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)
88 Ciencia y Tecnología al servicio del pueblo
Nancy Margoth Cueva Salazar et al.
10(3): 88-89. diciembre 2023
Castellón Viaplana, E., Duran Calaf, A.,
Escalada Cáliz, G., Farré Mariné,
A., & Fernández Pinteño, A. (2013).
Influencia de los distintos sistemas de
producción sobre el bienestar de las
gallinas ponedoras. Normas mínimas
relativas a la protección de las gallinas
ponedoras. Universidad Autónoma
de Barcelona, España. https://ddd.
uab.cat/pub/trerecpro/2012/103194/
Influencia_distintos_sistemas_
produccion_gallinas.pdf
Cerdá, R. O. (2010). Puntos prácticos en
el control de la Micoplasmosis Aviar.
Universidad Nacional de La Plata,
Argentina. https://www.wpsa-aeca.es/
aeca_imgs_docs/puntos_practicos_
en_el_control_de_la_micoplasmosis_
aviar_-_raul_cerda.pdf
Chirinos, B., Icochea, E., Ch, C. G., & Noé,
N. (2000). Evaluación de la prueba de
Inhibición de la Hemaglutinación vs.
Elisa para la detección de anticuerpos
contra Mycoplasma gallisepticum
y Mycoplasma synoviae. Revista de
Investigaciones Veterinarias del Perú,
11(1), 40-44. https://core.ac.uk/
download/pdf/304892924.pdf
De la Cruz, L., Lobo, E., & Abeledo, M. A.
(2013). Anticuerpos a Mycoplasma
synoviae en pollos de engorde en granjas
de la provincia de Manabí, Ecuador.
Revista de Salud Animal, 35(3),
206-209.
ESPAC, INEC. (2020). Encuesta de Superficie
y Producción Agropecuaria. Ecuador.
Instituto Nacional de Estadísticas y
Censos. https://www.ecuadorencifras.
gob.ec/encuesta-de-superficie-y-
produccion-agropecuaria-conti-
nua-2015-2016-2017-2/
IDEXX. (2022). Prueba de Mycoplasmosis
IDEXX MS/MG Ab para pollos.
https://www.idexx.es/es/livestock/
livestock-tests/poultry-tests/
idexx-mgms-ab-test/
(INAMHI). 2012. Boletín Climatológico
Anual 2012. Quito, Ecuador. Instituto
Nacional de Metereología e Hidrología.
Ley, D. H., & Yoder Jr, H. W. (2008).
Mycoplasma gallisepticum infection.
Diseases of poultry, 12, 807-834.
Marco, C. T. (2018). Aves de Traspatio
Modernas en el Ecuador. https://
docplayer.es/18063353-Aves-de-tras-
patio-modernas-en-el-ecuador.html
OIE. (2021). Manual terrestre de la OIE
2021. Capítulo 3.3.5 Micoplasmosis
aviar (Mycoplasma gallisepticum,
M. synoviae). Organización Mundial
de la Sanidad Animal. https://www.
woah.org/fileadmin/Home/esp/
Health_standards/tahm/3.03.05_
Micoplasmosis_aviar.pdf
Sánchez, A. M., Vayas, T., Mayorga, F.,
& Freire, C. (2020). Observatorio
económico y social de Tungurahua.
Universidad Técnica de Ambato.
Ecuador.