Full TGIF Record # 164180
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Web URL(s):https://web.archive.org/web/20160212052315/http://www.turfgrasssociety.eu/home/articles/code/272?headline=Stomatal%20and%20Bulliform%20Cell%20Changes%20in%20C.%20dactylon%20Plants%20in%20which%20the%20Root%20System%20is%20Subjected%20to%20Supra%20optimal%20CO2%20Concentration%20and%20Increasing%20Hypoxia%20Levels
    Last checked: 08/01/2016
    Access conditions: Item is within a limited-access website
Publication Type:
i
Refereed
Author(s):Nikolopoulou, A.- E.; Aivalakis, G.; Nektarios, P. A.; Chronopoulos, I.
Title:Stomatal and bulliform cell changes in C. dactylon plants in which the root system is subjected to supra optimal CO2 concentration and increasing hypoxia levels
Meeting Info.:11-14 April 2010: Angers, Loire Valley, France
Source:2nd European Turfgrass Society Conference Proceedings. Vol. 2, May 21 2010, p. Unknown.
Publishing Information:Angers, France: European Turfgrass Society
# of Pages:0
Keywords:TIC Keywords: Carbon dioxide; Cynodon dactylon; Landfills; Oxygen deprivation; Root systems; Soil reclamation; Stomata
Abstract/Contents:"The reclamation of landfills and sanitary landfills is a major contemporary issue, not just for aesthetic reasons but mostly for environmental protection purposes. Although a lot of techniques have been proposed for the isolation of the waste mass from the upper soil, escape of biogas to the landfill cap might be observed, resulting in increased rootzone CO2, which in some cases might reach or exceed 50% of the soil gas volume, and decreased O2 (Ham, 1979), thus creating unfavorable conditions for vegetation establishment and growth (Marchiol et al., 2000). Even though substantial research has been performed concerning the root anatomical changes that might lead to adaptation or tolerance of the turfgrass species, limited information exists on the reaction of turfgrass upper plant parts anatomical reaction in high CO2 and low O2 during establishment. The aim of the present study was the investigation of the anatomical differences in stomata and bulliform cells of Cynodon dactylon leaves that might lead to alleviation of rootzone gas stress."
Language:English
References:Unknown
ASA/CSSA/SSSA Citation (Crop Science-Like - may be incomplete):
Nikolopoulou, A.- E., G. Aivalakis, P. A. Nektarios, and I. Chronopoulos. 2010. Stomatal and bulliform cell changes in C. dactylon plants in which the root system is subjected to supra optimal CO2 concentration and increasing hypoxia levels. Eur. Turfgrass Soc. Conf. Proc. 2:p. Unknown.
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Web URL(s):
https://web.archive.org/web/20160212052315/http://www.turfgrasssociety.eu/home/articles/code/272?headline=Stomatal%20and%20Bulliform%20Cell%20Changes%20in%20C.%20dactylon%20Plants%20in%20which%20the%20Root%20System%20is%20Subjected%20to%20Supra%20optimal%20CO2%20Concentration%20and%20Increasing%20Hypoxia%20Levels
    Last checked: 08/01/2016
    Access conditions: Item is within a limited-access website
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