Stream drying drives microbial ammonia oxidation and first-flush nitrate export

Stephanie N. Merbt; Lorenzo Proia; James I. Prosser; Eugenia Marti; Emilio O. Casamayor; Daniel von Schiller

doi:10.1002/ecy.1486

Stream drying drives microbial ammonia oxidation and first-flush nitrate export

Stephanie N. Merbt, Lorenzo Proia, James I. Prosser, Eugenia Marti, Emilio O. Casamayor, Daniel von Schiller

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Abstract

Stream microbial communities and associated processes are influenced by environmental fluctuations that may ultimately dictate nutrient export. Discharge fluctuations caused by intermittent stream flow are increasing worldwide in response to global change. We examined the impact of flow cessation and drying on in-stream nitrogen cycling. We determined archaeal (AOA) and bacterial ammonia oxidiser (AOB) abundance and ammonia oxidation activity in surface and deep sediments from different sites along the Fuirosos stream (Spain) subjected to contrasting hydrological conditions (i.e. running water, isolated pools and dry streambeds). AOA were more abundant than AOB, with no major changes across hydrological conditions or sediment layers. However, ammonia oxidation activity and sediment nitrate content increased with the degree of stream drying, especially in surface sediments. Upscaling of our results shows that ammonia oxidation in dry streambeds can contribute considerably (~50%) to the high nitrate export typically observed in intermittent streams during first flush events following flow reconnection. Our study illustrates how the dry channels of intermittent streams can be potential hotspots of ammonia oxidation. Consequently, shifts in the duration, spatial extent and severity of intermittent flow can play a decisive role in shaping nitrogen cycling and export along fluvial networks in response to global change.

Original language	English
Pages (from-to)	2192-2198
Number of pages	7
Journal	Ecology
Volume	97
Issue number	9
Early online date	1 Sept 2016
DOIs	https://doi.org/10.1002/ecy.1486
Publication status	Published - Sept 2016

Bibliographical note

Acknowledgments

We thank Roser Ventosa for technical assistance at the Nutrient Analytical Service of the CEAB-CSIC, Unai Perez de Arenaza Basauri for field assistance and Iñaki Odriozola and Aitor Larrañaga for statistical advice. We also acknowledge two anonymous reviewers for valuable feedback and constructive comments on the manuscript. S. N. Merbt was supported by a JAE predoctoral fellowship from the Spanish National Research Council (CSIC). This research was granted by the projects DARKNESS (CGL2012-32747, MINECO) to E. O. Casamayor and MED_FORESTREAM (CGL2011-30590-CO2-02, MINECO) and REFRESH (244121 FP7 EU Commission) to E. Martí.

Keywords

semiarid ecosystems
intermittent flow
stream
dry riverbed
nitrification
ammonia oxidation
ammonia oxidizing archaea (AOA)
ammonia oxidizing bacteria (AOB)

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Cite this

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title = "Stream drying drives microbial ammonia oxidation and first-flush nitrate export",

abstract = "Stream microbial communities and associated processes are influenced by environmental fluctuations that may ultimately dictate nutrient export. Discharge fluctuations caused by intermittent stream flow are increasing worldwide in response to global change. We examined the impact of flow cessation and drying on in-stream nitrogen cycling. We determined archaeal (AOA) and bacterial ammonia oxidiser (AOB) abundance and ammonia oxidation activity in surface and deep sediments from different sites along the Fuirosos stream (Spain) subjected to contrasting hydrological conditions (i.e. running water, isolated pools and dry streambeds). AOA were more abundant than AOB, with no major changes across hydrological conditions or sediment layers. However, ammonia oxidation activity and sediment nitrate content increased with the degree of stream drying, especially in surface sediments. Upscaling of our results shows that ammonia oxidation in dry streambeds can contribute considerably (~50%) to the high nitrate export typically observed in intermittent streams during first flush events following flow reconnection. Our study illustrates how the dry channels of intermittent streams can be potential hotspots of ammonia oxidation. Consequently, shifts in the duration, spatial extent and severity of intermittent flow can play a decisive role in shaping nitrogen cycling and export along fluvial networks in response to global change.",

keywords = "semiarid ecosystems, intermittent flow, stream, dry riverbed, nitrification, ammonia oxidation, ammonia oxidizing archaea (AOA), ammonia oxidizing bacteria (AOB)",

author = "Merbt, {Stephanie N.} and Lorenzo Proia and Prosser, {James I.} and Eugenia Marti and Casamayor, {Emilio O.} and {von Schiller}, Daniel",

note = "Acknowledgments We thank Roser Ventosa for technical assistance at the Nutrient Analytical Service of the CEAB-CSIC, Unai Perez de Arenaza Basauri for field assistance and I{\~n}aki Odriozola and Aitor Larra{\~n}aga for statistical advice. We also acknowledge two anonymous reviewers for valuable feedback and constructive comments on the manuscript. S. N. Merbt was supported by a JAE predoctoral fellowship from the Spanish National Research Council (CSIC). This research was granted by the projects DARKNESS (CGL2012-32747, MINECO) to E. O. Casamayor and MED_FORESTREAM (CGL2011-30590-CO2-02, MINECO) and REFRESH (244121 FP7 EU Commission) to E. Mart{\'i}.",

