The impact of environmental factors on early stage Andosol development south of Vatnajökull, Iceland

Theresa Bonatotzky; Franz Ottner; Egill Erlendsson; Guðrún Gísladóttir

doi:10.1111/ejss.13224

The impact of environmental factors on early stage Andosol development south of Vatnajökull, Iceland

Theresa Bonatotzky^*, Franz Ottner, Egill Erlendsson, Guðrún Gísladóttir

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Icelandic soils develop in a dynamic environment affected by both natural processes and anthropogenic impacts. We present an extensive investigation of soil mineralogy and pedogenesis in a disturbed (i.e., by solifluction) pedon under such conditions. The study focuses on two distinct tephra layers, a rhyolitic tephra from the Öræfajökull eruption in 1362 CE (Ö1362) and a basaltic Veiðivötn tephra from 1477 CE (V1477). Both tephra layers form an important parent material in the study area south of Vatnajökull, Iceland. The Andosol developed from tephra and aeolian material, rich in volcanic glass. The pH (H₂O) values were between 5.5 and 6.6 and clay mineralogy displayed a predominance of allophanic material in both soil and tephra. The pedon can be seen in its early stage of chemical weathering and soil development. Despite the overall predominance of non- and poorly-crystalline short-range order secondary materials and Fe (hydr)oxides in the clay-size fraction, we found indication of smectite. High exchangeable Ca²⁺ and Mg²⁺ concentrations reflect enhanced aeolian input of volcanic material, while elevated exchangeable-Na⁺ concentrations are most likely caused by the oceanic composition of precipitation. The impact of erosion and aeolian processes on pedogenesis seemed to be higher between the deposition of Ö1362 and V1477, than in the soils above. Both, soil and tephra layers appeared disturbed by erosion–deposition processes over time. Characterised by a significantly coarser particle size composition, low soil organic carbon (SOC) content, and a more diverse mineralogy, a distinct fluvial sediment layer at 10–30 cm depth appeared sharply contrasting to the other soil layers in the profile. This possibly reflects the diverse composition of glaciofluvial material from a landslide originating from a Kvíárjökull moraine in the north. Changed weathering patterns and properties in the soils above the Ö1362 tephra indicated soil degradation following the deposition of the rhyolitic tephra.

Original language	English
Article number	e13224
Journal	European Journal of Soil Science
Volume	73
Issue number	2
DOIs	https://doi.org/10.1111/ejss.13224
Publication status	Published - 15 Feb 2022

Bibliographical note

Funding Information:
This research was supported be The Icelandic Research Fund (no. 1201211021), the Austrian Agency for International Cooperation in Education and Research (Marietta Blau Grant), the Erasmus + Grant and Friends of Vatnajökull Fund. The authors would like to thank Susanne C. Möckel and Maria Mayrhofer for their assistance in the lab and research, Scott J. Riddell for English language proofreading and Benjamin D. Hennig for his help preparing the map. Randy A. Dahlgren is thanked for his valuable comments and suggestions.

Funding Information:
This research was supported be The Icelandic Research Fund (no. 1201211021), the Austrian Agency for International Cooperation in Education and Research (Marietta Blau Grant), the Erasmus + Grant and Friends of Vatnaj?kull Fund. The authors would like to thank Susanne C. M?ckel and Maria Mayrhofer for their assistance in the lab and research, Scott J. Riddell for English language proofreading and Benjamin D. Hennig for his help preparing the map. Randy A. Dahlgren is thanked for his valuable comments and suggestions.

Publisher Copyright:
© 2022 British Society of Soil Science.

Other keywords

Aeolian influx
erosion
Iceland
pedogenic minerals
soil development
tephra
volcanic soil

