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10. 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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11. Leaf-litter breakdown in tropical streams: is variability the norm?

Author

Boyero, Luz, Pearson, Richard G., Gessner, Mark O., Dudgeon, David, Ramírez, Alonso, Yule, Catherine M., Callisto, Marcos, Pringle, Catherine M., Encalada, Andrea C., Arunachalam, Muthukumarasamy, Mathooko, Jude, Helson, Julie E., Rincón, José, Bruder, Andreas, Cornejo, Aydeé, Flecker, Alexander S., Mathuriau, Catherine, M’Erimba, Charles, Gonçalves, José F., Moretti, Marcelo, and Jinggut, Tajang

Published
2015
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12. Global patterns of stream detritivore distribution: implications for biodiversity loss in changing climates

Author

Boyero, Luz, Pearson, Richard G., Dudgeon, David, Ferreira, Verónica, Graça, Manuel A. S., Gessner, Mark O., Boulton, Andrew J., Chauvet, Eric, Yule, Catherine M., Albariño, Ricardo J., Ramírez, Alonso, Helson, Julie E., Callisto, Marcos, Arunachalam, Muthukumarasamy, Chará, Julián, Figueroa, Ricardo, Mathooko, Jude M., Gonçalves, José F., Moretti, Marcelo S., Chará-Serna, Ana Marcela, Davies, Judy N., Encalada, Andrea, Lamothe, Sylvain, Buria, Leonardo M., Castela, José, Cornejo, Aydeé, Li, Aggie O. Y., M'Erimba, Charles, Villanueva, Verónica Díaz, del Carmen Zúñiga, María, Swan, Christopher M., and Barmuta, Leon A.

Published
2012
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13. Global distribution of a key trophic guild contrasts with common latitudinal diversity patterns

Author

Boyero, Luz, Pearson, Richard G., Dudgeon, David, Graça, Manuel A. S., Gessner, Mark O., Albariño, Ricardo J., Ferreira, Verónica, Yule, Catherine M., Boulton, Andrew J., Arunachalam, Muthukumarasamy, Callisto, Marcos, Chauvet, Eric, Ramírez, Alonso, RAMÍREZ, ALONZO, Chará, Julián, Moretti, Marcelo S., Gonçalves,, José F., Helson, Julie E., Chará-Serna, Ana M., Encalada, Andrea C., Davies, Judy N., Lamothe, Sylvain, Cornejo, Aydeè, Li, Aggie O. Y., Buria, Leonardo M., Villanueva, Verónica D., Zúñiga, María C., and Pringle, Catherine M.

Published
2011

15. Latitudinal gradient of nestedness and its potential drivers in stream detritivores

Author

Boyero, Luz, Pearson, Richard G., Swan, Christopher M., Hui, Cang, Albariño, Ricardo J., Arunachalam, Muthukumarasamy, Callisto, Marcos, Chará, Julián, Chará-Serna, Ana M., Chauvet, Eric, Cornejo, Aydeé, Dudgeon, David, Encalada, Andrea C., Ferreira, Verónica, Gessner, Mark O., Gonçalves, José F., Jr, Graça, Manuel A. S., Helson, Julie E., Mathooko, Jude M., McKie, Brendan G., Moretti, Marcelo S., and Yule, Catherine M.

Published
2015
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17. 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

18. 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

19. High Sensitivity of Invertebrate Detritivores from Tropical Streams to Different Pesticides

Author

Biología vegetal y ecología, Landaren biologia eta ekologia, Cornejo, Aydeé, Encina Montoya, Francisco, Correa Araneda, Francisco, Rovira, Dalys, García, Gabriela, Nieto, Carlos, Villarreal, Víctor, Jaramillo, Nicomedes, Pérez, Edgar, Valderrama, Anayansi, Pérez Viñuela, Javier, Boyero González, María Luz, Biología vegetal y ecología, Landaren biologia eta ekologia, Cornejo, Aydeé, Encina Montoya, Francisco, Correa Araneda, Francisco, Rovira, Dalys, García, Gabriela, Nieto, Carlos, Villarreal, Víctor, Jaramillo, Nicomedes, Pérez, Edgar, Valderrama, Anayansi, Pérez Viñuela, Javier, and Boyero González, María Luz

Abstract

Freshwater organisms are often sensitive to pesticides, but their sensitivity varies across different taxa and with pesticide type and action mode, as shown by multiple acute toxicity tests. Such variability hampers predictions about how freshwater ecosystems may be altered by pesticide toxicity, which is especially critical for understudied areas of the world such as the tropics. Furthermore, there is little information about the sensitivity of some organisms that are key components of stream food webs; this is the case of litter-feeding detritivorous invertebrates, which contribute to the fundamental process of litter decomposition. Here, we examined the sensitivity of three common detritivores [Anchytarsus sp. (Coleoptera: Ptilodactylidae), Hyalella sp. (Amphipoda: Hyalellidae) and Lepidostoma sp. (Trichoptera: Lepidostomatidae)] to three pesticides commonly used (the insecticides bifenthrin and chlorpyrifos and the fungicide chlorothalonil) using acute (48 or 96h) toxicity tests. Our study demonstrates that common-use pesticides provoke the mortality of half their populations at concentrations of 0.04-2.7mugL-1. We found that all species were sensitive to the three pesticides, with the highest sensitivity found for chlorpyrifos. Additionally, we used the approach of species sensitivity distributions (SSD) to compare our study species with Daphnia magna and other temperate and tropical invertebrates. We found that the study species were among the most sensitive species to chlorpyrifos and chlorothalonil. Our results suggest that tropical detritivores merit special attention in ecological risk assessment of pesticides and highlight the need for accurate ecotoxicological information from ecologically relevant species in The Tropics.

