Your browser doesn't support javascript.
loading
Show: 20 | 50 | 100
Results 1 - 2 de 2
Filter
Add more filters











Database
Type of study
Language
Publication year range
1.
Lett Appl Microbiol ; 71(5): 444-450, 2020 Nov.
Article in English | MEDLINE | ID: mdl-32395843

ABSTRACT

Sugarcane cultivation supports Brazil as one of the largest world sugar and ethanol producer. In order to understand the impact of changing sugarcane harvest from manual to mechanized harvest, we studied the effect of machinery traffic on soil and consequently soil compaction upon soil microbial communities involved in nitrogen cycling. The impact of sugarcane harvest was dependent on soil depth and texture. At deeper soil layers, mechanized harvesting increases the abundance of nitrogen fixers and denitrifying communities (specifically nosZ clade I and II) while manual harvesting increases the abundance of ammonia oxidizers (specifically AOA) and increases denitrifying communities (nosZ clade I and II) on top and at intermediate depth. The effect of change on the harvest system is more evident on sandy soil than on clay soil, where soil indicators of compaction (bulk density and penetration resistance) were negatively correlated with soil microorganisms associated with the nitrogen cycle. Our results point to connections between soil compaction and N transformations in sugarcane fields, besides naming biological variables to be used as proxies for alterations in soil structure.


Subject(s)
Archaea/metabolism , Bacteria/metabolism , Nitrogen Cycle/physiology , Saccharum/microbiology , Soil/chemistry , Brazil , Microbiota/physiology , Nitrogen/metabolism , Soil Microbiology
2.
Lett Appl Microbiol ; 62(3): 264-8, 2016 Mar.
Article in English | MEDLINE | ID: mdl-26661994

ABSTRACT

UNLABELLED: The ecology of microbial communities associated with organic phosphorus (P) mineralization in soils is still understudied. Here, we assessed the abundance and diversity of bacteria harbouring genes encoding ß-propeller phytases (BPP) in the rhizosphere of traditional and transgenic maize cultivated in two Brazilian soils. We found a soil-dependent effect towards a higher abundance of phytase genes in the rhizosphere, and an absence of any impact of plant genotype. Phylogenetic analyses indicated members of the genera Pseudomonas, Caulobacter, Idiomarina and Maricaulis, close to 'uncultured bacteria', to constitute the dominant bacteria hosting this gene. The results obtained validate a methodology to target bacteria that are involved in the organic P cycle, and depict the responsiveness of such bacteria to the rhizosphere, albeit in dependency of the soil in which maize is cultivated. The data also identified the major bacterial groups that are associated with the organic P mineralization function. SIGNIFICANCE AND IMPACT OF THE STUDY: Micro-organisms play a key role in nutrient balance in soil ecosystems that are essential to life on the planet. However, some processes such as organic phosphorus mineralization, an important source of phosphorus supply in soil, is poorly studied mainly due the absence of an efficient methodology to assess the phytase-producing micro-organisms. In this study, a method to assess beta-propeller phytase (BPP)-carrying bacteria in soil was validated. This method may contribute to the knowledge of how these micro-organisms behave in the environment and contribute for plant growth promotion.


Subject(s)
6-Phytase/genetics , Alteromonadaceae/genetics , Caulobacter/genetics , Pseudomonas/genetics , Rhizosphere , Zea mays/microbiology , Alteromonadaceae/enzymology , Brazil , Caulobacter/enzymology , Molecular Sequence Data , Phosphorus/metabolism , Phylogeny , Phytic Acid/metabolism , Pseudomonas/enzymology , Soil/chemistry , Soil Microbiology
SELECTION OF CITATIONS
SEARCH DETAIL