Soils of the Main Ethiopian Rift Valley escarpment: A transect study

Research output: Contribution to journalArticleResearchpeer review

Authors

External Research Organisations

  • University of Bayreuth
  • Martin Luther University Halle-Wittenberg
View graph of relations

Details

Original languageEnglish
Pages (from-to)209-219
Number of pages11
JournalCATENA
Volume70
Issue number2
Publication statusPublished - 15 Jul 2007
Externally publishedYes

Abstract

The mountainous environment of the Ethiopian highlands has a great variety of ecotopes and thus demands great flexibility in land management. Different climatic conditions and landscape positions induce different soil forming processes, leading to various soil types with specific risks and potentials. The present study portrays a soil sequence of the central section of the Main Ethiopian Rift Valley, from the footslopes of the eastern escarpment to the marginal volcano structures. Six profiles under natural vegetation are described for classification according to the USDA Soil Taxonomy and World Reference Base for Soil Resources classification systems, and special site characteristics are discussed. The Acacia savannah of the footslopes (1900 m a. s. l.) is characterized by Vertisols (Mazic Vertisols/Aridic Haplusterts), with often pronounced effects of seasonal waterlogging. All other soils are well-drained and reflect the general increase in rainfall with elevation and slope, causing a decline in topsoil pH and a change from cation-rich clay soils of the Podocarpus-dominated forest at 2300 m a. s. l. (Mollic Nitisols/Typic Palehumults) to strongly-leached Humic Umbrisols/Humic Dystrudepts of the Hagenia-dominated forest around 2600 m a. s. l. The highland savannah plain (2700 m a. s. l.) with a drier and cooler environment has typically Mollic Cambisols/Dystric Haplustepts, which are less leached and have a rather brownish colour. At 2900 m a. s. l., Niti-umbric Alisols/Andic Hapludalfs are found in the Hypericum forest at the midslopes of the marginal volcanoes receiving high rainfall, whereas soil development is at a more initial state in the Erica-dominated forest at 3200 m a. s. l. (Umbric Andosols/Alic Hapludands). Clay mineral composition is kaolinite-dominated for the upper five profiles, with a high proportion of poorly crystalline components in the upper savannah and the volcano upslopes. The lowermost profile probably has a polygenetic origin indicated by an abrupt change from a smectitic to a kaolinitic composition in the subsoil. Soil development on quite homogeneous bedrock appears essentially controlled by relief and climate, underlining the suitability of the region as a model area for in-depth gradient studies on ecosystem processes and land use.

Keywords

    Afromontane, Carbon stocks, Munessa Forest, Nitrogen, Soil fertility, Sulfur

ASJC Scopus subject areas

Sustainable Development Goals

Cite this

Soils of the Main Ethiopian Rift Valley escarpment: A transect study. / Fritzsche, Florian; Zech, Wolfgang; Guggenberger, Georg.
In: CATENA, Vol. 70, No. 2, 15.07.2007, p. 209-219.

