Wildlife Research Wildlife Research Society
Ecology, management and conservation in natural and modified habitats
RESEARCH ARTICLE

Are life-history strategies of Norway rats (Rattus norvegicus) and house mice (Mus musculus) dependent on environmental characteristics?

M. V. Vadell A B , I. E. Gómez Villafañe A B and R. Cavia A B C

A Laboratorio de Ecología de Poblaciones, Departamento, de Ecología, Genética y Evolución, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Ciudad Universitaria, PB II, 4to piso, (C1428EHA) Nuñez, Ciudad Autónoma de Buenos Aires, Argentina.

B Instituto de Ecología, Genética y Evolución de Buenos Aires (IEGEBA), UBA-CONICET, Ciudad Universitaria, PB II, 4to piso, (C1428EHA) Nuñez, Ciudad Autónoma de Buenos Aires, Argentina.

C Corresponding author. Email: rcavia@ege.fcen.uba.ar

Wildlife Research 41(2) 172-184 http://dx.doi.org/10.1071/WR14005
Submitted: 8 January 2014  Accepted: 3 July 2014   Published: 4 August 2014

Abstract

Context: Life-history theory attempts to explain the way in which an organism is adapted to its environment as well as explaining the differences in life-history strategies among and within species.

Aims: The aim of this paper was to compare life-history traits of the Norway rat and the house mouse living in different habitats and geographic regions so as to find patterns related to environmental characteristics on the basis of published ecological studies conducted before 2011.

Methods: The environments where rodent populations lived were characterised according to climate type, occurrence of freezing temperatures and frost, degree of anthropisation and trapping location. Four demographic characteristics were analysed. A canonical correspondence analysis was performed to explain the effects of environmental variables on the demographic characteristics of rodents. Information was gathered from 35 articles published between 1945 and 2010.

Key results: Most populations of both species showed differences in abundance throughout the year, but no defined pattern was common among populations. The pregnancy rate of Norway rat was highest during spring and autumn in urban environments, during spring and winter in rural environments and during summer in sylvan habitats. House mouse populations were most frequently reported to experience high pregnancy rates during summer. Contrary to urban and rural populations, in sylvan environments the occurrence of a reproductive break was the most commonly reported pattern for both species. Litter size of Norway rat depended on the degree of anthropisation and the occurrence of freezing temperatures and frost. Litter size was greater in rural environments and in areas without freezing temperatures and frost. House mouse did not show differences in litter size resulting from any of the environmental characteristics analysed.

Conclusions: Both species are able to modify their reproductive strategies according to environmental characteristics, especially according to the degree of anthropisation of the environment. In sylvan areas, where animals are more exposed to seasonal changes in weather conditions, changes in reproductive investment are more evident.

Implications: Regarding the implications for rodent control, the best time to apply control measures could be winter in sylvan and urban environments. In rural environments, the best time for conducting control efforts is less clear, although cold seasons seem also to be the best.

Additional keywords: abundance, demography, life-history traits, reproduction.


References

Aplin, K. P., Brown, P. R., Jacob, J., Krebs, C. J., and Singleton, G. R. (Ed.) (2003a). ‘Field Methods for Rodent Studies in Asia and the Indo-Pacific.’ (Australian Centre for International Agricultural Research: Canberra.)

Aplin, K. P., Chesser, T., and Ten Have, J. (2003b). Evolutionary biology of the genus Rattus: profile of an archetypal rodent pest. In ‘Rats, Mice and People: Rodent Biology and Management’(Eds G. R. Singleton, L. A. Hynds, C. J. Krebs and D. M. Spratt.) pp. 487–498. (Australian Centre for International Agricultural Research: Canberra.)

