Desiccation resistance determines distribution of woodlice along forest edge-to-interior gradients

Pallieter De Smedt; Lander Baeten; Matty P. Berg; Emilie Gallet-Moron; Jorg Brunet; Sara A. O. Cousins; Guillaume Decocq; Martin Diekmann; Brice Giffard; Pieter De Frenne; Martin Hermy; Dries Bonte; Kris Verheyen

doi:10.1016/j.ejsobi.2017.12.002

Desiccation resistance determines distribution of woodlice along forest edge-to-interior gradients

Pallieter De Smedt^*, Lander Baeten, Matty P. Berg, Emilie Gallet-Moron, Jorg Brunet, Sara A. O. Cousins, Guillaume Decocq, Martin Diekmann, Brice Giffard, Pieter De Frenne, Martin Hermy, Dries Bonte, Kris Verheyen

^*Corresponding author for this work

Conservation Ecology Group

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

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Abstract

Forest edges show strong abiotic and biotic gradients potentially altering community composition and ecosystem processes such as nutrient cycling. While abiotic gradients are well studied, short-scale biotic gradients, like detritivore species composition and their associated trait distribution remains a poorly explored research-field. We sampled woodlice in 160 forest patches across Europe at varying distances from the forest edge and discovered that species desiccation resistance determines distribution along forest edge-to-interior gradients. Forest edges are warmer and dryer compared to interiors and favour drought-tolerant species, while abundance and activity of drought-sensitive species is reduced at the edge. Key ecological factors for litter-dwelling detritivores (i.e. humidity) act as environmental filter, because of species-specific differences in desiccation resistance. Future research should focus on quantifying the consequences of a changing detritivore community and their associated functional traits for nutrient cycling.

Original language	English
Pages (from-to)	1-3
Number of pages	3
Journal	European Journal of Soil Biology
Volume	85
DOIs	https://doi.org/10.1016/j.ejsobi.2017.12.002
Publication status	Published - 12-Feb-2018

Keywords

Drought tolerance
Edge effects
Isopoda
Response trait
Small forest fragments
DISTRIBUTION PATTERNS
LITTER DECOMPOSITION
TERRESTRIAL ISOPODS
MACROARTHROPODS
FRAGMENTATION
MILLIPEDES
TRAITS

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Desiccation resistance determines distribution of woodlice along forest edge- to-interior gradientsFinal publisher's version, 404 KBLicence: Taverne

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De Smedt, P., Baeten, L., Berg, M. P., Gallet-Moron, E., Brunet, J., Cousins, S. A. O., Decocq, G., Diekmann, M., Giffard, B., De Frenne, P., Hermy, M., Bonte, D., & Verheyen, K. (2018). Desiccation resistance determines distribution of woodlice along forest edge-to-interior gradients. European Journal of Soil Biology, 85, 1-3. https://doi.org/10.1016/j.ejsobi.2017.12.002

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title = "Desiccation resistance determines distribution of woodlice along forest edge-to-interior gradients",

abstract = "Forest edges show strong abiotic and biotic gradients potentially altering community composition and ecosystem processes such as nutrient cycling. While abiotic gradients are well studied, short-scale biotic gradients, like detritivore species composition and their associated trait distribution remains a poorly explored research-field. We sampled woodlice in 160 forest patches across Europe at varying distances from the forest edge and discovered that species desiccation resistance determines distribution along forest edge-to-interior gradients. Forest edges are warmer and dryer compared to interiors and favour drought-tolerant species, while abundance and activity of drought-sensitive species is reduced at the edge. Key ecological factors for litter-dwelling detritivores (i.e. humidity) act as environmental filter, because of species-specific differences in desiccation resistance. Future research should focus on quantifying the consequences of a changing detritivore community and their associated functional traits for nutrient cycling.",

keywords = "Drought tolerance, Edge effects, Isopoda, Response trait, Small forest fragments, DISTRIBUTION PATTERNS, LITTER DECOMPOSITION, TERRESTRIAL ISOPODS, MACROARTHROPODS, FRAGMENTATION, MILLIPEDES, TRAITS",

author = "{De Smedt}, Pallieter and Lander Baeten and Berg, {Matty P.} and Emilie Gallet-Moron and Jorg Brunet and Cousins, {Sara A. O.} and Guillaume Decocq and Martin Diekmann and Brice Giffard and {De Frenne}, Pieter and Martin Hermy and Dries Bonte and Kris Verheyen",

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doi = "10.1016/j.ejsobi.2017.12.002",

language = "English",

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T1 - Desiccation resistance determines distribution of woodlice along forest edge-to-interior gradients

AU - De Smedt, Pallieter

AU - Baeten, Lander

AU - Berg, Matty P.

AU - Gallet-Moron, Emilie

AU - Brunet, Jorg

AU - Cousins, Sara A. O.

AU - Decocq, Guillaume

AU - Diekmann, Martin

AU - Giffard, Brice

AU - De Frenne, Pieter

AU - Hermy, Martin

AU - Bonte, Dries

AU - Verheyen, Kris

PY - 2018/2/12

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N2 - Forest edges show strong abiotic and biotic gradients potentially altering community composition and ecosystem processes such as nutrient cycling. While abiotic gradients are well studied, short-scale biotic gradients, like detritivore species composition and their associated trait distribution remains a poorly explored research-field. We sampled woodlice in 160 forest patches across Europe at varying distances from the forest edge and discovered that species desiccation resistance determines distribution along forest edge-to-interior gradients. Forest edges are warmer and dryer compared to interiors and favour drought-tolerant species, while abundance and activity of drought-sensitive species is reduced at the edge. Key ecological factors for litter-dwelling detritivores (i.e. humidity) act as environmental filter, because of species-specific differences in desiccation resistance. Future research should focus on quantifying the consequences of a changing detritivore community and their associated functional traits for nutrient cycling.

AB - Forest edges show strong abiotic and biotic gradients potentially altering community composition and ecosystem processes such as nutrient cycling. While abiotic gradients are well studied, short-scale biotic gradients, like detritivore species composition and their associated trait distribution remains a poorly explored research-field. We sampled woodlice in 160 forest patches across Europe at varying distances from the forest edge and discovered that species desiccation resistance determines distribution along forest edge-to-interior gradients. Forest edges are warmer and dryer compared to interiors and favour drought-tolerant species, while abundance and activity of drought-sensitive species is reduced at the edge. Key ecological factors for litter-dwelling detritivores (i.e. humidity) act as environmental filter, because of species-specific differences in desiccation resistance. Future research should focus on quantifying the consequences of a changing detritivore community and their associated functional traits for nutrient cycling.

KW - Drought tolerance

KW - Edge effects

KW - Isopoda

KW - Response trait

KW - Small forest fragments

KW - DISTRIBUTION PATTERNS

KW - LITTER DECOMPOSITION

KW - TERRESTRIAL ISOPODS

KW - MACROARTHROPODS

KW - FRAGMENTATION

KW - MILLIPEDES

KW - TRAITS

U2 - 10.1016/j.ejsobi.2017.12.002

DO - 10.1016/j.ejsobi.2017.12.002

M3 - Article

SN - 1164-5563

VL - 85

SP - 1

EP - 3

JO - European Journal of Soil Biology

JF - European Journal of Soil Biology

ER -

Desiccation resistance determines distribution of woodlice along forest edge-to-interior gradients

Abstract

Keywords

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