Local and regional drivers of headwater streams metabolism: Insights from the first AIL collaborative project

Ada Pastor; Anna Lupon; Lluis Gomez-Gener; Tamara Rodriguez-Castillo; Meritxell Abril; Maria Isabel Arce; Ibon Aristi; Maite Arroita; Andrea G. Bravo; Nuria De Castro-Catala; Rubendel Campo; Joan Pere Casas-Ruiz; Edurne Estevez; Diego Fernandez; Mireia Fillo; Lorea Flores; Anna Freixa; Pau Gimenez-Grau; Alexia Maria Gonzalez-Ferreras; Elena Hernandez Del Amol; Eduardo J. Martin; Aingeru Martinez; Silvia Monroy; Juanita Mora-Gomez; Carlos Palacin-Lizarbe; Olatz Pereda; Silvia Poblador; Ruben Rasines-Ladero; Marta Reyes; Pablo Rodriguez-Lozano; Celia Ruiz; Isis Sanpera-Calbet; Libe Solagaistua; Irene Tornero; Nuria Catalan

doi:10.23818/limn.36.06

Local and regional drivers of headwater streams metabolism: Insights from the first AIL collaborative project

Ada Pastor^*, Anna Lupon, Lluis Gomez-Gener, Tamara Rodriguez-Castillo, Meritxell Abril, Maria Isabel Arce, Ibon Aristi, Maite Arroita, Andrea G. Bravo, Nuria De Castro-Catala, Rubendel Campo, Joan Pere Casas-Ruiz, Edurne Estevez, Diego Fernandez, Mireia Fillo, Lorea Flores, Anna Freixa, Pau Gimenez-Grau, Alexia Maria Gonzalez-Ferreras, Elena Hernandez Del AmolEduardo J. Martin, Aingeru Martinez, Silvia Monroy, Juanita Mora-Gomez, Carlos Palacin-Lizarbe, Olatz Pereda, Silvia Poblador, Ruben Rasines-Ladero, Marta Reyes, Pablo Rodriguez-Lozano, Celia Ruiz, Isis Sanpera-Calbet, Libe Solagaistua, Irene Tornero, Nuria Catalan

^*Autor corresponent d’aquest treball

Departament de Genètica i de Microbiologia

Producció científica: Contribució a revista › Article › Recerca › Avaluat per experts

5 Cites (Scopus)

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Local and regional drivers of headwater streams metabolism: Insights from the first AIL collaborative project 68 Pastor et al. Streams play a key role in the global biogeochemical cycles, processing material from adjacent terrestrial systems and transporting it downstream. However, the drivers of stream metabolism, especially those acting at broad spatial scales, are still not well understood. Moreover, stream metabolism can be affected by hydrological changes associated with seasonality, and thus, assessing the temporality of metabolic rates is a key question to understand stream function. This study aims to analyse the geographical and temporal patterns in stream metabolism and to identify the main drivers regulating the wholeecosystem metabolic rates at local and regional scales. Using a coordinated distributed experiment, we studied ten headwaters streams located across five European ecoregions during summer and fall 2014.We characterized the magnitude and variability of gross primary production (GPP) and ecosystem respiration (ER) with the open-channel method. Moreover, we examined several climatic, geographical, hydrological, morphological, and physicochemical variables that can potentially control stream metabolic rates. Daily rates of stream metabolism varied considerately across streams, with GPP and ER ranging from 0.06 to 4.33 g O₂ m^-2 d^-1 and from 0.72 to 14.20 gO₂ m^-2 d^-1, respectively. All streams were highly heterotrophic (P/R < 1), except the southernmost one. We found that the drier climates tended to have the highest GPP, while humid regions presented the highest ER. Between the sampling periods no statistical differences were found. Partial-least squares models (PLS) explained i"80% of the variance in GPP and ER rates across headwater streams and included both local and regional variables. Rates of GPP varied primarily in response to the local variables, such as streambed substrate and stream water temperature. In contrast, regional variables, such as the mean annual temperature or the land use of the catchment, had more relevance to explain ER. Overall, our results highlight that stream metabolism depends on both local and regional drivers and show the positive experience of a young network of researchers to assess scientific challenges across large-scale geographic areas.

Idioma original	Anglès
Pàgines (de-a)	67-85
Nombre de pàgines	19
Revista	Limnetica
Volum	36
Número	1
DOIs	https://doi.org/10.23818/limn.36.06
Estat de la publicació	Publicada - 2017

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10.23818/limn.36.06

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Pastor, A., Lupon, A., Gomez-Gener, L., Rodriguez-Castillo, T., Abril, M., Arce, M. I., Aristi, I., Arroita, M., Bravo, A. G., De Castro-Catala, N., Campo, R., Casas-Ruiz, J. P., Estevez, E., Fernandez, D., Fillo, M., Flores, L., Freixa, A., Gimenez-Grau, P., Gonzalez-Ferreras, A. M., ... Catalan, N. (2017). Local and regional drivers of headwater streams metabolism: Insights from the first AIL collaborative project. Limnetica, 36(1), 67-85. https://doi.org/10.23818/limn.36.06

