Forest Ethiopia Rendzic Leptosol in Desa Forest Ethiopia.jpg
Rendzic Leptosol in Desa Forest Ethiopia

Gallery: soils in Des’a forest

Des’a hills

Typical catena in the Des'a hills CeH2 Des'a hills catena.tif
Typical catena in the Des’a hills

Alluvial plains induced by tufa dams

Typical catena on Tufa dam backfill CeT Tufa dam catena.tif
Typical catena on Tufa dam backfill

Polje

Typical catena in the Lugdo polje CeUP1 Polje catena.tif
Typical catena in the Lugdo polje

Very gently undulating Agula shale

Typical catena in the very gently undulating Agula shale CeUP2 Very gently undulating Agula shale catena.tif
Typical catena in the very gently undulating Agula shale

Soil erosion and conservation

The reduced soil protection by vegetation cover, combined with steep slopes and erosive rainfall has led to excessive soil erosion. [9] [14] [15] Nutrients and organic matter were lost and soil depth was reduced. Hence, soil erosion is an important problem, which results in low crop yields and biomass production. [16] As a response to the strong degradation and thanks to the hard labour of many people in the villages, soil conservation has been carried out on a large scale since the 1980s and especially 1980s; this has curbed rates of soil loss. [17] [18] Measures include the construction of infiltration trenches, stone bunds, [19] check dams, [20] small reservoirs such as Addi Shihu and Era as well as a major biological measure: exclosures in order to allow forest regeneration. [21] On the other hand, it remains difficult to convince farmers to carry out measures within the farmland (in situ soil management), such as bed and furrows or zero grazing, as there is a fear for loss of income from the land. Such techniques are however very effective. [22]

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