Published
2021

20. 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

21. Litter Decomposition can be Reduced by Pesticide Effects on Detritivores and Decomposers: Implications for Tropical Stream Functioning

Author

Biología vegetal y ecología, Landaren biologia eta ekologia, Cornejo, Aydeé, Pérez Viñuela, Javier, López Rojo, Naiara, García, Gabriela, Pérez, Edgar, Guerra, Alisson, Nieto, Carlos, Boyero González, María Luz, Biología vegetal y ecología, Landaren biologia eta ekologia, Cornejo, Aydeé, Pérez Viñuela, Javier, López Rojo, Naiara, García, Gabriela, Pérez, Edgar, Guerra, Alisson, Nieto, Carlos, and Boyero González, María Luz

Abstract

Understanding which factors affect the process of leaf litter decomposition is crucial if we are to predict changes in the functioning of stream ecosystems as a result of human activities. One major activity with known consequences on streams is agriculture, which is of particular concern in tropical regions, where forests are being rapidly replaced by crops. While pesticides are potential drivers of reduced decomposition rates observed in agricultural tropical streams, their specific effects on the performance of decomposers and detritivores are mostly unknown. We used a microcosm experiment to examine the individual and joint effects of an insecticide (chlorpyrifos) and a fungicide (chlorothalonil) on survival and growth of detritivores (Anchytarsus, Hyalella and Lepidostoma), aquatic hyphomycetes (AH) sporulation rate, taxon richness, assemblage structure, and leaf litter decomposition rates. Our results revealed detrimental effects on detritivore survival (which were mostly due to the insecticide and strongest for Hyalella), changes in AH assemblage structure, and reduced sporulation rate, taxon richness and microbial decomposition (mostly in response to the fungicide). Total decomposition was reduced especially when the pesticides were combined, suggesting that they operated differently and their effects were additive. Importantly, effects on decomposition were greater for single-species detritivore treatments than for the 3-species mixture, indicating that detritivore species loss may exacerbate the consequences of pesticides of stream ecosystem functioning.

Published
2021

22. 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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25. The Trichoptera of Panama. XVI. Evaluation of Trichoptera (Insecta) from Omar Torrijos Herrera General Division National Park.

Author

Armitage, Brian J., Harris, Steven C., Ríos González, Tomás A., Álvarez, Eric, Pérez, Edgar, Aguirre, Yusseff, and Cornejo, Aydeé

Subjects
CADDISFLIES, INSECTS, NATIONAL parks & reserves, NUMBERS of species, INSECT traps
Abstract

The objective of this study was a preliminary evaluation of the adult Trichoptera (Insecta) fauna of Omar Torrijos Herrera General Division National Park, comparing collection methods and local/regional species affinities. Employing both Malaise traps and UV light traps, adult caddisflies were collected in four streams (two each in the Caribbean and Pacific drainages). In recent publications, 11 new species were described and four first country records published for this study. Seventy-two taxa were identified from all samples, with two species yet to be described. We found multiple collection methods were required to adequately estimate species richness. The Chao2 estimator of potential species richness indicated a minimum of 118 species, and even more species could be expected if prolonged sampling occurred monthly in all park streams. The identification and addition of 15 new taxa to Panama's Trichoptera fauna from such a small area and sampling effort is both remarkable and encouraging. [ABSTRACT FROM AUTHOR]

Published
2022
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26. A common fungicide impairs stream ecosystem functioning through effects on aquatic hyphomycetes and detritivorous caddisflies

Author

Biología vegetal y ecología, Landaren biologia eta ekologia, Cornejo, Aydeé, Pérez Viñuela, Javier, Alonso Blanco, Alberto, López Rojo, Naiara, Monroy Zarzuelo, Silvia, Boyero González, María Luz, Biología vegetal y ecología, Landaren biologia eta ekologia, Cornejo, Aydeé, Pérez Viñuela, Javier, Alonso Blanco, Alberto, López Rojo, Naiara, Monroy Zarzuelo, Silvia, and Boyero González, María Luz

Abstract

Fungicides can reach streams through runoff or adhered to leaf litter, and have the potential to adversely affect processes such as litter decomposition and associated communities. This study investigated the effects of chlorothalonil, a widely used fungicide, on litter decomposition, detritivorous invertebrates (larvae of the insect Sericostoma pyrenaicum) and aquatic hyphomycetes (AHs), using stream microcosms. We considered the single and combined effects of two exposure modes: waterborne fungicide (at two concentrations: 0.125 mu g L-1 and 1.25 mu g L-1) and litter previously sprayed with the fungicide (i.e., pre-treated litter, using the application dose concentration of 1250 mu g L-1). We also assessed whether fungicide effects on invertebrates, AHs and decomposition varied among litter types (i.e., different plant species), and whether plant diversity mitigated any of those effects. Invertebrate survival and AH sporulation rate and taxon richness were strongly reduced by most combinations of fungicide exposure modes; however, invertebrates were not affected by the low waterborne concentration, whereas AHs suffered the highest reduction at this concentration. Total decomposition was slowed down by both exposure modes, and microbial decomposition was reduced by litter pre-treatment, while the waterborne fungicide had different effects depending on plant species. In general, with the exception of microbial decomposition, responses varied little among litter types. Moreover, and contrary to our expectation, plant diversity did not modulate the fungicide effects. Our results highlight the severity of fungicide inputs to streams through effects on invertebrate and microbial communities and ecosystem functioning, even in streams with well-preserved, diverse riparian vegetation.

Published
2020

27. 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

28. 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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29. Chimarra (C.) limon Blahnik 1998

Author

Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Aydeé, and Arefina-Armitage, Tatiana I.

Subjects
Chimarra, Insecta, Chimarra limon, Arthropoda, Trichoptera, Animalia, Biodiversity, Philopotamidae, Taxonomy
Abstract

Chimarra (C.) limon Blahnik, 1998 Material examined���Bocas del Toro Province: Cuenca 093, Quebrada Rambala, nr Rambala Jungle Lodge, 8.91627��N and 82.15469��W, 120 m, Malaise trap, 15���20.xi.2016, E. Carlson, 1 male. Distribution: Costa Rica, Panama., Published as part of Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Ayde�� & Arefina-Armitage, Tatiana I., 2018, The Trichoptera of Panama VII. Additional new country records for caddisflies from the Republic of Panama, pp. 1-7 in Insecta Mundi 614 on page 2, DOI: 10.5281/zenodo.3699335

Published
2018
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30. Chimarra (C.) paraortiziana Blahnik and Holzenthal 1992

Author

Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Aydeé, and Arefina-Armitage, Tatiana I.

