Latitudinal transect relationship between soil organic horizons and permafrost depth in Alaska

Stefania Cocco; Valeria Cardelli; Francesco Bigaran; Luisa Massaccesi; Alberto Agnelli; David Weindorf; Gary J. Michaelson; Giuseppe Corti; Ping Chien-Lu Ping

doi:10.1016/j.apsoil.2017.10.021

Latitudinal transect relationship between soil organic horizons and permafrost depth in Alaska

Stefania Cocco, Valeria Cardelli, Francesco Bigaran, Luisa Massaccesi, Alberto Agnelli, David Weindorf, Gary J. Michaelson, Giuseppe Corti, Ping Chien-Lu Ping

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

2 Scopus citations

Abstract

In this contribution, we examined a latitudinal soil transect from interior Alaska, focusing on morphological, physical and chemical characteristics of permafrost affected soils. The aim of this work was to evaluate if latitude (a proxy for temperature change) or other soil forming factors may affect organic layer thickness and, consequently, permafrost depth along the latitudinal gradient of 65° to 69°. Along this gradient, the plant community changed from boreal forest to moist tundra, but this change did not affect the amount of C stored in the organic horizons and the permafrost depth. Hence, we suspected that, at latitudes higher than the 65° degree, the formation of thick and thermally insulating organic layers is controlled mostly by the extent of the pedoturbations produced by the permafrost dynamics and the soil parent material.

Original language	English
Pages (from-to)	588-596
Number of pages	9
Journal	Applied Soil Ecology
Volume	123
DOIs	https://doi.org/10.1016/j.apsoil.2017.10.021
State	Published - Feb 1 2018

Keywords

Arctic soils
Cryoturbation
Freezing
Frost churning
Gelisols
Thawing

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10.1016/j.apsoil.2017.10.021

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title = "Latitudinal transect relationship between soil organic horizons and permafrost depth in Alaska",

abstract = "In this contribution, we examined a latitudinal soil transect from interior Alaska, focusing on morphological, physical and chemical characteristics of permafrost affected soils. The aim of this work was to evaluate if latitude (a proxy for temperature change) or other soil forming factors may affect organic layer thickness and, consequently, permafrost depth along the latitudinal gradient of 65° to 69°. Along this gradient, the plant community changed from boreal forest to moist tundra, but this change did not affect the amount of C stored in the organic horizons and the permafrost depth. Hence, we suspected that, at latitudes higher than the 65° degree, the formation of thick and thermally insulating organic layers is controlled mostly by the extent of the pedoturbations produced by the permafrost dynamics and the soil parent material.",

keywords = "Arctic soils, Cryoturbation, Freezing, Frost churning, Gelisols, Thawing",

author = "Stefania Cocco and Valeria Cardelli and Francesco Bigaran and Luisa Massaccesi and Alberto Agnelli and David Weindorf and Michaelson, {Gary J.} and Giuseppe Corti and {Chien-Lu Ping}, Ping",

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doi = "10.1016/j.apsoil.2017.10.021",

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AU - Cocco, Stefania

AU - Cardelli, Valeria

AU - Bigaran, Francesco

AU - Massaccesi, Luisa

AU - Agnelli, Alberto

AU - Weindorf, David

AU - Michaelson, Gary J.

AU - Corti, Giuseppe

AU - Chien-Lu Ping, Ping

PY - 2018/2/1

Y1 - 2018/2/1

N2 - In this contribution, we examined a latitudinal soil transect from interior Alaska, focusing on morphological, physical and chemical characteristics of permafrost affected soils. The aim of this work was to evaluate if latitude (a proxy for temperature change) or other soil forming factors may affect organic layer thickness and, consequently, permafrost depth along the latitudinal gradient of 65° to 69°. Along this gradient, the plant community changed from boreal forest to moist tundra, but this change did not affect the amount of C stored in the organic horizons and the permafrost depth. Hence, we suspected that, at latitudes higher than the 65° degree, the formation of thick and thermally insulating organic layers is controlled mostly by the extent of the pedoturbations produced by the permafrost dynamics and the soil parent material.

AB - In this contribution, we examined a latitudinal soil transect from interior Alaska, focusing on morphological, physical and chemical characteristics of permafrost affected soils. The aim of this work was to evaluate if latitude (a proxy for temperature change) or other soil forming factors may affect organic layer thickness and, consequently, permafrost depth along the latitudinal gradient of 65° to 69°. Along this gradient, the plant community changed from boreal forest to moist tundra, but this change did not affect the amount of C stored in the organic horizons and the permafrost depth. Hence, we suspected that, at latitudes higher than the 65° degree, the formation of thick and thermally insulating organic layers is controlled mostly by the extent of the pedoturbations produced by the permafrost dynamics and the soil parent material.

KW - Arctic soils

KW - Cryoturbation

KW - Freezing

KW - Frost churning

KW - Gelisols

KW - Thawing

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DO - 10.1016/j.apsoil.2017.10.021

M3 - Article

VL - 123

SP - 588

EP - 596

JO - Applied Soil Ecology

JF - Applied Soil Ecology

ER -

Latitudinal transect relationship between soil organic horizons and permafrost depth in Alaska

Abstract

Keywords

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