Human activities shape global patterns of decomposition rates in rivers

S. D. Tiegs; K. A. Capps; D. M. Costello; J. P. Schmidt; C. J. Patrick; J. J. Follstad Shah; C. J. LeRoy; the CELLDEX Consortium‡; Vicenç Acuña; Ricardo Albariño; Daniel C. Allen; Cecilia Alonso; Patricio Andino; Clay Arango; Jukka Aroviita; Marcus V.M. Barbosa; Leon A. Barmuta; Colden Baxter; Brent Bellinger; Luz Boyero; Lyubov Bragina; Lee E. Brown; Andreas Bruder; Denise A. Bruesewitz; Francis Burdon; Marcos Callisto; Antonio Camacho; Cristina Canhoto; María M. Castillo; Eric Chauvet; Joanne Clapcott; Fanny Colas; Checo Colón-Gaud; Julien Cornut; Verónica Crespo-Pérez; Wyatt F. Cross; Joseph Culp; Michael Danger; Olivier Dangles; Elvira de Eyto; Alison M. Derry; Veronica Díaz Villanueva; Michael M. Douglas; Arturo Elosegi; Andrea C. Encalada; Sally Entrekin; Rodrigo Espinosa; Verónica Ferreira; Carmen Ferriol; Kyla M. Flanagan; Alexander S. Flecker

doi:10.1126/science.adn1262

Human activities shape global patterns of decomposition rates in rivers

S. D. Tiegs
, K. A. Capps
, D. M. Costello
, J. P. Schmidt
, C. J. Patrick
, J. J. Follstad Shah
, C. J. LeRoy
, the CELLDEX Consortium‡
, Vicenç Acuña
, Ricardo Albariño
, Daniel C. Allen
, Cecilia Alonso
, Patricio Andino
, Clay Arango
, Jukka Aroviita
, Marcus V.M. Barbosa
, Leon A. Barmuta
, Colden Baxter
, Brent Bellinger
, Luz Boyero

Lyubov Bragina, Lee E. Brown, Andreas Bruder, Denise A. Bruesewitz, Francis Burdon, Marcos Callisto, Antonio Camacho, Cristina Canhoto, María M. Castillo, Eric Chauvet, Joanne Clapcott, Fanny Colas, Checo Colón-Gaud, Julien Cornut, Verónica Crespo-Pérez, Wyatt F. Cross, Joseph Culp, Michael Danger, Olivier Dangles, Elvira de Eyto, Alison M. Derry, Veronica Díaz Villanueva, Michael M. Douglas, Arturo Elosegi, Andrea C. Encalada, Sally Entrekin, Rodrigo Espinosa, Verónica Ferreira, Carmen Ferriol, Kyla M. Flanagan, Alexander S. Flecker

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

Resumen

Rivers and streams contribute to global carbon cycling by decomposing immense quantities of terrestrial plant matter. However, decomposition rates are highly variable and large-scale patterns and drivers of this process remain poorly understood. Using a cellulose-based assay to reflect the primary constituent of plant detritus, we generated a predictive model (81% variance explained) for cellulose decomposition rates across 514 globally distributed streams. A large number of variables were important for predicting decomposition, highlighting the complexity of this process at the global scale. Predicted cellulose decomposition rates, when combined with genus-level litter quality attributes, explain published leaf litter decomposition rates with high accuracy (70% variance explained). Our global map provides estimates of rates across vast understudied areas of Earth and reveals rapid decomposition across continental-scale areas dominated by human activities.

