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5. Global Patterns of Plant Litter Decomposition in Streams

Author

Boyero, Luz, Gessner, Mark O., Pearson, Richard G., Chauvet, Eric, Pérez, Javier, Tiegs, Scott D., Tonin, Alan M., Correa-Araneda, Francisco, López-Rojo, Naiara, Graça, Manuel A. S., Swan, Christopher M., editor, Boyero, Luz, editor, and Canhoto, Cristina, editor

Published
2021
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12. Impacts of detritivore diversity loss on instream decomposition are greatest in the tropics

Author

Boyero, Luz, López-Rojo, Naiara, Tonin, Alan M., Pérez, Javier, Correa-Araneda, Francisco, Pearson, Richard G., Bosch, Jaime, Albariño, Ricardo J., Anbalagan, Sankarappan, Barmuta, Leon A., Basaguren, Ana, Burdon, Francis J., Caliman, Adriano, Callisto, Marcos, Calor, Adolfo R., Campbell, Ian C., Cardinale, Bradley J., Jesús Casas, J., Chará-Serna, Ana M., Chauvet, Eric, Ciapała, Szymon, Colón-Gaud, Checo, Cornejo, Aydeé, Davis, Aaron M., Degebrodt, Monika, Dias, Emerson S., Díaz, María E., Douglas, Michael M., Encalada, Andrea C., Figueroa, Ricardo, Flecker, Alexander S., Fleituch, Tadeusz, García, Erica A., García, Gabriela, García, Pavel E., Gessner, Mark O., Gómez, Jesús E., Gómez, Sergio, Gonçalves, Jr, Jose F., Graça, Manuel A. S., Gwinn, Daniel C., Hall, Jr, Robert O., Hamada, Neusa, Hui, Cang, Imazawa, Daichi, Iwata, Tomoya, Kariuki, Samuel K., Landeira-Dabarca, Andrea, Laymon, Kelsey, Leal, María, Marchant, Richard, Martins, Renato T., Masese, Frank O., Maul, Megan, McKie, Brendan G., Medeiros, Adriana O., Erimba, Charles M. M’, Middleton, Jen A., Monroy, Silvia, Muotka, Timo, Negishi, Junjiro N., Ramírez, Alonso, Richardson, John S., Rincón, José, Rubio-Ríos, Juan, dos Santos, Gisele M., Sarremejane, Romain, Sheldon, Fran, Sitati, Augustine, Tenkiano, Nathalie S. D., Tiegs, Scott D., Tolod, Janine R., Venarsky, Michael, Watson, Anne, and Yule, Catherine M.

Published
2021
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20. Divergent litter traits of riparian plant species between humid and drier biomes within the tropics

Author

Sena, Guilherme, primary, Tonin, Alan M., additional, Caliman, Adriano, additional, Callisto, Marcos, additional, Hamada, Neusa, additional, Hepp, Luiz U., additional, Kowalczuk, Vânia L., additional, Martins, Renato T., additional, Medeiros, Adriana O., additional, Morais, Paula B., additional, Moretti, Marcelo, additional, Moretto, Yara, additional, Petrucio, Mauricio M., additional, Salgueiro, Laís, additional, Carneiro, Luciana S., additional, dos Santos, Gisele M., additional, Junior, Edson S. A., additional, Feitoza, Lorrane A. M., additional, and Gonçalves, José F., additional

Published
2022
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27. Divergent litter traits of riparian plant species between humid and drier biomes within the tropics.

Author

Sena, Guilherme, Tonin, Alan M., Caliman, Adriano, Callisto, Marcos, Hamada, Neusa, Hepp, Luiz U., Kowalczuk, Vânia L., Martins, Renato T., Medeiros, Adriana O., Morais, Paula B., Moretti, Marcelo, Moretto, Yara, Petrucio, Mauricio M., Salgueiro, Laís, Carneiro, Luciana S., dos Santos, Gisele M., Junior, Edson S. A., Feitoza, Lorrane A. M., and Gonçalves, José F.

Subjects
*RIPARIAN plants, *PLANT species, *BIOMES, *RIPARIAN forests, *FOREST soils, *RIPARIAN areas, *FOREST litter, *ECOSYSTEMS
Abstract

Riparian forests provide abundant plant litter – mostly in the form of dead leaves (hereafter litter) – for both forest soils and adjacent stream ecosystems, supporting terrestrial and aquatic detritus‐based food webs. Although the fate of litter is predominantly dependent on its chemical and physical traits, there is limited availability of data on those traits over large spatial scales or empirical comparisons of traits across tropical biomes. We filled this gap by exploring the differences and similarities of nine litter traits and their dependence on phylogenetics for 68 plant species from riparian forests across three continental‐scale, South American biomes: Amazon, Atlantic Forest and Cerrado. All three biomes produced litter with similar percentages of carbon (C) and phosphorus (P), C:P mass ratios, specific leaf area and toughness. However, litter from the driest biome (Cerrado) was better defended chemically (higher phenolic content) and had lower nutritional quality (higher C:nitrogen [N] mass ratio) but showed lower nutritional limitation (lower N:P mass ratio) than litter from more humid biomes. We found no phylogenetic signal for traits after constructing a phylogenetic tree across all biomes, suggesting that trait differences across biomes were environmentally determined. However, a strong phylogenetic signal was observed for P in the Atlantic Forest, which indicates that closely related species have similar %P in that biome. Our findings suggest that litter from more humid biomes was higher in nitrogen, although more phosphorus‐limited, than litter produced in drier climates such as that of the Cerrado biome. [ABSTRACT FROM AUTHOR]

Published
2023
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28. The legacy of forest logging on organic matter inputs and storage in tropical streams.

