Gerard Rocher-Ros
Cited by
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Landscape process domains drive patterns of CO2 evasion from river networks
G Rocher‐Ros, RA Sponseller, W Lidberg, CM Mörth, R Giesler
Limnology and Oceanography Letters, 2019
Global carbon dioxide efflux from rivers enhanced by high nocturnal emissions
L Gomez-Gener, G Rocher-Ros, T Battin, MJ Cohen, HJ Dalmagro, ...
Nature Geoscience 14 (5), 289-294, 2021
Carbon emission from Western Siberian inland waters
J Karlsson, S Serikova, SN Vorobyev, G Rocher-Ros, B Denfeld, ...
Nature communications 12 (1), 825, 2021
Persistent nitrogen limitation of stream biofilm communities along climate gradients in the Arctic
M Myrstener, G Rocher‐Ros, RM Burrows, AK Bergström, R Giesler, ...
Global change biology 24 (8), 3680-3691, 2018
Stream metabolism controls diel patterns and evasion of CO2 in Arctic streams
G Rocher‐Ros, RA Sponseller, AK Bergström, M Myrstener, R Giesler
Global Change Biology 26 (3), 1400-1413, 2020
Nutrients influence seasonal metabolic patterns and total productivity of Arctic streams
M Myrstener, L Gómez‐Gener, G Rocher‐Ros, R Giesler, RA Sponseller
Limnology and Oceanography 66, S182-S196, 2021
Metabolism overrides photo‐oxidation in CO2 dynamics of Arctic permafrost streams
G Rocher‐Ros, TK Harms, RA Sponseller, M Väisänen, CM Mörth, ...
Limnology and Oceanography 66, S169-S181, 2021
Large Lakes Dominate CO2 Evasion From Lakes in an Arctic Catchment
G Rocher‐Ros, R Giesler, E Lundin, S Salimi, A Jonsson, J Karlsson
Geophysical Research Letters 44 (24), 12,254-12,261, 2017
Lessons learned from monitoring the stable water isotopic variability in precipitation and streamflow across a snow-dominated subarctic catchment
SW Lyon, SW Ploum, Y van Der Velde, G Rocher-Ros, CM Mörth, ...
Arctic, Antarctic, and Alpine Research 50 (1), e1454778, 2018
Distinct concentration‐discharge dynamics in temperate streams and rivers: CO2 exhibits chemostasis while CH4 exhibits source limitation due to temperature …
KS Aho, JH Fair, JD Hosen, ED Kyzivat, LA Logozzo, G Rocher‐Ros, ...
Limnology and Oceanography 66 (10), 3656-3668, 2021
Groundwater discharge as a driver of methane emissions from Arctic lakes
C Olid, V Rodellas, G Rocher-Ros, J Garcia-Orellana, M Diego-Feliu, ...
Nature Communications 13 (3667), 2022
Emission of greenhouse gases from water tracks draining Arctic hillslopes
TK Harms, G Rocher‐Ros, SE Godsey
Journal of Geophysical Research: Biogeosciences 125 (12), e2020JG005889, 2020
GRiMeDB: the Global River Methane Database of concentrations and fluxes
EH Stanley, LC Loken, NJ Casson, SK Oliver, RA Sponseller, MB Wallin, ...
Earth System Science Data 15 (7), 2879-2926, 2023
Global methane emissions from rivers and streams
G Rocher-Ros, EH Stanley, LC Loken, NJ Casson, PA Raymond, S Liu, ...
Nature 621 (7979), 530-535, 2023
GRiMeDB: a comprehensive global database of methane concentrations and fluxes in fluvial ecosystems with supporting physical and chemical information
EH Stanley, LC Loken, NJ Casson, SK Oliver, RA Sponseller, MB Wallin, ...
Environmental Data Initiative, 2022
Biophysical controls on CO2 evasion from Arctic inland waters
G Rocher-Ros
Umeå University, 2019
A global database of greenhouse gas fluxes from tropical inland waters
C Duvert, NS Marzolf, A Linkhorst, K Attermeyer, E Calamita, T DelSontro, ...
Freshwater Sciences 2023 Conference, 2023
Flow in Frozen Lakes: Groundwater Contributes to the Build-up of CO2 and CH4 in an Ice-Covered Lake
C Olid Garcia, G Rocher-Ros, H Verheijen
AGU Fall Meeting Abstracts 2022, B22B-03, 2022
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Articles 1–18