Literature DB >> 28039909

Global synthesis of the temperature sensitivity of leaf litter breakdown in streams and rivers.

Jennifer J Follstad Shah1,2, John S Kominoski3, Marcelo Ardón4, Walter K Dodds5, Mark O Gessner6,7, Natalie A Griffiths8, Charles P Hawkins2, Sherri L Johnson9, Antoine Lecerf10, Carri J LeRoy11, David W P Manning12, Amy D Rosemond13, Robert L Sinsabaugh14, Christopher M Swan15, Jackson R Webster16, Lydia H Zeglin5.   

Abstract

Streams and rivers are important conduits of terrestrially derived carbon (C) to atmospheric and marine reservoirs. Leaf litter breakdown rates are expected to increase as water temperatures rise in response to climate change. The magnitude of increase in breakdown rates is uncertain, given differences in litter quality and microbial and detritivore community responses to temperature, factors that can influence the apparent temperature sensitivity of breakdown and the relative proportion of C lost to the atmosphere vs. stored or transported downstream. Here, we synthesized 1025 records of litter breakdown in streams and rivers to quantify its temperature sensitivity, as measured by the activation energy (Ea , in eV). Temperature sensitivity of litter breakdown varied among twelve plant genera for which Ea could be calculated. Higher values of Ea were correlated with lower-quality litter, but these correlations were influenced by a single, N-fixing genus (Alnus). Ea values converged when genera were classified into three breakdown rate categories, potentially due to continual water availability in streams and rivers modulating the influence of leaf chemistry on breakdown. Across all data representing 85 plant genera, the Ea was 0.34 ± 0.04 eV, or approximately half the value (0.65 eV) predicted by metabolic theory. Our results indicate that average breakdown rates may increase by 5-21% with a 1-4 °C rise in water temperature, rather than a 10-45% increase expected, according to metabolic theory. Differential warming of tropical and temperate biomes could result in a similar proportional increase in breakdown rates, despite variation in Ea values for these regions (0.75 ± 0.13 eV and 0.27 ± 0.05 eV, respectively). The relative proportions of gaseous C loss and organic matter transport downstream should not change with rising temperature given that Ea values for breakdown mediated by microbes alone and microbes plus detritivores were similar at the global scale.
© 2017 John Wiley & Sons Ltd.

Entities:  

Keywords:  activation energy; breakdown; carbon cycling; climate change; detritivore; leaf chemistry; metabolic theory; microbe; organic matter; temperature sensitivity

Mesh:

Substances:

Year:  2017        PMID: 28039909     DOI: 10.1111/gcb.13609

Source DB:  PubMed          Journal:  Glob Chang Biol        ISSN: 1354-1013            Impact factor:   10.863


  12 in total

1.  Warming and leaf litter functional diversity, not litter quality, drive decomposition in a freshwater ecosystem.

Authors:  Gustavo H Migliorini; Gustavo Q Romero
Journal:  Sci Rep       Date:  2020-11-23       Impact factor: 4.379

2.  Temperature Sensitivity of Microbial Litter Decomposition in Freshwaters: Role of Leaf Litter Quality and Environmental Characteristics.

Authors:  Silvia Monroy; Aitor Larrañaga; Aingeru Martínez; Javier Pérez; Jon Molinero; Ana Basaguren; Jesús Pozo
Journal:  Microb Ecol       Date:  2022-06-02       Impact factor: 4.552

3.  Biodiversity mediates the effects of stressors but not nutrients on litter decomposition.

Authors:  Léa Beaumelle; Frederik De Laender; Nico Eisenhauer
Journal:  Elife       Date:  2020-06-26       Impact factor: 8.140

4.  Combined effects of water temperature, grazing snails and terrestrial herbivores on leaf decomposition in urban streams.