Author

Bambi, Paulino, Tonin, Alan M., Souza Rezende, Renan de, Vieira, Fernando Carvalho, Graciano Miranda, Fernanda Gabriela, Boyero, Luz, and Gonçalves Júnior, José F.

Subjects
AQUATIC biodiversity, LOGGING, RIPARIAN forests, BUFFER zones (Ecosystem management), ORGANIC compounds, CERRADOS, RIPARIAN areas, COMMUNITIES
Abstract

Riparian forests play an important role in stream ecosystems, as they support biodiversity, reduce water erosion, and provide litter that fuels aquatic biota. However, they are affected by great array of anthropogenic threats (e.g., fire, logging, and organic pollution), which alter species composition and their physical structure. Although forest recovery after disturbance such as logging can take decades, the legacy of forest clear-cut logging on key processes in tropical riparian ecosystems is mostly unknown. Here, we investigated how litter inputs (leaves, twigs, and reproductive parts) and storage, key processes for carbon and nutrient recycling and for forest and stream biota, are influenced by riparian vegetation undergoing succession (after 28 years from logging) through the comparison of reference and logged forest sites in the Cerrado biome. Litterfall was overall similar between forest types, but litterfall of twigs was twofold higher at logged than reference sites. Similarly, litter inputs from the bank to the stream (i.e., lateral inputs) and streambed storage were 50–60% higher at logged than reference sites. The higher litterfall observed in logged forests could be related to higher proportion of tree species that are characteristic of primary and secondary successional stages, including fast-growing and liana species, which often are more productive and common in anthropogenic areas. Our results showed that the legacy impact of clear-cut logging, even if residual woody vegetation is maintained in riparian buffers, can shift the type, quantity, and seasonality of litter subsidies to tropical streams. This knowledge should be considered within the context of management and conservation of communities and ecosystem processes in the forest-stream interfaces. [ABSTRACT FROM AUTHOR]

Published
2023
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29. Latitude dictates plant diversity effects on instream decomposition

Author

Boyero, Luz, Pérez, Javier, López-Rojo, Naiara, Tonin, Alan M., and Swan, Christopher M.

Abstract

Luz Boyero1,2,*, View ORCID ProfileJavier Pérez1, View ORCID ProfileNaiara López-Rojo1, View ORCID ProfileAlan M. Tonin3, View ORCID ProfileFrancisco Correa-Araneda4, View ORCID ProfileRichard G. Pearson5,6, View ORCID ProfileJaime Bosch7,8, Ricardo J. Albariño9, View ORCID ProfileSankarappan Anbalagan10, View ORCID ProfileLeon A. Barmuta11, View ORCID ProfileLeah Beesley12, View ORCID ProfileFrancis J. Burdon13, View ORCID ProfileAdriano Caliman14, View ORCID ProfileMarcos Callisto15, Ian C. Campbell16, Bradley J. Cardinale17, View ORCID ProfileJ. Jesús Casas18, View ORCID ProfileAna M. Chará-Serna19,20, Szymon Ciapała21, View ORCID ProfileEric Chauvet22, Checo Colón-Gaud23, View ORCID ProfileAydeé Cornejo24, View ORCID ProfileAaron M. Davis5, Monika Degebrodt25, Emerson S. Dias14, View ORCID ProfileMaría E. Díaz26, Michael M. Douglas27, View ORCID ProfileArturo Elosegi1, View ORCID ProfileAndrea C. Encalada28, View ORCID ProfileElvira de Eyto29, View ORCID ProfileRicardo Figueroa30, View ORCID ProfileAlexander S. Flecker31, View ORCID ProfileTadeusz Fleituch32, View ORCID ProfileAndré Frainer33,34, View ORCID ProfileJuliana S. França35, Erica A. García36, View ORCID ProfileGabriela García37, View ORCID ProfilePavel García38,39, View ORCID ProfileMark O. Gessner25,40, Paul S. Giller41, Jesús E. Gómez42, Sergio Gómez31, Jose F. Gonçalves Jr.3, View ORCID ProfileManuel A. S. Graça43, Robert O. Hall Jr.44, View ORCID ProfileNeusa Hamada45, View ORCID ProfileLuiz U. Hepp46, Cang Hui47,48, View ORCID ProfileDaichi Imazawa49, Tomoya Iwata50, Edson S. A. Junior51, Samuel Kariuki52, Andrea Landeira-Dabarca43,53, María Leal54, View ORCID ProfileKaisa Lehosmaa55, Charles M’Erimba52, Richard Marchant56, View ORCID ProfileRenato T. Martins45, View ORCID ProfileFrank O. Masese57, View ORCID ProfileMegan Camden58, View ORCID ProfileBrendan G. McKie13, Adriana O. Medeiros51, View ORCID ProfileJen A. Middleton12, Timo Muotka55, Junjiro N. Negishi59, Jesús Pozo1, View ORCID ProfileAlonso Ramírez60, View ORCID ProfileRenan S. Rezende61, View ORCID ProfileJohn S. Richardson62, José Rincón54, View ORCID ProfileJuan Rubio-Ríos18, Claudia Serrano29, Angela R. Shaffer23, View ORCID ProfileFran Sheldon63, Christopher M. Swan64, Nathalie S. D. Tenkiano65, View ORCID ProfileScott D. Tiegs58, Janine R. Tolod66, Michael Vernasky63, View ORCID ProfileAnne Watson11, Mourine J. Yegon57 and View ORCID ProfileCatherine M. Yule67, Running waters contribute substantially to global carbon fluxes through decomposition of terrestrial plant litter by aquatic microorganisms and detritivores. Diversity of this litter may influence instream decomposition globally in ways that are not yet understood. We investigated latitudinal differences in decomposition of litter mixtures of low and high functional diversity in 40 streams on 6 continents and spanning 113° of latitude. Despite important variability in our dataset, we found latitudinal differences in the effect of litter functional diversity on decomposition, which we explained as evolutionary adaptations of litter-consuming detritivores to resource availability. Specifically, a balanced diet effect appears to operate at lower latitudes versus a resource concentration effect at higher latitudes. The latitudinal pattern indicates that loss of plant functional diversity will have different consequences on carbon fluxes across the globe, with greater repercussions likely at low latitudes.

