Microbial Communities, Functional Genes, and Nitrogen Cycling Processes as Affected by Tree Species

Research output: Chapter in Book/Report/Conference proceedingBook chapterResearchpeer-review

Standard

Microbial Communities, Functional Genes, and Nitrogen Cycling Processes as Affected by Tree Species. / Ribbons, Relena Rose; McDonald, Morag; Vesterdal, Lars.

Soil Biological Communities and Ecosystem Resilience. ed. / Martin Lukac; Paola Grenni; Mauro Gamboni. Vol. 4 Cham : Springer (eBook), 2017. p. 209-221 (Sustainability in Plant and Crop Protection, Vol. 4).

Research output: Chapter in Book/Report/Conference proceedingBook chapterResearchpeer-review

Harvard

Ribbons, RR, McDonald, M & Vesterdal, L 2017, Microbial Communities, Functional Genes, and Nitrogen Cycling Processes as Affected by Tree Species. in M Lukac, P Grenni & M Gamboni (eds), Soil Biological Communities and Ecosystem Resilience. vol. 4, Springer (eBook), Cham, Sustainability in Plant and Crop Protection, vol. 4, pp. 209-221. https://doi.org/10.1007/978-3-319-63336-7_13

APA

Ribbons, R. R., McDonald, M., & Vesterdal, L. (2017). Microbial Communities, Functional Genes, and Nitrogen Cycling Processes as Affected by Tree Species. In M. Lukac, P. Grenni, & M. Gamboni (Eds.), Soil Biological Communities and Ecosystem Resilience (Vol. 4, pp. 209-221). Springer (eBook). Sustainability in Plant and Crop Protection Vol. 4 https://doi.org/10.1007/978-3-319-63336-7_13

Vancouver

Ribbons RR, McDonald M, Vesterdal L. Microbial Communities, Functional Genes, and Nitrogen Cycling Processes as Affected by Tree Species. In Lukac M, Grenni P, Gamboni M, editors, Soil Biological Communities and Ecosystem Resilience. Vol. 4. Cham: Springer (eBook). 2017. p. 209-221. (Sustainability in Plant and Crop Protection, Vol. 4). https://doi.org/10.1007/978-3-319-63336-7_13

Author

Ribbons, Relena Rose ; McDonald, Morag ; Vesterdal, Lars. / Microbial Communities, Functional Genes, and Nitrogen Cycling Processes as Affected by Tree Species. Soil Biological Communities and Ecosystem Resilience. editor / Martin Lukac ; Paola Grenni ; Mauro Gamboni. Vol. 4 Cham : Springer (eBook), 2017. pp. 209-221 (Sustainability in Plant and Crop Protection, Vol. 4).

Bibtex

@inbook{de46a1440d3d424c9eb61b63f4f146b8,
title = "Microbial Communities, Functional Genes, and Nitrogen Cycling Processes as Affected by Tree Species",
abstract = "Tree species influence soils through direct and indirect inputs above- and belowground through leaf litter and root inputs. Soil microbial communities can in turn influence tree growth and development through processes such decomposition and chemical transformation of nutrients in soils. In this chapter we will provide an overview of the mechanisms by which trees influence soil microbial communities and nitrogen cycling processes. Specifically, we explore the effects of tree species on ammonification and nitrification processes in forest floor soils, and relate those to functional genetic markers for ammonia-oxidation by archaea and bacteria (amoA AOA and AOB) bacterial denitrification (nirS and nirK). We will cover the use of complementary laboratory methods used to investigate these relationships, including the use of molecular techniques such as quantitative polymerase chain reaction (qPCR) to target gene abundances in soils, and 15N tracing experiments to understand the production and consumption of nitrogen. We will also address some of the benefits and drawbacks of these approaches, with special focus on the types of research questions that can be answered using these approaches. The chapter will wrap up with an example study in a common garden tree species trial in Vancouver, B.C., Canada, which demonstrated tree species effects on soil microbial communities and nitrogen cycling dynamics.",
author = "Ribbons, {Relena Rose} and Morag McDonald and Lars Vesterdal",
year = "2017",
doi = "10.1007/978-3-319-63336-7_13",
language = "English",
isbn = "978-3-319-63335-0",
volume = "4",
series = "Sustainability in Plant and Crop Protection",
publisher = "Springer (eBook)",
pages = "209--221",
editor = "Martin Lukac and Paola Grenni and Mauro Gamboni",
booktitle = "Soil Biological Communities and Ecosystem Resilience",

}

RIS

TY - CHAP

T1 - Microbial Communities, Functional Genes, and Nitrogen Cycling Processes as Affected by Tree Species

AU - Ribbons, Relena Rose

AU - McDonald, Morag

AU - Vesterdal, Lars

PY - 2017

Y1 - 2017

N2 - Tree species influence soils through direct and indirect inputs above- and belowground through leaf litter and root inputs. Soil microbial communities can in turn influence tree growth and development through processes such decomposition and chemical transformation of nutrients in soils. In this chapter we will provide an overview of the mechanisms by which trees influence soil microbial communities and nitrogen cycling processes. Specifically, we explore the effects of tree species on ammonification and nitrification processes in forest floor soils, and relate those to functional genetic markers for ammonia-oxidation by archaea and bacteria (amoA AOA and AOB) bacterial denitrification (nirS and nirK). We will cover the use of complementary laboratory methods used to investigate these relationships, including the use of molecular techniques such as quantitative polymerase chain reaction (qPCR) to target gene abundances in soils, and 15N tracing experiments to understand the production and consumption of nitrogen. We will also address some of the benefits and drawbacks of these approaches, with special focus on the types of research questions that can be answered using these approaches. The chapter will wrap up with an example study in a common garden tree species trial in Vancouver, B.C., Canada, which demonstrated tree species effects on soil microbial communities and nitrogen cycling dynamics.

AB - Tree species influence soils through direct and indirect inputs above- and belowground through leaf litter and root inputs. Soil microbial communities can in turn influence tree growth and development through processes such decomposition and chemical transformation of nutrients in soils. In this chapter we will provide an overview of the mechanisms by which trees influence soil microbial communities and nitrogen cycling processes. Specifically, we explore the effects of tree species on ammonification and nitrification processes in forest floor soils, and relate those to functional genetic markers for ammonia-oxidation by archaea and bacteria (amoA AOA and AOB) bacterial denitrification (nirS and nirK). We will cover the use of complementary laboratory methods used to investigate these relationships, including the use of molecular techniques such as quantitative polymerase chain reaction (qPCR) to target gene abundances in soils, and 15N tracing experiments to understand the production and consumption of nitrogen. We will also address some of the benefits and drawbacks of these approaches, with special focus on the types of research questions that can be answered using these approaches. The chapter will wrap up with an example study in a common garden tree species trial in Vancouver, B.C., Canada, which demonstrated tree species effects on soil microbial communities and nitrogen cycling dynamics.

U2 - 10.1007/978-3-319-63336-7_13

DO - 10.1007/978-3-319-63336-7_13

M3 - Book chapter

SN - 978-3-319-63335-0

VL - 4

T3 - Sustainability in Plant and Crop Protection

SP - 209

EP - 221

BT - Soil Biological Communities and Ecosystem Resilience

A2 - Lukac, Martin

A2 - Grenni, Paola

A2 - Gamboni, Mauro

PB - Springer (eBook)

CY - Cham

ER -

ID: 200536255