Testing the effect–response framework: key response and effect traits determining above-ground biomass of salt marshes

Question: How do species traits respond to environmental conditions and what is their effect on ecosystem properties? Location: Salt marshes, Northwest Germany. Methods: On 113 plots along the German mainland coast and on one island, we measured environmental parameters (soil nutrient content, inund...

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Published inJournal of vegetation science Vol. 22; no. 3; pp. 387 - 401
Main Authors Minden, Vanessa, Kleyer, Michael
Format Journal Article
LanguageEnglish
Published Oxford, UK Opulus Press 01.06.2011
Blackwell Publishing Ltd
Subjects
Aboveground biomass
Allometric relationships
Biomass
carbon nitrogen ratio
dry matter partitioning
Ecosystems
Effect trait
environmental factors
equations
Germany
Groundwater
Groundwater level
leaf area
leaves
nutrient availability
nutrient content
Path analysis
plant organs
Plants
Response trait
salinity
Salt marshes
soil
Species
Structural equation modelling
Trade-off
Vegetation
water table
Wetland ecology
Germany
Online AccessGet full text
ISSN1100-9233
1654-1103
DOI10.1111/j.1654-1103.2011.01272.x

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Abstract Question: How do species traits respond to environmental conditions and what is their effect on ecosystem properties? Location: Salt marshes, Northwest Germany. Methods: On 113 plots along the German mainland coast and on one island, we measured environmental parameters (soil nutrient content, inundation frequency, groundwater level and salinity), collected traits from 242 individuals (specific leaf area [SLA], whole plant C:N ratio, and dry weights of plant organs) and sampled above-ground biomass as an ecosystem property. We constructed a path model combining environmental parameters, functional traits at community level and above-ground biomass, which was tested against a dependence model using path analysis; model fit was evaluated by structural equation modelling (SEM). Results: The final model showed good consistency with the data and highlights the major role of groundwater level, salinity and nutrient availability as the most important factors influencing biomass allocation in salt marshes. Above-ground living biomass was mostly determined by stem biomass, which was mediated through an allometric allocation of biomass to all other plant organs, including leaf mass. C:N ratio and SLA were the major drivers for dead biomass. Conclusion: We emphasize an indirect link between standing biomass and environmental conditions and recognize stem biomass, plant C:N ratio and SLA as keystone markers of species functioning in determining the relationship between environment and ecosystem properties.
AbstractList Question: How do species traits respond to environmental conditions and what is their effect on ecosystem properties? Location: Salt marshes, Northwest Germany. Methods: On 113 plots along the German mainland coast and on one island, we measured environmental parameters (soil nutrient content, inundation frequency, groundwater level and salinity), collected traits from 242 individuals (specific leaf area [SLA], whole plant C:N ratio, and dry weights of plant organs) and sampled above‐ground biomass as an ecosystem property. We constructed a path model combining environmental parameters, functional traits at community level and above‐ground biomass, which was tested against a dependence model using path analysis; model fit was evaluated by structural equation modelling (SEM). Results: The final model showed good consistency with the data and highlights the major role of groundwater level, salinity and nutrient availability as the most important factors influencing biomass allocation in salt marshes. Above‐ground living biomass was mostly determined by stem biomass, which was mediated through an allometric allocation of biomass to all other plant organs, including leaf mass. C:N ratio and SLA were the major drivers for dead biomass. Conclusion: We emphasize an indirect link between standing biomass and environmental conditions and recognize stem biomass, plant C:N ratio and SLA as keystone markers of species functioning in determining the relationship between environment and ecosystem properties.
Question: How do species traits respond to environmental conditions and what is their effect on ecosystem properties? Location: Salt marshes, Northwest Germany. Methods: On 113 plots along the German mainland coast and on one island, we measured environmental parameters (soil nutrient content, inundation frequency, groundwater level and salinity), collected traits from 242 individuals (specific leaf area [SLA], whole plant C:N ratio, and dry weights of plant organs) and sampled above-ground biomass as an ecosystem property. We constructed a path model combining environmental parameters, functional traits at community level and above-ground biomass, which was tested against a dependence model using path analysis; model fit was evaluated by structural equation modelling (SEM). Results: The final model showed good consistency with the data and highlights the major role of groundwater level, salinity and nutrient availability as the most important factors influencing biomass allocation in salt marshes. Above-ground living biomass was mostly determined by stem biomass, which was mediated through an allometric allocation of biomass to all other plant organs, including leaf mass. C:N ratio and SLA were the major drivers for dead biomass. Conclusion: We emphasize an indirect link between standing biomass and environmental conditions and recognize stem biomass, plant C:N ratio and SLA as keystone markers of species functioning in determining the relationship between environment and ecosystem properties.
Question: How do species traits respond to environmental conditions and what is their effect on ecosystem properties? Location: Salt marshes, Northwest Germany. Methods: On 113 plots along the German mainland coast and on one island, we measured environmental parameters (soil nutrient content, inundation frequency, groundwater level and salinity), collected traits from 242 individuals (specific leaf area [SLA], whole plant C:N ratio, and dry weights of plant organs) and sampled above-ground biomass as an ecosystem property. We constructed a path model combining environmental parameters, functional traits at community level and above-ground biomass, which was tested against a dependence model using path analysis; model fit was evaluated by structural equation modelling (SEM). Results: The final model showed good consistency with the data and highlights the major role of groundwater level, salinity and nutrient availability as the most important factors influencing biomass allocation in salt marshes. Aboveground living biomass was mostly determined by stem biomass, which was mediated through an allometric allocation of biomass to all other plant organs, including leaf mass. C:N ratio and SLA were the major drivers for dead biomass. Conclusion: We emphasize an indirect link between standing biomass and environmental conditions and recognize stem biomass, plant C:N ratio and SLA as keystone markers of species functioning in determining the relationship between environment and ecosystem properties.
Author Minden, Vanessa
Kleyer, Michael
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michael.kleyer@uni‐oldenburg.de
Co‐ordinating Editor: Lindsay Turnbull
Minden, V.
Corresponding author
vanessa.minden@uni‐oldenburg.de
Kleyer, M.
(
)
Landscape Ecology Group, Institute of Biology and Environmental Sciences, University of Oldenburg, D‐26111 Oldenburg, Germany
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– volume: 62
  start-page: 499
  year: 1985
  end-page: 521
  article-title: Ecophysiological adaptations of coastal halophytes from foredunes and salt marshes
  publication-title: Vegetatio
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Snippet Question: How do species traits respond to environmental conditions and what is their effect on ecosystem properties? Location: Salt marshes, Northwest...
Question: How do species traits respond to environmental conditions and what is their effect on ecosystem properties? Location: Salt marshes, Northwest...
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jstor
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StartPage 387
SubjectTerms Aboveground biomass
Allometric relationships
Biomass
carbon nitrogen ratio
dry matter partitioning
Ecosystems
Effect trait
environmental factors
equations
Germany
Groundwater
Groundwater level
leaf area
leaves
nutrient availability
nutrient content
Path analysis
plant organs
Plants
Response trait
salinity
Salt marshes
soil
Species
Structural equation modelling
Trade-off
Vegetation
water table
Wetland ecology
Title Testing the effect–response framework: key response and effect traits determining above-ground biomass of salt marshes
URI https://api.istex.fr/ark:/67375/WNG-0Z285LMG-N/fulltext.pdf
https://www.jstor.org/stable/23012490
https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fj.1654-1103.2011.01272.x
https://www.proquest.com/docview/1663574818
Volume 22
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