Published
2021
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31. Latitude dictates plant diversity effects on instream decomposition

Author

Boyero, Luis, Pérez, Javier, López-Rojo, Naiara, Tonin, Alan M., Correa-Araneda, Francisco, Pearson, Richard G., Bosch, Jaime, Eusko Jaurlaritza, European Commission, and Fundação para a Ciência e a Tecnologia (Portugal)

Abstract

Running waters contribute substantially to global carbon fluxes through decomposition of terrestrial plant litter by aquatic microorganisms and detritivores. Diversity of this litter may influence instream decomposition globally in ways that are not yet understood. We investigated latitudinal differences in decomposition of litter mixtures of low and high functional diversity in 40 streams on 6 continents and spanning 113° of latitude. Despite important variability in our dataset, we found latitudinal differences in the effect of litter functional diversity on decomposition, which we explained as evolutionary adaptations of litter-consuming detritivores to resource availability. Specifically, a balanced diet effect appears to operate at lower latitudes versus a resource concentration effect at higher latitudes. The latitudinal pattern indicates that loss of plant functional diversity will have different consequences on carbon fluxes across the globe, with greater repercussions likely at low latitudes., This study was part of the DecoDiv project conducted by the GLoBE network (www.globenetwork.es), which is coordinated by L.B. Most research was based on crowdfunding (details on specific funding sources at each region are given in the Supplementary Materials). Project coordination was funded by Basque Government funds (ref. IT951-16) to the Stream Ecology Group (UPV/EHU, Spain). Litter trait analyses were funded by the 2014–2020 Operational Programme FEDER Andalusia, Spain (ref. UAL18-RNM-B006-B to J.J.C.) and the Portuguese Science Foundation, Portugal (ref. UIDB/04292/2020 to MARE).

Published
2021
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32. Effects of gamma irradiation on instream leaf litter decomposition

Author

Biología vegetal y ecología, Landaren biologia eta ekologia, Boyero González, María Luz, López Rojo, Naiara, Pérez Viñuela, Javier, Tonin, Alan M., Correa Araneda, Francisco, Davis, Aaron M., Pearson, Richard G., Biología vegetal y ecología, Landaren biologia eta ekologia, Boyero González, María Luz, López Rojo, Naiara, Pérez Viñuela, Javier, Tonin, Alan M., Correa Araneda, Francisco, Davis, Aaron M., and Pearson, Richard G.

Abstract

[EN]Leaf litter decomposition is a key process in stream ecosystems, the rates of which can vary with changes in litter quality or its colonization by microorganisms. Decomposition in streams is increasingly used to compare ecosystem functioning globally, often requiring the distribution of litter across countries. It is important to understand whether litter sterilization, which is required by some countries, can alter the rates of decomposition and associated processes. We examined whether litter sterilization with gamma irradiation (25 kGy) influenced decomposition rates, litter stoichiometry, and colonization by invertebrates after weeks of instream incubation within coarse-mesh and fine-mesh litterbags. We used nine plant species from three families that varied widely in litter chemistry but found mostly consistent responses, with no differences in decomposition rates or numbers of invertebrates found at the end of the incubation period. However, litter stoichiometry differed between irradiated and control litter, with greater nutrient losses (mostly phosphorus) in the former. Therefore, the effects of irradiation on litter chemistry should be taken into account in studies focused on stoichiometry but not necessarily in those focused on decomposition rates, at least within the experimental timescale considered here.

