Positive Feedback on Climate Warming by Stream Microbial Decomposers Indicated by a Global Space-For-Time Substitution Study

Perez, Javier; Boyero, Luz; Pearson, Richard G.; Gessner, Mark O.; Tonin, Alan; Lopez-Rojo, Naiara; Rubio-Rios, Juan; Correa-Araneda, Francisco; Alonso, Alberto; Cornejo, Aydee; Albarino, Ricardo J.; Anbalagan, Sankarappan; Barmuta, Leon A.; Boulton, Andrew J.; Burdon, Francis J.; Caliman, Adriano; Callisto, Marcos; Campbell, Ian C.; Cardinale, Bradley J.; Carneiro, Luciana S.; Casas, J. Jesus; Chara-Serna, Ana M.; Chauvet, Eric; Colon-Gaud, Checo; Davis, Aaron M.; de Eyto, Elvira; Degebrodt, Monika; Diaz, Maria E.; Douglas, Michael M.; Encalada, Andrea C.; Figueroa, Ricardo; Flecker, Alexander S.; Fleituch, Tadeusz; Frainer, Andre; Garcia, Erica A.; Garcia, Gabriela; Garcia, Pavel E.; Giller, Paul S.; Gomez, Jesus E.; Goncalves, Jose F.; Graca, Manuel A. S.; Hall Jr, Robert O.; Hamada, Neusa; Hepp, Luiz U.; Hui, Cang; Imazawa, Daichi; Iwata, Tomoya; Junior, Edson S. A.; Landeira-Dabarca, Andrea; Leal, Maria; Lehosmaa, Kaisa; M'Erimba, Charles M.; Marchant, Richard; Martins, Renato T.; Masese, Frank O.; Maul, Megan; McKie, Brendan G.; Medeiros, Adriana O.; Middleton, Jen A.; Muotka, Timo; Negishi, Junjiro N.; Ramirez, Alonso; Rezende, Renan S.; Richardson, John S.; Rincon, Jose; Serrano, Claudia; Shaffer, Angela R.; Sheldon, Fran; Swan, Christopher M.; Tenkiano, Nathalie S. D.; Tiegs, Scott D.; Tolod, Janine R.; Vernasky, Michael; Wanderi, Elizabeth W.; Watson, Anne; Yule, Catherine M.

doi:10.1111/gcb.70171

Forskningsartikel2025Vetenskapligt granskad

Positive Feedback on Climate Warming by Stream Microbial Decomposers Indicated by a Global Space-For-Time Substitution Study

Perez, Javier; Boyero, Luz; Pearson, Richard G.; Gessner, Mark O.; Tonin, Alan; Lopez-Rojo, Naiara; Rubio-Rios, Juan; Correa-Araneda, Francisco; Alonso, Alberto; Cornejo, Aydee; Albarino, Ricardo J.; Anbalagan, Sankarappan; Barmuta, Leon A.; Boulton, Andrew J.; Burdon, Francis J.; Caliman, Adriano; Callisto, Marcos; Campbell, Ian C.; Cardinale, Bradley J.; Carneiro, Luciana S.;
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Sammanfattning

Decomposition of plant litter is a key ecological process in streams, whose contribution to the global carbon cycle is large relative to their extent on Earth. We examined the mechanisms underlying the temperature sensitivity (TS) of instream decomposition and forecast effects of climate warming on this process. Comparing data from 41 globally distributed sites, we assessed the TS of microbial and total decomposition using litter of nine plant species combined in six mixtures. Microbial decomposition conformed to the metabolic theory of ecology and its TS was consistently higher than that of total decomposition, which was higher than found previously. Litter quality influenced the difference between microbial and total decomposition, with total decomposition of more recalcitrant litter being more sensitive to temperature. Our projections suggest that (i) warming will enhance the microbial contribution to decomposition, increasing CO2 outgassing and intensifying the warming trend, especially in colder regions; and (ii) riparian species composition will have a major influence on this process.La descomposici & oacute;n de materia vegetal es un proceso ecol & oacute;gico clave en los ecosistemas fluviales, cuya contribuci & oacute;n al ciclo global del carbono es significativa en relaci & oacute;n con su extensi & oacute;n en la Tierra. Examinamos los mecanismos que subyacen a la sensibilidad a la temperatura de la descomposici & oacute;n en r & iacute;os y proyectamos los efectos del calentamiento clim & aacute;tico sobre este proceso. Comparando datos de 41 sitios de estudio distribuidos globalmente, evaluamos la sensibilidad a la temperatura de la descomposici & oacute;n microbiana y total, utilizando hojarasca de nueve especies combinadas en seis mezclas. La descomposici & oacute;n microbiana se ajust & oacute; a la teor & iacute;a metab & oacute;lica de la ecolog & iacute;a, presentando una sensibilidad a la temperatura consistentemente mayor que la total, que a su vez fue m & aacute;s alta que la reportada previamente. La calidad de la hojarasca influy & oacute; en la diferencia entre la descomposici & oacute;n microbiana y la total, siendo la descomposici & oacute;n total de hojarascas m & aacute;s recalcitrantes m & aacute;s sensible a la temperatura. Nuestras proyecciones sugieren que (i) el calentamiento global incrementar & aacute; la contribuci & oacute;n microbiana a la descomposici & oacute;n, aumentando la emisi & oacute;n de CO2 y reforzando la presente tendencia al calentamiento, especialmente en regiones m & aacute;s fr & iacute;as; y que (ii) la composici & oacute;n de especies ribere & ntilde;as tendr & aacute; una influencia significativa en este proceso.

Nyckelord

carbon cycle; detritivores; global change; globally distributed study; litter quality; metabolic theory of ecology; microorganisms; plant litter decomposition; stream ecosystem functioning; temperature sensitivity

Publicerad i

Global Change Biology
2025, volym: 31, nummer: 4, artikelnummer: e70171
Utgivare: WILEY

SLU författare

Burdon, Francis
- Institutionen för vatten och miljö, Sveriges lantbruksuniversitet
Mckie, Brendan
- Institutionen för vatten och miljö, Sveriges lantbruksuniversitet

UKÄ forskningsämne

Ekologi
Klimatvetenskap

Publikationens identifierare

DOI: https://doi.org/10.1111/gcb.70171

Permanent länk till denna sida (URI)

https://res.slu.se/id/publ/141596

Positive Feedback on Climate Warming by Stream Microbial Decomposers Indicated by a Global Space-For-Time Substitution Study

Sammanfattning

Nyckelord

Publicerad i

SLU författare

Burdon, Francis

Mckie, Brendan

UKÄ forskningsämne

Publikationens identifierare

Permanent länk till denna sida (URI)