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  4. Time Series Analysis of Dengue, Zika, and Chikungunya in Ecuador: Emergence Patterns, Epidemiological Interactions, and Climate-Driven Dynamics (1988–2024)
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Time Series Analysis of Dengue, Zika, and Chikungunya in Ecuador: Emergence Patterns, Epidemiological Interactions, and Climate-Driven Dynamics (1988–2024)

Journal
Viruses
ISSN
1999-4915
Date Issued
2025
Author(s)
Sánchez Redrobán, José  
Facultad de Ciencias de la Salud y Bienestar Humano  
Carolina Álvarez Ramírez
Facultad de Ciencias de la Salud y Bienestar Humano  
Emilio Cevallos Carrillo
Facultad de Ciencias de la Salud y Bienestar Humano  
Juan Arias Salazar
Facultad de Ciencias de la Salud y Bienestar Humano  
César Barros Cevallos
Facultad de Ciencias de la Salud y Bienestar Humano  
Type
journal-article
DOI
10.3390/v17091201
URL
https://cris.indoamerica.edu.ec/handle/123456789/9758
Abstract
Background: Ecuador presents a unique epidemiological laboratory for studying arboviral dynamics due to its diverse ecological zones and exposure to climatic variability. Methods: We conducted a comprehensive 36-year analysis (1988–2024) of dengue (DENV), Zika (ZIKV), and chikungunya (CHIKV) using national surveillance data from Ecuador’s Ministry of Public Health. Statistical analyses included time series decomposition, change-point detection, correlation analysis, and climate association studies. Results: Ecuador reported 387,543 arboviral cases, with dengue comprising 91.3% (353,782 cases). Dengue exhibited endemic–epidemic cycles with major peaks during El Niño events (1994: 10,247 cases; 2000: 22,937 cases; 2015: 42,483 cases; 2024: 23,156 cases through week 26). CHIKV emerged explosively in 2015 (29,124 cases, incidence 181.10 per 100,000), followed by ZIKV in 2016 (2947 cases). Both showed rapid decline post-epidemic. Severe dengue cases paradoxically decreased from 2–4% of total cases in early 2000s to <0.1% post-2016, suggesting immunological modulation. Cross-correlation analysis revealed significant associations between climatic indices and epidemic timing (r=0.67, p<0.001), particularly for the El Niño-Southern Oscillation. Conclusions: Arboviral diseases in Ecuador function as an integrated epidemiological system with evidence of viral interactions, cross-protective immunity, and strong climate forcing. These findings emphasize the need for integrated surveillance and adaptive control strategies.
Subjects

chikungunya virus

climate variability

dengue virus

Ecuador

El Niño Southern Osci...

epidemiological inter...

integrated surveillan...

time series analysis

vector-borne diseases...

Zika virus

Investigación Indoamérica

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