In this paper evidence is presented to show that the organisms of Winogradsky are mostly responsible for nitrification in the soil. It is emphasised here that antotrophic rganisins can flourish well in the presence of organic materials, if in the same medium heterotrophic organisms capable of acting on the particular organic substance are also present
The endogenous substrate of Pseudomonas aeruginosa has been reported to be nitrogenous in nature, as...
The competition for limiting amounts of ammonium between the chemolithotrophic ammonium-oxidizing sp...
Summarization: Amino acids (AAs) have an important role on the biogeochemical cycle of N in terrestr...
SUMMARY. 1 An extensive review of the literature on nitrification shows that the workers in this sub...
Nitrification is an important process in the biogeochemical cycle of nitrogen, linking its reduced ...
Nitrification in acid soils was first reported in the beginning of the 20th century. Although this f...
Chemolitho-autotrophic microorganisms like the nitrite-oxidizing Nitrobacter winogradskyi create an ...
The nitrification of ammonia and nitrite in soil is but one part of the overall nitrogen cycle. Esse...
Nitrification of excess ammonia in soil causes eutrophication of water resources and emission of atm...
Ammonia-oxidizing bacteria are able to maintain a high oxidizing potential during starvation. Nitrit...
SUMMARY: Heterotrophic bacteria were studied which produced nitrite in the presence of ammonia and i...
The microbiological oxidation of ammonia to nitrite has been studied with particular reference to th...
Evidence has been presented to show that the autotrophic nitrifying organisms get stimulated in the ...
Nitrification, the microbial oxidation of ammonia to nitrate (NO3-) via nitrite (NO2-) is a vital pr...
In a previous communication, on the subject of nitrification, the conclusion was reached that the ox...
The endogenous substrate of Pseudomonas aeruginosa has been reported to be nitrogenous in nature, as...
The competition for limiting amounts of ammonium between the chemolithotrophic ammonium-oxidizing sp...
Summarization: Amino acids (AAs) have an important role on the biogeochemical cycle of N in terrestr...
SUMMARY. 1 An extensive review of the literature on nitrification shows that the workers in this sub...
Nitrification is an important process in the biogeochemical cycle of nitrogen, linking its reduced ...
Nitrification in acid soils was first reported in the beginning of the 20th century. Although this f...
Chemolitho-autotrophic microorganisms like the nitrite-oxidizing Nitrobacter winogradskyi create an ...
The nitrification of ammonia and nitrite in soil is but one part of the overall nitrogen cycle. Esse...
Nitrification of excess ammonia in soil causes eutrophication of water resources and emission of atm...
Ammonia-oxidizing bacteria are able to maintain a high oxidizing potential during starvation. Nitrit...
SUMMARY: Heterotrophic bacteria were studied which produced nitrite in the presence of ammonia and i...
The microbiological oxidation of ammonia to nitrite has been studied with particular reference to th...
Evidence has been presented to show that the autotrophic nitrifying organisms get stimulated in the ...
Nitrification, the microbial oxidation of ammonia to nitrate (NO3-) via nitrite (NO2-) is a vital pr...
In a previous communication, on the subject of nitrification, the conclusion was reached that the ox...
The endogenous substrate of Pseudomonas aeruginosa has been reported to be nitrogenous in nature, as...
The competition for limiting amounts of ammonium between the chemolithotrophic ammonium-oxidizing sp...
Summarization: Amino acids (AAs) have an important role on the biogeochemical cycle of N in terrestr...
DOI
Add to ORKG