Subjects
Chimarra, Insecta, Arthropoda, Trichoptera, Chimarra paraortiziana, Animalia, Biodiversity, Philopotamidae, Taxonomy
Abstract

Chimarra (C.) paraortiziana Blahnik and Holzenthal, 1992 Material examined���Veraguas Province: Cuenca 132, R��o Mulab��-Primer Brazo, PSPSCD-PNSF- C132-2017-009, 8.52560��N and 81.12956��W, 623 m, Malaise trap, 19���23.iv.2017, E. ��lvarez, T. R��os, and E. P��rez, 2 males. Distribution: Costa Rica, Nicaragua, Panama., Published as part of Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Ayde�� & Arefina-Armitage, Tatiana I., 2018, The Trichoptera of Panama VII. Additional new country records for caddisflies from the Republic of Panama, pp. 1-7 in Insecta Mundi 614 on page 2, DOI: 10.5281/zenodo.3699335

Published
2018
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31. Polycentropus nebulosus Holzenthal and Hamilton 1988

Author

Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Aydeé, and Arefina-Armitage, Tatiana I.

Subjects
Insecta, Polycentropus nebulosus, Arthropoda, Polycentropodidae, Trichoptera, Polycentropus, Animalia, Biodiversity, Taxonomy
Abstract

Polycentropus nebulosus Holzenthal and Hamilton, 1988 Material examined��� Chiriqu�� Province: Cuenca 102, Afluente R��o Colorado, Mount Totumas Cloud Forest and Biological Reserve, 8.88472��N and 82.68408��W, 1920 m, Malaise trap, 31.viii. 2016, J. Dietrich, B. Armitage, and Y. Aguirre, 1 male. Distribution: Costa Rica, Panama., Published as part of Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Ayde�� & Arefina-Armitage, Tatiana I., 2018, The Trichoptera of Panama VII. Additional new country records for caddisflies from the Republic of Panama, pp. 1-7 in Insecta Mundi 614 on page 3, DOI: 10.5281/zenodo.3699335

Published
2018
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32. Austrotinodes doublesi Munoz and Holzenthal 1993

Author

Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Aydeé, and Arefina-Armitage, Tatiana I.

Subjects
Insecta, Arthropoda, Trichoptera, Austrotinodes, Ecnomidae, Animalia, Austrotinodes doublesi, Biodiversity, Taxonomy
Abstract

Austrotinodes doublesi Mu��oz and Holzenthal, 1993 Material examined��� Veraguas Province, Cuenca 097, R��o Calovebora, PSPSCD-PNSF- C097-2017-006, 8.55038��N and 81.1648623��W, 461 m, Malaise trap, 27.iv.2017, E. ��lvarez, T. R��os, and C. Nieto, 1 male. Distribution: Costa Rica, Nicaragua, Panama., Published as part of Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Ayde�� & Arefina-Armitage, Tatiana I., 2018, The Trichoptera of Panama VII. Additional new country records for caddisflies from the Republic of Panama, pp. 1-7 in Insecta Mundi 614 on page 3, DOI: 10.5281/zenodo.3699335

Published
2018
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33. Nectopsyche tuanis Holzenthal 1995

Author

Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Aydeé, and Arefina-Armitage, Tatiana I.

Subjects
Insecta, Arthropoda, Trichoptera, Nectopsyche, Animalia, Biodiversity, Leptoceridae, Nectopsyche tuanis, Taxonomy
Abstract

Nectopsyche tuanis Holzenthal, 1995 Material examined��� Chiriqu�� Province: Cuenca 108, R��o Chirigagua, SSE Guayabal, 8.64102��N and 82.55780��W, 737 m, UV-light trap, 19.vi.2015, C. Nieto, M. Molinar, and A. Tu��on, 1 male. Distribution: Costa Rica, Nicaragua, Panama., Published as part of Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Ayde�� & Arefina-Armitage, Tatiana I., 2018, The Trichoptera of Panama VII. Additional new country records for caddisflies from the Republic of Panama, pp. 1-7 in Insecta Mundi 614 on page 6, DOI: 10.5281/zenodo.3699335

Published
2018
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34. Chimarrhodella tapanti Blahnik and Holzenthal 1992

Author

Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Aydeé, and Arefina-Armitage, Tatiana I.

Subjects
Chimarrhodella, Insecta, Arthropoda, Trichoptera, Animalia, Biodiversity, Chimarrhodella tapanti, Philopotamidae, Taxonomy
Abstract

Chimarrhodella tapanti Blahnik and Holzenthal, 1992 Material examined���Chiriqu�� Province: Cuenca 91, R��o Holcon, PSPSCD-PILA-CO91-2017-024, 8.87616��N and 82.48667��W, 1804 m, UV-light trap, 31.viii.2017, E. ��lvarez, T. R��os, and E. P��rez, 1 male. Distribution: Costa Rica, Panama., Published as part of Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Ayde�� & Arefina-Armitage, Tatiana I., 2018, The Trichoptera of Panama VII. Additional new country records for caddisflies from the Republic of Panama, pp. 1-7 in Insecta Mundi 614 on page 2, DOI: 10.5281/zenodo.3699335

Published
2018
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35. Chimarra (C.) cascada Blahnik 1998

Author

Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Aydeé, and Arefina-Armitage, Tatiana I.