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10.1111/ejss.13224

Cite this

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title = "The impact of environmental factors on early stage Andosol development south of Vatnaj{\"o}kull, Iceland",

abstract = "Icelandic soils develop in a dynamic environment affected by both natural processes and anthropogenic impacts. We present an extensive investigation of soil mineralogy and pedogenesis in a disturbed (i.e., by solifluction) pedon under such conditions. The study focuses on two distinct tephra layers, a rhyolitic tephra from the {\"O}r{\ae}faj{\"o}kull eruption in 1362 CE ({\"O}1362) and a basaltic Vei{\dh}iv{\"o}tn tephra from 1477 CE (V1477). Both tephra layers form an important parent material in the study area south of Vatnaj{\"o}kull, Iceland. The Andosol developed from tephra and aeolian material, rich in volcanic glass. The pH (H2O) values were between 5.5 and 6.6 and clay mineralogy displayed a predominance of allophanic material in both soil and tephra. The pedon can be seen in its early stage of chemical weathering and soil development. Despite the overall predominance of non- and poorly-crystalline short-range order secondary materials and Fe (hydr)oxides in the clay-size fraction, we found indication of smectite. High exchangeable Ca2+ and Mg2+ concentrations reflect enhanced aeolian input of volcanic material, while elevated exchangeable-Na+ concentrations are most likely caused by the oceanic composition of precipitation. The impact of erosion and aeolian processes on pedogenesis seemed to be higher between the deposition of {\"O}1362 and V1477, than in the soils above. Both, soil and tephra layers appeared disturbed by erosion–deposition processes over time. Characterised by a significantly coarser particle size composition, low soil organic carbon (SOC) content, and a more diverse mineralogy, a distinct fluvial sediment layer at 10–30 cm depth appeared sharply contrasting to the other soil layers in the profile. This possibly reflects the diverse composition of glaciofluvial material from a landslide originating from a Kv{\'i}{\'a}rj{\"o}kull moraine in the north. Changed weathering patterns and properties in the soils above the {\"O}1362 tephra indicated soil degradation following the deposition of the rhyolitic tephra.",

keywords = "Aeolian influx, erosion, Iceland, pedogenic minerals, soil development, tephra, volcanic soil",

author = "Theresa Bonatotzky and Franz Ottner and Egill Erlendsson and Gu{\dh}r{\'u}n G{\'i}slad{\'o}ttir",

note = "Funding Information: This research was supported be The Icelandic Research Fund (no. 1201211021), the Austrian Agency for International Cooperation in Education and Research (Marietta Blau Grant), the Erasmus + Grant and Friends of Vatnaj{\"o}kull Fund. The authors would like to thank Susanne C. M{\"o}ckel and Maria Mayrhofer for their assistance in the lab and research, Scott J. Riddell for English language proofreading and Benjamin D. Hennig for his help preparing the map. Randy A. Dahlgren is thanked for his valuable comments and suggestions. Funding Information: This research was supported be The Icelandic Research Fund (no. 1201211021), the Austrian Agency for International Cooperation in Education and Research (Marietta Blau Grant), the Erasmus + Grant and Friends of Vatnaj?kull Fund. The authors would like to thank Susanne C. M?ckel and Maria Mayrhofer for their assistance in the lab and research, Scott J. Riddell for English language proofreading and Benjamin D. Hennig for his help preparing the map. Randy A. Dahlgren is thanked for his valuable comments and suggestions. Publisher Copyright: {\textcopyright} 2022 British Society of Soil Science.",

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doi = "10.1111/ejss.13224",

language = "English",

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T1 - The impact of environmental factors on early stage Andosol development south of Vatnajökull, Iceland

AU - Bonatotzky, Theresa

AU - Ottner, Franz

AU - Erlendsson, Egill

AU - Gísladóttir, Guðrún

N1 - Funding Information: This research was supported be The Icelandic Research Fund (no. 1201211021), the Austrian Agency for International Cooperation in Education and Research (Marietta Blau Grant), the Erasmus + Grant and Friends of Vatnajökull Fund. The authors would like to thank Susanne C. Möckel and Maria Mayrhofer for their assistance in the lab and research, Scott J. Riddell for English language proofreading and Benjamin D. Hennig for his help preparing the map. Randy A. Dahlgren is thanked for his valuable comments and suggestions. Funding Information: This research was supported be The Icelandic Research Fund (no. 1201211021), the Austrian Agency for International Cooperation in Education and Research (Marietta Blau Grant), the Erasmus + Grant and Friends of Vatnaj?kull Fund. The authors would like to thank Susanne C. M?ckel and Maria Mayrhofer for their assistance in the lab and research, Scott J. Riddell for English language proofreading and Benjamin D. Hennig for his help preparing the map. Randy A. Dahlgren is thanked for his valuable comments and suggestions. Publisher Copyright: © 2022 British Society of Soil Science.