Atkinson, I. A. (1985). The spread of commensal species of Rattus to oceanic islands and their effects on island avifaunas. Conservation of Island Birds 3, 35–81. open url image1

Badan, D. (1986). Diet of the house mouse (Mus musculus L.) in two pine and a Kauri forest. New Zealand Journal of Ecology 9, 137–142. open url image1

Berry, R. (1968). The ecology of an island population of the house mouse. The Journal of Animal Ecology 37, 445–470.
The ecology of an island population of the house mouse.CrossRef | open url image1

Berry, R. (1981). Town mouse, country mouse: adaptation and adaptability in Mus domesticus (M. musculus domesticus). Mammal Review 11, 91–136.
Town mouse, country mouse: adaptation and adaptability in Mus domesticus (M. musculus domesticus).CrossRef | open url image1

Bettesworth, D., and Anderson, G. (1972). Diet of Rattus norvegicus on Whale Island, Bay of Plenty, New Zealand. Tane 18, 189–195. open url image1

Bishop, J., and Hartley, D. (1976). The size and age structure of rural populations of Rattus norvegicus containing individuals resistant to the anticoagulant poison warfarin. The Journal of Animal Ecology 45, 623–646.
The size and age structure of rural populations of Rattus norvegicus containing individuals resistant to the anticoagulant poison warfarin.CrossRef | open url image1

Bomford, M. (1987). Food and reproduction of wild house mice. 3. Experiments on the breeding performance of caged house mice fed rice-based diets. Wildlife Research 14, 207–218.
Food and reproduction of wild house mice. 3. Experiments on the breeding performance of caged house mice fed rice-based diets.CrossRef | open url image1

Boonstra, R., and Redhead, T. D. (1994). Population dynamics of an outbreak population of house mice (Mus domesticus) in the irrigated rice-growing area of Australia. Wildlife Research 21, 583–597.
Population dynamics of an outbreak population of house mice (Mus domesticus) in the irrigated rice-growing area of Australia.CrossRef | open url image1

Borcard, D., Gillet, F., and Legendre, P. (2011). Canonical ordination. In ‘Numerical Ecology with R’. (Eds D. Borcard, F. Gillet and P. Legendre.) pp. 153–225. (Springer: New York.)

Bronson, F. (1979). The reproductive ecology of the house mouse. The Quarterly Review of Biology 54, 265–299.
The reproductive ecology of the house mouse.CrossRef | 1:CAS:528:DyaL3cXhvFehug%3D%3D&md5=d4e74bae0837014ed9d84031e2bb0be1CAS | 390600PubMed | open url image1

Bronson, F. H. (1989). ‘Mammalian Reproductive Biology.’ (University of Chicago Press: Chicago, IL.)

Bronson, F., and Perrigo, G. (1987). Seasonal regulation of reproduction in muroid rodents. American Zoologist 27, 929–940. open url image1

Calhoun, J. B. (Ed.) (1963). ‘Ecology and Sociology of the Norway Rat.’ (US Department of Health, Education and Welfare: Bethesda, MD.)

Cavia, R., Cueto, G. R., and Suárez, O. V. (2009). Changes in rodent communities according to the landscape structure in an urban ecosystem. Landscape and Urban Planning 90, 11–19.
Changes in rodent communities according to the landscape structure in an urban ecosystem.CrossRef | open url image1

Chou, C. W., Lee, P. F., Lu, K. H., and Yu, H.T. (1998). A population study of house mice (Mus musculus castaneus) inhabiting rice granaries in Taiwan. Zoological Studies 37, 201–212. open url image1

Copson, G. (1986). The diet of the introduced rodents Mus-Musculus L and Rattus-R.attus L on sub-Antarctic Macquarie Island. Wildlife Research 13, 441–445.
The diet of the introduced rodents Mus-Musculus L and Rattus-R.attus L on sub-Antarctic Macquarie Island.CrossRef | open url image1

Coto, H. (Ed.) (1997). ‘Biología y Control de Ratas Sinantrópicas.’ (Editorial Abierta: Buenos Aires.)

Davis, D. E. (1951). A comparison of reproductive potential of two rat populations. Ecology 32, 469–475. open url image1

Davis, D. E. (1953). The characteristics of rat populations. The Quarterly Review of Biology 28, 373–401.
The characteristics of rat populations.CrossRef | 1:STN:280:DyaG2c%2Fkt1ajsw%3D%3D&md5=930a338170edbcf5db4519a056a58e40CAS | 13121239PubMed | open url image1

Dobson, F. S., and Murie, J. O. (1987). Interpretation of intraspecific life history patterns: evidence from Columbian ground squirrels. American Naturalist 129, 382–397.
Interpretation of intraspecific life history patterns: evidence from Columbian ground squirrels.CrossRef | open url image1

Dobson, F. S., and Oli, M. K. (2007). Fast and slow life histories of mammals. Ecoscience 14, 292–299.
Fast and slow life histories of mammals.CrossRef | open url image1