Published
2021

33. Impacts of Detritivore Diversity Loss on Instream Decomposition Are Greatest in the Tropics

Author

Biología vegetal y ecología, Landaren biologia eta ekologia, Boyero González, María Luz, López Rojo, Naiara, Tonin, Alan M., Pérez Viñuela, Javier, Correa Araneda, Francisco, Pearson, Richard G., Bosch, Jaime, Albariño, Ricardo J., Anbalagan, Sankarappan, Barmuta, Leon A., Basaguren del Campo, Ana Luisa, Burdon, Francis J., Caliman, Adriano, Callisto, Marcos, Calor, Adolfo R., Campbell, Ian C., Cardinale, Bradley J., Casas Jiménez, José Jesús, Chara Serna, Ana M., Chauvet, Eric, Ciapala, Szymon, Colón-Gaud, Checo, Cornejo, Aydeé, Davis, Aaron M., Degebrodt, Monika, Dias, Emerson S., Díaz, María E., Douglas, Michael M., Encalada, Andrea C., Figueroa, Ricardo, Flecker, Alexander S., Fleituch, Tadeusz, García, Erica A., García, Gabriela, García, Pavel E., Gessner, Mark O., Gómez, Jesús E., Gómez, Sergio, Gonçalves Jr., José F., Graça, Manuel A. S., Gwinn, Daniel C., Hall Jr., Robert O., Hamada, Neusa, Hui, Cang, Imazawa, Daichi, Iwata, Tomoya, Kariuki, Samuel, Landeira-Dabarca, Andrea, Laymon, Kelsey, Leal, María, Marchant, Richard, Martins, Renato T., Masese, Frank O., Maul, Megan, McKie, Brendan G., Medeiros, Adriana O., M'Erimba, Charles, Middleton, Jen A., Monroy Zarzuelo, Silvia, Muotka, Timo, Negishi, Junjiro N., Ramírez, Alonso, Richardson, John S., Rincón, José, Rubio Ríos, Juan, Dos Santos, Gisele M., Sarremejane, Romain, Sheldon, Fran, Sitati, Augustine, Tenkiano, Nathalie S. D., Tiegs, Scott D., Tolod, Janine R., Venarsky, Michael, Watson, Anne, Yule, Catherine M., Biología vegetal y ecología, Landaren biologia eta ekologia, Boyero González, María Luz, López Rojo, Naiara, Tonin, Alan M., Pérez Viñuela, Javier, Correa Araneda, Francisco, Pearson, Richard G., Bosch, Jaime, Albariño, Ricardo J., Anbalagan, Sankarappan, Barmuta, Leon A., Basaguren del Campo, Ana Luisa, Burdon, Francis J., Caliman, Adriano, Callisto, Marcos, Calor, Adolfo R., Campbell, Ian C., Cardinale, Bradley J., Casas Jiménez, José Jesús, Chara Serna, Ana M., Chauvet, Eric, Ciapala, Szymon, Colón-Gaud, Checo, Cornejo, Aydeé, Davis, Aaron M., Degebrodt, Monika, Dias, Emerson S., Díaz, María E., Douglas, Michael M., Encalada, Andrea C., Figueroa, Ricardo, Flecker, Alexander S., Fleituch, Tadeusz, García, Erica A., García, Gabriela, García, Pavel E., Gessner, Mark O., Gómez, Jesús E., Gómez, Sergio, Gonçalves Jr., José F., Graça, Manuel A. S., Gwinn, Daniel C., Hall Jr., Robert O., Hamada, Neusa, Hui, Cang, Imazawa, Daichi, Iwata, Tomoya, Kariuki, Samuel, Landeira-Dabarca, Andrea, Laymon, Kelsey, Leal, María, Marchant, Richard, Martins, Renato T., Masese, Frank O., Maul, Megan, McKie, Brendan G., Medeiros, Adriana O., M'Erimba, Charles, Middleton, Jen A., Monroy Zarzuelo, Silvia, Muotka, Timo, Negishi, Junjiro N., Ramírez, Alonso, Richardson, John S., Rincón, José, Rubio Ríos, Juan, Dos Santos, Gisele M., Sarremejane, Romain, Sheldon, Fran, Sitati, Augustine, Tenkiano, Nathalie S. D., Tiegs, Scott D., Tolod, Janine R., Venarsky, Michael, Watson, Anne, and Yule, Catherine M.

Abstract

The relationship between detritivore diversity and decomposition can provide information on how biogeochemical cycles are affected by ongoing rates of extinction, but such evidence has come mostly from local studies and microcosm experiments. We conducted a globally distributed experiment (38 streams across 23 countries in 6 continents) using standardised methods to test the hypothesis that detritivore diversity enhances litter decomposition in streams, to establish the role of other characteristics of detritivore assemblages (abundance, biomass and body size), and to determine how patterns vary across realms, biomes and climates. We observed a positive relationship between diversity and decomposition, strongest in tropical areas, and a key role of abundance and biomass at higher latitudes. Our results suggest that litter decomposition might be altered by detritivore extinctions, particularly in tropical areas, where detritivore diversity is already relatively low and some environmental stressors particularly prevalent.