@article{8379c7f1274e44a6b894d71c230090c9,

title = "Local and regional drivers of headwater streams metabolism: Insights from the first AIL collaborative project",

abstract = "Local and regional drivers of headwater streams metabolism: Insights from the first AIL collaborative project 68 Pastor et al. Streams play a key role in the global biogeochemical cycles, processing material from adjacent terrestrial systems and transporting it downstream. However, the drivers of stream metabolism, especially those acting at broad spatial scales, are still not well understood. Moreover, stream metabolism can be affected by hydrological changes associated with seasonality, and thus, assessing the temporality of metabolic rates is a key question to understand stream function. This study aims to analyse the geographical and temporal patterns in stream metabolism and to identify the main drivers regulating the wholeecosystem metabolic rates at local and regional scales. Using a coordinated distributed experiment, we studied ten headwaters streams located across five European ecoregions during summer and fall 2014.We characterized the magnitude and variability of gross primary production (GPP) and ecosystem respiration (ER) with the open-channel method. Moreover, we examined several climatic, geographical, hydrological, morphological, and physicochemical variables that can potentially control stream metabolic rates. Daily rates of stream metabolism varied considerately across streams, with GPP and ER ranging from 0.06 to 4.33 g O2 m-2 d-1 and from 0.72 to 14.20 gO2 m-2 d-1, respectively. All streams were highly heterotrophic (P/R < 1), except the southernmost one. We found that the drier climates tended to have the highest GPP, while humid regions presented the highest ER. Between the sampling periods no statistical differences were found. Partial-least squares models (PLS) explained i{"}80% of the variance in GPP and ER rates across headwater streams and included both local and regional variables. Rates of GPP varied primarily in response to the local variables, such as streambed substrate and stream water temperature. In contrast, regional variables, such as the mean annual temperature or the land use of the catchment, had more relevance to explain ER. Overall, our results highlight that stream metabolism depends on both local and regional drivers and show the positive experience of a young network of researchers to assess scientific challenges across large-scale geographic areas.",

keywords = "coordinated distributed experiment, ecoregions, ecosystem respiration, functioning, Gross primary production, season",

author = "Ada Pastor and Anna Lupon and Lluis Gomez-Gener and Tamara Rodriguez-Castillo and Meritxell Abril and Arce, {Maria Isabel} and Ibon Aristi and Maite Arroita and Bravo, {Andrea G.} and {De Castro-Catala}, Nuria and Rubendel Campo and Casas-Ruiz, {Joan Pere} and Edurne Estevez and Diego Fernandez and Mireia Fillo and Lorea Flores and Anna Freixa and Pau Gimenez-Grau and Gonzalez-Ferreras, {Alexia Maria} and Amol, {Elena Hernandez Del} and Martin, {Eduardo J.} and Aingeru Martinez and Silvia Monroy and Juanita Mora-Gomez and Carlos Palacin-Lizarbe and Olatz Pereda and Silvia Poblador and Ruben Rasines-Ladero and Marta Reyes and Pablo Rodriguez-Lozano and Celia Ruiz and Isis Sanpera-Calbet and Libe Solagaistua and Irene Tornero and Nuria Catalan",

note = "Publisher Copyright: {\textcopyright} 2017 Asociaci{\'o}n Ib{\'e}rica de Limnologi{\'a}, Madrid.",

year = "2017",

doi = "10.23818/limn.36.06",

language = "English",

volume = "36",

pages = "67--85",

journal = "Limnetica",

issn = "0213-8409",

publisher = "Asociacion Iberica de Limnologia",

number = "1",

}

Pastor, A, Lupon, A, Gomez-Gener, L, Rodriguez-Castillo, T, Abril, M, Arce, MI, Aristi, I, Arroita, M, Bravo, AG, De Castro-Catala, N, Campo, R, Casas-Ruiz, JP, Estevez, E, Fernandez, D, Fillo, M, Flores, L, Freixa, A, Gimenez-Grau, P, Gonzalez-Ferreras, AM, Amol, EHD, Martin, EJ, Martinez, A, Monroy, S, Mora-Gomez, J, Palacin-Lizarbe, C, Pereda, O, Poblador, S, Rasines-Ladero, R, Reyes, M, Rodriguez-Lozano, P, Ruiz, C, Sanpera-Calbet, I, Solagaistua, L, Tornero, I & Catalan, N 2017, 'Local and regional drivers of headwater streams metabolism: Insights from the first AIL collaborative project', Limnetica, vol. 36, núm. 1, pàg. 67-85. https://doi.org/10.23818/limn.36.06

TY - JOUR

T1 - Local and regional drivers of headwater streams metabolism

T2 - Insights from the first AIL collaborative project

AU - Pastor, Ada

AU - Lupon, Anna

AU - Gomez-Gener, Lluis

AU - Rodriguez-Castillo, Tamara

AU - Abril, Meritxell

AU - Arce, Maria Isabel

AU - Aristi, Ibon

AU - Arroita, Maite

AU - Bravo, Andrea G.