Idioma original	Inglés
Publicación	Science
DOI	https://doi.org/10.1126/science.adn1262
Estado	Publicada - 14 jun. 2024
Publicado de forma externa	Sí

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Tiegs, S. D., Capps, K. A., Costello, D. M., Schmidt, J. P., Patrick, C. J., Shah, J. J. F., LeRoy, C. J., Consortium‡, T. CELLDEX., Acuña, V., Albariño, R., Allen, D. C., Alonso, C., Andino, P., Arango, C., Aroviita, J., Barbosa, M. V. M., Barmuta, L. A., Baxter, C., Bellinger, B., ... Flecker, A. S. (2024). Human activities shape global patterns of decomposition rates in rivers. Science. https://doi.org/10.1126/science.adn1262

@article{1434babf6a8b4f9fbfd201ac30c34a92,

title = "Human activities shape global patterns of decomposition rates in rivers",

abstract = "Rivers and streams contribute to global carbon cycling by decomposing immense quantities of terrestrial plant matter. However, decomposition rates are highly variable and large-scale patterns and drivers of this process remain poorly understood. Using a cellulose-based assay to reflect the primary constituent of plant detritus, we generated a predictive model (81\% variance explained) for cellulose decomposition rates across 514 globally distributed streams. A large number of variables were important for predicting decomposition, highlighting the complexity of this process at the global scale. Predicted cellulose decomposition rates, when combined with genus-level litter quality attributes, explain published leaf litter decomposition rates with high accuracy (70\% variance explained). Our global map provides estimates of rates across vast understudied areas of Earth and reveals rapid decomposition across continental-scale areas dominated by human activities.",

author = "Tiegs, \{S. D.\} and Capps, \{K. A.\} and Costello, \{D. M.\} and Schmidt, \{J. P.\} and Patrick, \{C. J.\} and Shah, \{J. J. Follstad\} and LeRoy, \{C. J.\} and Consortium‡, \{the CELLDEX\} and Vicen{\c c} Acu{\~n}a and Ricardo Albari{\~n}o and Allen, \{Daniel C.\} and Cecilia Alonso and Patricio Andino and Clay Arango and Jukka Aroviita and Barbosa, \{Marcus V.M.\} and Barmuta, \{Leon A.\} and Colden Baxter and Brent Bellinger and Luz Boyero and Lyubov Bragina and Brown, \{Lee E.\} and Andreas Bruder and Bruesewitz, \{Denise A.\} and Francis Burdon and Marcos Callisto and Antonio Camacho and Cristina Canhoto and Castillo, \{Mar{\'i}a M.\} and Eric Chauvet and Joanne Clapcott and Fanny Colas and Checo Col{\'o}n-Gaud and Julien Cornut and Ver{\'o}nica Crespo-P{\'e}rez and Cross, \{Wyatt F.\} and Joseph Culp and Michael Danger and Olivier Dangles and \{de Eyto\}, Elvira and Derry, \{Alison M.\} and Villanueva, \{Veronica D{\'i}az\} and Douglas, \{Michael M.\} and Arturo Elosegi and Encalada, \{Andrea C.\} and Sally Entrekin and Rodrigo Espinosa and Ver{\'o}nica Ferreira and Carmen Ferriol and Flanagan, \{Kyla M.\} and Flecker, \{Alexander S.\}",

year = "2024",

month = jun,

day = "14",

doi = "10.1126/science.adn1262",

language = "Ingl{\'e}s",

journal = "Science",

issn = "0036-8075",

publisher = "American Association for the Advancement of Science",

}

Tiegs, SD, Capps, KA, Costello, DM, Schmidt, JP, Patrick, CJ, Shah, JJF, LeRoy, CJ, Consortium‡, TCELLDEX, Acuña, V, Albariño, R, Allen, DC, Alonso, C, Andino, P, Arango, C, Aroviita, J, Barbosa, MVM, Barmuta, LA, Baxter, C, Bellinger, B, Boyero, L, Bragina, L, Brown, LE, Bruder, A, Bruesewitz, DA, Burdon, F, Callisto, M, Camacho, A, Canhoto, C, Castillo, MM, Chauvet, E, Clapcott, J, Colas, F, Colón-Gaud, C, Cornut, J, Crespo-Pérez, V, Cross, WF, Culp, J, Danger, M, Dangles, O, de Eyto, E, Derry, AM, Villanueva, VD, Douglas, MM, Elosegi, A, Encalada, AC, Entrekin, S, Espinosa, R, Ferreira, V, Ferriol, C, Flanagan, KM & Flecker, AS 2024, 'Human activities shape global patterns of decomposition rates in rivers', Science. https://doi.org/10.1126/science.adn1262

TY - JOUR

T1 - Human activities shape global patterns of decomposition rates in rivers

AU - Tiegs, S. D.