Published
2021

34. Environmental Determinants of COVID 19 Transmission Across a Wide Climatic Gradient in Chile

Author

Biología vegetal y ecología, Landaren biologia eta ekologia, Correa Araneda, Francisco, Ulloa Yáñez, Alfredo, Núñez, Daniela, Boyero González, María Luz, Tonin, Alan M., Cornejo, Aydeé, Urbina, Marcelo, Díaz, María E., Figueroa Muñoz, Guillermo, Esse, Carlos, Biología vegetal y ecología, Landaren biologia eta ekologia, Correa Araneda, Francisco, Ulloa Yáñez, Alfredo, Núñez, Daniela, Boyero González, María Luz, Tonin, Alan M., Cornejo, Aydeé, Urbina, Marcelo, Díaz, María E., Figueroa Muñoz, Guillermo, and Esse, Carlos

Abstract

Several studies have examined the transmission dynamics of the novel COVID-19 disease in different parts of the world. Some have reported relationships with various environmental variables, suggesting that spread of the disease is enhanced in colder and drier climates. However, evidence is still scarce and mostly limited to a few countries, particularly from Asia. We examined the potential role of multiple environmental variables in COVID-19 infection rate [measured as mean relative infection rate = (number of infected inhabitants per week / total population) × 100.000) from February 23 to August 16, 2020 across 360 cities of Chile. Chile has a large climatic gradient (≈ 40º of latitude, ≈ 4000 m of altitude and 5 climatic zones, from desert to tundra), but all cities share their social behaviour patterns and regulations. Our results indicated that COVID-19 transmission in Chile was mostly related to three main climatic factors (minimum temperature, atmospheric pressure and relative humidity). Transmission was greater in colder and drier cities and when atmospheric pressure was lower. The results of this study support some previous findings about the main climatic determinants of COVID-19 transmission, which may be useful for decision-making and management of the disease.

Published
2021

35. Latitude Dictates Plant Diversity Effects on Instream Decomposition

Author

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

Abstract

Running waters contribute substantially to global carbon fluxes through decomposition of terrestrial plant litter by aquatic microorganisms and detritivores. Diversity of this litter may influence instream decomposition globally in ways that are not yet understood. We investigated latitudinal differences in decomposition of litter mixtures of low and high functional diversity in 40 streams on 6 continents and spanning 113 degrees of latitude. Despite important variability in our dataset, we found latitudinal differences in the effect of litter functional diversity on decomposition, which we explained as evolutionary adaptations of litter-consuming detritivores to resource availability. Specifically, a balanced diet effect appears to operate at lower latitudes versus a resource concentration effect at higher latitudes. The latitudinal pattern indicates that loss of plant functional diversity will have different consequences on carbon fluxes across the globe, with greater repercussions likely at low latitudes.

Published
2021

36. Latitude dictates plant diversity effects on instream decomposition

Author

Eusko Jaurlaritza, European Commission, Fundação para a Ciência e a Tecnologia (Portugal), Boyero, Luis, Pérez, Javier, López-Rojo, Naiara, Tonin, Alan M., Correa-Araneda, Francisco, Pearson, Richard G., Bosch, Jaime, Eusko Jaurlaritza, European Commission, Fundação para a Ciência e a Tecnologia (Portugal), Boyero, Luis, Pérez, Javier, López-Rojo, Naiara, Tonin, Alan M., Correa-Araneda, Francisco, Pearson, Richard G., and Bosch, Jaime

Abstract

Running waters contribute substantially to global carbon fluxes through decomposition of terrestrial plant litter by aquatic microorganisms and detritivores. Diversity of this litter may influence instream decomposition globally in ways that are not yet understood. We investigated latitudinal differences in decomposition of litter mixtures of low and high functional diversity in 40 streams on 6 continents and spanning 113° of latitude. Despite important variability in our dataset, we found latitudinal differences in the effect of litter functional diversity on decomposition, which we explained as evolutionary adaptations of litter-consuming detritivores to resource availability. Specifically, a balanced diet effect appears to operate at lower latitudes versus a resource concentration effect at higher latitudes. The latitudinal pattern indicates that loss of plant functional diversity will have different consequences on carbon fluxes across the globe, with greater repercussions likely at low latitudes.

Published
2021

37. Impacts of detritivore diversity loss on instream decomposition are greatest in the tropics

Author

Eusko Jaurlaritza, Universidad del País Vasco, Boyero, Luz, López-Rojo, Naiara, Tonin, Alan M., Pérez, Javier, Correa-Araneda, Francisco, Pearson, Richard G., Bosch, Jaime, Eusko Jaurlaritza, Universidad del País Vasco, Boyero, Luz, López-Rojo, Naiara, Tonin, Alan M., Pérez, Javier, Correa-Araneda, Francisco, Pearson, Richard G., and Bosch, Jaime

Abstract

he relationship between detritivore diversity and decomposition can provide information on how biogeochemical cycles are affected by ongoing rates of extinction, but such evidence has come mostly from local studies and microcosm experiments. We conducted a globally distributed experiment (38 streams across 23 countries in 6 continents) using standardised methods to test the hypothesis that detritivore diversity enhances litter decomposition in streams, to establish the role of other characteristics of detritivore assemblages (abundance, biomass and body size), and to determine how patterns vary across realms, biomes and climates. We observed a positive relationship between diversity and decomposition, strongest in tropical areas, and a key role of abundance and biomass at higher latitudes. Our results suggest that litter decomposition might be altered by detritivore extinctions, particularly in tropical areas, where detritivore diversity is already relatively low and some environmental stressors particularly prevalent.

