Add to ORKGPaddy soils have an environment in which waterlogging and drainage occur during the rice growing season. Fingerprinting analysis based on soil RNA indicated that active microbial populations changed in response to water management conditions, although the fundamental microbial community was stable as assessed by DNA-based fingerprinting analysis. Comparative clone library analysis based on bacterial and archaeal 16S rRNAs (5,277 and 5,436 clones, respectively) revealed stable and variable members under waterlogged or drained conditions. Clones related to the class Deltaproteobacteria and phylum Euryarchaeota were most frequently obtained from the samples collected under both waterlogged and drained conditions. Clones related to syntrophic h...
Methane-oxidising bacteria (MOB) play an important role in the reduction of methane emissions from r...
Paddy fields are important ecosystems, as rice is the primary food source for about half of the worl...
Fertilization provides excess N to soil microorganisms, thus possibly affecting soil microbial abund...
Rice paddies in central Thailand are flooded either by irrigation (irrigated rice) or by rain (rain-...
Traditional rice cultivation consumes up to 2500 L of water per kg yield and new strategies such as ...
Methanogenesis and syntrophy are the most important microbial metabolic processes for the anaerobic ...
Drainage is an important mitigation strategy to reduce methane emission from rice paddies. Here, we ...
Purpose: The aim of this study is to investigate the abundance, diversity, and distribution of archa...
rice field soil; T-RFLP; qPCR. Archaea in rice fields play an important role in carbon and nitrogen ...
The bacterial communities in floodwater, from a rice-planted and an unplanted field were characteriz...
Conversion of tidal wetlands into paddy soils is an ancient and prevalent agricultural practice to m...
Understanding microbial community succession is key to uncover the mechanisms driving variation in s...
The succession and phylogenetic profiles of methanogenic archaeal communities associated with rice s...
Impact of environmental perturbations i.e., nitrogen (N), phosphorus (P), potassium (K), and rice st...
Methane is a potent greenhouse gas that plays a major role in global climate change. Biogenic methan...
Methane-oxidising bacteria (MOB) play an important role in the reduction of methane emissions from r...
Paddy fields are important ecosystems, as rice is the primary food source for about half of the worl...
Fertilization provides excess N to soil microorganisms, thus possibly affecting soil microbial abund...
Rice paddies in central Thailand are flooded either by irrigation (irrigated rice) or by rain (rain-...
Traditional rice cultivation consumes up to 2500 L of water per kg yield and new strategies such as ...
Methanogenesis and syntrophy are the most important microbial metabolic processes for the anaerobic ...
Drainage is an important mitigation strategy to reduce methane emission from rice paddies. Here, we ...
Purpose: The aim of this study is to investigate the abundance, diversity, and distribution of archa...
rice field soil; T-RFLP; qPCR. Archaea in rice fields play an important role in carbon and nitrogen ...
The bacterial communities in floodwater, from a rice-planted and an unplanted field were characteriz...
Conversion of tidal wetlands into paddy soils is an ancient and prevalent agricultural practice to m...
Understanding microbial community succession is key to uncover the mechanisms driving variation in s...
The succession and phylogenetic profiles of methanogenic archaeal communities associated with rice s...
Impact of environmental perturbations i.e., nitrogen (N), phosphorus (P), potassium (K), and rice st...
Methane is a potent greenhouse gas that plays a major role in global climate change. Biogenic methan...
Methane-oxidising bacteria (MOB) play an important role in the reduction of methane emissions from r...
Paddy fields are important ecosystems, as rice is the primary food source for about half of the worl...
Fertilization provides excess N to soil microorganisms, thus possibly affecting soil microbial abund...