Subjects
Chimarra, Insecta, Arthropoda, Trichoptera, Animalia, Biodiversity, Chimarra cascada, Philopotamidae, Taxonomy
Abstract

Chimarra (C.) cascada Blahnik, 1998 Material examined���Chiriqu�� Province: Cuenca 102, afluente R��o Colorado, Mount Totumas Cloud Forest and Biological Reserve, 8.88472��N and 82.68408��W, 1920 m, Malaise trap, 5���10.viii. 2016, B. and T. Armitage, 1 male. Distribution: Costa Rica, Panama., Published as part of Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Ayde�� & Arefina-Armitage, Tatiana I., 2018, The Trichoptera of Panama VII. Additional new country records for caddisflies from the Republic of Panama, pp. 1-7 in Insecta Mundi 614 on page 2, DOI: 10.5281/zenodo.3699335

Published
2018
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36. Atanatolica moselyi Denning and Holzenthal 1988

Author

Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Aydeé, and Arefina-Armitage, Tatiana I.

Subjects
Insecta, Arthropoda, Trichoptera, Atanatolica, Animalia, Biodiversity, Leptoceridae, Atanatolica moselyi, Taxonomy
Abstract

Atanatolica moselyi Denning and Holzenthal, 1988 [in Holzenthal 1988] Material examined��� Chiriqu�� Province, Cuenca 102, R��o Candela, PSPSCD-PILA-C102-2017-020, 8.89968��N and 82.73786��W, 1728 m, UV-light trap, 18.vi.2017, E. ��lvarez, E. P��rez, and T. R��os, 1 male; ibid. Quebrada Cascada, PSPSCD-PILA-C102-2017-022, 8.90124��N and 82.61817��W, 2354 m, Malaise trap, 17���21.vi.2017, E. ��lvarez, E. P��rez, and T. R��os, 1 male. Distribution: Costa Rica, Panama., Published as part of Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Ayde�� & Arefina-Armitage, Tatiana I., 2018, The Trichoptera of Panama VII. Additional new country records for caddisflies from the Republic of Panama, pp. 1-7 in Insecta Mundi 614 on page 5, DOI: 10.5281/zenodo.3699335

Published
2018
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37. Leucotrichia extraordinaria Bueno-Soria, Santiago-Fragoso, and Barba-Alvarez 2001

Author

Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Aydeé, and Arefina-Armitage, Tatiana I.

Subjects
Hydroptilidae, Insecta, Arthropoda, Trichoptera, Animalia, Biodiversity, Leucotrichia, Leucotrichia extraordinaria, Taxonomy
Abstract

Leucotrichia extraordinaria Bueno-Soria, Santiago-Fragoso, and Barba-��lvarez, 2001 Material examined���Bocas del Toro Province, Cuenca 093, Quebrada Rambala, nr Rambala Jungle Lodge, 8.91627��N and 82.15469��W, 120 m, Malaise trap, 31.iii���11.iv.2015, E. Carlson, 3 males; ibid., 7���9.x.2016, 59 males; ibid., 15���20.xi.2016, 18 males; ibid., 21���31.xii.2016, 13 males, ibid., 6���12. ii.2017, 6 males. Distribution: Mexico, Panama., Published as part of Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Ayde�� & Arefina-Armitage, Tatiana I., 2018, The Trichoptera of Panama VII. Additional new country records for caddisflies from the Republic of Panama, pp. 1-7 in Insecta Mundi 614 on page 5, DOI: 10.5281/zenodo.3699335

Published
2018
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38. Xiphocentron (Antillotrichia) insulare

Author

Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Aydeé, and Arefina-Armitage, Tatiana I.

Subjects
Insecta, Xiphocentron insulare, Arthropoda, Xiphocentron, Trichoptera, Xiphocentronidae, Animalia, Biodiversity, Taxonomy
Abstract

Xiphocentron (Antillotrichia) insulare (Ulmer, 1913) Material examined��� Veraguas Province, Cuenca 097, Afluente R��o Calovebora, PSPSCD- PNSF-097-2017-005, 8.54318��N and 81.16398��W, 536 m, Malaise trap, 19���23.iv.2017, E. ��lvarez, T. R��os, and C. Nieto, 1 male. Distribution: Panama, Trinidad., Published as part of Armitage, Brian J., Blahnik, Roger J., Harris, Steven C., Cornejo, Ayde�� & Arefina-Armitage, Tatiana I., 2018, The Trichoptera of Panama VII. Additional new country records for caddisflies from the Republic of Panama, pp. 1-7 in Insecta Mundi 614 on page 3, DOI: 10.5281/zenodo.3699335

Published
2018
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40. 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

41. The Trichoptera of Panama VII. Additional new country records for caddisflies from the Republic of Panama

Author

Armitage, Brian J., Blahnik, Roger J, Harris, Steven C., Cornejo, Aydeé, Arefina-Armitage, Tatiana I., Armitage, Brian J., Blahnik, Roger J, Harris, Steven C., Cornejo, Aydeé, and Arefina-Armitage, Tatiana I.

Abstract

The Republic of Panama currently has 358 recorded species of Trichoptera. Herein we add 25 new country records for Panama. The newly recorded taxa increase Panama’s total known caddisfly fauna to 383 species, distributed among 15 families and 52 genera. These results are part of an ongoing effort to characterize the caddisfly fauna of Panama, and to evaluate that country’s major watersheds (cuencas).

Published
2018

44. Psephenops panamaensis Arce-Pérez, Novelo-Gutiérrez & Cornejo, 2015, sp. nov

Author

Arce-Pérez, Roberto, Novelo-Gutiérrez, Rodolfo, and Cornejo, Aydeé

Subjects
Coleoptera, Psephenops, Insecta, Arthropoda, Animalia, Psephenidae, Biodiversity, Psephenops panamaensis, Taxonomy
Abstract