Published
2021

38. Latitude dictates plant diversity effects on instream decomposition

Author

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

Published
2021
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39. Agriculture impairs stream ecosystem functioning in a tropical catchment

Author

Biología vegetal y ecología, Landaren biologia eta ekologia, Cornejo, Aydeé, Pérez Viñuela, Javier, López Rojo, Naiara, Tonin, Alan M., Rovira, Dalys, Checa, Brenda, Jaramillo, Nicomedes, Correa, Karina, Villarreal, Allison, Villarreal, Víctor, García, Gabriela, Pérez, Edgar, Ríos González, Tomas A., Aguirre, Yusseff, Correa Araneda, Francisco, Boyero González, María Luz, Biología vegetal y ecología, Landaren biologia eta ekologia, Cornejo, Aydeé, Pérez Viñuela, Javier, López Rojo, Naiara, Tonin, Alan M., Rovira, Dalys, Checa, Brenda, Jaramillo, Nicomedes, Correa, Karina, Villarreal, Allison, Villarreal, Víctor, García, Gabriela, Pérez, Edgar, Ríos González, Tomas A., Aguirre, Yusseff, Correa Araneda, Francisco, and Boyero González, María Luz

Abstract

The expansion of agriculture is particularly worrying in tropical regions of the world, where native forests are being replaced by crops at alarming rates, with severe consequences for biodiversity and ecosystems. However, there is little information about the potential effects of agriculture on the functioning of tropical streams, which is essential if we are to assess the condition and ecological integrity of these ecosystems. We conducted a litter decomposition experiment in streams within a tropical catchment, which were subjected to different degrees of agricultural influence: low (protected area, PA), medium (buffer area, BA) and high (agricultural area, AA). We quantified decomposition rates of litter enclosed within coarse-mesh and fine-mesh bags, which allowed the distinction of microbial and detritivore-mediated decomposition pathways. We used litter of three riparian species representing a gradient in litter quality (Alnus acuminate > Ficus irtsipida > Querns burnelioides), and examined detritivore assemblages through the contents of litterbags and benthic samples. We found that the increasing agricultural influence promoted microbial decomposition, probably due to nutrient-mediated stimulation; and inhibited detritivore-mediated and total decomposition because of reduced detritivore numbers, most likely caused by pesticides and sedimentation. Effects were evident for Alnus and Ficus, but not for Querns, which was barely decomposed across the gradient. Our study provides key evidence about the impact of agriculture on topical stream ecosystem functioning, which is associated to changes in stream assemblages and may have far-reaching repercussions for global biochemical cycles. (C) 2020 The Authors. Published by Elsevier B.V.

Published
2020

40. Relationship between salt use in fish farms and driftof macroinvertebrates in a freshwater stream

Author

Biología vegetal y ecología, Landaren biologia eta ekologia, Encina Montoya, Francisco, Boyero González, María Luz, Tonin, Alan M., Aguayo, María Fernanda, Esse, Carlos, Vega, Rolando, Correa Araneda, Francisco, Oberti, Carlos, Nimptsch, Jorge, Biología vegetal y ecología, Landaren biologia eta ekologia, Encina Montoya, Francisco, Boyero González, María Luz, Tonin, Alan M., Aguayo, María Fernanda, Esse, Carlos, Vega, Rolando, Correa Araneda, Francisco, Oberti, Carlos, and Nimptsch, Jorge

Abstract

In Chile, salt (NaCl) use per salmon fish farm ranges between 20-30 t yr(-1) and is used to prevent and control fungal infections. An increase in salinity in freshwater can have adverse effects on freshwater biodiversity and ecosystem functions and services. We studied the effects of fish-farm effluents on benthic macroinvertebrate communities in a northern Patagonian stream (Chile). Benthic samples were collected at 3 sites near a land-based salmon aquaculture facility (one located 100 m upstream from the fish-farm outlet for effluent, 2 sites located 200 and 400 m downstream from the effluent source). We found changes in benthic macroinvertebrate communities downstream from the effluent, with higher abundances of tolerant taxa and lower abundances of sensitive taxa, which was related to nutrient and salt concentration in the water. We also studied the effects of salinity on macroinvertebrate drift in a mesocosm experiment conducted in recirculating channels, measuring the drift of 2 salt-sensitive macroinvertebrates (Andesiops peruvianus and Smicridea annulicornis), collected from an unpolluted northern Patagonian stream, after exposure to a range of salinity concentration pulses similar to those from fish farms. Our results demonstrate that (1) fish-farm effluent can alter stream macroinvertebrate community composition and dynamics, and (2) such effects are at least partly driven by high salt concentrations in effluent waters.

