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Moser, G. (2015): <b>Carbon dioxide fertilisation and supressed respiration induce enhanced spring biomass production in a mixed species temperate meadow exposed to moderate carbon dioxide enrichment.</b> <i>Available online (http://face2face.center/data_pre.do?citid=9) from F2Fdw.</i> [Date of download: 2024-04-18].

Resource Description
Title: Carbon dioxide fertilisation and supressed respiration induce enhanced spring biomass production in a mixed species temperate meadow exposed to moderate carbon dioxide enrichment
Short Name: Carbon dioxide fertilisation and supressed respiration
F2Fdw ID: 9
Publication Date: 2015-11-30
Last Update Date: 2015-12-02
License and Usage Rights: PAK 823-825 data user agreement.
Temporal Coverage:
Begin: 2012-04-02
End: 2012-05-02
Geographic Coverage:
Geographic Description: Giessen ring 1
Bounding Coordinates:
- lon/lat [degrees]
- WGS 84
North: Information not publicly available, please log in. Max: 200.0 ( meter )
West: Information not publicly available, please log in. East: Information not publicly available, please log in. Elevation
South: Information not publicly available, please log in. Min: 200.0 ( meter )
Dataset Owner(s):
Individual: Moser, Gerald
Contact:
Associated Person(s):
Individual: Grünhage, Ludger
Individual: Müller, Christoph
Abstract:
The rising concentration of carbon dioxide in the atmosphere ([CO2]) has a direct effect on terrestrial vegetation<br/> through shifts in the rates of photosynthetic carbon uptake and transpirational water-loss. Free Air CO2 Enrichment (FACE)<br/> experiments aim to predict the likely responses of plants to increased [CO2] under normal climatic conditions. The Giessen<br/> FACE system operates a lower [CO2] enrichment regime (480 mmol mol–1) than standard FACE (550–600 mmol mol–1),<br/> permitting the analysis of a mixed species temperate meadow under a [CO2] level equivalent to that predicted in 25–30 years.<br/> We analysed the physiological and morphological responses of six species to investigate the effect of moderate [CO2] on<br/> spring biomass production. Carbon dioxide enrichment stimulated leaf photosynthetic rates and supressed respiration,<br/> contributing to enhanced net assimilation and a 23% increase in biomass. The capacity for photosynthetic assimilation was<br/> unaffected by [CO2] enrichment, with no downregulation of rates of carboxylation of Rubisco or regeneration of ribulose-<br/> 1,5-bisphosphate. Foliar N content was also not influenced by increased [CO2]. Enhanced [CO2] reduced stomatal size, but<br/> stomatal density and leaf area index remained constant, suggesting that the effect on gas exchange was minimal.
Additional Infos:
Additional keywords: free air CO2 enrichment, grassland, inhibition of respiration, photosynthetic downregulation, stomatal conductance, stomatal density.
Keywords:
| biomass |
Associated entities to this dataset:
-------- 1 . other entity --------
Entity name: haworthetal15funcplantbioofirst
Entity Description: Carbon dioxide fertilisation and supressed respiration induce enhanced spring biomass production in a mixed species temperate meadow exposed to moderate carbon dioxide enrichment
Tech. Details ...
Attribute(s) ...
Metadata Provider:
Individual: Moser, Gerald
Contact:
Contact Person:
Individual: Moser, Gerald
Contact:
Online Distribution:
Download File: http://face2face.center/data_pre.do?citid=9
Data Publisher:
Organization: LOEWE-FACE2FACE
Contact:


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aCO2 ambient CO2 biomass C dynamics climate change CO2 CO2 emissions coupled model eCO2 ecosystem simulation elevated CO2 FACE Gi-FACE Giessen FACE GiFACE grassland Greenhouse gas ground water long-term response meteorological Modelling plant growth soil soil moisture uncertainty analysis