Psephenops panamaensis sp. nov. Arce-Pérez (Figs. 1–9) Description. Holotype Male: Body oval, depressed; integument black, elytra slightly reddish, completely covered with iridescent, reddish-yellow, long and short setae (Figs. 1, 6); coxae and trochanters dark brown; basal half of profemora dark brown, distal half black; tibia and tarsi black; venter black, vestiture short, fine and dense, gray-yellowish with yellow reflections. Total length 2 mm. Head: Short, transverse; clypeus subrectangular, declivous at an angle of less than 90 degrees from the plane of the frons, distal margin widely emarginate; fronto-clypeal surface with long, stout, black setae; vertex minutely punctate, with minute setae and a longitudinal furrow at middle. Antennae long (e.g. when fully extended backwards, reaching posterior margin of pronotum), moniliform-serrate, 11 -segmented, scape larger than other antennomeres, pedicel 0.50 length of scape and subglobose, third antennomere triangular and shorter than pedicel, antennomeres 4–6 serrate, antennomeres 7–10 small and moniliform, apical antennomere acuminate. Eyes lateral, rounded, very prominent, black, with a yellow post-ocular area. Labrum similar to clypeus but shorter. Maxillary palpi 4 -segmented, covered with short setae, basal palpomere smallest, apical palpomere largest, relative proportion of palpomeres: 0.3, 0.9, 0.6, 1.0; palpomeres 1–3 subconical, palpomere 4 oval, inflated from the base and gradually narrowing to tip (acuminate). Labial palpi very short, 3 -segmented, palpomeres 1–2 rounded and wide, palpomere 3 subconical and slightly shorter than preceding ones. PLATE I. Figures 1–6. Psephenops panamaensis sp. nov. 1. Male habitus, dorsal view. 2. Head and pronotum, dorsal view. 3. Detail of pronotum showing carina and anterior depression, dorsal view. 4. Detail of pronotal carina and anterior depression, dorsolateral view. 5. Detail of pronotal vestiture, dorsal view. 6. Detail of elytral vestiture, dorsal view. Thorax: Pronotum subtrapezoidal, almost as wide as elytral base; anterior margin arcuate, posterior margin bisinuate, 0.74 mm; lateral margins 0.32 mm, nearly straight along anterior half and expanded laterally on posterior half; posterolateral angles subacute. Pronotal disc with a well-developed, dorsomedial, longitudinal carina, on the distal half, preceded by a wide, transverse depression, and a wide, oval, deep depression to each side of the carina (Figs. 2-4); pronotal surface minutely punctate, covered with a minute, velvety, golden-yellow vestiture, and intermingled short and long yellowish-red setae; anterior and lateral margins with long, thick, black setae (Figs. 2–5). Scutellum short, wider basally than long, apex rounded. Elytra with short and long reddish-yellow setae (Fig. 6); sides parallel on basal 0.75, then gradually converging posteriorly; humeral width 0.94 mm. Prosternum short, with a long, lanceolate prosternal process which reaches anterior half of mesoventrite. Mesoventrite short, with a wide groove for reception of prosternal process. Metaventrite large and bulky. PLATE II. Figures 7–10. Male genitalia of Psephenops panamaensis. 7. Phallobase, parameres and midlobe (penis), dorsal view. 8. Same, ventral view. 9. Same, lateral view. Fig. 10. Male genitalia of Psephenops smithi, phallobase, parameres and midlobe (penis) dorsal view. Legs: Procoxae globose, mesocoxae conical, metacoxae transverse; femora robust; tibiae slender, metatibiae longer than femora, protibiae each with a distinct, apicolateral denticle. Tarsi 5 -segmented, tarsomeres 1 and 2 lobed ventrally, with a thick sponge-like vestiture; ventral lobe of tarsomere 1 extending distally over basal 0.25 of tarsomere 2; tarsomere 2 the longest, twice as long as tarsomere 1, extending distally and completely covering tarsomeres 3, 4, and basal 0.80 of tarsomere 5; proportional length of tarsomeres: 0.50, 1.00, 0.16, 0.16, 0.75; a pair of long, curved, slender apical claws, each with small basal tooth. Abdomen: Vestiture short, fine, dense, with yellow iridescence and intermingled dark reddish setae. Seven visible ventrites in relaxed specimens; ventrite VI usually hidden under ventrite V; ventrite II largest. Posterior margin of ventrite I deeply concave at middle, sinuate at sides; posterior margin of ventrite II as in ventrite I but with a shallow concavity in the middle; posterior margin of ventrites III and IV straight; ventrite V with a wide, shallow concavity; ventrite VI very short, posterior margin widely concave. Pygidial plate oval, long, narrow and densely covered with a long, stiff, dark reddish setae. Genitalia: Short, wide, subrectagular, trilobate (Figs. 7–9); total length 0.30; total width 0.12; parameres 0.09, penis 0.20; phallobase: length 0.10, width 0.13. Measurements (in mm) variation in paratypes [N= 19]: Total length 1.70–2.40, mean= 1.95. Pronotum: posterior margin 0.72–0.80, mean= 0.75, lateral margin 0.32–0.38, mean= 0.33; elytra: humeral width 0.84–0.94, mean= 0.89. Type material. Holotype male labeled: PANAMA, Darién, Parque Nacional Darién, Estación Rancho Frío, Río Perresénico, 117 masl, (08°01.714’ N, 77 ° 72.417 ’ W), 20 -XI- 2014, R. Novelo col. (IEXA). Paratypes, 19 males, same data as holotype; 8 (IEXA), 8 (Museo de Invertebrados, Universidad de Panamá), 3 (NHMW). Ecology. The specimens of P. panamaensis sp. nov. were collected flying over turbulent rapids in the center of the stream, on a sunny day in the tropical rain forest, together with some specimens of Hexanchorus crinitus Spangler & Santiago, and Disersus longipennis Sharp 1882 (Elmidae: Larainae). Etymology. Because this is the first record of the subfamily for Panama, the species name is used as a noun in apposition. Remarks. Psephenops panamaensis sp. nov. can be separated from other known Psephenops species by the combination of the following features [other species in brackets]: body length shorter than 2.4 mm, according to our measurements [all others longer than 2.4 mm]; antennae long, reaching posterior margin of pronotum [short, hardly surpassing basal half of pronotum, P. mexicanus, P. prestone, P. smithi, P. maculicollis, P. spiniparameri, P. argentinensis]; antennae moniliform-serrate [moniliform or filiform in all others except P. grouvellei]; pronotum without tubercles [with 3 small tubercles grouvellei]; elytra with striae [lacking striae, P. mexicanus, P. lupita, P. prestone, P. spiniparameri, P. shepardi; not described for P. smithi and P. grouvellei]; protibiae with denticles [without denticles, P. prestonae; not described for P. grouvellei, P. smithi, P. haitianus, P. argentinensis]; ventral lobes of tarsomere 2 enlarged (e.g. extending distally completely covering tarsomeres 3 and 4, and basal 0.80 of tarsomere 5) [ventral lobes of tarsomere 2 shorter, not reaching more than 0.5 basal of tarsomere 5 or less, P. grouvellei, P. lupita, P. shepardi, P. smithi; not described for P. haitianus and P. argentinensis]; parameres truncate [not truncate in all others except P. smithi]. Similar male genitalia characteristics indicate that P. panamaensis may be closely related to P. smithi (cf. Figs. 7–10), although both species are clearly differentiable by the length of midlobe (penis) in relation to the parameres’ length, the type of antenna and the length of antennae and tarsomeres. However, for a better interpretation of the relationships among the species of Psephenops, a revision of the entire genus would be necessary. The comparisons mentioned here are based mainly on original descriptions and illustrations; the features of P. s m i t hi were taken from Deléve (1967) and Bameul (2001).