Efford, M., Karl, B., and Moller, H. (1988). Population ecology of Mus musculus on Mana Island, New Zealand. Journal of Zoology 216, 539–563.
Population ecology of Mus musculus on Mana Island, New Zealand.CrossRef | open url image1

Farhang-Azad, A., and Southwick, F. A. Z. (1979). Population ecology of Norway rats in the Baltimore zoo, Maryland. The Annals of Zoology 15, 1–42. open url image1

Gaillard, J. M., Pontier, D., Allaine, D., Lebreton, J., Trouvilliez, J., and Clobert, J. (1989). An analysis of demographic tactics in birds and mammals. Oikos 56, 59–76.
An analysis of demographic tactics in birds and mammals.CrossRef | open url image1

Glass, G. E., Childs, J. E., Korch, G. W., and LeDuc, J. W. (1989). Comparative ecology and social interactions of Norway rat (Rattus norvegicus) populations in Baltimore, Maryland. Occasional papers of the Museum of Natural History, University of Kansas, 130, 1–33.

Gómez, M. D., Priotto, J., Provensal, M. C., Steinmann, A., Castillo, E., and Polop, J. J. (2008). A population study of house mice (Mus musculus) inhabiting different habitats in an Argentine urban area. International Biodeterioration and Biodegradation 62, 270–273.
A population study of house mice (Mus musculus) inhabiting different habitats in an Argentine urban area.CrossRef | open url image1

Gómez Villafañe, I. E., and Busch, M. (2007). Spatial and temporal patterns of brown rat (Rattus norvegicus) abundance in poultry farms. Mammalian Biology 72, 364–371.
Spatial and temporal patterns of brown rat (Rattus norvegicus) abundance in poultry farms.CrossRef | open url image1

Gómez Villafañe, I. E., Muschetto, E., and Busch, M. (2008). Movements of Norway rats (Rattus norvegicus) in two poultry farms, Exaltación de la Cruz, Buenos Aires, Argentina. Mastozoología neotropical 15, 203–208. open url image1

Gómez Villafañe, I. E., Cavia, R., Vadell, M. V., Suárez, O. V., and Busch, M. (2013). Differences in population parameters of Rattus norvegicus in urban and rural habitats of central Argentina. Mammalia 77, 187–193. open url image1

Innes, J., King, C., Flux, M., and Kimberley, M. (2001). Population biology of the ship rat and Norway rat in Pureora Forest Park, 1983–1987. New Zealand Journal of Ecology 27, 57–78.
Population biology of the ship rat and Norway rat in Pureora Forest Park, 1983–1987.CrossRef | open url image1

King, C. (1983). The relationships between beech (Nothofagus sp.) seedfall and populations of mice (Mus musculus), and the demographic and dietary responses of stoats (Mustela erminea), in three New Zealand forests. The Journal of Animal Ecology 52, 141–166.
The relationships between beech (Nothofagus sp.) seedfall and populations of mice (Mus musculus), and the demographic and dietary responses of stoats (Mustela erminea), in three New Zealand forests.CrossRef | open url image1

King, C., Innes, J., Flux, M., and Kimberley, M. (1996). Population biology of small mammals in Pureora Forest Park: 2. The feral house mouse (Mus musculus). New Zealand Journal of Ecology 20, 253–269. open url image1

Kottek, M., Grieser, J., Beck, C., Rudolf, B., and Rubel, F. (2006). World map of the Koppen-Geiger climate classification updated. Meteorologische Zeitschrift 15, 259–263.
World map of the Koppen-Geiger climate classification updated.CrossRef | open url image1

Krebs, C. J. (1978). ‘Ecology: the Experimental Analysis of Distribution and Abundance.’ 2nd edn (Ed. J. K. Smith and E. Castellano.) (Harper and Row: New York.)