Research output: Contribution to journalArticleResearchpeer review

Fritzsche F, Zech W, Guggenberger G. Soils of the Main Ethiopian Rift Valley escarpment: A transect study. CATENA. 2007 Jul 15;70(2):209-219. doi: 10.1016/j.catena.2006.09.005
Fritzsche, Florian ; Zech, Wolfgang ; Guggenberger, Georg. / Soils of the Main Ethiopian Rift Valley escarpment: A transect study. In: CATENA. 2007 ; Vol. 70, No. 2. pp. 209-219.
Download
@article{007b08211a90486aa9a1bb602c76a31e,
title = "Soils of the Main Ethiopian Rift Valley escarpment:: A transect study",
abstract = "The mountainous environment of the Ethiopian highlands has a great variety of ecotopes and thus demands great flexibility in land management. Different climatic conditions and landscape positions induce different soil forming processes, leading to various soil types with specific risks and potentials. The present study portrays a soil sequence of the central section of the Main Ethiopian Rift Valley, from the footslopes of the eastern escarpment to the marginal volcano structures. Six profiles under natural vegetation are described for classification according to the USDA Soil Taxonomy and World Reference Base for Soil Resources classification systems, and special site characteristics are discussed. The Acacia savannah of the footslopes (1900 m a. s. l.) is characterized by Vertisols (Mazic Vertisols/Aridic Haplusterts), with often pronounced effects of seasonal waterlogging. All other soils are well-drained and reflect the general increase in rainfall with elevation and slope, causing a decline in topsoil pH and a change from cation-rich clay soils of the Podocarpus-dominated forest at 2300 m a. s. l. (Mollic Nitisols/Typic Palehumults) to strongly-leached Humic Umbrisols/Humic Dystrudepts of the Hagenia-dominated forest around 2600 m a. s. l. The highland savannah plain (2700 m a. s. l.) with a drier and cooler environment has typically Mollic Cambisols/Dystric Haplustepts, which are less leached and have a rather brownish colour. At 2900 m a. s. l., Niti-umbric Alisols/Andic Hapludalfs are found in the Hypericum forest at the midslopes of the marginal volcanoes receiving high rainfall, whereas soil development is at a more initial state in the Erica-dominated forest at 3200 m a. s. l. (Umbric Andosols/Alic Hapludands). Clay mineral composition is kaolinite-dominated for the upper five profiles, with a high proportion of poorly crystalline components in the upper savannah and the volcano upslopes. The lowermost profile probably has a polygenetic origin indicated by an abrupt change from a smectitic to a kaolinitic composition in the subsoil. Soil development on quite homogeneous bedrock appears essentially controlled by relief and climate, underlining the suitability of the region as a model area for in-depth gradient studies on ecosystem processes and land use.",
keywords = "Afromontane, Carbon stocks, Munessa Forest, Nitrogen, Soil fertility, Sulfur",
author = "Florian Fritzsche and Wolfgang Zech and Georg Guggenberger",
note = "Funding information: The authors would like to thank the Shashemene Wood Industries Enterprise and the Ethiopian Agricultural Research Organization for their friendly cooperation, namely Betre Alemu for his assistance during field work, as well as Robert Mikutta for recording the XRD spectra. We acknowledge the financial support by the German Research Council (DFG) for our research activities in Munessa Forest.",
year = "2007",
month = jul,
day = "15",
doi = "10.1016/j.catena.2006.09.005",
language = "English",
volume = "70",
pages = "209--219",
journal = "CATENA",
issn = "0341-8162",
publisher = "Elsevier",
number = "2",

}

Download

TY - JOUR

T1 - Soils of the Main Ethiopian Rift Valley escarpment:

T2 - A transect study

AU - Fritzsche, Florian

AU - Zech, Wolfgang

AU - Guggenberger, Georg

N1 - Funding information: The authors would like to thank the Shashemene Wood Industries Enterprise and the Ethiopian Agricultural Research Organization for their friendly cooperation, namely Betre Alemu for his assistance during field work, as well as Robert Mikutta for recording the XRD spectra. We acknowledge the financial support by the German Research Council (DFG) for our research activities in Munessa Forest.

