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Nutrient Limitation of Bacterial Growth in Soil

Demoling, Fredrik LU (2007)
Abstract
Lack of carbon has been assumed to be the most common limiting factor for bacterial growth in soil, although there are reports of limitation by nitrogen and phosphorus. I have studied nutrient limitation of bacterial growth in soil using a novel technique, where thymidine or leucine incorporation is used to detect changes in growth rates after adding nutrients.



I have studied which nutrient(s) limited growth rates of bacteria in 28 Swedish soils. I found that bacterial growth in most of the soils was limited by a lack of carbon, and in some soils adding both carbon and nitrogen increased the bacterial growth rates even further. In three soils bacterial growth was concurrently limited by a lack of carbon as well as... (More)
Lack of carbon has been assumed to be the most common limiting factor for bacterial growth in soil, although there are reports of limitation by nitrogen and phosphorus. I have studied nutrient limitation of bacterial growth in soil using a novel technique, where thymidine or leucine incorporation is used to detect changes in growth rates after adding nutrients.



I have studied which nutrient(s) limited growth rates of bacteria in 28 Swedish soils. I found that bacterial growth in most of the soils was limited by a lack of carbon, and in some soils adding both carbon and nitrogen increased the bacterial growth rates even further. In three soils bacterial growth was concurrently limited by a lack of carbon as well as nitrogen.



The effect of nitrogen fertilization on microorganisms was studied in three coniferous forest soils. Most indicators of microbial biomass and activity decreased in fertilized soils. Bacterial growth was limited by a lack of carbon, irrespective of fertilization treatment. However, nitrogen fertilization made the carbon limitation more pronounced.



Long-term manipulations simulating different aspects of global climate change were studied in a subarctic tundra heath. Fertilization changed the nutrient that limited bacterial growth from concurrent limitations to carbon limitation. In warmed soils no significant change in bacterial growth limitation was observed. This indicated that warming did not increase mineralization sufficiently to change the limiting factors for bacterial growth.



Effect of adding easily available and more complex carbon sources, with and without nitrogen, on fungal and bacterial growth and activity in soil was studied in the laboratory. There were indications of synergistic effects in that bacterial growth only increased after the fungi had started to grow, which occurred after adding cellulose. Treatments resulting in high bacterial growth rates led to decreased fungal growth rates compared with the control, indicating antagonistic effects of bacteria. Adding nitrogen did not affect the bacteria's limitation by a lack of carbon. Adding carbon resulted in the bacteria being nitrogen limited in the short-term, although in the long-term neither carbon nor nitrogen added singly affected bacterial growth rates.



My results have shown that the determination of limiting nutrients is a valuable indicator of the microbial status in soil. This easy and rapid technique makes it suitable to include in soil microbial characterisation along with standard biomass and activity measurements. (Less)
Please use this url to cite or link to this publication:
author
supervisor
opponent
  • Dr. Fritze, Hannu, Finnish Forest Research Institute
organization
publishing date
type
Thesis
publication status
published
subject
keywords
Ekologi, Ecology, Fertilization, Bacteria, Soil, Fungi, Thymidine or Leucine incorporation, Growth limitation, Phosphorus, Nitrogen, Carbon
pages
124 pages
publisher
Department of Ecology, Lund University
defense location
Blå Hallen, Ekologihuset, Sölvegatan 37, Lund
defense date
2007-02-16 09:15:00
ISBN
978-91-7105-252-0
language
English
LU publication?
yes
additional info
The information about affiliations in this record was updated in December 2015. The record was previously connected to the following departments: Microbial Ecology (Closed 2011) (011008001)
id
3deb9205-3ab0-4e00-8b4f-da0b5b4950a4 (old id 548005)
date added to LUP
2016-04-04 11:16:58
date last changed
2020-09-23 15:15:12
@phdthesis{3deb9205-3ab0-4e00-8b4f-da0b5b4950a4,
  abstract     = {{Lack of carbon has been assumed to be the most common limiting factor for bacterial growth in soil, although there are reports of limitation by nitrogen and phosphorus. I have studied nutrient limitation of bacterial growth in soil using a novel technique, where thymidine or leucine incorporation is used to detect changes in growth rates after adding nutrients.<br/><br>
<br/><br>
I have studied which nutrient(s) limited growth rates of bacteria in 28 Swedish soils. I found that bacterial growth in most of the soils was limited by a lack of carbon, and in some soils adding both carbon and nitrogen increased the bacterial growth rates even further. In three soils bacterial growth was concurrently limited by a lack of carbon as well as nitrogen.<br/><br>
<br/><br>
The effect of nitrogen fertilization on microorganisms was studied in three coniferous forest soils. Most indicators of microbial biomass and activity decreased in fertilized soils. Bacterial growth was limited by a lack of carbon, irrespective of fertilization treatment. However, nitrogen fertilization made the carbon limitation more pronounced.<br/><br>
<br/><br>
Long-term manipulations simulating different aspects of global climate change were studied in a subarctic tundra heath. Fertilization changed the nutrient that limited bacterial growth from concurrent limitations to carbon limitation. In warmed soils no significant change in bacterial growth limitation was observed. This indicated that warming did not increase mineralization sufficiently to change the limiting factors for bacterial growth.<br/><br>
<br/><br>
Effect of adding easily available and more complex carbon sources, with and without nitrogen, on fungal and bacterial growth and activity in soil was studied in the laboratory. There were indications of synergistic effects in that bacterial growth only increased after the fungi had started to grow, which occurred after adding cellulose. Treatments resulting in high bacterial growth rates led to decreased fungal growth rates compared with the control, indicating antagonistic effects of bacteria. Adding nitrogen did not affect the bacteria's limitation by a lack of carbon. Adding carbon resulted in the bacteria being nitrogen limited in the short-term, although in the long-term neither carbon nor nitrogen added singly affected bacterial growth rates.<br/><br>
<br/><br>
My results have shown that the determination of limiting nutrients is a valuable indicator of the microbial status in soil. This easy and rapid technique makes it suitable to include in soil microbial characterisation along with standard biomass and activity measurements.}},
  author       = {{Demoling, Fredrik}},
  isbn         = {{978-91-7105-252-0}},
  keywords     = {{Ekologi; Ecology; Fertilization; Bacteria; Soil; Fungi; Thymidine or Leucine incorporation; Growth limitation; Phosphorus; Nitrogen; Carbon}},
  language     = {{eng}},
  publisher    = {{Department of Ecology, Lund University}},
  school       = {{Lund University}},
  title        = {{Nutrient Limitation of Bacterial Growth in Soil}},
  year         = {{2007}},
}