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T1 - Stream drying drives microbial ammonia oxidation and first-flush nitrate export

AU - Merbt, Stephanie N.

AU - Proia, Lorenzo

AU - Prosser, James I.

AU - Marti, Eugenia

AU - Casamayor, Emilio O.

AU - von Schiller, Daniel

N1 - Acknowledgments We thank Roser Ventosa for technical assistance at the Nutrient Analytical Service of the CEAB-CSIC, Unai Perez de Arenaza Basauri for field assistance and Iñaki Odriozola and Aitor Larrañaga for statistical advice. We also acknowledge two anonymous reviewers for valuable feedback and constructive comments on the manuscript. S. N. Merbt was supported by a JAE predoctoral fellowship from the Spanish National Research Council (CSIC). This research was granted by the projects DARKNESS (CGL2012-32747, MINECO) to E. O. Casamayor and MED_FORESTREAM (CGL2011-30590-CO2-02, MINECO) and REFRESH (244121 FP7 EU Commission) to E. Martí.

PY - 2016/9

Y1 - 2016/9

N2 - Stream microbial communities and associated processes are influenced by environmental fluctuations that may ultimately dictate nutrient export. Discharge fluctuations caused by intermittent stream flow are increasing worldwide in response to global change. We examined the impact of flow cessation and drying on in-stream nitrogen cycling. We determined archaeal (AOA) and bacterial ammonia oxidiser (AOB) abundance and ammonia oxidation activity in surface and deep sediments from different sites along the Fuirosos stream (Spain) subjected to contrasting hydrological conditions (i.e. running water, isolated pools and dry streambeds). AOA were more abundant than AOB, with no major changes across hydrological conditions or sediment layers. However, ammonia oxidation activity and sediment nitrate content increased with the degree of stream drying, especially in surface sediments. Upscaling of our results shows that ammonia oxidation in dry streambeds can contribute considerably (~50%) to the high nitrate export typically observed in intermittent streams during first flush events following flow reconnection. Our study illustrates how the dry channels of intermittent streams can be potential hotspots of ammonia oxidation. Consequently, shifts in the duration, spatial extent and severity of intermittent flow can play a decisive role in shaping nitrogen cycling and export along fluvial networks in response to global change.

AB - Stream microbial communities and associated processes are influenced by environmental fluctuations that may ultimately dictate nutrient export. Discharge fluctuations caused by intermittent stream flow are increasing worldwide in response to global change. We examined the impact of flow cessation and drying on in-stream nitrogen cycling. We determined archaeal (AOA) and bacterial ammonia oxidiser (AOB) abundance and ammonia oxidation activity in surface and deep sediments from different sites along the Fuirosos stream (Spain) subjected to contrasting hydrological conditions (i.e. running water, isolated pools and dry streambeds). AOA were more abundant than AOB, with no major changes across hydrological conditions or sediment layers. However, ammonia oxidation activity and sediment nitrate content increased with the degree of stream drying, especially in surface sediments. Upscaling of our results shows that ammonia oxidation in dry streambeds can contribute considerably (~50%) to the high nitrate export typically observed in intermittent streams during first flush events following flow reconnection. Our study illustrates how the dry channels of intermittent streams can be potential hotspots of ammonia oxidation. Consequently, shifts in the duration, spatial extent and severity of intermittent flow can play a decisive role in shaping nitrogen cycling and export along fluvial networks in response to global change.

KW - semiarid ecosystems

KW - intermittent flow

KW - stream

KW - dry riverbed

KW - nitrification

KW - ammonia oxidation

KW - ammonia oxidizing archaea (AOA)

KW - ammonia oxidizing bacteria (AOB)

U2 - 10.1002/ecy.1486

DO - 10.1002/ecy.1486

M3 - Article

SN - 0012-9658

VL - 97

SP - 2192

EP - 2198

JO - Ecology

JF - Ecology

IS - 9

ER -

Stream drying drives microbial ammonia oxidation and first-flush nitrate export

Abstract

Bibliographical note

Keywords

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