Published
2015
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45. Anacroneuria laru Gutierrez-Fonseca 2015

Author

Gutiérrez-Fonseca, Pablo E., Alonso-Rodríguez, Aura M., Cornejo, Aydeé, Bailey, Anna Cristina, Maes, Jean-Michel, and Ramírez, Alonso

Subjects
Insecta, Arthropoda, Plecoptera, Anacroneuria, Perlidae, Animalia, Biodiversity, Anacroneuria laru, Taxonomy
Abstract

Anacroneuria laru Guti��rrez-Fonseca 2015 Anacroneuria laru Guti��rrez-Fonseca 2015. Holotype ♂ (USNM). Panam��. Material examined. Costa Rica, Puntarenas, Golfito, La Gamba, La Gamba Tropical Station, 8���9 March 2013, 8�� 42 ' 00.39'' N, 83 �� 12 ' 09.98'' W, 86m, A.M. Alonso-Rodr��guez, automatic funnel light trap, 3 ♂ (PEGFC). Same location, 2 ♂ (MZUCR). Comments. This species was only known for Panam�� (Guti��rrez-Fonseca 2015)., Published as part of Guti��rrez-Fonseca, Pablo E., Alonso-Rodr��guez, Aura M., Cornejo, Ayde��, Bailey, Anna Cristina, Maes, Jean-Michel & Ram��rez, Alonso, 2015, New records of Anacroneuria Klap��lek, 1909 (Plecoptera: Perlidae) for Central America, pp. 445-448 in Zootaxa 3994 (3) on page 447, DOI: 10.11646/zootaxa.3994.3.9, http://zenodo.org/record/235332, {"references":["Gutierrez-Fonseca, P. E. (2015) Three new species of Anacroneuria Klapalek (Plecoptera: Perlidae) from Panama. Zootaxa, 3957 (1), 69 - 76. http: // dx. doi. org / 10.11646 / zootaxa. 3957.1.5"]}

Published
2015
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46. Psephenops panamaensis sp. nov. (Coleoptera: Byrrhoidea: Psephenidae) from Panama

Author

Arce-Pérez, Roberto, Novelo-Gutiérrez, Rodolfo, and Cornejo, Aydeé

Subjects
Coleoptera, Insecta, Arthropoda, Animalia, Psephenidae, Biodiversity, Taxonomy
Abstract

Arce-Pérez, Roberto, Novelo-Gutiérrez, Rodolfo, Cornejo, Aydeé (2015): Psephenops panamaensis sp. nov. (Coleoptera: Byrrhoidea: Psephenidae) from Panama. Zootaxa 4052 (2): 233-236, DOI: http://dx.doi.org/10.11646/zootaxa.4052.2.8

Published
2015

47. Anacroneuria costana Navas 1924

Author

Gutiérrez-Fonseca, Pablo E., Alonso-Rodríguez, Aura M., Cornejo, Aydeé, Bailey, Anna Cristina, Maes, Jean-Michel, and Ramírez, Alonso

Subjects
Insecta, Arthropoda, Plecoptera, Anacroneuria, Perlidae, Anacroneuria costana, Animalia, Biodiversity, Taxonomy
Abstract

Anacroneuria costana (Nav��s 1924) Neoperla costana Nav��s 1924. Holotype ♂ (MNHN). Costa Rica. Anacroneuria costana Stark 1998. Redescription. Material examined. Panam��, Dari��n, Dari��n National Park, field station near to the Perresenico stream, 8 �� 01' 10.41 '' N, 77 �� 44 ' 17.44 '' W, 94m, 17���22 November 2014, R. Salas, PE Guti��rrez-Fonseca, light trap, 1 ♂ (PEGFC). Comments. This species was known for Costa Rica and M��xico (Stark 1998, Stark and Kondratieff 2004). Stark and Kondratieff (2004) mention that Mexican specimens are larger than those reported for Costa Rica. The specimen examined here has a forewing length of 9mm, similar to specimens from Costa Rica, which has a forewing length of 8.5mm (Stark 1998)., Published as part of Guti��rrez-Fonseca, Pablo E., Alonso-Rodr��guez, Aura M., Cornejo, Ayde��, Bailey, Anna Cristina, Maes, Jean-Michel & Ram��rez, Alonso, 2015, New records of Anacroneuria Klap��lek, 1909 (Plecoptera: Perlidae) for Central America, pp. 445-448 in Zootaxa 3994 (3) on page 447, DOI: 10.11646/zootaxa.3994.3.9, http://zenodo.org/record/235332, {"references":["Navas, L. (1924) Plecopteros. Insectos de la America Central, Serie Zoologica (Broteria), 21, 55 - 86.","Stark, B. P. (1998) The Anacroneuria of Costa Rica and Panama (Insecta: Plecoptera: Perlidae). Proceedings of the Biological Society of Washington, 111 (3), 551 - 603.","Stark, B. P. & Kondratieff, B. C. (2004) Anacroneuria from Mexico and upper Mesoamerica (Plecoptera: Perlidae). Monographs of the Western North American Naturalist, 2 (1), 1 - 64. http: // dx. doi. org / 10.3398 / 1545 - 0228 - 2.1.1"]}

