Back to Search Start Over

The Effect of High CO2 and Low O2 Concentrations in Simulated Landfill Gas on the Growth and Nodule Activity of Leucaena leucocephala

Authors :
Zhang, Jianhua
Liang, Jiansheng
Wong, M.H.
Source :
Plant and Cell Physiology; December 1995, Vol. 36 Issue: 8 p1431-1431, 1p
Publication Year :
1995

Abstract

When roots of Leucaena leucocephala</it> seedlings (White Popinac, a tropical legume tree belongs to the Family Mimosaceae) were fumigated with simulated landfill gas (CO<inf>2</inf> above 10% and O<inf>2</inf> from 10% to atmospheric level), the stem elongation rate and stomatal conductance were inhibited at the absence of any apparent leaf water deficit. When compared with a treatment where root system was flooded, the effect of gas fumigation on the shoot physiology was relatively mild and appeared later. On the other hand, nodule activity (measured as rate of acetylene reduction activity, ARA) was much more severely inhibited by gas fumigation. Although nodule dry weight and carbohydrate storage in nodules were reduced, the inhibition was not likely a result of the shortage of carbohydrate reserve in the nodules. This was because the ARA of untreated fresh nodules was also inhibited immediately following exposure to the simulated landfill gas. In further experiments where CO<inf>2</inf> and O<inf>2</inf> were manipulated separately, although a reduction of O<inf>2</inf> concentration to half of the atmospheric level might account for up to 30% loss of ARA with considerable variation, the high CO<inf>2</inf> alone showed a much more severe inhibition. This CO<inf>2</inf>-induced inhibition was not reversible one hour after the high CO<inf>2</inf> gas was removed. There was some recovery of activity 5 day after plants were fumigated, suggesting that the legume plant can maintain some nitrogen-fixation activity under the influence of landfill gas.

Details

Language :
English
ISSN :
00320781 and 14719053
Volume :
36
Issue :
8
Database :
Supplemental Index
Journal :
Plant and Cell Physiology
Publication Type :
Periodical
Accession number :
ejs35949288