Registro:

Referencias:

• (2016) Global Health Impacts of Vector-Borne Diseases: Workshop Summary, , .:. Washington, DC National Academies Press
• Gürtler, R.E., Cecere, M.C., Fernández, M.P., Vazquez-Prokopec, G.M., Ceballos, L.A., Gurevitz, J.M., Kitron, U., Cohen, J.E., Key source habitats and potential dispersal of Triatoma infestans populations in Northwestern Argentina: Implications for vector control (2014) PLoS Negl Trop Dis, 8, p. e3238. , 25299653
• Taylor, L.R., Aggregation, variance and the mean (1961) Nature, 189, pp. 732-735
• Taylor, L.R., Assessing and interpreting the spatial distributions of insect populations (1984) Annu Rev Entomol, 29, pp. 321-357
• Taylor, L.R., Synoptic dynamics, migration and the Rothamsted insect survey: Presidential Address to the British Ecological Society (1986) J Anim Ecol, 55 (1), pp. 1-38. , http://www.jstor.org/stable/4690, Stable
• Eisler, Z., Bartos, I., Kertész, J., Fluctuation scaling in complex systems: Taylor’s law and beyond (2008) Adv Physics, 57, pp. 89-142
• Keeling, M.J., Grenfell, B.T., Stochastic dynamics and a power law for measles variability (1999) Phil Trans R Soc Lond B, 354, pp. 769-776
• Morand, S., Krasnov, B.R., Why apply ecological laws to epidemiology? (2008) Trends Parasitol, 24, pp. 304-309. , 18514576
• Cohen, J.E., Poulin, R., Lagrue, C., Linking parasite populations in hosts to parasite populations in space through Taylor's law and the negative binomial distribution (2016) Proc Nat Acad Sci, 114 (1), pp. E47-E56. , 27994156
• Cohen, J.E., Xu, M., Brunborg, H., Taylor's law applies to spatial variation in a human population (2013) Genus, 69 (1), pp. 25-60
• Döring, T.F., Knapp, S., Cohen, J.E., Taylor’s power law and the stability of crop yields (2015) Field Crops Res, 183, pp. 294-302
• Cohen, J.E., Statistics of primes (and probably twin primes) satisfy Taylor's law from ecology (2016) Am Stat, 70 (4), pp. 399-404
• Tippett, M.K., Cohen, J.E., Tornado outbreak variability follows Taylor’s power law of fluctuation scaling and increases dramatically with severity (2016) Nature Communications, 7, p. 10668. , 26923210
• Cohen, J.E., Taylor's power law of fluctuation scaling and the growth-rate theorem (2013) Theor Popul Biol, 88, pp. 94-100. , 23689021
• Cohen, J.E., Xu, M., Schuster, W.S., Stochastic multiplicative population growth predicts and interprets Taylor's power law of fluctuation scaling (2013) Proc Biol Sci, 280 (1757), p. 20122955. , 23427171
• Cohen, J.E., Xu, M., Random sampling of skewed distributions implies Taylor’s power law of fluctuation scaling (2015) Proc Nat Acad Sci, 112 (25), pp. 7749-7754. , 25852144
• Binns, M.R., Nyrop, J.P., van der Werf, W., (2000) Sampling and monitoring in crop protection: the theoretical basis for developing practical decision guides, , .;. Oxon; CABI
• Park, H., Cho, K., Use of covariates in Taylor’s power law for sequential sampling in pest management (2004) Journal of Agr Biol Envir St, 9, pp. 462-478
• Xu, M., Kolding, J., Cohen, J.E., Taylor’s power law and fixed precision sampling: application to abundance of fish sampled by gillnets in an African lake (2017) Can J Fish Aquat Sci, 74 (1), pp. 87-100
• Walker, E.D., Merritt, R.W., Wotton, R.S., Analysis of the distribution and abundance of Anopheles quadrimaculatus (Diptera: Culicidae) larvae in a marsh (1988) Env Entomol, 17, pp. 992-999
• Pitcairn, M.J., Wilson, L.T., Washino, R.K., Rejmankova, E., Spatial patterns of Anopheles freeborni and Culex tarsalis (Diptera: Culicidae) larvae in California rice fields (1994) J Med Entomol, 31, pp. 545-553. , 7932600
