Tree genetic diversity increases arthropod diversity in willow short rotation coppice

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Tree genetic diversity increases arthropod diversity in willow short rotation coppice. / Müller, Marie; Klein, Alexandra Maria; Scherer-Lorenzen, Michael et al.
in: Biomass and Bioenergy, Jahrgang 108, 01.2018, S. 338-344.

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

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Müller M, Klein AM, Scherer-Lorenzen M, Nock CA, Staab M. Tree genetic diversity increases arthropod diversity in willow short rotation coppice. Biomass and Bioenergy. 2018 Jan;108:338-344. doi: 10.1016/j.biombioe.2017.12.001

Bibtex

@article{182d756b99494b71b3c3812fc141ecb6,
title = "Tree genetic diversity increases arthropod diversity in willow short rotation coppice",
abstract = "Demand for bioenergy has rapidly developed in recent decades, resulting in expansion of bioenergy cropping systems such as willow short rotation coppice (SRC). Increasing the number of willow genotypes in SRC can potentially enhance species diversity in the associated arthropod community, which may promote ecosystem functions within plantations. However, the ecology of SRCs and their effects on biodiversity have only rarely been investigated. Therefore, to study the role of plant genetic diversity (GD) in SRC, we established a replicated common garden experiment comprising genetic monocultures and mixtures of two, three and four different Salix genotypes used in commercial SRC. We sampled arthropods and examined the effect of GD across trophic groups, to test if the use of genotype mixtures increases arthropod richness and abundance. Species richness of total arthropods and of herbivores increased significantly with increasing GD, regardless whether data were pooled per plot or analysed on tree level. However, effects varied among willow genotypes as positive correlations between GD and different trophic groups were genotype-specific. We show that establishing and managing commercial willow SRCs with a mixture of varying genotypes can help to increase arthropod diversity within a bioenergy system that is a promising renewable energy source.",
keywords = "Biomass production, ECOLINK-Salix, Genetic diversity effects, Herbivores, Predators, Salix, Biology, Ecosystems Research",
author = "Marie M{\"u}ller and Klein, {Alexandra Maria} and Michael Scherer-Lorenzen and Nock, {Charles A.} and Michael Staab",
note = "Publisher Copyright: {\textcopyright} 2017 Elsevier Ltd",
year = "2018",
month = jan,
doi = "10.1016/j.biombioe.2017.12.001",
language = "English",
volume = "108",
pages = "338--344",
journal = "Biomass and Bioenergy",
issn = "0961-9534",
publisher = "Elsevier Ltd",

}

RIS

TY - JOUR

T1 - Tree genetic diversity increases arthropod diversity in willow short rotation coppice

AU - Müller, Marie

AU - Klein, Alexandra Maria

AU - Scherer-Lorenzen, Michael

AU - Nock, Charles A.

AU - Staab, Michael

N1 - Publisher Copyright: © 2017 Elsevier Ltd

PY - 2018/1

Y1 - 2018/1

N2 - Demand for bioenergy has rapidly developed in recent decades, resulting in expansion of bioenergy cropping systems such as willow short rotation coppice (SRC). Increasing the number of willow genotypes in SRC can potentially enhance species diversity in the associated arthropod community, which may promote ecosystem functions within plantations. However, the ecology of SRCs and their effects on biodiversity have only rarely been investigated. Therefore, to study the role of plant genetic diversity (GD) in SRC, we established a replicated common garden experiment comprising genetic monocultures and mixtures of two, three and four different Salix genotypes used in commercial SRC. We sampled arthropods and examined the effect of GD across trophic groups, to test if the use of genotype mixtures increases arthropod richness and abundance. Species richness of total arthropods and of herbivores increased significantly with increasing GD, regardless whether data were pooled per plot or analysed on tree level. However, effects varied among willow genotypes as positive correlations between GD and different trophic groups were genotype-specific. We show that establishing and managing commercial willow SRCs with a mixture of varying genotypes can help to increase arthropod diversity within a bioenergy system that is a promising renewable energy source.

AB - Demand for bioenergy has rapidly developed in recent decades, resulting in expansion of bioenergy cropping systems such as willow short rotation coppice (SRC). Increasing the number of willow genotypes in SRC can potentially enhance species diversity in the associated arthropod community, which may promote ecosystem functions within plantations. However, the ecology of SRCs and their effects on biodiversity have only rarely been investigated. Therefore, to study the role of plant genetic diversity (GD) in SRC, we established a replicated common garden experiment comprising genetic monocultures and mixtures of two, three and four different Salix genotypes used in commercial SRC. We sampled arthropods and examined the effect of GD across trophic groups, to test if the use of genotype mixtures increases arthropod richness and abundance. Species richness of total arthropods and of herbivores increased significantly with increasing GD, regardless whether data were pooled per plot or analysed on tree level. However, effects varied among willow genotypes as positive correlations between GD and different trophic groups were genotype-specific. We show that establishing and managing commercial willow SRCs with a mixture of varying genotypes can help to increase arthropod diversity within a bioenergy system that is a promising renewable energy source.

KW - Biomass production

KW - ECOLINK-Salix

KW - Genetic diversity effects

KW - Herbivores

KW - Predators

KW - Salix

KW - Biology

KW - Ecosystems Research

UR - http://www.scopus.com/inward/record.url?scp=85037649982&partnerID=8YFLogxK

U2 - 10.1016/j.biombioe.2017.12.001

DO - 10.1016/j.biombioe.2017.12.001

M3 - Journal articles

AN - SCOPUS:85037649982

VL - 108

SP - 338

EP - 344

JO - Biomass and Bioenergy

JF - Biomass and Bioenergy

SN - 0961-9534

ER -

DOI

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