Methane emissions from contrasting urban freshwaters: Rates, drivers, and a whole‐city footprint

Sonia Herrero Ortega; Clara Romero González-Quijano; Peter Casper; Gabriel Singer; Mark O. Gessner

doi:https://doi.org/10.1111/gcb.14799

doi.org/10.1111/gcb.14799

Methane emissions from contrasting urban freshwaters: Rates, drivers, and a whole‐city footprint

Sonia Herrero Ortega

1

,

Clara Romero González-Quijano

5

,

..., Mark O. Gessner

59

Global Change Biology11.60

Volume: 25, Issue: 12, Pages: 4234 - 4243

Published: Sep 11, 2019

Abstract

Global urbanization trends impose major alterations on surface waters. This includes impacts on ecosystem functioning that can involve feedbacks on climate through changes in rates of greenhouse gas emissions. The combination of high nutrient supply and shallow depth typical of urban freshwaters is particularly conducive to high rates of methane (CH 4 ) production and emission, suggesting a potentially important role in the global CH 4 cycle....

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Paper Details

Title

Methane emissions from contrasting urban freshwaters: Rates, drivers, and a whole‐city footprint

DOI

doi.org/10.1111/gcb.14799

Published Date

Sep 11, 2019

Journal

Global Change Biology

Volume

25

Issue

12

Pages

4234 - 4243

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