• Ribeiro, J.M., Seulu, F., Abose, T., Kidane, G., Teklehaimanot, A., Temporal and spatial distribution of anopheline mosquitos in an Ethiopian village: implications for malaria control strategies (1996) Bull World Health Org, 74, pp. 299-305. , 8789928
• Lindblade, K.A., Walker, E.D., Wilson, M.L., Early warning of malaria epidemics in African highlands using Anopheles (Diptera: Culicidae) indoor resting density (2000) J Med Entomol, 37, pp. 664-674. , 11004777
• Magbity, E.B., Lines, J.D., Spatial and temporal distribution of Anopheles gambiae s.l. (Diptera: Culicidae) in two Tanzanian villages: implication for designing mosquito sampling routines (2002) Bull Entomol Res, 92, pp. 483-488. , 17598299
• Zhou, G., Minakawa, N., Githeko, A., Yan, G., Spatial distribution patterns of malaria vectors and sample size determination in spatially heterogeneous environments: a case study in the west Kenyan highland (2004) J Med Entomol, 41, pp. 1001-1009. , 15605637
• Bond, J.G., Quiroz-Martinez, H., Rojas, J.C., Valle, J., Ulloa, A., Williams, T., Impact of environmental manipulation for Anopheles pseudopunctipennis Theobald control on aquatic insect communities in southern Mexico (2007) J Vect Ecol, 32, pp. 41-53
• Facchinelli, L., Valerio, L., Pombi, M., Reiter, P., Costantini, C., Della Torre, A., Development of a novel sticky trap for container-breeding mosquitoes and evaluation of its sampling properties to monitor urban populations of Aedes albopictus (2007) Med Vet Entomol, 21, pp. 183-195. , 17550438
• Lehmann, T., Dao, A., Yaro, A.S., Diallo, M., Timbiné, S., Huestis, D.L., Seasonal variation in spatial distributions of Anopheles gambiae in a Sahelian village: Evidence for aestivation (2014) J Med Entomol, 51, pp. 27-38. , 24605449
• Silva Lima, A.W., Honório, N.A., Codeço, C.T., Spatial clustering of Aedes aegypti (Diptera: Culicidae) and its impact on entomological surveillance indicator (2015) J Med Entomol, 53, pp. 343-348
• Cardinal, M.V., Lauricella, M.A., Marcet, P.L., Orozco, M.M., Kitron, U., Gürtler, R.E., Impact of community-based vector control on house infestation and Trypanosoma cruzi infection in Triatoma infestans, dogs and cats in the Argentine Chaco (2007) Acta Trop, 103, pp. 201-211. , 17686448
• Gürtler, R.E., Kitron, U., Cecere, M.C., Segura, E.L., Cohen, J.E., Sustainable vector control and management of Chagas disease in the Gran Chaco (2007) Argentina. Proc Nat Acad Scis USA, 104, pp. 16194-16199
• Vázquez-Prokopec, G.M., Spillmann, C., Zaidenberg, M., Kitron, U., Gürtler, R.E., Cost-effectiveness of vector control strategies against Triatoma infestans in rural northwestern Argentina (2009) PLoS Negl Trop Dis, 3, p. e363. , 19156190
• Gürtler, R.E., Canale, D.M., Spillmann, C., Stariolo, R., Salomón, D.O., Blanco, S., Effectiveness of residual spraying of peridomestic ecotopes with deltamethrin and permethrin on Triatoma infestans in rural western Argentina: a district-wide randomized trial (2004) Bull World Health Org, 82, pp. 196-205. , 15112008
• Cecere, M.C., Vázquez-Prokopec, G.M., Ceballos, L.A., Gurevitz, J.M., Zárate, J.E., Zaidenberg, M., Comparative trial of effectiveness of pyrethroid insecticides against peridomestic populations of Triatoma infestans in northwestern Argentina (2006) J Med Entomol, 43, pp. 902-909. , 17017227
• Gurevitz, J.M., Ceballos, L.A., Gaspe, M.S., Alvarado, J.A., Enriquez, G.F., Kitron, U., Factors affecting infestation by Triatoma infestans in a rural area of the humid Chaco in Argentina: a multi-model inference approach (2011) PLoS Negl Trop Dis, 5, p. e1365
• Gurevitz, J.M., Gaspe, M.S., Enriquez, G.F., Provecho, Y.M., Kitron, U., Gürtler, R.E., Intensified surveillance and insecticide-based control of the Chagas disease vector Triatoma infestans in the Argentinean Chaco (2013) PLoS Negl Trop Dis, 7, p. e2158. , 23593525
