Drivers of intraspecific trait variation of grass and forb species in German meadows and pastures

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Drivers of intraspecific trait variation of grass and forb species in German meadows and pastures. / Herz, Katharina; Dietz, Sophie; Haider, Sylvia et al.
in: Journal of Vegetation Science, Jahrgang 28, Nr. 4, 01.07.2017, S. 705-716.

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

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Herz K, Dietz S, Haider S, Jandt U, Scheel D, Bruelheide H. Drivers of intraspecific trait variation of grass and forb species in German meadows and pastures. Journal of Vegetation Science. 2017 Jul 1;28(4):705-716. doi: 10.1111/jvs.12534

Bibtex

@article{32c629e3a28f4b119a9230cba584ddaa,
title = "Drivers of intraspecific trait variation of grass and forb species in German meadows and pastures",
abstract = "Questions: To what extent is trait variation in grasses and forbs driven by land-use intensity, climate, soil conditions and plant diversity of the local neighbourhood? Do grass and forb species differ in the degree of intraspecific trait variation?. Location: Managed grasslands in three regions of Germany. Methods: Using a phytometer approach, we raised 20 common European grassland species (ten forbs and ten grasses) and planted them into 54 plots of different land-use types (pasture, meadow, mown pasture). After 1 yr in the field, we measured above- and below-ground plant functional traits. Linear mixed effects models (LMEM) were used to identify the most powerful predictors for every trait. Variation partitioning was applied to assess the amount of inter- and intraspecific trait variation in grasses and forbs explained by environmental conditions (land-use intensity, climate and soil conditions) and plant species diversity of the local neighbourhood. Results: For 12 out of the 14 traits studied, either land-use intensity or local neighbourhood diversity were predictors in the best LMEM. Land-use intensity had considerably stronger effects than neighbourhood diversity. Root dry matter content and root phosphorus concentration of forbs were more affected by land-use intensity than those of grasses. For almost all traits, intraspecific trait variation of grasses was much higher than that of forbs, while traits of forbs varied more among species. Overall, inter- and intraspecific variation was of the same magnitude. Conclusion: The similar magnitude of intra- and interspecific trait variation suggests that both sources should be considered in grassland studies at a scale similar to that of our study. The high amount of intraspecific trait variation that was explained by environmental factors and local neighbourhood diversity clearly demonstrates the high potential of species to adjust to local conditions, which would be ignored when only considering species mean trait values.",
keywords = "Biology",
author = "Katharina Herz and Sophie Dietz and Sylvia Haider and Ute Jandt and Dierk Scheel and Helge Bruelheide",
note = "Publisher Copyright: {\textcopyright} 2017 International Association for Vegetation Science",
year = "2017",
month = jul,
day = "1",
doi = "10.1111/jvs.12534",
language = "English",
volume = "28",
pages = "705--716",
journal = "Journal of Vegetation Science",
issn = "1100-9233",
publisher = "Opulus Press",
number = "4",

}

RIS

TY - JOUR

T1 - Drivers of intraspecific trait variation of grass and forb species in German meadows and pastures

AU - Herz, Katharina

AU - Dietz, Sophie

AU - Haider, Sylvia

AU - Jandt, Ute

AU - Scheel, Dierk

AU - Bruelheide, Helge

N1 - Publisher Copyright: © 2017 International Association for Vegetation Science

PY - 2017/7/1

Y1 - 2017/7/1

N2 - Questions: To what extent is trait variation in grasses and forbs driven by land-use intensity, climate, soil conditions and plant diversity of the local neighbourhood? Do grass and forb species differ in the degree of intraspecific trait variation?. Location: Managed grasslands in three regions of Germany. Methods: Using a phytometer approach, we raised 20 common European grassland species (ten forbs and ten grasses) and planted them into 54 plots of different land-use types (pasture, meadow, mown pasture). After 1 yr in the field, we measured above- and below-ground plant functional traits. Linear mixed effects models (LMEM) were used to identify the most powerful predictors for every trait. Variation partitioning was applied to assess the amount of inter- and intraspecific trait variation in grasses and forbs explained by environmental conditions (land-use intensity, climate and soil conditions) and plant species diversity of the local neighbourhood. Results: For 12 out of the 14 traits studied, either land-use intensity or local neighbourhood diversity were predictors in the best LMEM. Land-use intensity had considerably stronger effects than neighbourhood diversity. Root dry matter content and root phosphorus concentration of forbs were more affected by land-use intensity than those of grasses. For almost all traits, intraspecific trait variation of grasses was much higher than that of forbs, while traits of forbs varied more among species. Overall, inter- and intraspecific variation was of the same magnitude. Conclusion: The similar magnitude of intra- and interspecific trait variation suggests that both sources should be considered in grassland studies at a scale similar to that of our study. The high amount of intraspecific trait variation that was explained by environmental factors and local neighbourhood diversity clearly demonstrates the high potential of species to adjust to local conditions, which would be ignored when only considering species mean trait values.

AB - Questions: To what extent is trait variation in grasses and forbs driven by land-use intensity, climate, soil conditions and plant diversity of the local neighbourhood? Do grass and forb species differ in the degree of intraspecific trait variation?. Location: Managed grasslands in three regions of Germany. Methods: Using a phytometer approach, we raised 20 common European grassland species (ten forbs and ten grasses) and planted them into 54 plots of different land-use types (pasture, meadow, mown pasture). After 1 yr in the field, we measured above- and below-ground plant functional traits. Linear mixed effects models (LMEM) were used to identify the most powerful predictors for every trait. Variation partitioning was applied to assess the amount of inter- and intraspecific trait variation in grasses and forbs explained by environmental conditions (land-use intensity, climate and soil conditions) and plant species diversity of the local neighbourhood. Results: For 12 out of the 14 traits studied, either land-use intensity or local neighbourhood diversity were predictors in the best LMEM. Land-use intensity had considerably stronger effects than neighbourhood diversity. Root dry matter content and root phosphorus concentration of forbs were more affected by land-use intensity than those of grasses. For almost all traits, intraspecific trait variation of grasses was much higher than that of forbs, while traits of forbs varied more among species. Overall, inter- and intraspecific variation was of the same magnitude. Conclusion: The similar magnitude of intra- and interspecific trait variation suggests that both sources should be considered in grassland studies at a scale similar to that of our study. The high amount of intraspecific trait variation that was explained by environmental factors and local neighbourhood diversity clearly demonstrates the high potential of species to adjust to local conditions, which would be ignored when only considering species mean trait values.

KW - Biology

UR - http://www.scopus.com/inward/record.url?scp=85018909692&partnerID=8YFLogxK

U2 - 10.1111/jvs.12534

DO - 10.1111/jvs.12534

M3 - Journal articles

AN - SCOPUS:85018909692

VL - 28

SP - 705

EP - 716

JO - Journal of Vegetation Science

JF - Journal of Vegetation Science

SN - 1100-9233

IS - 4

ER -

DOI