PY - 2007/7/15

Y1 - 2007/7/15

N2 - The mountainous environment of the Ethiopian highlands has a great variety of ecotopes and thus demands great flexibility in land management. Different climatic conditions and landscape positions induce different soil forming processes, leading to various soil types with specific risks and potentials. The present study portrays a soil sequence of the central section of the Main Ethiopian Rift Valley, from the footslopes of the eastern escarpment to the marginal volcano structures. Six profiles under natural vegetation are described for classification according to the USDA Soil Taxonomy and World Reference Base for Soil Resources classification systems, and special site characteristics are discussed. The Acacia savannah of the footslopes (1900 m a. s. l.) is characterized by Vertisols (Mazic Vertisols/Aridic Haplusterts), with often pronounced effects of seasonal waterlogging. All other soils are well-drained and reflect the general increase in rainfall with elevation and slope, causing a decline in topsoil pH and a change from cation-rich clay soils of the Podocarpus-dominated forest at 2300 m a. s. l. (Mollic Nitisols/Typic Palehumults) to strongly-leached Humic Umbrisols/Humic Dystrudepts of the Hagenia-dominated forest around 2600 m a. s. l. The highland savannah plain (2700 m a. s. l.) with a drier and cooler environment has typically Mollic Cambisols/Dystric Haplustepts, which are less leached and have a rather brownish colour. At 2900 m a. s. l., Niti-umbric Alisols/Andic Hapludalfs are found in the Hypericum forest at the midslopes of the marginal volcanoes receiving high rainfall, whereas soil development is at a more initial state in the Erica-dominated forest at 3200 m a. s. l. (Umbric Andosols/Alic Hapludands). Clay mineral composition is kaolinite-dominated for the upper five profiles, with a high proportion of poorly crystalline components in the upper savannah and the volcano upslopes. The lowermost profile probably has a polygenetic origin indicated by an abrupt change from a smectitic to a kaolinitic composition in the subsoil. Soil development on quite homogeneous bedrock appears essentially controlled by relief and climate, underlining the suitability of the region as a model area for in-depth gradient studies on ecosystem processes and land use.

AB - The mountainous environment of the Ethiopian highlands has a great variety of ecotopes and thus demands great flexibility in land management. Different climatic conditions and landscape positions induce different soil forming processes, leading to various soil types with specific risks and potentials. The present study portrays a soil sequence of the central section of the Main Ethiopian Rift Valley, from the footslopes of the eastern escarpment to the marginal volcano structures. Six profiles under natural vegetation are described for classification according to the USDA Soil Taxonomy and World Reference Base for Soil Resources classification systems, and special site characteristics are discussed. The Acacia savannah of the footslopes (1900 m a. s. l.) is characterized by Vertisols (Mazic Vertisols/Aridic Haplusterts), with often pronounced effects of seasonal waterlogging. All other soils are well-drained and reflect the general increase in rainfall with elevation and slope, causing a decline in topsoil pH and a change from cation-rich clay soils of the Podocarpus-dominated forest at 2300 m a. s. l. (Mollic Nitisols/Typic Palehumults) to strongly-leached Humic Umbrisols/Humic Dystrudepts of the Hagenia-dominated forest around 2600 m a. s. l. The highland savannah plain (2700 m a. s. l.) with a drier and cooler environment has typically Mollic Cambisols/Dystric Haplustepts, which are less leached and have a rather brownish colour. At 2900 m a. s. l., Niti-umbric Alisols/Andic Hapludalfs are found in the Hypericum forest at the midslopes of the marginal volcanoes receiving high rainfall, whereas soil development is at a more initial state in the Erica-dominated forest at 3200 m a. s. l. (Umbric Andosols/Alic Hapludands). Clay mineral composition is kaolinite-dominated for the upper five profiles, with a high proportion of poorly crystalline components in the upper savannah and the volcano upslopes. The lowermost profile probably has a polygenetic origin indicated by an abrupt change from a smectitic to a kaolinitic composition in the subsoil. Soil development on quite homogeneous bedrock appears essentially controlled by relief and climate, underlining the suitability of the region as a model area for in-depth gradient studies on ecosystem processes and land use.

KW - Afromontane

KW - Carbon stocks

KW - Munessa Forest

KW - Nitrogen

KW - Soil fertility

KW - Sulfur

UR - http://www.scopus.com/inward/record.url?scp=34247367269&partnerID=8YFLogxK

U2 - 10.1016/j.catena.2006.09.005

DO - 10.1016/j.catena.2006.09.005

M3 - Article

AN - SCOPUS:34247367269

VL - 70

SP - 209

EP - 219

JO - CATENA

JF - CATENA

SN - 0341-8162

IS - 2

ER -

By the same author(s)