Hot water treatment (chronic upper lethal temperature) mitigates biofouling by the invasive Asian mussel Limnoperna fortunei in industrial installations
Since its introduction in South America around 1990, the freshwater mussel Limnoperna fortunei has become a major fouling pest for most industrial plants that use raw river or lake water, chiefly for cooling purposes. We assessed the tolerance of the mussel to upper lethal temperatures as an economi...
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todo:paper_0013936X_v45_n18_p7868_Perepelizin2023-10-03T14:11:41Z Hot water treatment (chronic upper lethal temperature) mitigates biofouling by the invasive Asian mussel Limnoperna fortunei in industrial installations Perepelizin, P.V. Boltovskoy, D. Efficient control Freshwater mussels Hot water treatment Industrial installations Laboratory conditions Lake waters Lethal temperature Limnoperna fortunei Size class South America Dies Frost protection Industrial plants Shellfish Industrial water treatment hot water acclimation adaptive radiation assessment method biofouling bivalve cooling economic analysis freshwater environment installation invasive species juvenile laboratory method lake water mortality survival temperature effect tolerance water treatment animal experiment article biofouling controlled study Corbicula fluminea Dreissena heat tolerance heat treatment Limnoperna fortunei mussel nonhuman species difference survival time temperature acclimatization temperature dependence water treatment Animals Biofouling Hot Temperature Industry Mytilidae Pest Control Water Asia Animalia Limnoperna fortunei Since its introduction in South America around 1990, the freshwater mussel Limnoperna fortunei has become a major fouling pest for most industrial plants that use raw river or lake water, chiefly for cooling purposes. We assessed the tolerance of the mussel to upper lethal temperatures as an economical and environmentally innocuous method of controlling its fouling in industrial installations. Survival of juvenile (7 ± 2 mm in length) and adult (21 ± 2 mm) individuals, acclimated to 12 and 28 °C, was evaluated under laboratory conditions. At 38-43 °C, all mussels die after 0.7 to 17.5 h, regardless of acclimation temperature and size class. At 34-36 °C, total mortality takes 25.0 to 644.3 h, regardless of the size of the animals, but mussels acclimated at 12 °C die significantly faster that those acclimated at 28 °C. Comparison of these results with the range of conditions currently used in the industry indicates that heat treatment is a viable alternative for an efficient control of this Asian mussel in fouled systems. © 2011 American Chemical Society. Fil:Perepelizin, P.V. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Boltovskoy, D. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_0013936X_v45_n18_p7868_Perepelizin |
| institution |
Universidad de Buenos Aires |
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I-28 |
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R-134 |
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
| topic |
Efficient control Freshwater mussels Hot water treatment Industrial installations Laboratory conditions Lake waters Lethal temperature Limnoperna fortunei Size class South America Dies Frost protection Industrial plants Shellfish Industrial water treatment hot water acclimation adaptive radiation assessment method biofouling bivalve cooling economic analysis freshwater environment installation invasive species juvenile laboratory method lake water mortality survival temperature effect tolerance water treatment animal experiment article biofouling controlled study Corbicula fluminea Dreissena heat tolerance heat treatment Limnoperna fortunei mussel nonhuman species difference survival time temperature acclimatization temperature dependence water treatment Animals Biofouling Hot Temperature Industry Mytilidae Pest Control Water Asia Animalia Limnoperna fortunei |
| spellingShingle |