Krebs, C. J., and Myers, J. H. (1974). Population cycles in small mammals. Advances in Ecological Research 8, 267–399.
Population cycles in small mammals.CrossRef | open url image1

Laurie, E. (1946). The reproduction of the house-mouse (Mus musculus) living in different environments. Proceedings of the Royal Society of London. Series B, Biological Sciences 133, 248–281.
The reproduction of the house-mouse (Mus musculus) living in different environments.CrossRef | 1:STN:280:DyaH28%2Fht12qtw%3D%3D&md5=33c9571bd24429b5a82c8e4106bf4bccCAS | 20994890PubMed | open url image1

Le Roux, V., Chapuis, J. L., Frenot, Y., and Vernon, P. (2002). Diet of the house mouse (Mus musculus) on Guillou Island, Kerguelen archipelago, Subantarctic. Polar Biology 25, 49–57.
Diet of the house mouse (Mus musculus) on Guillou Island, Kerguelen archipelago, Subantarctic.CrossRef | open url image1

Legendre, P., and Legendre, L. (2012). ‘Numerical Ecology.’ (Elsevier: Amsterdam.)

León, V. A., Fraschina, J., Guidobono, J. S., and Busch, M. (2013). Habitat use and demography of Mus musculus in a rural landscape of Argentina. Integrative Zoology 8, 18–29.
Habitat use and demography of Mus musculus in a rural landscape of Argentina.CrossRef | 23621468PubMed | open url image1

Leslie, P., Venables, U. M., and Venables, L. (1952). The fertility and population structure of the Brown Rat (Rattus norvegicus) in corn-ricks and some other habitats. Proceedings of the Zoological Society of London 122, 187–238.
The fertility and population structure of the Brown Rat (Rattus norvegicus) in corn-ricks and some other habitats.CrossRef | open url image1

Lidicker, W. Z. (1966). Ecological observations on a feral house mouse population declining to extinction. Ecological Monographs 36, 27–50.
Ecological observations on a feral house mouse population declining to extinction.CrossRef | open url image1

Lund, M. (1994). Commensal rodents. In ‘Rodent Pests and Their Control’. (Ed. A. P. Buckle and R. H. Smith.) pp. 23–43. (Cab International: Cambridge, UK.)

Macdonald, D. W., Mathews, F., and Berdoy, M. (1999). The behaviour and ecology of Rattus norvegicus: from opportunism to kamikaze tendencies. In ‘Ecologically-based Rodent Managemen’t’ (Eds G. R. Singleton, H. Leirs, L. A. Hinds and Z. Zhang.) pp. 49–80. (Australian Centre for International Agricultural Research: Canberra.)

Major, H., Jones, I., Charette, M., and Diamond, A. (2007). Variations in the diet of introduced Norway rats (Rattus norvegicus) inferred using stable isotope analysis. Journal of Zoology 271, 463–468.
Variations in the diet of introduced Norway rats (Rattus norvegicus) inferred using stable isotope analysis.CrossRef | open url image1

Matthewson, D., Van Aarde, R., and Skinner, J. (1994). Population biology of house mice (Mus musculus L.) on Subantarctic Marion Island. South African Journal of Zoology 29, 99–106. open url image1

McGuire, B., Pizzuto, T., Bemis, W., and Getz, L. (2006). General ecology of a rural population of Norway rats (Rattus norvegicus) based on intensive live trapping. American Midland Naturalist 155, 221–236.
General ecology of a rural population of Norway rats (Rattus norvegicus) based on intensive live trapping.CrossRef | open url image1

Meehan, A. P. (1984). ‘Rats and Mice. Their Biology and Control.’ (Rentokil Ltd: Tonbridge, UK.)

Miller, C., and Miller, T. (1995). Population dynamics and diet of rodents on Rangitoto Island, New Zealand, including the effect of a 1080 poison operation. New Zealand Journal of Ecology 19, 19–27. open url image1

Mills, J. N., Ellis, B. A., McKee, K. T., Maiztegui, J. I., and Childs, J. E. (1991). Habitat associations and relative densities of rodent populations in cultivated areas of central Argentina. Journal of Mammalogy 72, 470–479. open url image1

Mills, J. N., Ellis, B. A., McKee, K. T., Maiztegui, J. I., and Childs, J. E. (1992). Reproductive characteristics of rodent assemblages in cultivated regions of central Argentina. Journal of Mammalogy 73, 515–526. open url image1

Moors, P. (1985). Norway rats (Rattus norvegicus) on the Noises and Motukawao Islands, Hauraki Gulf, New Zealand. New Zealand Journal of Ecology 8, 37–54. open url image1