Published
2020

41. Agriculture impairs stream ecosystem functioning in a tropical catchment

Author

Cornejo, Aydeé, primary, Pérez, Javier, additional, López-Rojo, Naiara, additional, Tonin, Alan M., additional, Rovira, Dalys, additional, Checa, Brenda, additional, Jaramillo, Nicomedes, additional, Correa, Karina, additional, Villarreal, Allison, additional, Villarreal, Víctor, additional, García, Gabriela, additional, Pérez, Edgar, additional, Ríos González, Tomás A., additional, Aguirre, Yusseff, additional, Correa-Araneda, Francisco, additional, and Boyero, Luz, additional

Published
2020
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43. Extreme climate events can slow down litter breakdown in streams

Author

Correa-Araneda, Francisco, primary, Tonin, Alan M., additional, Pérez, Javier, additional, Álvarez, Katia, additional, López-Rojo, Naiara, additional, Díaz, Angie, additional, Esse, Carlos, additional, Encina-Montoya, Francisco, additional, Figueroa, Ricardo, additional, Cornejo, Aydeé, additional, and Boyero, Luz, additional

Published
2020
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44. Spatial distribution of freshwater crustaceans in Antarctic and Subantarctic lakes

Author

Biología vegetal y ecología, Landaren biologia eta ekologia, Díaz, Angie, Maturana, Claudia S., Boyero González, María Luz, De Los Ríos Escalante, Patricio, Tonin, Alan M., Correa Araneda, Francisco, Biología vegetal y ecología, Landaren biologia eta ekologia, Díaz, Angie, Maturana, Claudia S., Boyero González, María Luz, De Los Ríos Escalante, Patricio, Tonin, Alan M., and Correa Araneda, Francisco

Abstract

Antarctic and Subantarctic lakes are unique ecosystems with relatively simple food webs, which are likely to be strongly affected by climate warming. While Antarctic freshwater invertebrates are adapted to extreme environmental conditions, little is known about the factors determining their current distribution and to what extent this is explained by biogeography or climate. We explored the distribution of freshwater crustaceans (one of the most abundant and diverse group of organisms in Antarctic and Subantarctic lakes) across four biogeographic provinces (Continental Antarctic, CA; Maritime Antarctic, MA; Subantarctic islands, SA; and Southern Cool Temperate, SCT) based on the literature, predicting that species distribution would be determined by biogeography, spatial autocorrelation among regions (in relation to dispersal) and climate. We found that variation in species composition was largely explained by the joint effect of spatial autocorrelation and climate, with little effect of biogeography – only regions within the SA province had a clearly distinct species composition. This highlights a plausible main influence of crustacean dispersal – mainly through migratory seabirds – and suggests that some regions will be more affected by climate warming than others, possibly in relation to the existence of nearby sources of colonists.

Published
2019

45. Effects of multiple stressors associated with agriculture on stream macroinvertebrate communities in a tropical catchment

Author

Biología vegetal y ecología, Landaren biologia eta ekologia, Cornejo, Aydeé, Tonin, Alan M., Checa, Brenda, Tuñon, Ana Raquel, Pérez, Diana, Coronado, Enilda, González, Stefani, Ríos, Tomás, Macchi, Pablo, Correa Araneda, Francisco, Boyero González, María Luz, Biología vegetal y ecología, Landaren biologia eta ekologia, Cornejo, Aydeé, Tonin, Alan M., Checa, Brenda, Tuñon, Ana Raquel, Pérez, Diana, Coronado, Enilda, González, Stefani, Ríos, Tomás, Macchi, Pablo, Correa Araneda, Francisco, and Boyero González, María Luz

Abstract

Tropical forests are declining at unprecedented rates in favour of agriculture, and streams can be severely impacted due to effects of multiple stressors that have rarely been considered together in tropical studies. We studied the effects of multiple stressors associated with agricultural practices (pesticide toxicity, nutrient enrichment and habitat alteration-quantified as TUmax, soluble reactive phosphorus concentration and sedimentation, respectively) on macroinvertebrate communities in a tropical catchment in Panama (13 stream sites sampled in 20 occasions from 2015 to 2017, with 260 samples in total). We examined how macroinvertebrate abundance, taxonomic richness, community composition and biotic indices (SPEAR and BMWP/PAN, which were specifically designed to detect pesticide toxicity and nutrient enrichment, respectively) varied depending on the studied stressors, considering their single and combined effects. Our analyses revealed significant effects of the studied stressors on macroinvertebrate communities, with two particular results that merit further attention: (1) the fact that pesticide toxicity affected BMWP/PAN, but not SPEAR, possibly because the former had been adapted for local fauna; and (2) that most stressors showed antagonistic interactions (i.e., lower combined effects than expected from their individual effects). These results highlight the need for toxicity bioassays with tropical species that allow adaptations of biotic indices, and of observational and manipulative studies exploring the combined effects of multiple stressors on tropical macroinvertebrate communities and ecosystems, in order to predict and manage future anthropogenic impacts on tropical streams.

