TY - JOUR
T1 - Stomping in silence: Conceptualizing trampling effects on soils in polar tundra
AU - Tuomi, Maria
AU - Väisänen, Maria
AU - Ylänne, Henni
AU - Brearley, Francis Q.
AU - Barrio, Isabel Pilar Catalan
AU - BrÅthen, Kari Anne
AU - Eischeid, Isabell
AU - Forbes, Bruce C.
AU - Jónsdóttir, Ingibjörg Svala
AU - Kolstad, Anders L.
AU - Macek, Petr
AU - Petit Bon, Matteo
AU - Speed, James D.M.
AU - Stark, Sari
AU - Svavarsdóttir, Kristin
AU - Thórsson, Jóhann
AU - Bueno, C. Guillermo
N1 - Publisher Copyright:
© 2020 British Ecological Society
PY - 2021/2
Y1 - 2021/2
N2 - Ungulate trampling modifies soils and interlinked ecosystem functions across biomes. Until today, most research has focused on temperate ecosystems and mineral soils while trampling effects on cold and organic matter-rich tundra soils remain largely unknown. We aimed to develop a general model of trampling effects on soil structure, biota, microclimate and biogeochemical processes, with a particular focus on polar tundra soils. To reach this goal, we reviewed literature about the effects of trampling and physical disturbances on soils across biomes and used this to discuss the knowns and unknowns of trampling effects on tundra soils. We identified the following four pathways through which trampling affects soils: (a) soil compaction; (b) reductions in soil fauna and fungi; (c) rapid losses in vegetation biomass and cover; and (d) longer term shifts in vegetation community composition. We found that, in polar tundra, soil responses to trampling pathways 1 and 3 could be characterized by nonlinear dynamics and tundra-specific context dependencies that we formulated into testable hypotheses. In conclusion, trampling may affect tundra soil significantly but many direct, interacting and cascading responses remain unknown. We call for research to advance the understanding of trampling effects on soils to support informed efforts to manage and predict the functioning of tundra systems under global changes. A free Plain Language Summary can be found within the Supporting Information of this article.
AB - Ungulate trampling modifies soils and interlinked ecosystem functions across biomes. Until today, most research has focused on temperate ecosystems and mineral soils while trampling effects on cold and organic matter-rich tundra soils remain largely unknown. We aimed to develop a general model of trampling effects on soil structure, biota, microclimate and biogeochemical processes, with a particular focus on polar tundra soils. To reach this goal, we reviewed literature about the effects of trampling and physical disturbances on soils across biomes and used this to discuss the knowns and unknowns of trampling effects on tundra soils. We identified the following four pathways through which trampling affects soils: (a) soil compaction; (b) reductions in soil fauna and fungi; (c) rapid losses in vegetation biomass and cover; and (d) longer term shifts in vegetation community composition. We found that, in polar tundra, soil responses to trampling pathways 1 and 3 could be characterized by nonlinear dynamics and tundra-specific context dependencies that we formulated into testable hypotheses. In conclusion, trampling may affect tundra soil significantly but many direct, interacting and cascading responses remain unknown. We call for research to advance the understanding of trampling effects on soils to support informed efforts to manage and predict the functioning of tundra systems under global changes. A free Plain Language Summary can be found within the Supporting Information of this article.
KW - Arctic ecosystems
KW - grazing
KW - herbivore–soil interactions
KW - herbivory
KW - non-trophic interactions
KW - physical disturbance
KW - treading
UR - http://dx.doi.org/10.1111/1365-2435.13719
UR - http://www.scopus.com/inward/record.url?scp=85097301915&partnerID=8YFLogxK
U2 - 10.1111/1365-2435.13719
DO - 10.1111/1365-2435.13719
M3 - Article
SN - 0269-8463
VL - 35
SP - 306
EP - 317
JO - Functional Ecology
JF - Functional Ecology
IS - 2
ER -