Vascular plant species richness and bioindication predict multi-taxon species richness

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Standard

Vascular plant species richness and bioindication predict multi-taxon species richness. / Brunbjerg, Ane Kirstine; Bruun, Hans Henrik; Dalby, Lars; Fløjgaard, Camilla; Frøslev, Tobias G.; Høye, Toke T.; Goldberg, Irina; Læssøe, Thomas; Hansen, Morten D.D.; Brøndum, Lars; Skipper, Lars; Fog, Kåre; Ejrnæs, Rasmus.

I: Methods in Ecology and Evolution, Bind 9, Nr. 12, 2018, s. 2372-2382.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Brunbjerg, AK, Bruun, HH, Dalby, L, Fløjgaard, C, Frøslev, TG, Høye, TT, Goldberg, I, Læssøe, T, Hansen, MDD, Brøndum, L, Skipper, L, Fog, K & Ejrnæs, R 2018, 'Vascular plant species richness and bioindication predict multi-taxon species richness', Methods in Ecology and Evolution, bind 9, nr. 12, s. 2372-2382. https://doi.org/10.1111/2041-210X.13087

APA

Brunbjerg, A. K., Bruun, H. H., Dalby, L., Fløjgaard, C., Frøslev, T. G., Høye, T. T., Goldberg, I., Læssøe, T., Hansen, M. D. D., Brøndum, L., Skipper, L., Fog, K., & Ejrnæs, R. (2018). Vascular plant species richness and bioindication predict multi-taxon species richness. Methods in Ecology and Evolution, 9(12), 2372-2382. https://doi.org/10.1111/2041-210X.13087

Vancouver

Brunbjerg AK, Bruun HH, Dalby L, Fløjgaard C, Frøslev TG, Høye TT o.a. Vascular plant species richness and bioindication predict multi-taxon species richness. Methods in Ecology and Evolution. 2018;9(12):2372-2382. https://doi.org/10.1111/2041-210X.13087

Author

Brunbjerg, Ane Kirstine ; Bruun, Hans Henrik ; Dalby, Lars ; Fløjgaard, Camilla ; Frøslev, Tobias G. ; Høye, Toke T. ; Goldberg, Irina ; Læssøe, Thomas ; Hansen, Morten D.D. ; Brøndum, Lars ; Skipper, Lars ; Fog, Kåre ; Ejrnæs, Rasmus. / Vascular plant species richness and bioindication predict multi-taxon species richness. I: Methods in Ecology and Evolution. 2018 ; Bind 9, Nr. 12. s. 2372-2382.

Bibtex

@article{b0c392af316d46f399ff8e4275c8e2d1,
title = "Vascular plant species richness and bioindication predict multi-taxon species richness",
abstract = "Plants regulate soils and microclimate, provide substrate for heterotrophic taxa, are easy to observe and identify and have a stable taxonomy, which strongly justifies their use as indicators in monitoring and conservation. However, there is no consensus as to whether plants are strong predictors of total multi-taxon species richness. In this study, we investigate if general terrestrial species richness can be predicted by vascular plant richness and bioindication. To answer this question, we collected an extensive dataset on species richness of vascular plants, bryophytes, macrofungi, lichens, plant-galling arthropods, gastropods, spiders, carabid beetles, hoverflies, and genetic richness (operational taxonomic units = OTUs) from environmental DNA metabarcoding. We also constructed a Conservation Index based on threatened red list species. Besides using richness of vascular plants for prediction of other taxonomic groups, we also used plant-derived calibration of the abiotic environment (moisture, soil fertility and light conditions) as well as the degree of anthropogenic impact. Bivariate relationships between plant species richness and other species groups showed no consistent pattern. After taking environmental calibration by bioindication into account, we found a consistent, and for most groups significant, positive effect of plant richness. Plant species richness was also important for richness of fungal OTUs, Malaise OTUs and for the Conservation Index. Our multiple regression analyses revealed (a) a consistently positive effect of plant richness on other taxa, (b) prediction of 12%–55% of variation in other taxa and 48% of variation in the total species richness when bioindication and plant richness were used as predictors. Our results justify that vascular plants are strong indicators of total biodiversity across environmental gradients and broad taxonomic realms and therefore a natural first choice for biodiversity monitoring and conservation planning.",
keywords = "bryophytes, ecospace, fungi, gastropods, hoverflies, metabarcoding, spiders, surrogacy, biodiversity, spatial conservation planning",
author = "Brunbjerg, {Ane Kirstine} and Bruun, {Hans Henrik} and Lars Dalby and Camilla Fl{\o}jgaard and Fr{\o}slev, {Tobias G.} and H{\o}ye, {Toke T.} and Irina Goldberg and Thomas L{\ae}ss{\o}e and Hansen, {Morten D.D.} and Lars Br{\o}ndum and Lars Skipper and K{\aa}re Fog and Rasmus Ejrn{\ae}s",
year = "2018",
doi = "10.1111/2041-210X.13087",
language = "English",
volume = "9",
pages = "2372--2382",
journal = "Methods in Ecology and Evolution",
issn = "2041-210X",
publisher = "Wiley-Blackwell",
number = "12",