Authors:  Hongyong Xiang; Yixin Zhang; David Atkinson; Raju Sekar
Journal:  PeerJ       Date:  2019-10-08       Impact factor: 2.984

5.  Carbon flux from decomposing wood and its dependency on temperature, wood N2 fixation rate, moisture and fungal composition in a Norway spruce forest.

Authors:  Katja T Rinne-Garmston; Krista Peltoniemi; Janet Chen; Mikko Peltoniemi; Hannu Fritze; Raisa Mäkipää
Journal:  Glob Chang Biol       Date:  2019-03-20       Impact factor: 10.863

6.  Latitude dictates plant diversity effects on instream decomposition.

Authors:  Luz Boyero; Javier Pérez; Naiara López-Rojo; Alan M Tonin; Francisco Correa-Araneda; Richard G Pearson; Jaime Bosch; Ricardo J Albariño; Sankarappan Anbalagan; Leon A Barmuta; Leah Beesley; Francis J Burdon; Adriano Caliman; Marcos Callisto; Ian C Campbell; Bradley J Cardinale; J Jesús Casas; Ana M Chará-Serna; Szymon Ciapała; Eric Chauvet; Checo Colón-Gaud; Aydeé Cornejo; Aaron M Davis; Monika Degebrodt; Emerson S Dias; María E Díaz; Michael M Douglas; Arturo Elosegi; Andrea C Encalada; Elvira de Eyto; Ricardo Figueroa; Alexander S Flecker; Tadeusz Fleituch; André Frainer; Juliana S França; Erica A García; Gabriela García; Pavel García; Mark O Gessner; Paul S Giller; Jesús E Gómez; Sergio Gómez; Jose F Gonçalves; Manuel A S Graça; Robert O Hall; Neusa Hamada; Luiz U Hepp; Cang Hui; Daichi Imazawa; Tomoya Iwata; Edson S A Junior; Samuel Kariuki; Andrea Landeira-Dabarca; María Leal; Kaisa Lehosmaa; Charles M'Erimba; Richard Marchant; Renato T Martins; Frank O Masese; Megan Camden; Brendan G McKie; Adriana O Medeiros; Jen A Middleton; Timo Muotka; Junjiro N Negishi; Jesús Pozo; Alonso Ramírez; Renan S Rezende; John S Richardson; José Rincón; Juan Rubio-Ríos; Claudia Serrano; Angela R Shaffer; Fran Sheldon; Christopher M Swan; Nathalie S D Tenkiano; Scott D Tiegs; Janine R Tolod; Michael Vernasky; Anne Watson; Mourine J Yegon; Catherine M Yule
Journal:  Sci Adv       Date:  2021-03-26       Impact factor: 14.136

7.  High summer temperatures amplify functional differences between coral- and algae-dominated reef communities.

Authors:  Florian Roth; Nils RAdecker; Susana Carvalho; Carlos M Duarte; Vincent Saderne; Andrea Anton; Luis Silva; Maria Ll Calleja; XosÉ Anxelu G MorÁn; Christian R Voolstra; Benjamin Kürten; Burton H Jones; Christian Wild
Journal:  Ecology       Date:  2020-12-27       Impact factor: 5.499

8.  Effects of increasing temperature and, CO2 on quality of litter, shredders, and microorganisms in Amazonian aquatic systems.

Authors:  Renato Tavares Martins; Renan de Souza Rezende; José Francisco Gonçalves Júnior; Aline Lopes; Maria Teresa Fernandez Piedade; Heloide de Lima Cavalcante; Neusa Hamada
Journal:  PLoS One       Date:  2017-11-30       Impact factor: 3.240