PY - 2022/2/15

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N2 - Icelandic soils develop in a dynamic environment affected by both natural processes and anthropogenic impacts. We present an extensive investigation of soil mineralogy and pedogenesis in a disturbed (i.e., by solifluction) pedon under such conditions. The study focuses on two distinct tephra layers, a rhyolitic tephra from the Öræfajökull eruption in 1362 CE (Ö1362) and a basaltic Veiðivötn tephra from 1477 CE (V1477). Both tephra layers form an important parent material in the study area south of Vatnajökull, Iceland. The Andosol developed from tephra and aeolian material, rich in volcanic glass. The pH (H2O) values were between 5.5 and 6.6 and clay mineralogy displayed a predominance of allophanic material in both soil and tephra. The pedon can be seen in its early stage of chemical weathering and soil development. Despite the overall predominance of non- and poorly-crystalline short-range order secondary materials and Fe (hydr)oxides in the clay-size fraction, we found indication of smectite. High exchangeable Ca2+ and Mg2+ concentrations reflect enhanced aeolian input of volcanic material, while elevated exchangeable-Na+ concentrations are most likely caused by the oceanic composition of precipitation. The impact of erosion and aeolian processes on pedogenesis seemed to be higher between the deposition of Ö1362 and V1477, than in the soils above. Both, soil and tephra layers appeared disturbed by erosion–deposition processes over time. Characterised by a significantly coarser particle size composition, low soil organic carbon (SOC) content, and a more diverse mineralogy, a distinct fluvial sediment layer at 10–30 cm depth appeared sharply contrasting to the other soil layers in the profile. This possibly reflects the diverse composition of glaciofluvial material from a landslide originating from a Kvíárjökull moraine in the north. Changed weathering patterns and properties in the soils above the Ö1362 tephra indicated soil degradation following the deposition of the rhyolitic tephra.

AB - Icelandic soils develop in a dynamic environment affected by both natural processes and anthropogenic impacts. We present an extensive investigation of soil mineralogy and pedogenesis in a disturbed (i.e., by solifluction) pedon under such conditions. The study focuses on two distinct tephra layers, a rhyolitic tephra from the Öræfajökull eruption in 1362 CE (Ö1362) and a basaltic Veiðivötn tephra from 1477 CE (V1477). Both tephra layers form an important parent material in the study area south of Vatnajökull, Iceland. The Andosol developed from tephra and aeolian material, rich in volcanic glass. The pH (H2O) values were between 5.5 and 6.6 and clay mineralogy displayed a predominance of allophanic material in both soil and tephra. The pedon can be seen in its early stage of chemical weathering and soil development. Despite the overall predominance of non- and poorly-crystalline short-range order secondary materials and Fe (hydr)oxides in the clay-size fraction, we found indication of smectite. High exchangeable Ca2+ and Mg2+ concentrations reflect enhanced aeolian input of volcanic material, while elevated exchangeable-Na+ concentrations are most likely caused by the oceanic composition of precipitation. The impact of erosion and aeolian processes on pedogenesis seemed to be higher between the deposition of Ö1362 and V1477, than in the soils above. Both, soil and tephra layers appeared disturbed by erosion–deposition processes over time. Characterised by a significantly coarser particle size composition, low soil organic carbon (SOC) content, and a more diverse mineralogy, a distinct fluvial sediment layer at 10–30 cm depth appeared sharply contrasting to the other soil layers in the profile. This possibly reflects the diverse composition of glaciofluvial material from a landslide originating from a Kvíárjökull moraine in the north. Changed weathering patterns and properties in the soils above the Ö1362 tephra indicated soil degradation following the deposition of the rhyolitic tephra.

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KW - erosion

KW - Iceland

KW - pedogenic minerals

KW - soil development

KW - tephra

KW - volcanic soil

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DO - 10.1111/ejss.13224

M3 - Article

AN - SCOPUS:85128829119

SN - 0022-4588

VL - 73

JO - Journal of Soil Sciences

JF - Journal of Soil Sciences

IS - 2

M1 - e13224

ER -

The impact of environmental factors on early stage Andosol development south of Vatnajökull, Iceland

Abstract

Bibliographical note

Other keywords

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