Murphy, E. C. (1992). The effects of a natural increase in food supply on a wild population of house mice. New Zealand Journal of Ecology 16, 33–40. open url image1

Newsome, A. (1969). A population study of house-mice permanently inhabiting a reed-bed in South Australia. The Journal of Animal Ecology 38, 361–377.
A population study of house-mice permanently inhabiting a reed-bed in South Australia.CrossRef | open url image1

Oksanen, J., Blanchet, F. G., Kindt, R., Oksanen, M. J., and Suggests, M. A. S. S. (2013). ‘Package ‘vegan’.’ Community ecology package version, 2, 0–0. Available at http://CRAN.R-project.org/package=vegan [verified 18 July 2014].

Pearson, O. (1963). History of two local outbreaks of feral house mice. Ecology 44, 540–549.
History of two local outbreaks of feral house mice.CrossRef | open url image1

Pocock, M. J. O., Searle, J. B., and White, P. C. L. (2004). Adaptations of animals to commensal habitats: population dynamics of house mice Mus musculus domesticus on farms. Journal of Animal Ecology 73, 878–888.
Adaptations of animals to commensal habitats: population dynamics of house mice Mus musculus domesticus on farms.CrossRef | open url image1

Pye, T., and Bonner, W. (1980). Feral Brown rats, Rattus norvegicus, in South Georgia (South Atlantic Ocean). Journal of Zoology 192, 237–255.
Feral Brown rats, Rattus norvegicus, in South Georgia (South Atlantic Ocean).CrossRef | open url image1

R-Core-Team (2013). ‘R: a Language and Environment for Statistical Computing.’ (R Foundation for Statistical Computing: Vienna.) Available at http://www.R-project.org/ [verified 18 July 2014].

Read, A., and Harvey, P. H. (1989). Life history differences among the eutherian radiations. Journal of Zoology 219, 329–353.
Life history differences among the eutherian radiations.CrossRef | open url image1

Robinet, O., Craig, J., and Chardonnet, L. (1998). Impact of rat species in Ouvea and Lifou (Loyalty Islands) and their consequences for conserving the endangered Ouvea parakeet. Biological Conservation 86, 223–232.
Impact of rat species in Ouvea and Lifou (Loyalty Islands) and their consequences for conserving the endangered Ouvea parakeet.CrossRef | open url image1

Rowe, F. (1973). Aspects of mouse behaviour related to control. Mammal Review 3, 58–63.
Aspects of mouse behaviour related to control.CrossRef | open url image1

Rowe, F., Swinney, T., and Quy, R. (1983). Reproduction of the house mouse (Mus musculus) in farm buildings. Journal of Zoology 199, 259–269.
Reproduction of the house mouse (Mus musculus) in farm buildings.CrossRef | open url image1

Schein, M. W., and Orgain, H. (1953). A preliminary analysis of garbage as food for the Norway rat. The American Journal of Tropical Medicine and Hygiene 2, 1117–1130.
| 1:STN:280:DyaG2c%2FisFOitQ%3D%3D&md5=3e3a2cd89e8ef0fbebddc12c6d307a5cCAS | 13104820PubMed | open url image1

Singleton, G. R., Leirs, H., Hinds, L. A., and Zhang, Z. (1999). Ecologically-based management of rodent pests. Re-evaluating our approach to an old problem. In ‘Ecologically-based Rodent Management’. (Eds G. R. Singleton, H. Leirs, L. A. Hinds, Z. Zhang.) pp. 17–29 (Australian Centre for International Agricultural Research: Canberra.)

Singleton, G. R., Krebs, C. J., Davis, S., Chambers, L. K., and Brown, P. R. (2001). Reproductive changes in fluctuating house mouse populations in southeastern Australia. Proceedings of the Royal Society of London. Series B, Biological Sciences 268, 1741–1748.
Reproductive changes in fluctuating house mouse populations in southeastern Australia.CrossRef | 1:STN:280:DC%2BD3Mvmt1KqsA%3D%3D&md5=15b3f567f4156106b7c2344d723d1988CAS | open url image1

Singleton, G. R., Hinds, L. A., Krebs, C. J., and Spratt, D. M. (2003). ‘Rats, Mice and People: Rodent Biology and Management.’ ACIAR Monograph No. 96. (ACIAR: Canberra.)