Published
2015
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48. Anacroneuria hacha Stark 1998

Author

Gutiérrez-Fonseca, Pablo E., Alonso-Rodríguez, Aura M., Cornejo, Aydeé, Bailey, Anna Cristina, Maes, Jean-Michel, and Ramírez, Alonso

Subjects
Insecta, Arthropoda, Plecoptera, Anacroneuria, Perlidae, Animalia, Biodiversity, Anacroneuria hacha, Taxonomy
Abstract

Anacroneuria hacha Stark 1998 Anacroneuria hacha Stark 1998. Holotype ♂ (USNM). Costa Rica. Material examined. Guatemala, Baja Verapaz, Ranchitos del Quetzal, 15 �� 12 ' 55.74 '' N, 90 �� 13 ' 09.26'' W, 1680m, 2 August 2011, J. Monz��n, 1 ♂ (PEGFC). Nicaragua, Jinotega, Reserva Natural Bosawas, Cerro Kilamb��, 13 �� 34 ' 30.93 '' N, 85 �� 42 ' 18.73 '' W, 1520m, 20���25 April 2010, J.M. Maes, 3 ♂ (PEGFC). Same location, 2 ♂ (MZUCR). Matagalpa, Selva Negra, 12 �� 59 ' 56.54 '' N, 85 �� 54 ' 35.35 '' W, 1275m, 11���13 November 2009, J.M. Maes, 1 ♂ (PEGFC). Comments. This species was only known for Costa Rica (Stark 1998). Specimens examined from Nicaragua and Guatemala are larger than specimens collected in Costa Rica. The specimens examined here have a forewing length ranging from 17���18.5mm, while specimens from Costa Rica have a forewing length ranging from 10���11mm (Stark 1998)., Published as part of Guti��rrez-Fonseca, Pablo E., Alonso-Rodr��guez, Aura M., Cornejo, Ayde��, Bailey, Anna Cristina, Maes, Jean-Michel & Ram��rez, Alonso, 2015, New records of Anacroneuria Klap��lek, 1909 (Plecoptera: Perlidae) for Central America, pp. 445-448 in Zootaxa 3994 (3) on page 447, DOI: 10.11646/zootaxa.3994.3.9, http://zenodo.org/record/235332, {"references":["Stark, B. P. (1998) The Anacroneuria of Costa Rica and Panama (Insecta: Plecoptera: Perlidae). Proceedings of the Biological Society of Washington, 111 (3), 551 - 603."]}

Published
2015
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49. The Trichoptera of Panama. III. Updated species list for caddisflies (Insecta: Trichoptera) in the Republic of Panama

Author

Armitage, Brian J., Harris, Steven C., Arefina-Armitage, Tatiana I., Cornejo, Aydeé, Armitage, Brian J., Harris, Steven C., Arefina-Armitage, Tatiana I., and Cornejo, Aydeé

Abstract

The fauna of Panama is species-rich due to its location and topography, and the resulting diversity of microclimates and habitats. The last summary of information about the caddisfly fauna (Insecta: Trichoptera) of Panama in 1992 noted 168 taxa in 13 families and 39 genera. Since then, and through 2014, a large number of publications, based on work by a dedicated cadre of individuals, have recorded a net gain of 78 species and six genera. In 2015, 17 new species to science and 38 new country records were added, including one new family and two new genera for the country; and, two species were removed. Thus, 299 species of caddisflies are now known from the Republic of Panama and are distributed among 14 families and 47 genera. Given the higher diversity in neighboring Costa Rica (>500 species), we feel certain that there are many more species yet to be discovered.

