Add to ORKGThe bacterial communities in floodwater, from a rice-planted and an unplanted field were characterized at the beginning (flooding stage) and at the end (harvest stage) of the rice cropping cycle. Most probable number estimations and plate counts of aerobic and anaerobic heterotrophic bacteria and of several metabolic bacterial groups (methanogens, sulfate-reducers, anaerobic sulfur and nonsulfur phototrophs, denitrifiers and ammonifiers) were similar in rice and unplanted floodwater at both sampling times. The analysis of denitrifiers and methanogens by fluorescent in situ hybridization revealed a shift in the phylogenetic affiliation only of the former group in the rice-planted floodwater. Terminal restriction fragment length polymorphism ...
Methanogenesis and syntrophy are the most important microbial metabolic processes for the anaerobic ...
Rice paddy soil-associated microbiota participate in biogeochemical processes that underpin rice yie...
Abstract Background Exploiting soil microorganisms in the rhizosphere of plants can significantly im...
Paddy soils have an environment in which waterlogging and drainage occur during the rice growing sea...
Traditional rice cultivation consumes up to 2500 L of water per kg yield and new strategies such as ...
Crop rotation is a practice harmonized with the sustainable rice production. Nevertheless, the impli...
The succession and phylogenetic profiles of methanogenic archaeal communities associated with rice s...
Bacterial communities present in the rhizosphere of different plants, including rice (Oryza sativa),...
In this study, the effects of plant genotype, soil type and nutrient use efficiency on the compositi...
Understanding microbial community succession is key to uncover the mechanisms driving variation in s...
Fertilization provides excess N to soil microorganisms, thus possibly affecting soil microbial abund...
In this study, the effects of plant genotype, soil type and nutrient use efficiency on the compositi...
Bacteria in the rhizosphere influence plant growth and interact with plant roots. Microscopy and cul...
Facultative mutualisms between plants and microbes might benefit the hosts including growth enhancem...
To estimate the effect of long-term fertilization on metabolically active bacterial communities in a...
Methanogenesis and syntrophy are the most important microbial metabolic processes for the anaerobic ...
Rice paddy soil-associated microbiota participate in biogeochemical processes that underpin rice yie...
Abstract Background Exploiting soil microorganisms in the rhizosphere of plants can significantly im...
Paddy soils have an environment in which waterlogging and drainage occur during the rice growing sea...
Traditional rice cultivation consumes up to 2500 L of water per kg yield and new strategies such as ...
Crop rotation is a practice harmonized with the sustainable rice production. Nevertheless, the impli...
The succession and phylogenetic profiles of methanogenic archaeal communities associated with rice s...
Bacterial communities present in the rhizosphere of different plants, including rice (Oryza sativa),...
In this study, the effects of plant genotype, soil type and nutrient use efficiency on the compositi...
Understanding microbial community succession is key to uncover the mechanisms driving variation in s...
Fertilization provides excess N to soil microorganisms, thus possibly affecting soil microbial abund...
In this study, the effects of plant genotype, soil type and nutrient use efficiency on the compositi...
Bacteria in the rhizosphere influence plant growth and interact with plant roots. Microscopy and cul...
Facultative mutualisms between plants and microbes might benefit the hosts including growth enhancem...
To estimate the effect of long-term fertilization on metabolically active bacterial communities in a...
Methanogenesis and syntrophy are the most important microbial metabolic processes for the anaerobic ...
Rice paddy soil-associated microbiota participate in biogeochemical processes that underpin rice yie...
Abstract Background Exploiting soil microorganisms in the rhizosphere of plants can significantly im...