Singleton, G. R., Brown, P. R., Pech, R. P., Jacob, J., Mutze, G. J., and Krebs, C. J. (2005). One hundred years of eruptions of house mice in Australia – a natural biological curio. Biological Journal of the Linnean Society. Linnean Society of London 84, 617–627.
One hundred years of eruptions of house mice in Australia – a natural biological curio.CrossRef | open url image1

Stearns, S. C. (1983). The influence of size and phylogeny on patterns of covariation among life-history traits in the mammals. Oikos 41, 173–187.
The influence of size and phylogeny on patterns of covariation among life-history traits in the mammals.CrossRef | open url image1

Stearns, S. C. (1989). Trade-offs in life-history evolution. Functional Ecology 3, 259–268.
Trade-offs in life-history evolution.CrossRef | open url image1

Stearns, S. C. (1992). ‘The Evolution of Life Histories.’ (Oxford University Press: New York.)

Stenseth, N. C., Leirs, H., Mercelis, S., and Mwanjabe, P. (2001). Comparing strategies for controlling an African pest rodent: an empirically based theoretical study. Journal of Applied Ecology 38, 1020–1031.
Comparing strategies for controlling an African pest rodent: an empirically based theoretical study.CrossRef | open url image1

Stenseth, N. C., Leirs, H., Skonhoft, A., Davis, S., Pech, R. P., Andreassen, H. P., Singleton, G. R., Lima, M., Machangu, R. S., Makundi, R. H., Zhang, Z., Brown, P. R., Shi, D., and Wan, X. (2003). Mice, rats, and people: the bio-economics of agricultural rodent pests. Frontiers in Ecology and the Environment 1, 367–375.
Mice, rats, and people: the bio-economics of agricultural rodent pests.CrossRef | open url image1

Stickel, L. F. (1979). Population ecology of house mice in unstable habitats. The Journal of Animal Ecology 48, 871–887.
Population ecology of house mice in unstable habitats.CrossRef | open url image1

Thorsen, M., Shorten, R., Lucking, R., and Lucking, V. (2000). Norway rats (Rattus norvegicus) on Frégate Island, Seychelles: the invasion; subsequent eradication attempts and implications for the island’s fauna. Biological Conservation 96, 133–138.
Norway rats (Rattus norvegicus) on Frégate Island, Seychelles: the invasion; subsequent eradication attempts and implications for the island’s fauna.CrossRef | open url image1

Triggs, G. (1991). The population ecology of house mice (Mus domesticus) on the Isle of May, Scotland. Journal of Zoology 225, 449–468.
The population ecology of house mice (Mus domesticus) on the Isle of May, Scotland.CrossRef | open url image1

Vadell, M. V., Cavia, R., and Suárez, O. V. (2010). Abundance, age structure and reproductive patterns of Rattus norvegicus and Mus musculus in two areas of the city of Buenos Aires. International Journal of Pest Management 56, 327–336.
Abundance, age structure and reproductive patterns of Rattus norvegicus and Mus musculus in two areas of the city of Buenos Aires.CrossRef | open url image1

Venables, L., and Leslie, P. (1942). The rat and mouse populations of corn ricks. Journal of Animal Ecology 11, 44–68.
The rat and mouse populations of corn ricks.CrossRef | open url image1

Villa, B., Whisson, D., and Sánchez-Cordero, V. (1997). Capture rate and reproductive patterns of Norway Rats (Rattus norvegicus) (Muridae: Rodentia) in a poultry farm in Mexico City. Anales del Instituto de Biología de la Universidad Nacional Autónoma de Mexico, Ser. Zool. 68, 165–172. open url image1

Williams, B. K., Nichols, J. D., and Conroy, M. J. (2002). ‘Analysis and Management of Animal Populations.’ (Academic Press: San Diego, CA.)

WorldClimate (1996). WorldClimate. Available at www.worldclimate.com [verified 23 November 2013].

Wu, S., Lin, Y. T. K., and Yu, H. T. (2006). Population ecology of the Southeast Asian house mouse (Muridae: Mus musculus castaneus) inhabiting rice granaries in Taiwan. Zoological Studies 45, 467–474. open url image1

Zar, J. R. (1996). ‘Biostatistical Analysis.’ 3rd edn. (Printice Hall: Englewood Cliffs, NJ.)



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