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)
1250
Revista de Biología Tropical, ISSN: 2215-2075 Vol. 69(4): 1242-1251, October-December 2021 (Published Nov. 26, 2021)
Journal of Marine Systems, 26(2), 183–192. https://
doi.org/10.1016/s0924-7963(00)00053-1
IPCC. (2014). Cambio climático 2014: Informe de sínte-
sis. https://www.ipcc.ch/site/assets/uploads/2018/02/
SYR_AR5_FINAL_full_es.pdf
IPCC. (2018). Summary for Policymakers. https://www.
ipcc.ch/sr15
Jørgensen, C. B. (1996). Bivalve filter feeding revisited.
Marine Ecology Progress Series, 142, 287–302.
https://doi.org/10.3354/meps142287
Kratina, P., Watts, T. J., Green, D. S., Kordas, R. L.,
& O’Gorman, E. J. (2019). Interactive effects of
warming and microplastics on metabolism but
not feeding rates of a key freshwater detritivore.
Environmental Pollution, 255, 113259. https://doi.
org/10.1016/j.envpol.2019.113259
Lenz, M. (2016). Erhöht Wärmestress die Empfindlichkeit
benthischer Filtrierer gegenüber Mikroplastik? Ein
Projekt im Rahmen des internationalen Forschungs-
und Ausbildungsprogramms GAME (Globaler Ansatz
durch Modulare Experimente). https://www.geomar.
de/fileadmin/content/forschen/fb3/eoe-b/game/Abs-
chlussbericht_GAME_XIV.pdf
Lenz, M., Ahmed, Y., Canning-Clode, J., Díaz, E.,
Eichhorn, S., Fabritzek, A. G., & Machura, S. (2018).
Heat challenges can enhance population tolerance
to thermal stress in mussels: a potential mechanism
by which ship transport can increase species inva-
siveness. Biological Invasions, 20(11), 3107–3122.
https://doi.org/10.1007/s10530-018-1762-8
Li, Y., Lu, Z., Zheng, H., Wang, J., & Chen, C. (2020).
Microplastics in surface water and sediments of
Chongming Island in the Yangtze Estuary, China.
Environmental Sciences Europe, 32(1), 1–12. https://
doi.org/10.1186/s12302-020-0297-7
Li, J., Lusher, A. L., Rotchell, J. M., Deudero, S., Turra, A.,
Bråte, I. L. N., & Shi, H. (2019). Using mussel as a
global bioindicator of coastal microplastic pollution.
Environmental Pollution, 244, 522–533. https://doi.
org/10.1016/j.envpol.2018.10.032
Manchala, M., & Ramana, B. V. (2020). Beat the Plastic
Pollution. International Journal of Environmental
Planning and Development, 6(2), 1–6. https://doi.
org/10.37628/jepd.v6i2.658
Marroni, P. M. S. (2019). Ecología de Diplodon parallelo-
pipedon en Laguna del Sauce y sus implicancias en
técnicas de biomanipulación (Tesis de Doctorado).
Universidad de la República, Uruguay. https://hdl.
handle.net/20.500.12008/24737
Molinet, C., Fuentealba Klenner, M., Arévalo, A., Baraho-
na, N., Asencio, C., Ariz, L., González, J., Cortez,
C., Matamala Farran, M., Henríquez Moreira, J.,
Dorador Parra, C., Valenzuela Oñate, A., Fernández
Cartes, V., Almanza Marroquín, V., Muñoz Klenner,
J., Gutiérrez Gallardo, J. C., Díaz Gómez, P., &
Paredes, C. (2007). Diagnóstico biológico-pesquero
para recursos bentónicos de la Zona Contigua, X y
XI Región. Informe Final. Proyecto FIP N° 2005-51.
Universidad Austral de Chile, Chile.
Munno, K., Helm, P. A., Jackson, D. A., Rochman, C., &
Sims, A. (2017). Impacts of temperature and selected
chemical digestion methods on microplastic particles:
Impacts of temperature and digestion method on
microplastics. Environmental Toxicology and Che-
mistry, 37(1), 91–98. https://doi.org/10.1002/etc.3935
Paredes, C., Cardoso, F., Santamaría, J., Esplana, J., &
Llaja, L. (2016). Lista anotada de los bivalvos mari-
nos del Perú. Revista Peruana de Biología, 23(2),
127–150. https://doi.org/10.15381/rpb.v23i2.12397
Paredes, C., Cardoso, F., & Tarazona, J. (1999). Inverte-
brados del intermareal rocoso del departamento de
Lima, Perú: Una lista comentada de especies. Revista
Peruana de Biología, 6(2), 143–151. https://doi.
org/10.15381/rpb.v6i2.8309
Pedersen, A. F., Gopalakrishnan, K., Boegehold, A. G.,
Peraino, N. J., Westrick, J. A., & Kashian, D. R.
(2020). Microplastic ingestion by quagga mussels,
Dreissena bugensis, and its effects on physiological
processes. Environmental Pollution, 260, 113964.
https://doi.org/10.1016/j.envpol.2020.113964
Pérez-Carrasco, L. J. (2017). Alimento y hábitos alimenta-
rios de Paralonchurus peruanus “Suco” (Steindach-
ner, 1875) en la Región de la Libertad durante el año
2016 (Tesis de Grado). Universidad Nacional de Tru-
jillo, Perú. https://hdl.handle.net/20.500.12958/3165
Pinochet, J., Domínguez, J., Neira, E., Rojas, C., Acuña, E.,
Cancino, J. M., & Brante, A. (2018). Tidal height and
sand as potential drivers of the ecological interaction
of the two intertidal mussels Perumytilus purpuratus
and Semimytilus algosus. Marine Ecology, 39(4),
e12503. https://doi.org/10.1111/maec.12503
Rist, S. E., Assidqi, K., Zamani, N. P., Appel, D., Perschke,
M., Huhn, M., & Lenz, M. (2016). Suspended micro-
sized PVC particles impair the performance and
decrease survival in the Asian green mussel Perna
viridis. Marine Pollution Bulletin, 111, 213–220.
https://doi.org/10.1016/j.marpolbul.2016.07.006
Rist, S., Baun, A., Almeda, R., & Hartmann, N. B. (2019).
Ingestion and effects of micro- and nanoplastics in
blue mussel (Mytilus edulis) larvae. Marine Pollu-
tion Bulletin, 140, 423–430. https://doi.org/10.1016/j.
marpolbul.2019.01.069
Rosa, M., Ward, J. E., & Shumway, S. E. (2018). Selec-
tive capture and ingestion of particles by suspen-
sion-feeding bivalve molluscs: a review. Journal
of Shellfish Research, 37(4), 727–746. https://doi.
org/10.2983/035.037.0405