Why ponds concentrate nutrients: the roles of internal features, land use, and climate

Mireia Bartrons; Jing Yang; Maria Cuenca‑Cambronero; Pieter Lemmens; Maria Anton-Pardo; Meryem Beklioğlu; Jeremy Biggs; Aurélie Boissezon; Dani Boix; Clementina Calvo; Maite Colina; Thomas A. Davidson; Luc De Meester; Julie C. Fahy; Helen M. Greaves; Hilal Kiran Isufi; Eti E. Levi; Mariana Meerhoff; Thomas Mehner; Emine B. Mülayim; Beat Oertli; Ian R. Patmore; Carl D. Sayer; Jordi Villà-Freixa; Sandra Brucet

doi:10.1007/s10750-025-05907-0

Why ponds concentrate nutrients: the roles of internal features, land use, and climate

Mireia Bartrons, Jing Yang, Maria Cuenca‑Cambronero, Pieter Lemmens, Maria Anton-Pardo, Meryem Beklioğlu, Jeremy Biggs, Aurélie Boissezon, Dani Boix, Clementina Calvo, Maite Colina, Thomas A. Davidson, Luc De Meester, Julie C. Fahy, Helen M. Greaves, Hilal Kiran Isufi, Eti E. Levi, Mariana Meerhoff, Thomas Mehner, Emine B. MülayimBeat Oertli, Ian R. Patmore, Carl D. Sayer, Jordi Villà-Freixa, Sandra Brucet

Monitoring and Restoration of Aquatic Fauna

Research output: Contribution to journal › A1: Web of Science-article › peer-review

Abstract

Ponds are key freshwater habitats supporting biodiversity and ecosystem services, yet they remain understudied in the context of land use and climate change. We examined 240 ponds across eight countries (seven in Europe and Uruguay) to assess how internal pond characteristics, surrounding land cover and livestock intensity, seasonal climatic variation, and climate influence nutrient concentrations across spatial and temporal scales. Nutrient concentrations were strongly associated with internal features: shallow ponds and short hydroperiods had higher total nitrogen (TN) and total phosphorus (TP) concentrations, while thermal stratification, typically found in deeper ponds, was associated with higher TN, indicating enhanced internal nutrient recycling. Land use also played a significant role with agricultural intensity increasing nutrient concentration (both TN and TP), whereas forest cover reduced TP. Seasonal variation modulated these patterns, with higher TP concentrations observed in summer, and with dilution effects during wetter and cooler periods, particularly for TN in semi-permanent ponds. These findings underscore the combined influence of physical characteristics, landscape context, and climate variability on nutrient concentrations in ponds and highlight the need for integrated, multi-scale approaches to anticipate the impacts of global climate change effects on these ecologically valuable ecosystems.

Original language	English
Journal	Hydrobiologia
ISSN	1573-5117
DOIs	https://doi.org/10.1007/s10750-025-05907-0
Publication status	Published - 10-Jun-2025

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Water

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Cite this

Bartrons, M., Yang, J., Cuenca‑Cambronero, M., Lemmens, P., Anton-Pardo, M., Beklioğlu, M., Biggs, J., Boissezon, A., Boix, D., Calvo, C., Colina, M., Davidson, T. A., De Meester, L., Fahy, J. C., Greaves, H. M., Kiran Isufi, H., Levi, E. E., Meerhoff, M., Mehner, T., ... Brucet, S. (2025). Why ponds concentrate nutrients: the roles of internal features, land use, and climate. Hydrobiologia. https://doi.org/10.1007/s10750-025-05907-0

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title = "Why ponds concentrate nutrients: the roles of internal features, land use, and climate",

abstract = "Ponds are key freshwater habitats supporting biodiversity and ecosystem services, yet they remain understudied in the context of land use and climate change. We examined 240 ponds across eight countries (seven in Europe and Uruguay) to assess how internal pond characteristics, surrounding land cover and livestock intensity, seasonal climatic variation, and climate influence nutrient concentrations across spatial and temporal scales. Nutrient concentrations were strongly associated with internal features: shallow ponds and short hydroperiods had higher total nitrogen (TN) and total phosphorus (TP) concentrations, while thermal stratification, typically found in deeper ponds, was associated with higher TN, indicating enhanced internal nutrient recycling. Land use also played a significant role with agricultural intensity increasing nutrient concentration (both TN and TP), whereas forest cover reduced TP. Seasonal variation modulated these patterns, with higher TP concentrations observed in summer, and with dilution effects during wetter and cooler periods, particularly for TN in semi-permanent ponds. These findings underscore the combined influence of physical characteristics, landscape context, and climate variability on nutrient concentrations in ponds and highlight the need for integrated, multi-scale approaches to anticipate the impacts of global climate change effects on these ecologically valuable ecosystems.",

author = "Mireia Bartrons and Jing Yang and Maria Cuenca‑Cambronero and Pieter Lemmens and Maria Anton-Pardo and Meryem Beklioğlu and Jeremy Biggs and Aur{\'e}lie Boissezon and Dani Boix and Clementina Calvo and Maite Colina and Davidson, {Thomas A.} and {De Meester}, Luc and Fahy, {Julie C.} and Greaves, {Helen M.} and {Kiran Isufi}, Hilal and Levi, {Eti E.} and Mariana Meerhoff and Thomas Mehner and M{\"u}layim, {Emine B.} and Beat Oertli and Patmore, {Ian R.} and Sayer, {Carl D.} and Jordi Vill{\`a}-Freixa and Sandra Brucet",