• (2017) Stata Statistical Software: Release 14.2, , ::. College Station Stata Corporation
• Taylor, L.R., Perry, J.N., Woiwod, I.P., Taylor, R.A.J., Specificity of the spatial power-law exponent in ecology and agriculture (1988) Nature, 332 (21), pp. 721-722
• Taylor, L.R., Woiwod, I.P., Perry, J.N., The density dependence of spatial behaviour and rarity of randomness (1978) J Anim Ecol, 47, pp. 385-406
• Breusch, T.S., Pagan, A.R., A simple test for heteroscedasticity and random coefficient variation (1979) Econometrica, 47, pp. 1287-1294
• Cook, R.D., Weisberg, S., Diagnostics for heteroscedasticity in regression (1983) Biometrika, 70, pp. 1-10
• Cameron, A.C., Trivedi, P.K., Working paper 372, University of California–Davis (1990) The information matrix test and its applied alternative hypotheses.
• Welch, B.L., The generalization of "Student's" problem when several different population variances are involved (1947) Biometrika, 34 (1-2), pp. 28-35. , 20287819
• (2017) MATLAB R2017a
• Yamamura, K., Sampling scale dependence of Taylor's power law (1990) Oikos, 59 (1), pp. 121-125
• Cohen, J.E., Lai, J., Coomes, D.A., Allen, R.B., Taylor’s law and related allometric power laws in New Zealand mountain beech forests: the roles of space, time and environment (2016) Oikos, 125 (9), pp. 1342-1357
• Schmunis, G.A., Zicker, F., Moncayo, A., Interruption of Chagas' disease transmission through vector elimination (1996) Lancet, 348, p. 1171. , 8888192
• Hashimoto, K., Schofield, C.J., Elimination of Rhodnius prolixus in Central America (2012) Parasit Vectors, 5 (45), pp. 1-10
• Cohen, J.E., Xu, M., Schuster, W.S., Allometric scaling of population variance with mean body size is predicted from Taylor's law and density-mass allometry (2012) Proc Nat Acad Scis, 109 (39), pp. 15829-15834. , 23019367
• Cardinal, M.V., Orozco, M.M., Enriquez, G.F., Ceballos, L.A., Gaspe, M.S., Alvarado-Otegui, J.A., Heterogeneities in the eco-epidemiology of Trypanosoma cruzi infection in rural communities of the Argentinean Chaco (2014) Am J Trop Med Hyg, 90, pp. 1063-1073. , 24732461
• Cecere, M.C., Leporace, M., Fernández, M.P., Zárate, J.E., Moreno, C., Gürtler, R.E., Cardinal, M.V., Host-feeding sources and infection with Trypanosoma cruzi of Triatoma infestans and Triatoma eratyrusiformis (Hemiptera, Reduviidae) from the Calchaqui Valleys in northwestern Argentina (2016) J Med Entomol, 53, pp. 666-673. , 26849898
• Vázquez-Prokopec, G.M., Cecere, M.C., Kitron, U., Gürtler, R.E., Environmental and demographic factors determining the spatial distribution of Triatoma guasayana in peridomestic and semi-sylvatic habitats of rural northwestern Argentina (2008) Med Vet Entomol, 22, pp. 273-282. , 18816276
• Taylor, L.R., Woiwod, I.P., Perry, J.N., The negative binomial as a dynamic ecological model and the density-dependence of k (1979) J Anim Ecol, 48 (1), pp. 289-304
• Wilson, L.T., Room, P.M., Clumping patterns of fruit and arthropods in cotton, with implications for binomial sampling (1983) Environ Entomol, 12 (1), pp. 50-54
• Perry, J.N., Taylor, L.R., Stability of real interacting populations in space and time: Implications, alternatives and the negative binomial kc (1986) J Anim Ecol, 55 (3), pp. 1053-1068
• Wilson, L.T., Sterling, W.L., Rummel, D.R., DeVay, J.E., Frisbie, R.E., El-Zik, K.M., Wilson, L.T., (1989) Integrated pest management systems and cotton production, pp. 85-119. , In:.:,, pp. –. New York Wiley
• Schulthess, F., Bosque-Pérez, N.A., Gounou, S., Sampling lepidopterous pests on maize in West Africa (1991) Bull Entomol Res, 81, pp. 297-301

Citas:

---------- APA ----------

---------- CHICAGO ----------

---------- MLA ----------

---------- VANCOUVER ----------