Efficient control Freshwater mussels Hot water treatment Industrial installations Laboratory conditions Lake waters Lethal temperature Limnoperna fortunei Size class South America Dies Frost protection Industrial plants Shellfish Industrial water treatment hot water acclimation adaptive radiation assessment method biofouling bivalve cooling economic analysis freshwater environment installation invasive species juvenile laboratory method lake water mortality survival temperature effect tolerance water treatment animal experiment article biofouling controlled study Corbicula fluminea Dreissena heat tolerance heat treatment Limnoperna fortunei mussel nonhuman species difference survival time temperature acclimatization temperature dependence water treatment Animals Biofouling Hot Temperature Industry Mytilidae Pest Control Water Asia Animalia Limnoperna fortunei Perepelizin, P.V. Boltovskoy, D. Hot water treatment (chronic upper lethal temperature) mitigates biofouling by the invasive Asian mussel Limnoperna fortunei in industrial installations |
| topic_facet |
Efficient control Freshwater mussels Hot water treatment Industrial installations Laboratory conditions Lake waters Lethal temperature Limnoperna fortunei Size class South America Dies Frost protection Industrial plants Shellfish Industrial water treatment hot water acclimation adaptive radiation assessment method biofouling bivalve cooling economic analysis freshwater environment installation invasive species juvenile laboratory method lake water mortality survival temperature effect tolerance water treatment animal experiment article biofouling controlled study Corbicula fluminea Dreissena heat tolerance heat treatment Limnoperna fortunei mussel nonhuman species difference survival time temperature acclimatization temperature dependence water treatment Animals Biofouling Hot Temperature Industry Mytilidae Pest Control Water Asia Animalia Limnoperna fortunei |
| description |
Since its introduction in South America around 1990, the freshwater mussel Limnoperna fortunei has become a major fouling pest for most industrial plants that use raw river or lake water, chiefly for cooling purposes. We assessed the tolerance of the mussel to upper lethal temperatures as an economical and environmentally innocuous method of controlling its fouling in industrial installations. Survival of juvenile (7 ± 2 mm in length) and adult (21 ± 2 mm) individuals, acclimated to 12 and 28 °C, was evaluated under laboratory conditions. At 38-43 °C, all mussels die after 0.7 to 17.5 h, regardless of acclimation temperature and size class. At 34-36 °C, total mortality takes 25.0 to 644.3 h, regardless of the size of the animals, but mussels acclimated at 12 °C die significantly faster that those acclimated at 28 °C. Comparison of these results with the range of conditions currently used in the industry indicates that heat treatment is a viable alternative for an efficient control of this Asian mussel in fouled systems. © 2011 American Chemical Society. |
| format |
JOUR |
| author |
Perepelizin, P.V. Boltovskoy, D. |
| author_facet |
Perepelizin, P.V. Boltovskoy, D. |
| author_sort |
Perepelizin, P.V. |
| title |
Hot water treatment (chronic upper lethal temperature) mitigates biofouling by the invasive Asian mussel Limnoperna fortunei in industrial installations |
| title_short |
Hot water treatment (chronic upper lethal temperature) mitigates biofouling by the invasive Asian mussel Limnoperna fortunei in industrial installations |
| title_full |
Hot water treatment (chronic upper lethal temperature) mitigates biofouling by the invasive Asian mussel Limnoperna fortunei in industrial installations |
| title_fullStr |
Hot water treatment (chronic upper lethal temperature) mitigates biofouling by the invasive Asian mussel Limnoperna fortunei in industrial installations |
| title_full_unstemmed |
Hot water treatment (chronic upper lethal temperature) mitigates biofouling by the invasive Asian mussel Limnoperna fortunei in industrial installations |
| title_sort |
hot water treatment (chronic upper lethal temperature) mitigates biofouling by the invasive asian mussel limnoperna fortunei in industrial installations |
| url |
http://hdl.handle.net/20.500.12110/paper_0013936X_v45_n18_p7868_Perepelizin |
| work_keys_str_mv |
AT perepelizinpv hotwatertreatmentchronicupperlethaltemperaturemitigatesbiofoulingbytheinvasiveasianmussellimnopernafortuneiinindustrialinstallations AT boltovskoyd hotwatertreatmentchronicupperlethaltemperaturemitigatesbiofoulingbytheinvasiveasianmussellimnopernafortuneiinindustrialinstallations |
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