}

RIS

TY - JOUR

T1 - Vascular plant species richness and bioindication predict multi-taxon species richness

AU - Brunbjerg, Ane Kirstine

AU - Bruun, Hans Henrik

AU - Dalby, Lars

AU - Fløjgaard, Camilla

AU - Frøslev, Tobias G.

AU - Høye, Toke T.

AU - Goldberg, Irina

AU - Læssøe, Thomas

AU - Hansen, Morten D.D.

AU - Brøndum, Lars

AU - Skipper, Lars

AU - Fog, Kåre

AU - Ejrnæs, Rasmus

PY - 2018

Y1 - 2018

N2 - Plants regulate soils and microclimate, provide substrate for heterotrophic taxa, are easy to observe and identify and have a stable taxonomy, which strongly justifies their use as indicators in monitoring and conservation. However, there is no consensus as to whether plants are strong predictors of total multi-taxon species richness. In this study, we investigate if general terrestrial species richness can be predicted by vascular plant richness and bioindication. To answer this question, we collected an extensive dataset on species richness of vascular plants, bryophytes, macrofungi, lichens, plant-galling arthropods, gastropods, spiders, carabid beetles, hoverflies, and genetic richness (operational taxonomic units = OTUs) from environmental DNA metabarcoding. We also constructed a Conservation Index based on threatened red list species. Besides using richness of vascular plants for prediction of other taxonomic groups, we also used plant-derived calibration of the abiotic environment (moisture, soil fertility and light conditions) as well as the degree of anthropogenic impact. Bivariate relationships between plant species richness and other species groups showed no consistent pattern. After taking environmental calibration by bioindication into account, we found a consistent, and for most groups significant, positive effect of plant richness. Plant species richness was also important for richness of fungal OTUs, Malaise OTUs and for the Conservation Index. Our multiple regression analyses revealed (a) a consistently positive effect of plant richness on other taxa, (b) prediction of 12%–55% of variation in other taxa and 48% of variation in the total species richness when bioindication and plant richness were used as predictors. Our results justify that vascular plants are strong indicators of total biodiversity across environmental gradients and broad taxonomic realms and therefore a natural first choice for biodiversity monitoring and conservation planning.

AB - Plants regulate soils and microclimate, provide substrate for heterotrophic taxa, are easy to observe and identify and have a stable taxonomy, which strongly justifies their use as indicators in monitoring and conservation. However, there is no consensus as to whether plants are strong predictors of total multi-taxon species richness. In this study, we investigate if general terrestrial species richness can be predicted by vascular plant richness and bioindication. To answer this question, we collected an extensive dataset on species richness of vascular plants, bryophytes, macrofungi, lichens, plant-galling arthropods, gastropods, spiders, carabid beetles, hoverflies, and genetic richness (operational taxonomic units = OTUs) from environmental DNA metabarcoding. We also constructed a Conservation Index based on threatened red list species. Besides using richness of vascular plants for prediction of other taxonomic groups, we also used plant-derived calibration of the abiotic environment (moisture, soil fertility and light conditions) as well as the degree of anthropogenic impact. Bivariate relationships between plant species richness and other species groups showed no consistent pattern. After taking environmental calibration by bioindication into account, we found a consistent, and for most groups significant, positive effect of plant richness. Plant species richness was also important for richness of fungal OTUs, Malaise OTUs and for the Conservation Index. Our multiple regression analyses revealed (a) a consistently positive effect of plant richness on other taxa, (b) prediction of 12%–55% of variation in other taxa and 48% of variation in the total species richness when bioindication and plant richness were used as predictors. Our results justify that vascular plants are strong indicators of total biodiversity across environmental gradients and broad taxonomic realms and therefore a natural first choice for biodiversity monitoring and conservation planning.

KW - bryophytes

KW - ecospace

KW - fungi

KW - gastropods

KW - hoverflies

KW - metabarcoding

KW - spiders

KW - surrogacy

KW - biodiversity

KW - spatial conservation planning

U2 - 10.1111/2041-210X.13087

DO - 10.1111/2041-210X.13087

M3 - Journal article

AN - SCOPUS:85054487913

VL - 9

SP - 2372

EP - 2382

JO - Methods in Ecology and Evolution

JF - Methods in Ecology and Evolution

SN - 2041-210X

IS - 12

ER -

ID: 204048062