Published
2019

49. Riparian plant litter quality increases with latitude

Author

Boyero, Luz, Graca, Manuel A. S., Tonin, Alan M., Perez, Javier, Swafford, Andrew J., Ferreira, Veronica, Landeira-Dabarca, Andrea, Alexandrou, Markos A., Gessner, Mark O., Mckie, Brendan G., Albarino, Ricardo J., Barmuta, Leon A., Callisto, Marcos, Chara, Julian, Chauvet, Eric, Colon-Gaud, Checo, Dudgeon, David, Encalada, Andrea C., Figueroa, Ricardo, Flecker, Alexander S., Fleituch, Tadeusz, Frainer, André, Goncalves, Jose F., Jr., Helson, Julie E., Iwata, Tomoya, Mathooko, Jude, M'Erimba, Charles, Pringle, Catherine M., Ramirez, Alonso, Swan, Christopher M., Yule, Catherine M., Pearson, Richard G., Boyero, Luz, Graca, Manuel A. S., Tonin, Alan M., Perez, Javier, Swafford, Andrew J., Ferreira, Veronica, Landeira-Dabarca, Andrea, Alexandrou, Markos A., Gessner, Mark O., Mckie, Brendan G., Albarino, Ricardo J., Barmuta, Leon A., Callisto, Marcos, Chara, Julian, Chauvet, Eric, Colon-Gaud, Checo, Dudgeon, David, Encalada, Andrea C., Figueroa, Ricardo, Flecker, Alexander S., Fleituch, Tadeusz, Frainer, André, Goncalves, Jose F., Jr., Helson, Julie E., Iwata, Tomoya, Mathooko, Jude, M'Erimba, Charles, Pringle, Catherine M., Ramirez, Alonso, Swan, Christopher M., Yule, Catherine M., and Pearson, Richard G.

Abstract

Plant litter represents a major basal resource in streams, where its decomposition is partly regulated by litter traits. Litter-trait variation may determine the latitudinal gradient in decomposition in streams, which is mainly microbial in the tropics and detritivore-mediated at high latitudes. However, this hypothesis remains untested, as we lack information on large-scale trait variation for riparian litter. Variation cannot easily be inferred from existing leaf-trait databases, since nutrient resorption can cause traits of litter and green leaves to diverge. Here we present the first global-scale assessment of riparian litter quality by determining latitudinal variation (spanning 107 degrees) in litter traits (nutrient concentrations; physical and chemical defences) of 151 species from 24 regions and their relationships with environmental factors and phylogeny. We hypothesized that litter quality would increase with latitude (despite variation within regions) and traits would be correlated to produce 'syndromes' resulting from phylogeny and environmental variation. We found lower litter quality and higher nitrogen: phosphorus ratios in the tropics. Traits were linked but showed no phylogenetic signal, suggesting that syndromes were environmentally determined. Poorer litter quality and greater phosphorus limitation towards the equator may restrict detritivore-mediated decomposition, contributing to the predominance of microbial decomposers in tropical streams.

Published
2017
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50. Riparian plant litter quality increases with latitude

Author

Biología vegetal y ecología, Landaren biologia eta ekologia, Boyero González, María Luz, Graça, Manuel A. S., Tonin, Alan M., Pérez Viñuela, Javier, Swafford, Andrew J., Ferreira, Verónica, Landeira-Dabarca, Andrea, Alexandrou, Markos A., Gessner, Mark O., McKie, Brendan G., Albariño, Ricardo J., Barmuta, Leon A., Callisto, Marcos, Chará, Julián, Chauvet, Eric, Colón-Gaud, Checo, Dudgeon, David, Encalada, Andrea C., Figueroa, Ricardo, Flecker, Alexander S., Fleituch, Tadeusz, Frainer, André, Gonçalves Jr., José F., Helson, Julie E., Iwata, Tomoya, Mathooko, Jude, M’Erimba, Charles, Pringle, Catherine M., Ramírez, Alonso, Swan, Christopher M., Yule, Catherine M., Pearson, Richard G., Biología vegetal y ecología, Landaren biologia eta ekologia, Boyero González, María Luz, Graça, Manuel A. S., Tonin, Alan M., Pérez Viñuela, Javier, Swafford, Andrew J., Ferreira, Verónica, Landeira-Dabarca, Andrea, Alexandrou, Markos A., Gessner, Mark O., McKie, Brendan G., Albariño, Ricardo J., Barmuta, Leon A., Callisto, Marcos, Chará, Julián, Chauvet, Eric, Colón-Gaud, Checo, Dudgeon, David, Encalada, Andrea C., Figueroa, Ricardo, Flecker, Alexander S., Fleituch, Tadeusz, Frainer, André, Gonçalves Jr., José F., Helson, Julie E., Iwata, Tomoya, Mathooko, Jude, M’Erimba, Charles, Pringle, Catherine M., Ramírez, Alonso, Swan, Christopher M., Yule, Catherine M., and Pearson, Richard G.

Abstract

Plant litter represents a major basal resource in streams, where its decomposition is partly regulated by litter traits. Litter-trait variation may determine the latitudinal gradient in decomposition in streams, which is mainly microbial in the tropics and detritivore-mediated at high latitudes. However, this hypothesis remains untested, as we lack information on large-scale trait variation for riparian litter. Variation cannot easily be inferred from existing leaf-trait databases, since nutrient resorption can cause traits of litter and green leaves to diverge. Here we present the first global-scale assessment of riparian litter quality by determining latitudinal variation (spanning 107 degrees) in litter traits (nutrient concentrations; physical and chemical defences) of 151 species from 24 regions and their relationships with environmental factors and phylogeny. We hypothesized that litter quality would increase with latitude (despite variation within regions) and traits would be correlated to produce 'syndromes' resulting from phylogeny and environmental variation. We found lower litter quality and higher nitrogen: phosphorus ratios in the tropics. Traits were linked but showed no phylogenetic signal, suggesting that syndromes were environmentally determined. Poorer litter quality and greater phosphorus limitation towards the equator may restrict detritivore-mediated decomposition, contributing to the predominance of microbial decomposers in tropical streams.

Published
2017

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