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Bartrons, M, Yang, J, Cuenca‑Cambronero, M, Lemmens, P, Anton-Pardo, M, Beklioğlu, M, Biggs, J, Boissezon, A, Boix, D, Calvo, C, Colina, M, Davidson, TA, De Meester, L, Fahy, JC, Greaves, HM, Kiran Isufi, H, Levi, EE, Meerhoff, M, Mehner, T, Mülayim, EB, Oertli, B, Patmore, IR, Sayer, CD, Villà-Freixa, J & Brucet, S 2025, 'Why ponds concentrate nutrients: the roles of internal features, land use, and climate', Hydrobiologia. https://doi.org/10.1007/s10750-025-05907-0

TY - JOUR

T1 - Why ponds concentrate nutrients: the roles of internal features, land use, and climate

AU - Bartrons, Mireia

AU - Yang, Jing

AU - Cuenca‑Cambronero, Maria

AU - Lemmens, Pieter

AU - Anton-Pardo, Maria

AU - Beklioğlu, Meryem

AU - Biggs, Jeremy

AU - Boissezon, Aurélie

AU - Boix, Dani

AU - Calvo, Clementina

AU - Colina, Maite

AU - Davidson, Thomas A.

AU - De Meester, Luc

AU - Fahy, Julie C.

AU - Greaves, Helen M.

AU - Kiran Isufi, Hilal

AU - Levi, Eti E.

AU - Meerhoff, Mariana

AU - Mehner, Thomas

AU - Mülayim, Emine B.

AU - Oertli, Beat

AU - Patmore, Ian R.

AU - Sayer, Carl D.

AU - Villà-Freixa, Jordi

AU - Brucet, Sandra

PY - 2025/6/10

Y1 - 2025/6/10

N2 - Ponds are key freshwater habitats supporting biodiversity and ecosystem services, yet they remain understudied in the context of land use and climate change. We examined 240 ponds across eight countries (seven in Europe and Uruguay) to assess how internal pond characteristics, surrounding land cover and livestock intensity, seasonal climatic variation, and climate influence nutrient concentrations across spatial and temporal scales. Nutrient concentrations were strongly associated with internal features: shallow ponds and short hydroperiods had higher total nitrogen (TN) and total phosphorus (TP) concentrations, while thermal stratification, typically found in deeper ponds, was associated with higher TN, indicating enhanced internal nutrient recycling. Land use also played a significant role with agricultural intensity increasing nutrient concentration (both TN and TP), whereas forest cover reduced TP. Seasonal variation modulated these patterns, with higher TP concentrations observed in summer, and with dilution effects during wetter and cooler periods, particularly for TN in semi-permanent ponds. These findings underscore the combined influence of physical characteristics, landscape context, and climate variability on nutrient concentrations in ponds and highlight the need for integrated, multi-scale approaches to anticipate the impacts of global climate change effects on these ecologically valuable ecosystems.

AB - Ponds are key freshwater habitats supporting biodiversity and ecosystem services, yet they remain understudied in the context of land use and climate change. We examined 240 ponds across eight countries (seven in Europe and Uruguay) to assess how internal pond characteristics, surrounding land cover and livestock intensity, seasonal climatic variation, and climate influence nutrient concentrations across spatial and temporal scales. Nutrient concentrations were strongly associated with internal features: shallow ponds and short hydroperiods had higher total nitrogen (TN) and total phosphorus (TP) concentrations, while thermal stratification, typically found in deeper ponds, was associated with higher TN, indicating enhanced internal nutrient recycling. Land use also played a significant role with agricultural intensity increasing nutrient concentration (both TN and TP), whereas forest cover reduced TP. Seasonal variation modulated these patterns, with higher TP concentrations observed in summer, and with dilution effects during wetter and cooler periods, particularly for TN in semi-permanent ponds. These findings underscore the combined influence of physical characteristics, landscape context, and climate variability on nutrient concentrations in ponds and highlight the need for integrated, multi-scale approaches to anticipate the impacts of global climate change effects on these ecologically valuable ecosystems.

U2 - 10.1007/s10750-025-05907-0

DO - 10.1007/s10750-025-05907-0

M3 - A1: Web of Science-article

SN - 1573-5117

JO - Hydrobiologia

JF - Hydrobiologia

ER -