AU - Capps, K. A.

AU - Costello, D. M.

AU - Schmidt, J. P.

AU - Patrick, C. J.

AU - Shah, J. J. Follstad

AU - LeRoy, C. J.

AU - Consortium‡, the CELLDEX

AU - Acuña, Vicenç

AU - Albariño, Ricardo

AU - Allen, Daniel C.

AU - Alonso, Cecilia

AU - Andino, Patricio

AU - Arango, Clay

AU - Aroviita, Jukka

AU - Barbosa, Marcus V.M.

AU - Barmuta, Leon A.

AU - Baxter, Colden

AU - Bellinger, Brent

AU - Boyero, Luz

AU - Bragina, Lyubov

AU - Brown, Lee E.

AU - Bruder, Andreas

AU - Bruesewitz, Denise A.

AU - Burdon, Francis

AU - Callisto, Marcos

AU - Camacho, Antonio

AU - Canhoto, Cristina

AU - Castillo, María M.

AU - Chauvet, Eric

AU - Clapcott, Joanne

AU - Colas, Fanny

AU - Colón-Gaud, Checo

AU - Cornut, Julien

AU - Crespo-Pérez, Verónica

AU - Cross, Wyatt F.

AU - Culp, Joseph

AU - Danger, Michael

AU - Dangles, Olivier

AU - de Eyto, Elvira

AU - Derry, Alison M.

AU - Villanueva, Veronica Díaz

AU - Douglas, Michael M.

AU - Elosegi, Arturo

AU - Encalada, Andrea C.

AU - Entrekin, Sally

AU - Espinosa, Rodrigo

AU - Ferreira, Verónica

AU - Ferriol, Carmen

AU - Flanagan, Kyla M.

AU - Flecker, Alexander S.

PY - 2024/6/14

Y1 - 2024/6/14

N2 - Rivers and streams contribute to global carbon cycling by decomposing immense quantities of terrestrial plant matter. However, decomposition rates are highly variable and large-scale patterns and drivers of this process remain poorly understood. Using a cellulose-based assay to reflect the primary constituent of plant detritus, we generated a predictive model (81% variance explained) for cellulose decomposition rates across 514 globally distributed streams. A large number of variables were important for predicting decomposition, highlighting the complexity of this process at the global scale. Predicted cellulose decomposition rates, when combined with genus-level litter quality attributes, explain published leaf litter decomposition rates with high accuracy (70% variance explained). Our global map provides estimates of rates across vast understudied areas of Earth and reveals rapid decomposition across continental-scale areas dominated by human activities.

AB - Rivers and streams contribute to global carbon cycling by decomposing immense quantities of terrestrial plant matter. However, decomposition rates are highly variable and large-scale patterns and drivers of this process remain poorly understood. Using a cellulose-based assay to reflect the primary constituent of plant detritus, we generated a predictive model (81% variance explained) for cellulose decomposition rates across 514 globally distributed streams. A large number of variables were important for predicting decomposition, highlighting the complexity of this process at the global scale. Predicted cellulose decomposition rates, when combined with genus-level litter quality attributes, explain published leaf litter decomposition rates with high accuracy (70% variance explained). Our global map provides estimates of rates across vast understudied areas of Earth and reveals rapid decomposition across continental-scale areas dominated by human activities.

UR - http://dx.doi.org/10.1126/science.adn1262

U2 - 10.1126/science.adn1262

DO - 10.1126/science.adn1262

M3 - Artículo

SN - 0036-8075

JO - Science

JF - Science

ER -

Human activities shape global patterns of decomposition rates in rivers

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