AU - De Castro-Catala, Nuria

AU - Campo, Rubendel

AU - Casas-Ruiz, Joan Pere

AU - Estevez, Edurne

AU - Fernandez, Diego

AU - Fillo, Mireia

AU - Flores, Lorea

AU - Freixa, Anna

AU - Gimenez-Grau, Pau

AU - Gonzalez-Ferreras, Alexia Maria

AU - Amol, Elena Hernandez Del

AU - Martin, Eduardo J.

AU - Martinez, Aingeru

AU - Monroy, Silvia

AU - Mora-Gomez, Juanita

AU - Palacin-Lizarbe, Carlos

AU - Pereda, Olatz

AU - Poblador, Silvia

AU - Rasines-Ladero, Ruben

AU - Reyes, Marta

AU - Rodriguez-Lozano, Pablo

AU - Ruiz, Celia

AU - Sanpera-Calbet, Isis

AU - Solagaistua, Libe

AU - Tornero, Irene

AU - Catalan, Nuria

PY - 2017

Y1 - 2017

N2 - Local and regional drivers of headwater streams metabolism: Insights from the first AIL collaborative project 68 Pastor et al. Streams play a key role in the global biogeochemical cycles, processing material from adjacent terrestrial systems and transporting it downstream. However, the drivers of stream metabolism, especially those acting at broad spatial scales, are still not well understood. Moreover, stream metabolism can be affected by hydrological changes associated with seasonality, and thus, assessing the temporality of metabolic rates is a key question to understand stream function. This study aims to analyse the geographical and temporal patterns in stream metabolism and to identify the main drivers regulating the wholeecosystem metabolic rates at local and regional scales. Using a coordinated distributed experiment, we studied ten headwaters streams located across five European ecoregions during summer and fall 2014.We characterized the magnitude and variability of gross primary production (GPP) and ecosystem respiration (ER) with the open-channel method. Moreover, we examined several climatic, geographical, hydrological, morphological, and physicochemical variables that can potentially control stream metabolic rates. Daily rates of stream metabolism varied considerately across streams, with GPP and ER ranging from 0.06 to 4.33 g O2 m-2 d-1 and from 0.72 to 14.20 gO2 m-2 d-1, respectively. All streams were highly heterotrophic (P/R < 1), except the southernmost one. We found that the drier climates tended to have the highest GPP, while humid regions presented the highest ER. Between the sampling periods no statistical differences were found. Partial-least squares models (PLS) explained i"80% of the variance in GPP and ER rates across headwater streams and included both local and regional variables. Rates of GPP varied primarily in response to the local variables, such as streambed substrate and stream water temperature. In contrast, regional variables, such as the mean annual temperature or the land use of the catchment, had more relevance to explain ER. Overall, our results highlight that stream metabolism depends on both local and regional drivers and show the positive experience of a young network of researchers to assess scientific challenges across large-scale geographic areas.

AB - Local and regional drivers of headwater streams metabolism: Insights from the first AIL collaborative project 68 Pastor et al. Streams play a key role in the global biogeochemical cycles, processing material from adjacent terrestrial systems and transporting it downstream. However, the drivers of stream metabolism, especially those acting at broad spatial scales, are still not well understood. Moreover, stream metabolism can be affected by hydrological changes associated with seasonality, and thus, assessing the temporality of metabolic rates is a key question to understand stream function. This study aims to analyse the geographical and temporal patterns in stream metabolism and to identify the main drivers regulating the wholeecosystem metabolic rates at local and regional scales. Using a coordinated distributed experiment, we studied ten headwaters streams located across five European ecoregions during summer and fall 2014.We characterized the magnitude and variability of gross primary production (GPP) and ecosystem respiration (ER) with the open-channel method. Moreover, we examined several climatic, geographical, hydrological, morphological, and physicochemical variables that can potentially control stream metabolic rates. Daily rates of stream metabolism varied considerately across streams, with GPP and ER ranging from 0.06 to 4.33 g O2 m-2 d-1 and from 0.72 to 14.20 gO2 m-2 d-1, respectively. All streams were highly heterotrophic (P/R < 1), except the southernmost one. We found that the drier climates tended to have the highest GPP, while humid regions presented the highest ER. Between the sampling periods no statistical differences were found. Partial-least squares models (PLS) explained i"80% of the variance in GPP and ER rates across headwater streams and included both local and regional variables. Rates of GPP varied primarily in response to the local variables, such as streambed substrate and stream water temperature. In contrast, regional variables, such as the mean annual temperature or the land use of the catchment, had more relevance to explain ER. Overall, our results highlight that stream metabolism depends on both local and regional drivers and show the positive experience of a young network of researchers to assess scientific challenges across large-scale geographic areas.

KW - coordinated distributed experiment

KW - ecoregions

KW - ecosystem respiration

KW - functioning

KW - Gross primary production

KW - season

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U2 - 10.23818/limn.36.06

DO - 10.23818/limn.36.06

M3 - Article

AN - SCOPUS:85040454349

SN - 0213-8409

VL - 36

SP - 67

EP - 85

JO - Limnetica

JF - Limnetica

IS - 1

ER -

Local and regional drivers of headwater streams metabolism: Insights from the first AIL collaborative project

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