9.  Global patterns and drivers of ecosystem functioning in rivers and riparian zones.

Authors:  Scott D Tiegs; David M Costello; Mark W Isken; Guy Woodward; Peter B McIntyre; Mark O Gessner; Eric Chauvet; Natalie A Griffiths; Alex S Flecker; Vicenç Acuña; Ricardo Albariño; Daniel C Allen; Cecilia Alonso; Patricio Andino; Clay Arango; Jukka Aroviita; Marcus V M Barbosa; Leon A Barmuta; Colden V Baxter; Thomas D C Bell; Brent Bellinger; Luz Boyero; Lee E Brown; Andreas Bruder; Denise A Bruesewitz; Francis J Burdon; Marcos Callisto; Cristina Canhoto; Krista A Capps; María M Castillo; Joanne Clapcott; Fanny Colas; Checo Colón-Gaud; Julien Cornut; Verónica Crespo-Pérez; Wyatt F Cross; Joseph M 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; Diana Ethaiya; Verónica Ferreira; Carmen Ferriol; Kyla M Flanagan; Tadeusz Fleituch; Jennifer J Follstad Shah; André Frainer Barbosa; Nikolai Friberg; Paul C Frost; Erica A Garcia; Liliana García Lago; Pavel Ernesto García Soto; Sudeep Ghate; Darren P Giling; Alan Gilmer; José Francisco Gonçalves; Rosario Karina Gonzales; Manuel A S Graça; Mike Grace; Hans-Peter Grossart; François Guérold; Vlad Gulis; Luiz U Hepp; Scott Higgins; Takuo Hishi; Joseph Huddart; John Hudson; Samantha Imberger; Carlos Iñiguez-Armijos; Tomoya Iwata; David J Janetski; Eleanor Jennings; Andrea E Kirkwood; Aaron A Koning; Sarian Kosten; Kevin A Kuehn; Hjalmar Laudon; Peter R Leavitt; Aurea L Lemes da Silva; Shawn J Leroux; Carri J LeRoy; Peter J Lisi; Richard MacKenzie; Amy M Marcarelli; Frank O Masese; Brendan G McKie; Adriana Oliveira Medeiros; Kristian Meissner; Marko Miliša; Shailendra Mishra; Yo Miyake; Ashley Moerke; Shorok Mombrikotb; Rob Mooney; Tim Moulton; Timo Muotka; Junjiro N Negishi; Vinicius Neres-Lima; Mika L Nieminen; Jorge Nimptsch; Jakub Ondruch; Riku Paavola; Isabel Pardo; Christopher J Patrick; Edwin T H M Peeters; Jesus Pozo; Catherine Pringle; Aaron Prussian; Estefania Quenta; Antonio Quesada; Brian Reid; John S Richardson; Anna Rigosi; José Rincón; Geta Rîşnoveanu; Christopher T Robinson; Lorena Rodríguez-Gallego; Todd V Royer; James A Rusak; Anna C Santamans; Géza B Selmeczy; Gelas Simiyu; Agnija Skuja; Jerzy Smykla; Kandikere R Sridhar; Ryan Sponseller; Aaron Stoler; Christopher M Swan; David Szlag; Franco Teixeira-de Mello; Jonathan D Tonkin; Sari Uusheimo; Allison M Veach; Sirje Vilbaste; Lena B M Vought; Chiao-Ping Wang; Jackson R Webster; Paul B Wilson; Stefan Woelfl; Marguerite A Xenopoulos; Adam G Yates; Chihiro Yoshimura; Catherine M Yule; Yixin X Zhang; Jacob A Zwart
Journal:  Sci Adv       Date:  2019-01-09       Impact factor: 14.136

10.  Stream microbial communities and ecosystem functioning show complex responses to multiple stressors in wastewater.

Authors:  Francis J Burdon; Yaohui Bai; Marta Reyes; Manu Tamminen; Philipp Staudacher; Simon Mangold; Heinz Singer; Katja Räsänen; Adriano Joss; Scott D Tiegs; Jukka Jokela; Rik I L Eggen; Christian Stamm
Journal:  Glob Chang Biol       Date:  2020-09-03       Impact factor: 13.211
View more

北京卡尤迪生物科技股份有限公司 © 2022-2023.