Add to ORKGCarbon (C) additions to soil interact through chemical and microbiological processes to cause changes in soil phosphorus (P) availability. However, the response of soil P transformations and relevant microbial communities to C additions having different degrees of recalcitrance remains uncertain. We studied the effects of glucose, hemicellulose and lignin addition on soil P availability, P transformation processes and relevant microbial activity and communities in a P-deficient flooded soil. Lignin significantly increased soil available P concentrations, which was attributed to chemical release of inorganic P and increased alkaline phosphatase activity. Glucose and hemicellulose additions stimulated microbial metabolism of C thereby enhanci...
The available carbon (C) to phosphorus (P) ratio in soil is regulated by extracellular hydrolases fo...
The cycling of soil organic matter (SOM) and carbon (C) within the soil is governed by the presence ...
Drying and rewetting cycles are known to be important for the turnover of carbon (C) in soil, but le...
Carbon (C) additions to soil interact through chemical and microbiological processes to cause change...
Organic carbon (C) is often applied to agricultural soils to increase soil organic matter, however, ...
The quantity and chemical composition of soil organic carbon (C) are primary factors controlling the...
Phosphorus (P) availability is expected to affect soil microbial community. However, our knowledge a...
Agricultural production can be limited by low phosphorus (P) availability, with soil P being constra...
Increasing organic matter (OM) in soil promotes the delivery of vital ecosystem services, such as im...
Soil microbes are frequently limited by carbon (C), but also have a high phosphorus (P) requirement....
A general strategy in modern agriculture to reduce phosphorus (P) fertilization is to rely on microb...
In many soils, the bioavailability of Phosphorus (P), an essential macronutrient is a limiting facto...
Phosphorus deficiency is wide-spread due to the poor solubility of soil P and the rapid formation of...
The potential for microorganisms to affect the quantity and quality of organic and condensed forms o...
Historically, several different mechanisms have been proposed to explain soil P transformations, whi...
The available carbon (C) to phosphorus (P) ratio in soil is regulated by extracellular hydrolases fo...
The cycling of soil organic matter (SOM) and carbon (C) within the soil is governed by the presence ...
Drying and rewetting cycles are known to be important for the turnover of carbon (C) in soil, but le...
Carbon (C) additions to soil interact through chemical and microbiological processes to cause change...
Organic carbon (C) is often applied to agricultural soils to increase soil organic matter, however, ...
The quantity and chemical composition of soil organic carbon (C) are primary factors controlling the...
Phosphorus (P) availability is expected to affect soil microbial community. However, our knowledge a...
Agricultural production can be limited by low phosphorus (P) availability, with soil P being constra...
Increasing organic matter (OM) in soil promotes the delivery of vital ecosystem services, such as im...
Soil microbes are frequently limited by carbon (C), but also have a high phosphorus (P) requirement....
A general strategy in modern agriculture to reduce phosphorus (P) fertilization is to rely on microb...
In many soils, the bioavailability of Phosphorus (P), an essential macronutrient is a limiting facto...
Phosphorus deficiency is wide-spread due to the poor solubility of soil P and the rapid formation of...
The potential for microorganisms to affect the quantity and quality of organic and condensed forms o...
Historically, several different mechanisms have been proposed to explain soil P transformations, whi...
The available carbon (C) to phosphorus (P) ratio in soil is regulated by extracellular hydrolases fo...
The cycling of soil organic matter (SOM) and carbon (C) within the soil is governed by the presence ...
Drying and rewetting cycles are known to be important for the turnover of carbon (C) in soil, but le...