Published
2016

50. Global patterns of distribution in stream detritivores: implications for biodiversity loss in changing climates

Author

Boyero, Luz, Pearson, Richard G., Dudgeon, David, Ferreira, Verónica, Graça, Manuel A. S., Gessner, Mark O., Boulton, Andrew J., Chauvet, Eric, Yule, Catherine M., Albariño, Ricardo J., Ramírez, Alonso, Helson, Julie E., Callisto, Marcos, Arunachalam, Muthukumarasamy, Chará, Julián, Figueroa, Ricardo, Mathooko, Jude M., Gonçalves, José F. Jr, Moretti, Marcelo S., Chará-Serna, Ana Marcela, Davies, Judy N., Encalada, Andrea, Lamothe, Sylvain, Buria, Leonardo M., Castela, José, Cornejo, Aydeé, Li, Aggie O. Y., M'Erimba, Charles, Villanueva, Verónica Díaz, Zúñiga, Maria Del Carmen, Swan, Christopher M., Barmuta, Leon A., Centre National de la Recherche Scientifique - CNRS (FRANCE), Consejo Superior de Investigaciones Científicas - CSIC (SPAIN), Universidade de Coimbra (PORTUGAL), University of Hong Kong - HKU (CHINA), Institut National Polytechnique de Toulouse - Toulouse INP (FRANCE), James Cook University - JCU (AUSTRALIA), Monash University (MALAYSIA), Universidad de Concepción - UDEC (CHILE), Université Toulouse III - Paul Sabatier - UT3 (FRANCE), University of Maryland (USA), University of Toronto (CANADA), Centro para la investigaciòn en Sistemas Sostenibles de producciòn agropecuaria - CIPAV (COLOMBIA), Swiss Federal Institute of Aquatic Science and Technology - EAWAG (SWITZERLAND), Egerton university (KENYA), Manonmaniam Sundaranar university (INDIA), Universidade Federal de Minas Gerais - UFMG (BRAZIL), Universidad Nacional del Comahue (ARGENTINA), University of New England - UNE (AUSTRALIA), Universidad de Panamà (PANAMA), Universidad de Puerto Rico - UPR (PUERTO RICO), Universidad San Francisco de Quito - USFQ (ECUADOR), University of Tasmania (AUSTRALIA), Marine and environmental research center - IMAR-CMA (Coimbra, Portugal), Ecosystem management (Armidale, Australia), Laboratory of limnology (Bariloche, Argentina), Laboratorio de Ecologia de Bentos (Belo Horizonte, Brazil), Aquatic Systems Research Unit (Concepcion, Chile), Freshwater ecology group (Hobart, Tasmania), Institut National Polytechnique de Toulouse - INPT (FRANCE), Wetland ecology department (Seville, Espagne), Estación Biológica de Doñana (EBD), Consejo Superior de Investigaciones Científicas [Madrid] (CSIC)-Consejo Superior de Investigaciones Científicas [Madrid] (CSIC), James Cook University (JCU), The University of Hong Kong (HKU), Marine and environmental research centre - IMAR-CMA (Coimbra, Portugal), University of Coimbra [Portugal] (UC), Swiss Federal Insitute of Aquatic Science and Technology [Dübendorf] (EAWAG), Ecosystem Management, Armidale, University of New England (UNE), Laboratoire Ecologie Fonctionnelle et Environnement (LEFE), Institut Ecologie et Environnement (INEE), Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Observatoire Midi-Pyrénées (OMP), Institut de Recherche pour le Développement (IRD)-Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Institut de Recherche pour le Développement (IRD)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Météo-France -Centre National de la Recherche Scientifique (CNRS)-Institut National Polytechnique (Toulouse) (Toulouse INP), Université de Toulouse (UT), Monash University [Malaysia], Laboratorio de Limnología [Bariloche], Instituto Nacional de Investigaciones en Biodiversidad y Medioambiente [Bariloche] (INIBIOMA-CONICET), Consejo Nacional de Investigaciones Científicas y Técnicas [Buenos Aires] (CONICET)-Universidad Nacional del Comahue [Neuquén] (UNCOMA)-Consejo Nacional de Investigaciones Científicas y Técnicas [Buenos Aires] (CONICET)-Universidad Nacional del Comahue [Neuquén] (UNCOMA), Institute for tropical ecosystem studies - ITES (San Juan, Puerto Rico), University of Puerto Rico (UPR), Department of biolological sciences (Toronto, Canada), University of Toronto, Laboratorio de ecologia de Bentos (Belo Horizonte, Brazil), Universidade Federal de Minas Gerais [Belo Horizonte] (UFMG), Sri Paramakalyani Centre for Environmental Sciences - SPKCES (Alwarkuruchi, India), Manonmainam Sundaranar university (INDIA, Centro para la Investigacion en sistemas Sostenibles de Produccion Agropecuaria - CIPAV (COLOMBIA), Universidad de Concepción - University of Concepcion [Chile], Department of biological sciences [Egerton], Egerton University, Universidad San Francisco de Quito (EQUATEUR), Universidad San Francisco de Quito (USFQ), University of Panama (PANAMA), Department of Geography and Environmental Systems [Baltimore], University of Maryland [Baltimore County] (UMBC), University of Maryland System-University of Maryland System, University of Tasmania [Hobart, Australia] (UTAS), James Cook university (AUSTRALIA), Laboratoire Ecologie Fonctionnelle et Environnement (ECOLAB), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Observatoire Midi-Pyrénées (OMP), Météo France-Centre National d'Études Spatiales [Toulouse] (CNES)-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Météo France-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Centre National de la Recherche Scientifique (CNRS)-Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées, and Universidad de Concepción [Chile]

Subjects
[SDV.EE]Life Sciences [q-bio]/Ecology, environment, Ecologie, Environnement, Diversity, [SDE.MCG]Environmental Sciences/Global Changes, Biodiversité et Ecologie, Guild, Leaf litter, [SDV.BID]Life Sciences [q-bio]/Biodiversity, respiratory system, Latitudinal gradient, Detritus, Shredders, Biodiversité, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Milieux et Changements globaux, human activities, Trophic diversity, Stream ecosystems, Species richness
Abstract

International audience; Aim. We tested the hypothesis that shredder detritivores, a key trophic guild in stream ecosystems, are more diverse at higher latitudes, which has important ecological implications in the face of potential biodiversity losses that are expected as a result of climate change. We also explored the dependence of local shredder diversity on the regional species pool across latitudes, and examined the influence of environ- mental factors on shredder diversity. Location: World-wide (156 sites from 17 regions located in all inhabited continents at latitudes ranging from 67° N to 41° S). Methods: We used linear regression to examine the latitudinal variation in shredder diversity at different spatial scales: alpha (a), gamma (g) and beta (b) diversity. We also explored the effect of g-diversity on a-diversity across latitudes with regression analysis, and the possible influence of local environmental factors on shredder diversity with simple correlations. Results: Alpha diversity increased with latitude, while g- and b-diversity showed no clear latitudinal pattern. Temperate sites showed a linear relationship between g- and a-diversity; in contrast, tropical sites showed evidence of local species saturation, which may explain why the latitudinal gradient in a-diversity is not accompanied by a gradient in g-diversity. Alpha diversity was related to several local habitat characteristics, but g- and b-diversity were not related to any of the environmental factors measured. Main conclusions: Our results indicate that global patterns of shredder diversity are complex and depend on spatial scale. However, we can draw several conclusions that have important ecological implications. Alpha diversity is limited at tropical sites by local factors, implying a higher risk of loss of key species or the whole shredder guild (the latter implying the loss of trophic diversity). Even if regional species pools are not particularly species poor in the tropics, colonization from adjacent sites may be limited. Moreover, many shredder species belong to cool-adapted taxa that may be close to their thermal maxima in the tropics, which makes them more vulnerable to climate warming. Our results suggest that tropical streams require specific scientific attention and conservation efforts to prevent loss of shredder biodiversity and serious alteration of ecosystem processes.

Published
2012
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