Add to ORKGA mechanistic approach is presented to describe oxidation of the greenhouse gas methane in the rice rhizosphere of flooded paddies by obligate methanotrophic bacteria. In flooded rice paddies these methanotrophs compete for available O2 with other types of bacteria. Soil incubation studies and most-probable-number (MPN) counts of oxygen consumers show that microbial oxygen consumption rates were dominated by heterotrophic and methanotrophic respiration. MPN counts of methanotrophs showed large spatial and temporal variability. The most abundant methanotrophs (a Methylocystis sp.) and heterotrophs (a Pseudomonas sp. and a Rhodococcus sp.) were isolated and characterized. Growth dynamics of these bacteria under carbon and oxygen limitations a...
This thesis describes model development and experimentation on the comprehension and prediction of m...
Rice cultivation worldwide accounts for ∼7 to 17% of global methane emissions. Methane cycling in ri...
Roots represent the primary site of direct interaction between rice plants and soil microorganisms. ...
A mechanistic approach is presented to describe oxidation of the greenhouse gas methane in the rice ...
A mechanistic model is presented on the processes leading to methane oxidation in rice rhizosphere. ...
soil Mechanisms of methane oxidation in the plant-soil system of rice were studied in a pot experime...
The activity and community structure of methanotrophs was investigated in compartmented microcosms o...
Methanotrophs in the rhizosphere of rice field ecosystems attenuate the emissions of CH(4) into the ...
Abstract. Methane has profound impact on the physico-chemical properties in atmosphere leading to gl...
Methane is next to water vapor and carbon dioxide the third most important greenhouse gas. The large...
Methanotrophic bacteria play an important role in regulating the methane flux from rice fields to th...
Rates and pathways of methane production in rice fields were found to change with season. However, f...
Methane-oxidising bacteria (MOB) play an important role in the reduction of methane emissions from r...
Methane is a greenhouse gas and has potency to deplete ozone layer. Rice fields are a significantl...
Rice paddies in central Thailand are flooded either by irrigation (irrigated rice) or by rain (rain-...
This thesis describes model development and experimentation on the comprehension and prediction of m...
Rice cultivation worldwide accounts for ∼7 to 17% of global methane emissions. Methane cycling in ri...
Roots represent the primary site of direct interaction between rice plants and soil microorganisms. ...
A mechanistic approach is presented to describe oxidation of the greenhouse gas methane in the rice ...
A mechanistic model is presented on the processes leading to methane oxidation in rice rhizosphere. ...
soil Mechanisms of methane oxidation in the plant-soil system of rice were studied in a pot experime...
The activity and community structure of methanotrophs was investigated in compartmented microcosms o...
Methanotrophs in the rhizosphere of rice field ecosystems attenuate the emissions of CH(4) into the ...
Abstract. Methane has profound impact on the physico-chemical properties in atmosphere leading to gl...
Methane is next to water vapor and carbon dioxide the third most important greenhouse gas. The large...
Methanotrophic bacteria play an important role in regulating the methane flux from rice fields to th...
Rates and pathways of methane production in rice fields were found to change with season. However, f...
Methane-oxidising bacteria (MOB) play an important role in the reduction of methane emissions from r...
Methane is a greenhouse gas and has potency to deplete ozone layer. Rice fields are a significantl...
Rice paddies in central Thailand are flooded either by irrigation (irrigated rice) or by rain (rain-...
This thesis describes model development and experimentation on the comprehension and prediction of m...
Rice cultivation worldwide accounts for ∼7 to 17% of global methane emissions. Methane cycling in ri...
Roots represent the primary site of direct interaction between rice plants and soil microorganisms. ...